Contents CORNELL DUBILIER

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2 Contents Products Listed by Type Designation Chip and SMT Selector Guide Aluminum Electrolytic SMT Aluminum/Polymer Low Impedance Chip Mica High-Frequency, High-Voltage Chip PPS Film Chip Aluminum Electrolytic Selector Guide Screw-Terminal, Computergrade Mounting Hardware for Screw-Terminal Computergrade Snap-In Radial Leaded Axial Leaded Photoflash and Strobe-Flash Application Guide Film Selector Guide Polyester Film Polypropylene Film Taping Specifications Ordering Information Application Guide Mica Selector Guide Standard Dipped Miniature Dipped High-Frequency Dipped Reel-Packed Dipped Radial-Leaded Specifications Radial-Leaded Ordering Information High-Reliability Dipped High-Voltage, Rectangular High-Voltage, Cylindrical High-Voltage and Pulse Pulse, High-Frequency and Snubber Selector Guide IGBT Snubber Capacitor Modules Polypropylene Film Mica Oil-Filled Snubber Application Guide Motor-Run, Motor-Start and High-Voltage DC Capacitor Kits Metric Conversion Table Sales Offices and Representatives i 1605 East Rodney French Blvd. 140 Technology Place New Bedford, MA Liberty, SC (508) , Fax (508) (864) , Fax (864) cdenb@cornell-dubilier.com cde@cornell-dulilier.com

3 Chip and SMT Chip & SMT

4 Selector Guide, Chip and SMT Voltage Capacitance Temperature Load Page Form Type Description Range Range Range Life Number Factor (Vdc) (µf) ( C) C) Aluminum Electrolytic, Cylindrical Chip and SMT AVS General Purpose to AHA Long Life to or AFC Long Life, Low to AHD Very Long Life to AFK Compact, Low ESR, 2000 or to 105 Low Z, Long Life Aluminum Polymer, Chip ESRD Tantalum D case compatible to ESRL Low Profile Tantalum Tantalum D case case compatible compatible to ESRE Tantalum E case compatible to ESRH High Temperature Tantalum Tantalum E case case compatible compatible to Mica Chip Film Chip MC silver mica, 0805, 1210, 1812, pf to Met. PPS, 0805, FCP 1206, 1210, 1913, to FCN Met. PEN, 1206 to 40 to 85 or to FCA Acrylic resin, 0805, 1206, to East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 1.001

5 Chip and SMT Type AVS SMT Aluminum Electrolytic - General Purpose, 85 C General Purpose Filtering, Bypassing, Power Supply Decoupling Specifications Operating Temperature: Rated Voltage: Capacitance: D.F (@ 20 C): Capacitance Tolerance: Leakage Current: Ripple Current Multipliers: Load Life: C Capacitance: ± 20% DF: 200% of limit DCL: 100% of limit Type AVS are the best value for filter and bypass applications not requiring wide temperature performance or high ripple current. Their vertical cylindrical cases facilitate automatic mounting and reflow soldering and Type AVS offers a significant cost savings over tantalum capacitors. Highlights +85 C, 2000 Hour Load Life Capacitance Range: 0.1 µf to 1500 F Voltage Range: 4.0 Vdc to 100 Vdc -40 C to +85 C 4.0, 6.3, 10, 16, 25, 35, 50, 63 & 100 Vdc 0.1 µf to 1500 µ F See Ratings Table 120 Hz and +20 C 0.01 CV or 3 µ +20 C, after two minutes (whichever is greater) Frequency 50/60 Hz 120 Hz 1 khz 10 khz & up Shelf Life: C Capacitance: ± 20% DF: 200% of limit DCL: 100% of limit Maximum Impedance 120 Hz W.V. Vdc) ( C / +20 C C / +20 C AVS Series Marking Capacitance (µ F) Voltage 6 = 6.3 Vdc 16 = 16 Vdc 25 = 25 Vdc, etc. Case Dimensions 220 s or A Lot No. Series Outline Drawing (mm) Case Code D ± 0.5 L A ± 0.2 H (max) I (ref) W P (ref) K A , ± /-0.20 B , ± /-0.20 C , ± /-0.20 D , ± /-0.20 X ± ± /-0.20 E ± ± /-0.20 F ± ± ± 0.20 G ± ± ± 0.20 D K 0.3 mm Max. A L H P W I I East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

6 Type AVS SMT Aluminum Electrolytic - General Purpose, 85 C Ratings Table Max. Max. Max. Max. Dissipation Ripple Current Size Cap Catalog DCL 120 Hz/20 C 120Hz/85 C Case D x L Quantity µf Number (µa) 120 Hz (Ohms) (ma) Code (mm) per Reel 4 Vdc (5 Vdc Surge) 22 AVS226M04A12T A 3x AVS336M04B12T B 4x AVS476M04B12T B 4x AVS107M04C12T C 5x AVS227M04D16T D 6.3x Vdc (8 Vdc Surge) 22 AVS226M06A12T A 3x AVS226M06B12T B 4x AVS336M06B12T B 4x AVS476M06B12T B 4x AVS476M06C12T C 5x AVS107M06C12T C 5x AVS107M06D16T D 6.3x AVS227M06D16T D 6.3x AVS337M06X16T X 6.3x AVS337M06E16T E 8x AVS477M06F24T F 8x AVS108M06F24T F 8x AVS108M06G24T G 10x AVS158M06G24T G 10x Vdc (13 Vdc Surge) 22 AVS226M10B12T B 4x AVS336M10B12T B 4x AVS336M10C12T C 5x AVS476M10C12T C 5x AVS107M10C12T C 5x AVS107M10D16T D 6.3x AVS227M10X16T X 6.3x AVS227M10E16T E 8x AVS337M10F24T F 8x AVS477M10F24T F 8x AVS477M10G24T G 10x AVS108M10G24T G 10x Vdc (20 Vdc Surge) 10 AVS106M16A12T A 3x AVS106M16B12T B 4x AVS226M16B12T B 4x AVS226M16C12T C 5x AVS336M16C12T C 5x AVS476M16C12T C 5x AVS476M16D16T D 6.3x AVS107M16D16T D 6.3x AVS107M16E16T E 8x AVS227M16X16T X 6.3x AVS227M16E16T E 8x AVS227M16F24T F 8x AVS337M16F24T F 8x AVS337M16G24T G 10x AVS477M16F24T F 8x AVS477M16G24T G 10x Vdc (31 Vdc Surge) 4.7 AVS475M25A12T A 3x AVS475M25B12T B 4x AVS106M25B12T B 4x AVS106M25C12T C 5x AVS226M25C12T C 5x AVS226M25D16T D 6.3x AVS336M25C12T C 5x AVS336M25D16T D 6.3x AVS476M25D16T D 6.3x AVS107M25X16T X 6.3x AVS107M25E16T E 8x AVS107M25F24T F 8x AVS227M25F24T F 8x AVS227M25G24T G 10x AVS337M25F24T F 8x AVS337M25G24T G 10x AVS477M25G24T G 10x Chip and SMT 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 1.003

7 Chip and SMT Type AVS SMT Aluminum Electrolytic - General Purpose, 85 C Ratings Table Max. Max. Max. Max. Dissipation Ripple Current Size Cap Catalog DCL 120 Hz/20 C 120 Hz/85 C Case D x L Quantity µf Number (µa) 120 Hz (Ohms) (ma) Code (mm) per Reel 35 Vdc (44 Vdc Surge) 2.2 AVS225M35A12T A 3x AVS335M35A12T A 3x AVS475M35B12T B 4x AVS106M35B12T B 4x AVS106M35C12T C 5x AVS226M35C12T C 5x AVS226M35D16T D 6.3x AVS336M35D16T D 6.3x AVS336M35E16T E 8x AVS476M35D16T D 6.3x AVS476M35E16T E 8x AVS107M35X16T X 6.3x AVS107M35F24T F 8x AVS107M35G24T G 10x AVS227M35F24T F 8x AVS227M35G24T G 10x AVS337M35G24T G 10x Vdc (63 Vdc Surge) 0.1 AVS104M50A12T A 3x AVS104M50B12T B 4x AVS224M50A12T A 3x AVS224M50B12T B 4x AVS334M50A12T A 3x AVS334M50B12T B 4x AVS474M50A12T A 3x AVS474M50B12T B 4x AVS105M50A12T A 3x AVS105M50B12T B 4x AVS225M50A12T A 3x AVS225M50B12T B 4x AVS335M50B12T B 4x AVS475M50B12T B 4x AVS475M50C12T C 5x AVS106M50C12T C 5x AVS106M50D16T D 6.3x AVS226M50D16T D 6.3x AVS226M50E16T E 8x AVS336M50X16T X 6.3x AVS336M50E16T E 8x AVS336M50F24T F 8x AVS476M50X16T X 6.3x AVS476M50F24T F 8x AVS476M50G24T G 10x AVS107M50F24T F 8x AVS107M50G24T G 10x AVS227M50G24T G 10x Vdc (75 vdc Surge) 10 AVS106M63D16T D* 6.3x AVS226M63E16T E 8x AVS226M63F24T F 8x AVS336M63F24T F 8x AVS476M63F24T F 8x AVS107M63G24T G 10x Vdc (125 Vdc Surge) 3.3 AVS335M2AE16T E 8x AVS475M2AE16T E 8x AVS475M2AF24T F 8x AVS106M2AE16T E 8x AVS106M2AF24T F 8x AVS226M2AF24T F 8x AVS226M2AG24T G 10x AVS336M2AG24T G 10x *Overall case height (L dimension) is 5.7 mm ±0.3 mm. Part Numbering System AVS 106 M 16 B 12T Type Capacitance Capacitance 104 = 0.1 µ F 105 = 1.0 µ F 106 = 10 µ F 107 = 100 µ F 108 = 1000 µ F Tolerance M = ±20% Voltage 04 = 4 Vdc 06 = 6.3 Vdc 10 = 10 Vdc 16 = 16 Vdc 25 = 25 Vdc 35 = 35 Vdc 50 = 50 Vdc 63 = 63 Vdc 2A = 100 Vdc Case Code Packaging Information 12 = Carrier Tape Width (mm) T = Tape & Reel B = Bulk East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

8 Type AVS SMT Aluminum Electrolytic - General Purpose, 85 C Typical Performance Curves 1.4 Capacitance vs. Temperature & Frequency Vdc (10 X 10.2 mm) 1.4 Capacitance vs. Temperature & Frequency Vdc (10 X 10.2 mm) Chip and SMT Ratio to 25 C, 120 Hz Value 1 65 C C C 0 C C 40 C ,000 10, ,000 1,000,000 Frequency (Hz) Ratio to 25 C, 120 Hz Value 85 C 1 65 C 45 C C C C C ,000 10, ,000 1,000,000 Frequency (Hz) 100 ESR vs. Temperature and Frequency Vdc (10 X 10.2 mm) 100 ESR vs. Temperature and Frequency Vdc (10 X 10.2 mm) 40 C 40 C Ratio to 25 C, 120 Hz Value C 0 C 25 C 45 C 65 C 85 C Ratio to 25 C, 120 Hz Value C 0 C 25 C 45 C 65 C 85 C ,000 10, ,000 1,000,000 Frequency (Hz) ,000 10, ,000 1,000,000 Frequency (Hz) 100 Impedance vs. Temperature and Frequency Vdc (10 X 10.2 mm) 10 Impedance vs. Temperature and Frequency Vdc (10 X 10.2 mm) 40 C Ratio to 25 C, 120 Hz Value C 20 C 0 C 25 C 45 C 65 C 85 C Ratio to 25 C, 120 Hz Value C 0 C 25 C 45 C 65 C 85 C ,000 10, ,000 1,000,000 Frequency (Hz) ,000 10, ,000 1,000,000 Frequency (Hz) 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 1.005

9 Chip and SMT Type AVS SMT Aluminum Electrolytic - General Purpose, 85 C Typical Performance Curves 1.2 Capacitance vs. Temperature & Frequency Vdc (10 X 10.2 mm) 10 Capacitance Change with Temperature (Typical Performance for AVS 120 Hz) Ratio to 25 C, 120 Hz Value C 65 C 85 C 25 C 0 C 20 C 40 C Capacitance Change (%) Vdc (6.3 X 5.4 mm) 16Vdc (6.3 X 5.4 mm) 50Vdc (6.3 X 5.4 mm) ,000 10, ,000 1,000,000 Frequency (Hz) Temperature ( C) 100 ESR vs. Temperature and Frequency Vdc (10 X 10.2 mm) 2 Dissipation Factor vs. Temperature (Typical Performance for AVS 120 Hz) Ratio to 25 C, 120 Hz Value C 20 C 0 C 25 C D.F. (@ 120 Hz) Vdc (6.3 X 5.4 mm) Vdc (6.3 X 5.4 mm) Vdc (6.3 X 5.4 mm ) 45 C 65 C C ,000 10, ,000 1,000,000 Frequency (Hz) Temperature ( C) 100 Impedance vs. Temperature and Frequency Vdc (10 X 10.2 mm) 10 Capacitance Change vs. Time (Typical Performance AVS Series) Ratio to 25 C, 120 Hz Value C 20 C C 25 C 85 C 45 C 65 C ,000 10, ,000 1,000,000 Frequency (Hz) Capacitance Change (%) Vdc (4 x 5.4 mm) Vdc ( 6.3 x 5.4 mm) Vdc (10 x 10.2 mm) ,000 1,500 2,000 Time (Hours) East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

10 Type AHA, -55 C to 105 C SMT Aluminum Electrolytic - Long Life, 105 C Long Life Filtering, Bypassing, Power Supply Decoupling Type AHA deliver twice the life of many SMT aluminum capacitor types, and they handle high levels of ripple current. The AHA can handle the ripple current of Type AVS at 20 C higher temperature. The vertical cylindrical cases facilitate automatic mounting and reflow soldering and Type AHA offers a significant cost savings over tantalum capacitors. Highlights Specifications Operating Temperature: -55 C to +105 C Rated Voltage: Capacitance: D.F. (@ 20 C): Capacitance Tolerance: Leakage Current: Ripple Current Multipliers: Frequency Load Life: C, mm dia C, mm dia. Capacitance ± 20% DF: 200% of limit DCL: 100% of limit AHA Series Marking Capacitance (µf) Voltage j = 6.3 Vdc V = 35 Vdc A = 10 Vdc H = 50 Vdc C = 16 Vdc J = 63 Vdc E = 25 Vdc 2A = 100 Vdc +105 C, Up to 2000 Hour Load Life Capacitance Range: 0.1 µf to 1500 µf Voltage Range: 6.3 Vdc to 100 Vdc 6.3, 10, 16, 25, 35, 50, 63 & 100 Vdc 0.1 µf to 1500 µf See Ratings Table 120Hz and +20 C 0.01 CV or C after two minutes (whichever is greater) 50/60 Hz 120 Hz 1 khz 10 khz & up Shelf Life: Outline Drawing C, mm dia. Capacitance ± 20% DF: 200% of limit DCL: 100% of limit Maximum Impedance Ratio W.V. (Vdc) C / +20 C C / +20 C HA Series D K 0.3 mm Max. A H P I I Chip and SMT Case Dimensions Lot No. L W (mm) Case Code D ± 0.5 L A ± 0.2 H (max) I (ref) W P (ref) K B , ± /-0.20 C , ± /-0.20 D , ± /-0.20 X ± ± /-0.20 E ± ± /-0.20 F ± ± ± 0.20 G ± ± ± East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 1.007

11 Chip and SMT Type AHA, -55 C to 105 C SMT Aluminum Electrolytic - Long Life, 105 C Ratings Table Max. Max. Max. Max. Dissipation Ripple Current Size Cap Catalog DCL 120 Hz/20 C 120 Hz/105 C Case D x L Quantity µf Number µa) 120 Hz (Ohms) (ma) Code (mm) per Reel 6.3 Vdc ( 8 Vdc Surge) 22 AHA226M06B12T B 4x AHA336M06B12T B 4x AHA476M06B12T B 4x AHA476M06C12T C 5x AHA107M06C12T C 5x AHA107M06D16T D 6.3x AHA227M06D16T D 6.3x AHA337M06X16T X 6.3x AHA337M06F24T F 8x AHA477M06F24T F 8x AHA108M06F24T F 8x AHA108M06G24T G 10x AHA158M06G24T G 10x Vdc (13 Vdc Surge) 22 AHA226M10B12T B 4x AHA336M10B12T B 4x AHA336M10C12T C 5x AHA476M10C12T C 5x AHA107M10D16T D 6.3x AHA107M10E16T E 8x AHA227M10X16T X 6.3x AHA227M10F24T F 8x AHA477M10F24T F 8x AHA477M10G24T G 10x AHA108M10G24T G 10x Vdc ( 20 Vdc Surge) 10 AHA106M16B12T B 4x AHA226M16B12T B 4x AHA226M16C12T C 5x AHA336M16C12T C 5x AHA476M16C12T C 5x AHA476M16D16T D 6.3x AHA107M16D16T D 6.3x AHA227M16X16T X 6.3x AHA227M16F24T F 8x AHA227M16G24T G 10x AHA337M16F24T F 8x AHA337M16G24T G 10x AHA477M16F24T F 8x AHA477M16G24T G 10x Vdc ( 31 Vdc Surge) 4.7 AHA475M25B12T B 4x AHA106M25B12T B 4x AHA106M25C12T C 5x AHA226M25C12T C 5x AHA226M25D16T D 6.3x AHA336M25C12T C 5x AHA336M25D16T D 6.3x AHA476M25D16T D 6.3x AHA476M25E16T E 8x AHA107M25E16T E 8x AHA107M25F24T F 8x AHA227M25F24T F 8x AHA227M25G24T G 10x AHA337M25F24T F 8x AHA337M25G24T G 10x AHA477M25G24T G 10x East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

12 Type AHA, -55 C to 105 C SMT Aluminum Electrolytics - Long Life, 105 C Ratings Table Max. Max. Max. Max. Dissipation Ripple Current Size Cap Catalog DCL 120 Hz/20 C 120 Hz/105 C Case D x L Quantity µf Number (µa) 120 Hz (Ohms) (ma) Code (mm) per Reel 35 Vdc (44 Vdc Surge) 4.7 AHA475M35B12T B 4x AHA106M35B12T B 4x AHA106M35C12T C 5x AHA226M35C12T C 5x AHA226M35D16T D 6.3x AHA336M35D16T D 6.3x AHA336M35E16T E 8x AHA476M35E16T E 8x AHA476M35F24T F 8x AHA107M35X16T X 6.3x AHA107M35F24T F 8x AHA107M35G24T G 10x AHA227M35F24T F 8x AHA227M35G24T G 10x AHA337M35G24T G 10x Vdc ( 63 Vdc Surge) 0.1 AHA104M50B12T B 4x AHA224M50B12T B 4x AHA334M50B12T B 4x AHA474M50B12T B 4x AHA105M50B12T B 4x AHA225M50B12T B 4x AHA335M50B12T B 4x AHA475M50C12T C 5x AHA106M50D16T D 6.3x AHA226M50E16T E 8x AHA336M50X16T X 6.3x AHA336M50E16T E 8x AHA336M50F24T F 8x AHA476M50X16T X 6.3x AHA476M50F24T F 8x AHA476M50G24T G 10x AHA107M50F24T F 8x AHA107M50G24T G 10x AHA227M50G24T G 10x Vdc ( 75 Vdc Surge) 10 AHA106M63E16T E 8x AHA226M63E16T E 8x AHA226M63F24T F 8x AHA336M63G24T G 10x AHA476M63F24T F 8x AHA476M63G24T G 10x Vdc (125 Vdc Surge) 3.3 AHA335M2AE16T E 8x AHA475M2AE16T E 8x AHA475M2AF24T F 8x AHA106M2AF24T F 8x AHA226M2AF24T F 8x AHA226M2AG24T G 10x AHA336M2AG24T G 10x Part Numbering System AHA 106 M 16 B 12T Chip and SMT Type Capacitance 104 = 0.1 µ F Capacitance Tolerance 105 = 1.0 µ F M = ±20% 106 = 10 µ F 107 = 100 µ F 108 = 1000 µf Voltage 06 = 6.3 Vdc 10 = 10 Vdc 16 = 16 Vdc 25 = 25 Vdc 35 = 35 Vdc 50 = 50 Vdc 63 = 63 Vdc 2A = 100 Vdc Case Code Packaging Information 12 = Carrier Tape Width (mm) T = Tape & Reel B = Bulk 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 1.009

13 Chip and SMT Type AHA, -55 C to 105 C SMT Aluminum Electrolytic - Long Life, 105 C Typical Performance Curves 1.4 Capacitance vs. Temperature & Frequency Vdc (10 X 10.2 mm) 1.4 Capacitance vs. Temperature & Frequency Vdc (10 X 10.2 mm) Ratio to 25 C, 120 Hz Value C 85 C 65 C C C 20 C C 55 C ,000 10, ,000 1,000,000 Frequency (Hz) Ratio to 25 C, 120 Hz Value C 85 C 65 C C C C C 55 C ,000 10, ,000 1,000,000 Frequency (Hz) 1000 ESR vs. Temperature and Frequency Vdc (10 X 10.2 mm) 100 ESR vs. Temperature and Frequency Vdc (10 X 10.2 mm) Ratio to 25 C, 120 Hz Value C 40 C 20 C 0 C 25 C 45 C 65 C Ratio to 25 C, 120 Hz Value C 40 C 20 C 0 C 25 C 45 C 65 C 85 C 105 C ,000 10, ,000 1,000,000 Frequency (Hz) 105 C 85 C ,000 10, ,000 1,000,000 Frequency (Hz) 100 Impedance vs. Temperature and Frequency Vdc (10 X 10.2 mm) 100 Impedance vs. Temperature and Frequency Vdc (10 X 10.2 mm) 55 C Ratio to 25 C, 120 Hz Value C 20 C 0 C 25 C 45 C 65 C 85 C 105 C Ratio to 25 C, 120 Hz Value C 40 C 20 C 0 C 25 C 45 C ,000 10, ,000 1,000,000 Frequency (Hz) 65 C 85 C 105 C ,000 10, ,000 1,000,000 Frequency (Hz) East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

14 Type AHA, -55 C to 105 C SMT Aluminum Electrolytic - Long Life, 105 C Typical Performance Curves Chip and SMT 1.2 Capacitance vs. Temperature & Frequency 50 Vdc (10 X 10.2 mm) 10 Capacitance Change with Temperature (Typical Performance 120 Hz) C 85 C 65 C 45 C 5 Ratio to 25 C, 120 Hz Value C 0 C 20 C 40 C Capacitance Change (%) Vdc (6.3 X 5.4 mm) Vdc (6.3 X 5.4 mm) Vdc (6.3 X 5.4 mm) 55 C ,000 10, ,000 1,000,000 Frequency (Hz) Temperature ( C) 1000 ESR vs. Temperature and Frequency 50 Vdc (10 X 10.2 mm) 2 Dissipation Factor vs. Temperature (Typical Performance 120 Hz) 1.8 Ratio to 25 C, 120 Hz Value C 40 C 20 C 85 C 105 C ,000 10, ,000 1,000,000 Frequency (Hz) 0 C 25 C 45 C 65 C D.F. (@ 120 Hz) Vdc (6.3 X 5.4 mm) Vdc (6.3 X 5.4 mm) Vdc (6.3 X 5.4 mm) Temperature ( C) 100 Impedance vs. Temperature and Frequency 50 Vdc (10 X 10.2 mm) 10 Capacitance Change vs Time (Typical Performance for AHA Series) 5 Ratio to 25 C, 120 Hz Value C 40 C 20 C 0 C C 45 C 65 C 85 C 105 C ,000 10, ,000 1,000,000 Frequency (Hz) Capacitance Change (%) Vdc (4 x 5.4 mm) Vdc ( 6.3 x 5.4 mm) Vdc (10 x 10.2 mm) ,000 1,250 1,500 1,750 2,000 Time (Hours) 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 1.011

15 Chip and SMT Type AFC, -55 C to 105 C SMT Aluminum Electrolytic - Low Impedance, 105 C Low Impedance and Long-Life for Filtering, Bypassing, Power Supply Decoupling Specifications Operating Temperature: Rated Voltage: Capacitance: Capacitance Tolerance: Leakage Current: Ripple Current Multiplier: Type AFC are the choice for high-frequency filtering. At 100 khz, most ratings can handle more than twice the ripple current of type AHA. With solid performance at temperatures down to -55 C, Type AFC has more than 90% capacitance retention at -20 C and 1 khz. With low impedance to beyond 100 khz, it is ideal for higher power DC/DC converters. The vertical cylindrical cases make for easy automatic mounting and reflow soldering, and offer big savings and higher capacitance compared to tantalum capacitors. Highlights +105 C, Up to 1000 Hour Load Life Capacitance Range: 1 µ F to 1500 µ F Voltage Range: 6.3 Vdc to 50 Vdc -55 C to +105 C 6.3, 10, 16, 25 & 50 Vdc 1.0 µf to 1500 µf 120 Hz and +20 C 0.01 CV or 3 µ +20 C, after two minutes (whichever is greater) Frequency 50/60 Hz 120 Hz 1 khz 10 khz 100 khz Load Life: Dissipation Factor: C Capacitance ± 20% DF: 200% of limit DCL: 100% of limit AFC Series Marking Capacitance (µf) Voltage j = 6.3 Vdc E = 25 Vdc A = 10 Vdc V = 35 Vdc C = 16 Vdc H = 50 Vdc Case Dimensions 220 FC Line Ident. See Ratings Table Series Shelf Life: C Capacitance ± 20% DF: 200% of limit DCL: 100% of limit Outline Drawing D K 0.3 mm Max. A Case Code D ± 0.5 L A ± 0.2 H (max) I (ref) W P (ref) K B , ± /-0.20 C , ± /-0.20 D , ± /-0.20 E ± ± /-0.20 F ± ± ± 0.20 G ± ± ± 0.20 L H P W I I East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

16 Type AFC, -55 C to 105 C SMT Aluminum Electrolytic - Low Impedance, 105 C Ratings Table Part Numbering System Max. Max. Max. Max. Dissipation Impedance Ripple Current Cap Catalog DCL C Case Size (mm) Quantity µf Number (µa/2 120 Hz 20 C 20 C 100 khz Code D x L per Reel min) 20 C (Ω) (Ω) (ma) 6.3 Vdc ( 8 Vdc Surge) 22 AFC226M06B12T B 4x AFC476M06C12T C 5x AFC107M06D16T D 6.3x AFC227M06E16T E 8x AFC337M06F24T F 8x AFC108M06G24T G 10x AFC158M06G24T G 10x Vdc (13 Vdc Surge) 33 AFC336M10C12T C 5x AFC107M10E16T E 8x AFC157M10E16T E 8x AFC227M10F24T F 8x AFC477M10G24T G 10x AFC108M10G24T G 10x Vdc ( 20 Vdc Surge) 10 AFC106M16B12T B 4x AFC226M16C12T C 5x AFC476M16D16T D 6.3x AFC686M16E16T E 8x AFC107M16E16T E 8x AFC227M16G24T G 10x AFC337M16G24T G 10x AFC477M16G24T G 10x AFC687M16G24T G 10x Vdc ( 31 Vdc Surge) 6.8 AFC685M25B12T B 4x AFC226M25D16T D 6.3x AFC336M25D16T D 6.3x AFC476M25E16T E 8x AFC686M25F24T F 8x AFC107M25F24T F 8x AFC227M25G24T G 10x AFC337M25G24T G 10x AFC477M25G24T G 10x Vdc (44 Vdc Surge) 1 AFC105M35B12T B 4x AFC225M35B12T B 4x AFC335M35B12T B 4x AFC475M35B12T B 4x AFC685M35C12T C 5x AFC106M35C12T C 5x AFC226M35D16T D 6.3x AFC336M35E16T E 8x AFC476M35E16T E 8x AFC107M35G24T G 10x AFC227M35G24T G 10x AFC337M35G24T G 10x Vdc ( 63 vdc Surge) 1 AFC105M50B12T B 4x AFC225M50B12T B 4x AFC335M50B12T B 4x AFC475M50C12T C 5x AFC106M50D16T D 6.3x AFC226M50E16T E 8x AFC336M50F24T F 8x AFC476M50G24T G 10x AFC107M50G24T G 10x AFC227M50G24T G 10x AFC 106 M 16 B 12T Chip and SMT Type Capacitance 105 = 1.0 µf Capacitance Tolerance 106 = 10 µf M = ±20% 107 = 100 µf 108 = 1000 µf Voltage 10 = 10 Vdc 35 = 35 Vdc 16 = 16 Vdc 50 = 50 Vdc 25 = 25 Vdc Case Code Packaging Information 12 = Carrier Tape Width (mm) T = Tape & Reel B = Bulk 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 1.013

17 Chip and SMT Type AFC, -55 C to 105 C SMT Aluminum Electrolytic - Low Impedance, 105 C Typical Performance Curves 1.2 Capacitance vs. Temperature & Frequency Vdc (8 X 10.2 mm) 1.4 Capacitance vs. Temperature & Frequency Vdc (10 X 10.2 mm) Ratio to 25 C, 120 Hz Value C 85 C 65 C 45 C 25 C 0 C 20 C 40 C 55 C Ratio to 25 C, 120 Hz Value C 85 C 65 C 45 C 25 C 0 C 20 C 40 C 55 C ,000 10, ,000 1,000,000 Frequency (Hz) Frequency (Hz) 100 ESR vs. Temperature and Frequency Vdc (8 X 10.2 mm) 100 ESR vs. Temperature and Frequency Vdc (10 X 10.2 mm) Ratio to 25 C, 120 Hz Value C 40 C 20 C 0 C 25 C 45 C 65 C Ratio to 25 C, 120 Hz Value C 40 C 20 C 0 C 25 C 45 C 85 C 105 C 65 C 85 C 105 C ,000 10, ,000 1,000,000 Frequency (Hz) ,000 10, ,000 1,000,000 Frequency (Hz) 10 Impedance vs. Temperature and Frequency Vdc (8 X 10.2 mm) mm) 100 Impedance vs. Temperature and Frequency Vdc (10 X 10.2 mm) mm) Ratio to 25 C, 120 Hz Value C 40 C 20 C 0 C 25 C Ratio to 25 C, 120 Hz Value C 20 C 0 C 25 C 45 C 45 C 65 C 85 C 105 C 65 C 85 C 105 C ,000 10, ,000 1,000,000 Frequency (Hz) ,000 10, ,000 1,000,000 Frequency (Hz) East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

18 Type AFC SMT Aluminum Electrolytic - Low Impedance, 105 C Typical Performance Curves Chip and SMT 1.2 Capacitance vs. Temperature & Frequency Vdc (10 X 10.2 mm) 20 Capacitance Change with Temperature (Typical Performance AFC 120 Hz) Ratio to 25 C, 120 Hz Value 105 C 1 85 C 65 C C 25 C C C 40 C C ,000 10, ,000 1,000,000 Frequency (Hz) Capacitance Change (%) Vdc (6.3 X 5.4 mm) Vdc (6.3 X 5.4 mm) Vdc (6.3 X 5.4 mm) Temperature ( C) 100 ESR vs. Temperature and Frequency Vdc (10 X 10.2 mm) 0.6 Dissipation Factor vs. Temperature (Typical Performance AFC 120 Hz) 55 C Vdc (6.3 X 5.4 mm) Ratio to 25 C, 120 Hz Value C 20 C 0 C 25 C 45 C D.F. (@120 Hz) Vdc (6.3 X 5.4 mm) Vdc (6.3 X 5.4 mm) 65 C 85 C 105 C ,000 10, ,000 1,000,000 Frequency (Hz) Temperature ( C) 100 Impedance vs. Temperature and Frequency Vdc (10 X 10.2 mm) 10 Capacitance Change vs Time (Typical Performance AFC Series) Ratio to 25 C, 120 Hz Value C 65 C 85 C 40 C 20 C 0 C 25 C 105 C ,000 10, ,000 1,000,000 Frequency (Hz) 55 Capacitance Change (%) Vdc (4 x 5.4 mm) Vdc ( 6.3 x 5.4 mm) Vdc (10 x 10.2 mm) ,000 1,500 2,000 Time (Hours) 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 1.015

19 Chip and SMT Type AHD SMT Aluminum Electrolytic - Long Life, 105 C Long Life Filtering, Bypassing, Power Supply Decoupling Specifications Operating Temperature: Rated Voltage: Capacitance: Capacitance Tolerance: Leakage Current: Ripple Current Multiplier: Load Life: Dissipation Factor: C Capacitance: ±30% DF: 300% of limit DCL: 100% of limit Highlights +105 C, 5000 Hour Load Life Capacitance Range: 0.47µF to 330µF Voltage Range: 10 Vdc to 100 Vdc -40 C to+105 C 10,16, 25, 35, 50, 63 &100 Vdc 0.47 F to 330 F 120 Hz and +20 C 0.01 CV or C, after two minutes (whichever is greater) Frequency Shelf Life: C Capacitance: ±20% DF: 200% of limit DCL: 100% of limit Low Temperature Vdc Stability -22 C / +20 C Impedance 120 Hz -40 C / +20 C AHD Series Marking Capacitance (µf) Voltage A = 10 Vdc V = 35 Vdc C = 16 Vdc H = 50 Vdc E = 25 Vdc J = 63 Vdc 2A = 100 Vdc Case Dimensions 220 HD Lot No. Voltage 10V 16V 25V 35V 50V 63 V 100 V 4 to 6.3 mm to 10 mm Series In smaller capacitance values usually rated for 1000 to 2000 hours load life, the Type AHD delivers 5000 hour load life capability. While not a low-impedance type, the Type AHD is the choice for long life in small capacitance, general filtering applications. The vertical cylindrical cases facilitate automatic mounting and reflow soldering and Type AHD offers significant cost savings over tantalum capacitors. 50/60 Hz 120 Hz 1 khz 10 khz 100 khz Outline Drawing D K 0.3 mm Max. A Case Code D ± 0.5 L A ± 0.2 H (max) I (ref) W P (ref) K B , ± /-0.20 C , ± /-0.20 D , ± /-0.20 E ± ± /-0.20 F ± ± ± 0.20 G ± ± ± 0.20 L H P W I I East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

20 Type AHD SMT Aluminum Electrolytic - Long Life, 105 C Ratings Table Max. Max. Max. Max. Dissipation Impedance Ripple Current Cap Catalog DCL C Case Size (mm) Quantity F Number (µ A/2 120 Hz 20 C 20 C 120 Hz Code D x L per Reel min) 20 C (Ω) (Ω) (ma) 100 AHD107M10E16T Vdc (13 Vdc Surge) E 8x AHD227M10F24T F 8x AHD337M10G24T G 10x AHD106M16B12T Vdc ( 20 Vdc Surge) B 4x AHD226M16C12T C 5x AHD476M16D16T D 6.3x AHD107M16F24T F 8x AHD227M16G24T G 10x AHD475M25B12T Vdc ( 31 Vdc Surge) B 4x AHD106M25C12T C 5x AHD226M25D16T D 6.3x AHD336M25D16T D 6.3x AHD476M25E16T E 8x AHD107M25F24T F 8x Vdc (44 Vdc Surge) 4.7 AHD475M35B12T B 4x AHD106M35C12T C 5x AHD226M35D16T D 6.3x AHD336M35E16T E 8x AHD476M35F24T F 8x AHD107M35G24T G 10x AHD474M50B12T Vdc ( 63 Vdc Surge) B 4x AHD105M50B12T B 4x AHD225M50B12T B 4x AHD335M50B12T B 4x AHD475M50C12T C 5x AHD106M50D16T D 6.3x AHD226M50E16T E 8x AHD336M50F24T F 8x AHD476M50G24T G 10x AHD106M63E16T Vdc ( 75 Vdc Surge) E 8x AHD226M63F24T F 8x AHD336M63G24T G 10x Vdc (125 Vdc Surge) 3.3 AHD335M2AE16T E 8x AHD475M2AF24T F 8x AHD106M2AF24T F 8x AHD226M2AG24T G 10x Part Numbering System Chip and SMT AHD 106 M 16 B 12T Type Capacitance 104 = 0.1 µ F 105 = 1.0 µf 106 = 10 µf 107 = 100 µf Capacitance Tolerance M = ±20% Voltage Case Code 10 = 10 Vdc 50 = 50 Vdc 16 = 16 Vdc 63 = 63 Vdc 25 = 25 Vdc 2A = 100 Vdc 35 = 35 Vdc Packaging Information 12 = Carrier Tape Width (mm) T = Tape & Reel B = Bulk 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 1.017

21 Chip and SMT Type AHD SMT Aluminum Electrolytic - Long Life, 105 C Typical Performance Curves 1.2 Capacitance vs. Temperature & Frequency Vdc (10 X 10.2 mm) 1.2 Capacitance vs. Temperature & Frequency Vdc (4 X 5.8 mm) Ratio to 25 C, 120 Hz Value C 65 C 1 45 C C C 20 C C ,000 10, ,000 1,000,000 Frequency (Hz) Ratio to 25 C, 120 Hz Value C 1 65 C 45 C C C C 40 C ,000 10, ,000 1,000,000 Frequency (Hz) 100 ESR vs. Temperature & Frequency Vdc (10 X 10.2 mm) 40 C 100 ESR vs. Temperature & Frequency Vdc (4 X 5.8 mm) 40 C Ratio to 25 C, 120 Hz Value C 0 C 25 C 45 C 65 C 85 C Ratio to 25 C, 120 Hz Value C 0 C 25 C 45 C 65 C 85 C 105 C ,000 10, ,000 1,000, Frequency (Hz) Impedance vs. Temperature & Frequency Vdc (10 X 10.2 mm) ,000 10, ,000 1,000, Frequency (Hz) Impedance vs. Temperature & Frequency Vdc (4 X 5.8 mm) Ratio to 25 C, 120 Hz Value C 1 20 C 0 C C 45 C 105 C 65 C 85 C ,000 10, ,000 1,000,000 Ratio to 25 C, 120 Hz Value C 20 C 0 C 25 C 45 C 65 C 85 C ,000 10, ,000 1,000,000 Frequency (Hz) Frequency (Hz) East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

22 Type AHD SMT Aluminum Electrolytic - Long Life, 105 C Ratio to 25 C, 120 Hz Value Typical Performance Curves Capacitance vs. Temperature & Frequency Vdc (6.3 X 5.8 mm) C 20 C Frequency (Hz) 85 C ,000 10, ,000 1,000,000 0 C 65 C 25 C 45 C Capacitance Change (%) Capacitance Change vs. Temperature (Typical Performance AHD 120 Hz) 10 µf, 50 V 47 µf, 16 V 100 µf, 10 V Temperature ( C) 100 µf, 10 V 47 µf, 16 V 10 µf, 50 V Chip and SMT 100 ESR vs. Temperature & Frequency Vdc (6.3 X 5.8 mm) 40 C µf, 10 V Dissipation Factor vs. Temperature (Typical Performance AHD 120 Hz) 47 µf, 16 V Ratio to 25 C, 120 Hz Value C 0 C 25 C 45 C 65 C 85 C Dissipation Factor at 120 Hz µf, 50 V 105 C ,000 10, ,000 1,000,000 Frequency (Hz) Temperature ( C) 10 Impedance vs. Temperature & Frequency Vdc (6.3 X 5.8 mm) 10 Impedance vs. Temperature & Frequency Vdc (10 X 10.2 mm) Ratio to 25 C, 120 Hz Value C 20 C 0 C 25 C 45 C 65 C 85 C Ratio to 25 C, 120 Hz Value C 85 C 40 C 20 C 0 C 25 C 45 C 105 C 105 C ,000 10, ,000 1,000,000 Frequency (Hz) ,000 10, ,000 1,000,000 Frequency (Hz) 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 1.019

23 Chip and SMT Type AFK, -55 C to 105 C SMT Aluminum Electrolytic - Lowest E.S.R., 105 C Lowest ESR and Long Life for Filtering, Bypassing, Power Supply Decoupling Specifications Operating Temperature: Rated Voltage: Capacitance: Capacitance Tolerance: Leakage Current: Ripple Current Multiplier: Dissipation Factor: Life Test: Case Dimensions Highlights +105 C, Up to 5000 Hour Load Life Capacitance Range: 3.3 µf to 6800 µf Voltage Range: 6.3 Vdc to 100 Vdc -55 C to +105 C 6.3, 10, 16, 25, 35, 50, 63, 80 & 100 Vdc 3.3 µf to 6800 µ F 120 Hz and +20 C 0.01 CV or C, after two minutes (whichever is greater) Frequency 6.3 V 10 V 16 V 25 V 35 V 50 V 63 V 80 V 100 V Add 0.02 per 1000 µf for values greater than 1000 µf C, mm dia C, mm dia. Capacitance ±30% DF: 200% of limit DCL: 100% of limit Shelf Life: C Capacitance ±30% DF: 200% of limit DCL: 100% of limit AFK Series Marking Capacitance (µf) Voltage j A C E V H J K 2A 6.3Vdc 10Vdc 16Vdc 25Vdc 35Vdc 50Vdc 63Vdc 80Vdc 100Vdc 220 FK Lot No. Series Type AFK are the best and by a wide margin. With 40% to 60% lower impedance, 30% to 50% smaller case size and more than twice the life compared to low-esr type AFC, the Type AFK also excels at cold performance down to -55 C. In addition, this terrific, low-impedance performance approaching low-esr tantalum capacitors is at a significant cost savings compared to tantalum. The vertical cylindrical cases facilitate automatic mounting and reflow soldering into the same footprint of like-rated tantalum capacitors except without the need for voltage derating. 50/60 Hz 120 Hz 1 khz 10 khz 100 khz Outline Drawing D K 0.3 mm Max. A Case Code D ±.05 L A ± 0.2 H (max) I (ref) W P (ref) K B ± ± /-0.20 C ± ± /-0.20 D ± ± /-0.20 X ± ± /-0.20 E ± ± /-0.20 F ± ± ±0.20 G ± ± ±0.20 H ± ± ±0.30 P ± ± ±0.30 R ± ± ±0.30 L H P (mm) W I I East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

24 Type AFK, -55 C to 105 C SMT Aluminum Electrolytic - Lowest E.S.R., 105 C Ratings Table Max. Max. Max. Max. Dissipation Impedance Ripple Current Cap Catalog DCL C Case Size (mm) Quantity µf Number A/2 120 Hz 20 C 20 C 100 khz Code D x L per Reel min) 20 C (Ω) ( Ω ) (ma) 6.3 Vdc ( 8 Vdc Surge) 22 AFK226M06B12T B 4x AFK476M06B12T B 4x AFK476M06C12T C 5x AFK107M06C12T C 5x AFK107M06D16T D 6.3x AFK227M06D16T D 6.3x AFK337M06X16T X 6.3x AFK337M06E16T E 8x AFK477M06F24T F 8x AFK108M06F24T F 8x AFK158M06G24T G 10x AFK338M06H32T H 12.5x AFK688M06P44T P 16x Vdc (13 Vdc Surge) 22 AFK226M10B12T B 4x AFK336M10B12T B 4x AFK336M10C12T C 5x AFK157M10D16T D 6.3x AFK227M10X16T X 6.3x AFK227M10E16T E 8x AFK337M10F24T F 8x AFK477M10F24T F 8x AFK108M10G24T G 10x AFK228M10H32T H 12.5x AFK478M10P44T P 16x AFK688M10R44T R 18x Vdc ( 20Vdc Surge) 10 AFK106M16B12T B 4x AFK226M16B12T B 4x AFK226M16C12T C 5x AFK476M16C12T C 5x AFK476M16D16T D 6.3x AFK686M16D16T D 6.3x AFK107M16D16T D 6.3x AFK157M16X16T X 6.3x AFK227M16X16T X 6.3x AFK227M16E16T E 8x AFK337M16F24T F 8x AFK477M16F24T F 8x AFK687M16G24T G 10x AFK158M16H32T H 12.5x AFK338M16P44T P 16x AFK478M16R44T R 18x Vdc ( 31 Vdc Surge) 10 AFK106M25B12T B 4x AFK226M25C12T C 5x AFK336M25C12T C 5x AFK336M25D16T D 6.3x AFK476M25D16T D 6.3x AFK686M25D16T D 6.3x AFK107M25X16T X 6.3x AFK107M25E16T E 8x AFK157M25F24T F 8x AFK227M25F24T F 8x AFK337M25F24T F 8x AFK477M25G24T G 10x AFK108M25H32T H 12.5x AFK228M25P44T P 16x AFK338M25R44T R 18x Chip and SMT 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 1.021

25 Chip and SMT Type AFK, -55 C to 105 C SMT Aluminum Electrolytic - Lowest E.S.R., 105 C Ratings Table Max. Max. Max. Max. Dissipation Impedance Ripple Current Cap Catalog DCL C Case Size (mm) Quantity µf Number (µa/2 120 Hz 20 C 20 C 100 khz Code D x L per Reel min) 20 Ω Ω ma) 35 Vdc (44 Vdc Surge) 4.7 AFK475M35B12T B 4x AFK106M35B12T B 4x AFK106M35C12T C 5x AFK226M35C12T C 5x AFK336M35D16T D 6.3x AFK476M35D16T D 6.3x AFK686M35X16T X 6.3x AFK107M35X16T X 6.3x AFK107M35F24T F 8x AFK157M35F24T F 8x AFK227M35F24T F 8x AFK337M35G24T G 10x AFK477M35H32T H 12.5x AFK687M35H32T H 12.5x AFK158M35P44T P 16x Vdc (63 Vdc Surge) 4.7 AFK475M50B12T B 4x AFK106M50C12T C 5x AFK106M50D16T D 6.3x AFK226M50D16T D 6.3x AFK336M50X16T X 6.3x AFK336M50E16T E 8x AFK476M50X16T X 6.3x AFK476M50E16T E 8x AFK107M50F24T F 8x AFK157M50G24T G 10x AFK227M50G24T G 10x AFK337M50H32T H 12.5x AFK687M50P44T P 16x AFK108M50P44T P 16x Vdc (75 Vdc Surge) 4.7 AFK475M63C12T C 5x AFK106M63D16T D 6.3x AFK226M63X16T X 6.3x AFK226M63E16T E 8x AFK336M63F24T F 8x AFK476M63F24T F 8x AFK686M63G24T G 10x AFK107M63G24T G 10x AFK157M63H32T H 12.5x AFK227M63H32T H 12.5x AFK477M63P44T P 16x AFK687M63R44T R 18x Vdc (100 Vdc Surge) 3.3 AFK335M80C12T C 5x AFK475M80D16T D 6.3x AFK106M80X16T X 6.3x AFK106M80E16T E 8x AFK226M80F24T F 8x AFK336M80F24T F 8x AFK476M80G24T G 10x AFK686M80H32T H 12.5x AFK107M80H32T H 12.5x AFK157M80H32T H 12.5x AFK337M80P44T P 16x AFK477M80R44T R 18x Vdc (125 Vdc Surge) 22 AFK226M2AF24T F 8x AFK336M2AG24T G 10x AFK476M2AH32T H 12.5x AFK686M2AH32T H 12.5x AFK107M2AP44T P 16x AFK157M2AP44T P 16x AFK227M2AR44T R 18x AFK337M2AR44T R 18x Part Numbering System AFK 106 M 16 B 12T Type Capacitance 105 = 1.0 µ F 106 = 10 µ F 107 = 100 µf 108 = 1000 µf Capacitance Tolerance M = ±20% Voltage Code 06 = 6.3 Vdc 10 = 10 Vdc 16 = 16 Vdc 25 = 25 Vdc 2A = 100 Vdc 35 = 35 Vdc 50 = 50 Vdc 63 = 63 Vdc 80 = 80 Vdc Case Code Packaging Code 12 = Carrier Tape Width (mm) T = Tape & Reel B = Bulk East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

26 Type AFK, -55 C to 105 C SMT Aluminum Electrolytic - Lowest E.S.R., 105 C Typical Performance Curves Chip and SMT 1.6 Capacitance vs. Temperature & Frequency Vdc (12.5 X 13.5 mm) 1.2 Capacitance vs. Temperature & Frequency Vdc (6.3 X 5.8 mm) Ratio to 25 C, 120 Hz Value C 1 65 C C. 0 C C C ,000 10, ,000 1,000,000 Frequency (Hz) Ratio to 25 C, 120 Hz Value 105 C 85 C 1 65 C C 0 C C C 55 C ,000 10, ,000 1,000,000 Frequency (Hz) 100 ESR vs. Temperature and Frequency 3300 Vdc (12.5 X 13.5 mm) 100 ESR vs. Temperature and Frequency Vdc (6.3 X 5.8 mm) Ratio to 25 C, 120 Hz Value C 65 C 55 C 40 C 20 C 0 C 25 C 45 C Ratio to 25 C, 120 Hz Value C 40 C 20 C 0 C 25 C 45 C 65 C ,000 10, ,000 1,000,000 Frequency (Hz) 85 C 105 C ,000 10, ,000 1,000,000 Frequency (Hz) 10 Impedance vs. Temperature and Frequency 3300 Vdc (12.5 X 13.5 mm) 10 Impedance vs. Temperature and Frequency Vdc (6.3 X 5.8 mm) Ratio to 25 C, 120 Hz Value C 40 C 20 C 0 C 25 C Ratio to 25 C, 120 Hz Value C 55 C 40 C 20 C 0 C 25 C 65 C 85 C 105 C 45 C 65 C 85 C 105 C ,000 10, ,000 1,000,000 Frequency (Hz) ,000 10, ,000 1,000,000 Frequency (Hz) 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 1.023

27 Chip and SMT Type AFK, -55 C to 105 C SMT Aluminum Electrolytic - Lowest E.S.R., 105 C Typical Performance Curves 1.4 Capacitance vs. Temperature & Frequency Vdc (18 X 16.5 mm) 15 Capacitance Change vs.temperature (Typical Performance AFK 120 Hz) C 85 C 65 C 45 C 25 C 10 Ratio to 25 C, 120 Hz Value C 20 C 40 C 55 C Capacitance Change (%) µ 6.3 Vdc (4 X 5.8 mm) 100 µ 6.3 Vdc (6.3 X 5.8 mm) 1000 µ 6.3 Vdc (8 X 10.2 mm) 33 µ 80 Vdc (8 X m m) ,000 10, ,000 1,000,000 Frequency (Hz) Temperature ( C) 100 ESR vs. Temperature and Frequency Vdc (18 X 16.5 mm) 3 Dissipation Factor vs.temperature (Typical Performance AFK 120 Hz) Ratio to 25 C, 120 Hz Value 10 1 ñ55 C ñ40 C ñ20 C 0 C 25 C 45 C D.F. (@ 120 Hz) µ 6.3 Vdc (4 X 5.8 mm) 100 µ 6.3 Vdc (6.3 X 5.8 mm) 1000 µ 6.3 Vdc (8 X 10.2 mm) 65 C 85 C ,000 10, ,000 1,000,000 Frequency (Hz) Temperature ( C) 10 Impedance vs. Temperature and Frequency Vdc (18 X 16.5 mm) 5 Capacitance Change vs. Time (Typical Performance for AFK Series) 22 µ 6.3 Vdc (4 x 5.4 mm) Ratio to 25 C, 120 Hz Value C 20 C 25 C 45 C 65 C 85 C 105 C ,000 10, ,000 1,000,000 0 C 55 C Capacitance Change (%) µ 6.3 Vdc ( 6.3 x 5.4 mm) 1500 µ 6.3 Vdc (10 x 10.2 mm) Frequency (Hz) Time (Hours) East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

28 Type AVS, AHA, AFC, AFK, AHD Tape and Reel Specifications Tape Specifications Chip and SMT Component Orientation Polarity Stripe (-) Cathode 4 ± dia 1.75 ± t ± 0.2 W ± 0.3 B ± 0.2 F ± 0.1 A ± 0.2 P1 Case Code W A B P1 F t A B C D X E F G ± ± ± D± ±0.1 F±0.1 W±0.3 S±0.1 A±0.5 C±0.5 P±0.1 B±0.5 Case Code W A B C D F P S J K H L P R S U East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 1.025

29 Chip and SMT Type AVS, AHA, AFC, AFK, AHD Tape and Reel Specifications Reel Specifications E C B R: 1.0 mm (.039 in.) D t A W Case Code A B C D E W t A, B size 380±2 50 min 13.0± ± ±0.5 14±1 3.0 C, D, E, X size 380±2 50 min 13.0± ± ±0.5 18±1 3.0 F, G size 380±2 50 min 13.0± ± ±0.5 26±1 3.0 J, K, H, L size 330±2 50 min 13.0± ± ±0.5 34±1 3.0 P, R, S, U size 330±2 50 min 13.0± ± ±0.5 46±1 3.0 Land Pattern: C B A B Case Code A B C A B C D E F G J, K H L P R, U S East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

30 Type AVS, AHA, AFC, AFK, AHD Reflow Solder & Case Dimensions Reflow Soldering Temperature Profile: Chip and SMT Peak Temp. (see chart below) 200 C 160 C 120 seconds Preheat 5 seconds maximum Maximum 200 C (see chart below) Case Peak Max. Time Code Temp ( 200 C (Sec.) A, B, C, D, X E, F, G, H J, K, L, P R, S, U Time Outline Drawing K 0.3 mm Max. A I D H P I L W Case Dimensions (mm) Case Code D ± 0.5 L A ± 0.2 H (max) I (ref) W P (ref) K A , ± /-0.20 B , ± /-0.20 C , ± /-0.20 D , ± /-0.20 X ± ± /-0.20 E ± ± /-0.20 F ± ± ± 0.20 G ± ± ± 0.20 H ± ± ± 0.30 J ± ± 0.20 K ± ± 0.20 L ± ± ± 0.30 P ± ± ± 0.30 R ± ± ± 0.30 S ± ± ± 0.30 U ± ± 0.30 * ,-0.2 for AFK and AHD Series 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 1.027

31 Chip and SMT SPA Solid Polymer Aluminum Surface Mount Highlights Capacitance Range: 2.2 µf to 330 µf Ripple current ratings up to 3.0Arms at 100 khz and 105 C Low Impedance Ultra-Low E.S.R.; 10 m 100 khz -55 to 105 C operating temperature Solid polymer aluminum capacitors combine the high capacitance capability of an electrolytic component with the high frequency performance of film capacitors. When the need for low impedance at high frequency is critical for your design, one SPA chip is capable of replacing several liquid electrolyte aluminum or tantalum capacitors connected in parallel. This is due to the ultra-low e.s.r. which results in significantly lower impedance than either aluminum or tantalum capacitors at frequencies of 100 khz and above. There is no longer a need to stack capacitors to lower the impedance at high frequency. The low e.s.r. and high Voltage Range: 2.0 Vdc to 16 Vdc Solid electrolyte for extended life Footprint Compatible with D and E Case Tantalum Flat Z and E.S.R. vs. temperature Ignition free Filtering power of 3 or more tantalum chips and 50 year life capacitance make them ideal for bypassing high frequency noise, and for switching frequency filtering in DC/ DC conversion. SPA capacitors are packaged in a molded resin case with the same footprint (7.3x4.3 mm) as the industry standard tantalum D and E case sizes. The solid electrolyte results in a capacitor with stable impedance and equivalent series resistance over the entire operating temperature range and they have more than twice the ripple current handling capability of tantalum capacitors. In addition, the solid electrolyte delivers a typical expected operating life of more than 50 years, and it is ignition free. CDE SPA Type ESRE ESRD ESRD ESRL Dimensions (mm) 7.3x4.3x x4.3x x4.3x x4.3x1.1 Capacitance Range (µf) Max. ESR at 100 khz (Ω) Max. Ripple Current at 100 khz (Arms) East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

32 SPA Solid Polymer Aluminum Chip and SMT Applications Motherboard By-Pass Switching Supply Input/Output Filters Power Supply Decoupling High Frequency Noise Reduction Laptop LCD Displays Automotive Digital Equipment Portable Electronic Equipment Markings Capacitance (ìrî = Decimal Point) Lot Code Ordering Information CDE Type CAPACITANCE CODE 4R7 = 4.7 µf 220 = 22 µf 101 = 100 µf Polarity Stripe (Anode) + D = 2.0 V E = 2.5 V G = 4.0 V J = 6.3 V ESRD 4R7 M 16 R CAPACITANCE TOLERANCE M = ± 20% W.V. Code WVDC CODE 02 = 2.0 Vdc 0E = 2.5 Vdc 04 = 4.0 Vdc 06 = 6.3 Vdc K = 8.0 V B = 12.5 V C = 16.0 V PACKAGING CODE R = Tape & Reel ESRD (1.8mm Ht.): 3500 pcs/ reel ESRD (3.1mm Ht.): 2000 pcs/ reel ESRE: 2000 pcs/reel ESRL: 3500 pcs/reel B = Bulk Quantity (100 pc multiples) 08 = 8.0 Vdc 12 = 12.5 Vdc 16 = 16.0 Vdc 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 1.029

33 Chip and SMT ESRD Surface Mount Outline Drawing SPA Solid Polymer Aluminum Ratings Part Maximum Maximum 1 Case Capacitance Number E.S.R Ripple Current Height (Tape & Reel) 100kHz/20 C 100kHz/105 C H (µf) (Ω) (Amps) ( ±0.1 mm ) 2.0 Vdc 100 ESRD101M02R ESRD181M02R ESRD221M02R Vdc 82 ESRD820M0ER ESRD151M0ER ESRD181M0ER Vdc 56 ESRD560M04R ESRD121M04R Vdc 10 ESRD100M06R ESRD220M06R ESRD330M06R ESRD470M06R ESRD101M06R Vdc 8.2 ESRD8R2M08R ESRD150M08R ESRD220M08R ESRD330M08R ESRD680M08R Vdc 4.7 ESRD4R7M12R ESRD100M12R ESRD150M12R ESRD220M12R Vdc 2.2 ESRD2R2M16R ESRD4R7M16R ESRD6R8M16R ESRD8R2M16R For other frequencies use the ripple current frequency multipliers. Dimensions in mm East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

34 SPA Solid Polymer Aluminum ESRE Surface Mount, High Capacitance Outline Drawing Chip and SMT Dimensions in mm Ratings Part Maximum Maximum 1 Capacitance Number E.S.R. Ripple Current (Tape & Reel) 100kHz/20 C 100kHz/105 C (µf) (Ω) (Amps) 2.0 Vdc 270 ESRE271M02R ESRE331M02R Vdc 220 ESRE221M0ER ESRE271M0ER Vdc 180 ESRE181M04R Vdc 150 ESRE151M06R Vdc 100 ESRE101M08R For other frequencies use the ripple current frequency multipliers East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 1.031

35 Chip and SMT Outline Drawing SPA Solid Polymer Aluminum ESRL Surface Mount, Very Low Profile (1.1mm High) Dimensions in mm Ratings Part Maximum Maximum 1 Capacitance Number E.S.R. Ripple Current (Tape & Reel) 100kHz/20 C 100kHz/105 C (µf) (Amps) 2.0 Vdc 68 ESRL680M02R Vdc 56 ESRL560M0ER Vdc 39 ESRL390M04R Vdc 33 ESRL330M06R Vdc 22 ESRL220M08R For other frequencies use the ripple current frequency multipliers East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

36 SPA Solid Polymer Aluminum Specifications Operating Temperature Range; -55 C to +105 C, at 100% rated voltage Surge Voltage; 125% of the rated working Vdc Capacitance Range; 2.2 µf to 330 µf Capacitance Tolerance; ±20% at 120 Hz and +20 C DC Leakage Current (DCL); After a two minute application of the rated working voltage at +20 C: 2V - 4V: I 0.06CV 6.3V - 16V: I 0.04CV or 3µA (whichever greater) Dissipation Factor (DF); The ratio of the capacitorís equivalent series resistance to its reactance at 120Hz and +20 C. ESRL & ESRD (1.8 mm ht.): D.F. is.06 Max. ESRE & ESRD (3.1 mm ht.): D.F. is.10 Max. Resistance to Soldering Heat; Heat the capacitors at 235 C in an oven for 200 seconds. The capacitors will meet the following limits after stabilizing at 20 C: C = ±10% of the initial measured value DF the initial specified value DCL the initial specified value Moisture Resistance; After 500 hours storage at +60 C and 90 to 95% R.H. without load, the capacitor will meet the following limits: C = +70%/-20% of the initial measured value (2.0 Vdc, 2.5 Vdc), +60%/-20% of the initial measured value (4.0 Vdc), +50%/-20% of the initial measured value (6.3 Vdc), +40%/-20% of the initial measured value (all other voltages) DF two times the initial specified value DCL the initial specified value Life Test; Apply rated DC working voltage at 105 C for 1000 hours, and then stabilize them to +20 C. will meet the following limits: C = ±10% of the initial measured value DF the initial specified value DCL the initial specified value Shelf Life Test; Shelf life is typically 5 to 10 years. Accelerated test: after 500 hours at 105 C, capacitors will meet the following limits after stabilization at 20 C: C = ±10% of the initial measured value DF the initial specified value DCL the initial specified value Chip and SMT Vibration; No abnormal change shall occur to capacitors that have been soldered (and attached) to a board when subjected to a vibration of 1.5 mm amplitude that is varied from 10 Hz to 2000 Hz in 20 min. cycles. The test duration is 2 hours for each right angle direction (total 6 hours). Capacitance is monitored during the last cycle of the test for stablilty. Shear Test; No damage shall be visible after subjecting a mounted capacitor to a side force of 5 N for 10 seconds 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 1.033

37 Chip and SMT Tape Specifications SPA Solid Polymer Aluminum Reel Specifications mm SPA Type ESRL ESRD (1.8 mm Ht.) ESRD (3.1 mm Ht.) ESRE W ± 0.3 t ± ± ± ± 0. 2 E F D + 0.1/- 0.0 Pø P1 ± 0.2 P2 A ± 0.2 B ± Design Kits Tol.: ± 0.1 mm unless otherwise specified t 1 A ± 2 B min. C ± 0. 5 D ± 0. 8 E ± 0. 5 W ± Design kits containing various ratings are available through the CDE Web site. Typical Temperature Characteristics mm t Capacitance Change at 120 Hz Dissipation Factor at 120 Hz µF/6.3V 10µF/6.3V C ( % ) 0 DF ( % ) Temperature ( C) Temperature ( C) East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

38 SPA Solid Polymer Aluminum Typical Impedance and Equivalent Series Resistance ESRD (3.1mm Ht.) Chip and SMT ESRD680M08R 68uF/8V Impedance/E.S.R ESRD121M04R 120uF/4V Impedance/E.S.R. Ohms ESRD181M02R 180uF/2V Impedance/E.S.R Frequency (khz) ESRE101M08R 100uF/8Vdc Impedance/E.S.R ESRE181M04R 180uF/4Vdc Impedance/E.S.R. Ohms ESRE ESRE271M02R 270uF/2Vdc Impedance/E.S.R Frequency (khz) 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 1.035

39 Chip and SMT SPA Solid Polymer Aluminum Typical Impedance and Equivalent Series Resistance ESRD Vdc ESRD Vdc uF Impedance 22uF Impedance 33uF Impedance 47uF Impedance uF Impedance 15uF Impedance 22uF Impedance 33uF Impedance Ohms 1 Ohms Equivalent Series Resistance Equivalent Series Resistance Frequency (khz) ESRD Vdc Frequency (khz) ESRD Vdc uF Impedance 10uF Impedance 15uF Impedance 22uF Impedance uF Impedance 4.7uF Impedance 6.8uF Impedance 8.2uF Impedance Ohms 1 Ohms Equivalent Series Resistance Equivalent Series Resistance Frequency (khz) Frequency (khz) East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

40 SPA Solid Polymer Aluminum Typical Temperature Characteristics Impedance at 100 khz E.S.R. at 100 khz Chip and SMT µf / 16 Vdc 22 µf / 12.5 Vdc 47 µf / 6.3 Vdc µf / 16 Vdc 22 µf / 12.5 Vdc 47 µf / 6.3 Vdc 0.3 Ohms Ohms Temperature ( C) Temperature ( C) Impedance at 400 khz E.S.R. at 400 khz µf / 16 Vdc 22 µf / 12.5 Vdc 47 µf / 6.3 Vdc µf / 16 Vdc 22 µf / 12.5 Vdc 47 µf / 6.3 Vdc 0.3 Ohms Ohms Temperature ( C) Temperature ( C) 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 1.037

41 Chip and SMT Life Expectancy SPA Solid Polymer Aluminum Life Expectancy vs Temperature and Relative Humidity 1,000,000, ,000,000 35% 10,000,000 Life Expectancy (hours) 1,000, ,000 10,000 1, % 55% 65% 75% 85% Temperature ( C) Endurance Test Data Note: Failure limit is 100% impedance increase at 400 khz. Capacitance Change vs Time (at 105 C) DC Leakage Current vs Time (at 105 C) Type ESRD 0 C (%) DCL (µa) 5-10 Aluminum Electrolytic Capacitor (6.3 mm Dia.) Type ESRD Aluminum Electrolytic Capacitor (6.3mm Dia.) Time (Hours) Time (Hours) East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

42 SPA Solid Polymer Aluminum Application Notes Chip and SMT Rated Voltage This is the maximum voltage that the capacitor has been designed to withstand continuously at rated temperature. Solid polymer aluminum capacitors are quite rugged and may be operated continuously at rated voltage. Voltage derating does not significantly increase the life expectancy of the capacitor. At voltage levels equal to or less than rated voltage, the capacitor will not short circuit (even at end of life). In fact it can self heal. A polymer aluminum capacitor can be operated over a lifetime at full rated voltage without worry of short circuiting. However, if subjected to sufficient over voltage or reverse voltage, a SPA capacitor can fail short circuit. Ripple Current/Ripple Voltage AC voltage as part of the capacitorís DC bias voltage will cause current to flow through the capacitor. This ripple current flows through the capacitorís equivalent series resistance generating heat. The heat increases the capacitorís internal temperature. Exceeding the specified maximum ripple current will overheat and damage the capacitor. The maximum ripple current ratings are given in the ratings tables. Peaks of the AC ripple voltage should not exceed the rated voltage or cause voltage reversal. Reverse Voltage SPA capacitors are polarized and are not intended to be used with reversed voltage. They can withstand reverse voltage pulses or transients up to 20% of the rated voltage, and they are capable of operating with up to 10% of the rated voltage when reverse voltage is applied continuously. Shelf Life When stored at room temperature, in low humidity, and out of direct sunlight, SPA capacitors have a storage life of 5 to 10 years. Storage at high humidity over long periods of time can cause the DC leakage current to increase. However, the application of rated voltage will reduce the DC leakage current to normal limits. Temperature Rise from Ripple Current (47µF/6.3Vdc) Arms Temperature Rise ( C) Arms 2.0 Arms 1.5 Arms 1.0 Arms 0.5 Arms Ripple Current Frequency Multipliers Frequency (khz) ,000 Frequency Multipliers for Sine Wave Current +20 to +105 C , ,000 1,000,000 Frequency (Hz) 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 1.039

43 Chip and SMT Recommended Circuit Board Mounting Pads SPA Solid Polymer Aluminum Capacitor Outline Peak Temperature ( C) Dimensions in mm Time at 200 C or above (seconds) Reclamation The resin case of a capacitor can be damaged by the heat stress of soldering if it has absorbed excessive moisture. suspected of having been exposed to high humidity can be reclaimed by placing them in an oven at 50 C for 100 Hours. Reflow Soldering The following graph gives the maximum recommended capacitor surface temperature during reflow soldering. Heat Stress while Soldering DC leakage current can increase after soldering, but it will return to the initial level after applying voltage. When using a soldering iron to mount the capacitor, the iron should have a maximum temperature of 350 C and soldering should not exceed 10 seconds. Cleaning The capacitors can withstand for 5 minutes at 60 C the following cleaning solvents by dipping or ultrasonic methods: Pine Alpha ST-100S Sunelec B-12 DK Be-Clear CW-5790 Aqua Cleaner 210SEP Cold Cleaner P3-375 Telpen Cleaner EC-7R Clean-Thru 750H, 750L, and 710M Techno-Cleaner 219 Techno-Care FRW-1, FRW-17, & FRV-1 After cleaning, wash the circuit board with water for about 3 minutes, and dry at 100 C for 20 minutes East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

44 SPA Solid Polymer Aluminum Up to 50 Years Life Chip and SMT SPA SMT capacitors are polarized, aluminum capacitors which use a highly conductive solid polymer as the electrolyte. They have reliability advantages over both aluminum and solid tantalum electrolytic capacitors. Unlike aluminum capacitors, there is no liquid electrolyte that can evaporate and cause a failure. Unlike solid tantalum which can fail short and burn, SPA capacitors gradually become open circuits after 25 to 50 years operation. Life expectancy curves show 200,000 hours expected life at full rated voltage and normal ambient conditions. Ultra Low E.S.R. and High Ripple Current Capability The equivalent series resistance (e.s.r.) of solid polymer aluminum capacitors is much lower than the e.s.r. of solid tantalum capacitors. This results in a much higher ripple current handling capability. The e.s.r. is even lower than the new tantalumpolymer hybrid capacitors. SPA s ultra-low resistance magic is in the solid conductive polymer. Construction Construction is a unique combination of the elements of aluminum electrolytic and solid tantalum capacitors. Like conventional aluminum electrolytic capacitors, the anode in SPA capacitors is an aluminum plate on which an aluminum oxide layer has been built up by an electrolysis process. The aluminum oxide serves as the dielectric in both SPA and conventional aluminum electrolytics. The dielectric in solid tantalum capacitors is tantalum pentoxide which is built upon a tantalum pellet anode. The series resistance of electrolytic capacitors is largely determined by the resistivity of the electrolyte. Because the resistivity of SPA s polymer electrolyte is several orders of magnitude less than that of other electrolytes, the equivalent series resistance is almost zero. A highly conductive polymer electrolyte film is deposited over the aluminum oxide dielectric in SPA capacitors. Carbon and silver paint are used to finish the capacitorís cathode. This is similar to what is used in solid tantalum capacitors, where manganese dioxide is used as the electrolyte. The capacitor element is encased in a molded resin that is capable of meeting the UL-94,V0 flammability rating. The terminals are solder coated copper clad steel East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 1.041

45 Chip and SMT SPA Compared to Other Electrolytics SPA Solid Polymer Aluminum 1000 Impedance (Ohms) Aluminum Electrolytic Tantalum Electrolytic 0.01 Film Frequency (MHz) SPA capacitors have lower impedance at high frequencies than the same values of wet electrolyte aluminum capacitors and solid tantalum capacitors. SPA MHz Aluminum Electrolytic Impedance (ohms) Tantalum Electrolytic SPA Temperature ( C) SPA capacitors have stable impedance over the entire temperature range East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

46 SPA Solid Polymer Aluminum SPA vs Solid Tantalum 10 Chip and SMT SPA 10uF/6.3Vdc 7.3x4.3x1.8mm 1 Tantalum 100uF/6.3Vdc 7.3x4.3x2.8mm e.s.r. (Ohms) 0.1 SPA 47uF/6.3Vdc 7.3x4.3x1.8mm Frequency (khz) 100µF 47µF Tantalum Solid Polymer Aluminum Capacitor Electrolytic Capacitor Equivalent series Impedance Equivalent series Impedance Frequency resistance Magnitude Z resistance Magnitude Z (ohm) (ohm) (ohm) (ohm) 100kHz MHz MHz At 1 MHz the Solid Polymer Aluminum capacitor will provide almost 8 times more ripple and noise attenuation (.08/.01) as compared to the tantalum capacitor East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 1.043

47 Chip and SMT SPA vs Tantalum-Polymer Hybrid 100 SPA Solid Polymer Aluminum Impedance 10 Tantalum Polymer Hybrid 150µF/6.3V Ohms 1 Type ESRD 47µF/6.3V 0.1 e.s.r. Capacitance (µf) Frequency (khz) 0 Type ESRD s impedance and equivalent series resistance are lower at high frequencies than that of tantalum-polymer hybrid type capacitors. Tantalum - Polymer Hybrid 150µF/6.3Vdc Type ESRD 47µF/6.3Vdc Frequency (khz) Note the capacitance roll off of the tantalum-polymer capacitor at high frequencies. The tantalum-polymer capacitor loses approximately 2/3 of its capacitance at 100kHz East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

48 SPA Type ESRH SMT Solid Polymer Aluminum Electrolytic Specifications Ratings Ultra-Low E.S.R. Capacitance (µf) +125 C High Frequency Ripple Filters Power Supply Decoupling Bypass Filtering Operating Temperature Range: -55 C to +105 C, at rated voltage (+125 C at.75 x rated voltage) Capacitance Tolerance: ±20% at 120 Hz and +20 C Dissipation Factor (DF): 0.10 at 120Hz and +20 C. Surge Voltage: 1.25 x rated voltage DC Leakage current (after 2 min.): 2-4 Vdc Vdc Rated Voltage WVDC CDE Tape* and Reel Part Number (2000 pcs/reel) Highlights Lowest e.s.r.:< 15 m Ω at 100 khz up to 3.0 A ripple at 100 khz "D"case footprint: 7.3(L)x4.3(W) Ignition Free Solid polymer aluminum capacitors are now available with a +125 C temperature rating. CDE s type ESRH capacitors are rated at +125 C for 1000 hours when operated at 3 /4 of the 105 C rated voltage. SPA electrolytic capacitors feature extremely low e.s.r. which yields a capacitor with very low high frequency impedance and high ripple current capability. When low e.s.r. is your requirement, one type ESRH capacitor can replace three or more tantalum or aluminum electrolytic capacitors. The solid electrolyte in a polymer aluminum capacitor results in a long (and ignition free) life, and the 7.3 x 4.3 footprint is compatible with "D" case solid tantalum capacitors. Outline Drawing Maximum E.S.R. at 100 khz/20 C (Ohms) Ripple Current at 100 khz** +20 to +125 C (Arms) H ± 0.1 (mm) ESRH181M02R ESRH151M0ER ESRH121M04R ESRH101M06R ESRH680M08R Chip and SMT ESRH271M02R ESRH221M0ER ESRH181M04R ESRH151M06R ESRH101M08R *12 mm wide tape -- 13"diameter reel **See ripple current frequency multipliers table East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 1.045

49 Chip and SMT SPA Type ESRH SMT Solid Polymer Aluminum Electrolytic Markings Capacitance W.V. Code D = 2.0V E = 2.5V G = 4.0V J = 6.3V K = 8.0V Lot No. Specifications (continued) Polarity Stripe (Anode) + Life Test: Apply rated DC working voltage at 105 C (or.75xwvdc at 125 C) for 1000 hours, and then stabilize them to +20 C. will meet the following limits: C = ±10% of the initial measured value DF & DCL the initial specified value Shelf Life Test: Shelf life is typically 5 to 10 years. Accelerated test: after 500 hours at 125 C, capacitors will meet the following limits after stabilization at 20 C: C = ±10% of the initial measured value DF & DCL the initial specified value Moisture Resistance: After 500 hours storage at +60 C and 90% R.H. without load, the capacitor will meet the following limits: C = +70%/-20% of the initial measured value (2.0 & 2.5 Vdc), +60%/-20% of the initial measured value (4.0 Vdc), +50%/-20% of the initial measured value (6.3 Vdc), +40%/-20% of the initial measured value (8.0 Vdc). DF two times the initial specified value DCL the initial specified value Resistance to Soldering Heat: withstand being heated in an oven at 235 C for 200 sec.. Typical Impedance & E.S.R. Land Pattern Capacitor Outline Peak Temperature ( C) Frequency (khz) Frequency Multipliers for Sine Wave Current (+20 to +125 C) Time at 200 C or above (seconds) mm Soldering: SPA capacitors are designed for reflow soldering. P reheat the capacitors at 160 C for a maximum of 120 seconds. The time at or above 200 C on the surface of the capacitor should be per the following chart: Ripple current frequency multipliers: ESRH271M02R 270 µf/2 V Impedance/E.S.R. Ohms ESRH680M08R 68 µf/8 V Impedance/E.S.R Frequency (khz) East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

50 Type MC, Surface-Mount Mica Chip High-Frequency, High-Stability Chip for Instruments and RF Performance Highlights Voltages: 100 Vdc, 500 Vdc, and 1000 Vdc Capacitance Range:.5 pf to 2,200 pf Capacitance Tolerance: ±0.25% to ±5% Temperature Range: 55 C to +125 C Low impedance to beyond 1 GHz Near-zero capacitance change, all environments With self-resonant frequencies typically above one gigahertz for popular RF capacitance values and with a Q above 2,000, Type MC capacitors are the answer for high-frequency applications like flight radio and cable television. The natural mica dielectric retains its high-q to many megahertz, so higher and higher frequency applications are limited by the circuit inductance, not the Type MC capacitor. Available in tight tolerance exact values Easy to attach to printed circuit boards Case sizes 0805, 1210, 1812, and 2220 Handles pulses with dv/dt>20,000 V/µs Withstands 200% rated voltage Chip and SMT Ratings Cap Catalog Case pf Number Type 100 Vdc 1 MC08CA010D MC08CA020D MC08CA030D MC08CA040D MC08CA050D MC08CA060D MC08CA070D MC08CA080D MC08CA090D MC08CA100D MC08EA120J MC08EA150J MC08EA180J MC08EA200J MC08EA220J MC08EA240J MC08EA270J MC08EA300J MC08FA330J MC08FA360J MC08FA390J MC08FA430J MC12FA470J MC12FA500J MC12FA510J 1210 Cap Catalog Case pf Number Type 100 Vdc 56 MC12FA560J MC12FA620J MC12FA680J MC12FA750J MC12FA820J MC12FA910J MC12FA101J MC12FA111J MC12FA121J MC12FA131J MC12FA151J MC12FA161J MC12FA181J MC12FA201J MC12FA221J MC12FA241J MC12FA251J MC12FA271J MC12FA301J MC12FA331J MC12FA361J MC12FA391J MC12FA431J MC18FA251J MC18FA271J 1812 Cap Catalog Case pf Number Type 100 Vdc 300 MC18FA301J MC18FA331J MC18FA361J MC18FA391J MC18FA431J MC18FA471J MC18FA501J MC18FA511J MC18FA561J MC18FA621J MC18FA681J MC18FA751J MC18FA821J MC22FA911J MC22FA102J MC22FA112J MC22FA122J MC22FA152J MC22FA182J MC22FA202J MC22FA222J East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 1.047

51 Chip and SMT Ratings Cap Catalog Case pf Number Type 500 Vdc 1 MC12CD010D MC12CD020D MC12CD030D MC12CD040D MC12CD050D MC12CD060D MC12CD070D MC12CD080D MC12CD090D MC12CD100D MC12ED120J MC12ED150J MC12ED180J MC12ED200J MC12ED220J MC12ED240J MC12ED270J MC12ED300J MC12FD330J MC12FD360J MC12FD390J MC12FD430J MC12FD470J MC12FD500J MC12FD510J MC12FD560J MC12FD620J MC12FD680J MC12FD750J MC12FD820J MC12FD910J MC18FD101J MC18FD111J 1812 Type MC, Surface-Mount Mica Chip Cap Catalog Case pf Number Type 500 Vdc 120 MC18FD121J MC18FD131J MC18FD151J MC12FD101J MC12FD111J MC12FD121J MC12FD131J MC12FD151J MC18FD161J MC18FD181J MC18FD201J MC18FD221J MC18FD241J MC18FD251J MC18FD271J MC18FD301J MC18FD331J MC18FD361J MC18FD391J MC18FD431J MC18FD471J MC22FD501J MC22FD511J MC22FD561J MC22FD621J MC22FD681J MC22FD751J MC22FD821J MC22FD911J MC22FD102J MC22FD112J MC22FD122J 2220 Typical Characteristic Curves Cap Catalog Case pf Number Type 1000 Vdc 1 MC12CF010D MC12CF020D MC12CF030D MC12CF040D MC12CF050D MC12CF060D MC12CF070D MC12CF080D MC12CF090D MC12CF100D MC12EF120J MC12EF150J MC12EF180J MC12EF200J MC12EF220J MC12EF240J MC12EF270J MC12EF300J MC12FF330J MC12FF360J MC12FF390J MC12FF430J MC12FF470J MC12FF500J 1210 Cap Catalog Case pf Number Type 1000 Vdc 100 MC22FF101J MC22FF111J MC22FF121J MC22FF131J MC22FF151J MC22FF161J MC22FF181J MC22FF201J MC22FF221J MC22FF241J MC22FF251J MC22FF271J MC22FF301J MC22FF331J MC22FF361J MC22FF391J MC22FF431J MC22FF471J MC22FF501J MC22FF511J MC22FF561J MC22FF621J MC22FF681J MC22FF751J MC22FF821J MC22FF911J MC22FF102J MC22FF112J MC22FF122J MC22FF152J 2220 Q vs. CAPACITANCE CAPACITANCE vs. FREQUENCY Q vs. FREQUENCY % CAPACITANCE CHANGE vs. TEMPERATURE IMPEDANCE vs. FREQUENCY RESONANT FREQUENCY vs. CAPACITANCE East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

52 Type MC, Surface-Mount Mica Chip Specifications Marking Voltage Color brown=100 Vdc R1 green=500 Vdc BRN/GRN=1000 Vdc Capacitance Code Base Code Base Code Value Ltr. Value Ltr. 10 A 40 d 11 B 43 R 12 C 45 e 13 D 47 S 15 E 50 f 16 F 51 T 18 G 56 U 20 H 60 m 22 J 62 V 24 K 68 W 25 a 70 n 27 L 75 X 30 M 80 t 33 N 82 Y 35 b 90 y 36 P 91 Z 39 Q Example: R1 = 43 pf Multiplier Code No. X X 1 1 X 10 2 X X Capacitance is within tolerance when measured as follows: MHz > khz Dissipation Factor is no more than 0.1% when measured as above. Quality Factor (Q) is as follows when measured at 1 MHz. Capacitance Min. Q Range 1 to 80 pf 500 to 3000 >80 pf 3000 Insulation Resistance is no less than 100 GΩ when measured at 100 Vdc. Withstanding Voltage is two times the rated voltage and can be applied up to 5 seconds without damage. Life Test: Subject capacitors to 125±3 C with 1.5 times rated voltage applied for 2000 (+72, 0) hours. There will be no visual damage and the capacitors will meet the limits of the table below. Vibration Resistance: Subject the capacitors to simple harmonic motion with an amplitude of 0.06 inches; vary the frequency uniformly from 10 to 55 Hz and return to 10 Hz, all in one minute. Repeat that cycle continuously for two hours in each of three mutually perpendicular directions. There will be no visual damage and the capacitors will meet the limits of the table below. Bending Test: Solder attach the capacitors to printed-circuit boards. Suspend each board between two edges separated 3.5 inches with the capacitor in the center and on the underside. Press in the center of the suspension until the board flexes downward 0.1 inches. There will be no visual damage and the capacitors will meet the limits of the table below during and after the bending. Moisture Resistance: Subject the capacitors to 40±2 C at 90 to 95% humidity for 500 (+24, 0) hours. Return to room ambient for 24 hours. There will be no visual damage and the capacitors will meet the limits of the table below. Temperature Coefficient and Drift: Measure the capacitors capacitance at 25 C, 55 C, 25 C, 125 C, and at 25 C all ±3 C after stabilizing at each temperature. The capacitance will meet the limits of the Characteristic table in Ordering Information. Heat Resistance: Subject the capacitors to 125±2 C for 2 (+1, 0) hours. Then the insulation resistance will be no less than 5GΩ. Solderability: After 2±0.5 seconds in molten solder with 2.5% silver at 270±5 C, solder coverage will be no less than 90% when examined at 10X magnification for flow soldering and no less than 75% for reflow soldering. Solder Heat Resistance: Subject the capacitors to molten solder as above with 5 minutes preheating at 150±3 C. There will be no visual damage and the capacitors will meet the limits of the table below. Chip and SMT After-Test Limits Test Withstand Insulation Capacitance DF Q Voltage Resistance (whichever >) Life Test IL IL IV±2% or ±.5pF 150% max IL 2/3xIL Vibration Resistance IL 30 GΩ IV±1% or ±1pF IL IL Bending Test IL IV±.5% or ±1pF IL Moisture Res. IL 30 GΩ IV±3% or ±.5pF 150% max IL 2/3xIL Solderability IL IL IL IL IL Heat Resistance 5 GΩ Solder Heat Res. IL 30 GΩ IV±.5% or ±1pF IL IL IL=Initial Limit IV=Initial Value 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 1.049

53 Type MC, Surface-Mount Mica Chip Chip and SMT Ordering Information Order by complete part number, as below. For other options, write your requirements on your quote request. Surface-Mount Chip Mica MC 22 F D 122 J T CDE Case Voltage Capacitance Package Type Code A = 100 Vdc pF = 1pF leave blank for D = 500 Vdc 1R8 1R8=1.8pF = 1.8pF bulk F = 1000 Vdc (187) (187)=187pF = 187pF add T for reel 182=1800pF 182 = 1800pF or tape Characteristic Char Capacitance Temperature Capacitance Capacitance Tolerance Code Range pf Coefficient ppm/ C Drift Tol. Code Tolerance Capacitance Range C 0.5 to ±100 ±(.5% +0.1 pf) B ±0.1 pf 0.5 pf to 10 pf E 10.5 to 30 50±50 ±(.1%+0.1 pf) C ±0.25 pf 0.5 pf to 99.5 pf F 30.5 & up 25±25 ±(.05%+.1 pf) D ±0.5 pf 0.5 pf to 10 pf F ±1 pf 0.5 pf to 10 pf C ±0.25% 100 pf and up D ±0.5% 50.5 pf and up F ±1 % 25.5 pf and up G ±2% 13 pf and up J ±5% 10.5 pf and up Available Capacitance Values Capacitance, pf Minimum Case Cap. Code 100 Vdc 500 Vdc 1000 Vdc Step, pf to 43 N/A N/A to to 100 N/A to to 150 N/A to to to 470 N/A to to 1000 N/A to to to Standard Minimum Shipping Quantities Reel Packed Case Codes 08 & 12: 3,000/reel Case Codes 18 & 22: 1,000/reel Bulk Packed 100 per bag I I Length Width Height Case Sizes Solder-coated Nickel/Silver Termination INCHES MILLIMETERS Case Case I I Code Type L W H min/max L W H min/max / / / / / / *.012/ *.3/1.3 *.157 (4.0 mm) for 1000 V rating East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

54 Type MC, Surface-Mount Mica Chip Surface-Mount Chip Mica for Auto Insertion.51±.02 (13±.5) Chip and SMT.83±.03 (21±.8) W 1 7.0±.08 (178±2) 3.15 (80).078±.02 (2±.5) W 2.078±.02 (2±0.5) P 1 P 2 P 0 d t B L C D W T Carrier Dimensions Item Symbol Case Code Sprocket hole pitch P 1.157±.008 (4.0±0.2) Sprocket hole location B.069±.008 (1.75±0.2) Hole center to cavity center C.138±.002 (3.5±0.05).217±.004 (5.5±0.1) Carrier tape width D.315±.012 (8.0±0.3).472±.012 (12.0±0.3) Sprocket hole diameter d (1.5-0 ) Cavity pitch P 0.157±.004 (4.0±0.1).315±.008 (8.0±0.2) Hole center to cavity center P 2.079±.004 (2.0±0.1) Cavity length L ( ) ( ) ( ) ( ) Cavity width W.075±.008 (1.9±0.2).118±.008 (3.0±0.2).161±.008 (4.1±0.2).217±.008 (5.5±0.2) Cavity depth T.051±.004 (1.3±0.1).059±.004 (1.5±0.1).071±.004 (1.8±0.1).087±.004 (2.2±0.1) Carrier tape thickness t.012±.002 (0.3±0.05) Holder distance W ( ) ( ) Reel thickness W 2 about.47 (12) about.63 (16) 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 1.051

55 Type FCP Surface-Mount Film Chip Chip and SMT Stable non-inductive metallized film capacitors for timing, filtering, by-pass, and decoupling applications. Type FCP stacked metallized polyphenylene sulfide (PPS) film capacitors offer high capacitance per unit volume, stable capacitance and D.F. over a wide temperature range, and excellent high frequency performance. Type FCP capacitors conform to standard EIA 0805, 1206, 1210 & 1913 surface mount case sizes and are packaged on tape and reel. Highlights Capacitance Range of 100 pf to.1 µf Standard EIA 0805, 1206, 1210 & 1913 sizes 16 and 50 Vdc Rated Voltage Capacitance Change from -55 C to 85 C ±.5% Specifications Nominal Capacitance Range: 100 pf to.1µf (1 khz at 5 Vrms) Capacitance Tolerance: ±5% (J) Standard, ±2% (G) Optional Rated Voltage: 16 and 50 Vdc Dissipation Factor (Tan δ): 0.6% Max. (1 khz at 5 Vrms) Life Test: subjected to 1000 hours of maximum rated temperature and 125% of the rated voltage will not have any significant visual damage, the capacitance will be within ±2% of the initial measured value, DF will be a maximum of.66% and IR will be a minimum of 1000 Mohm. Outline Dimensions t L±.2 t T±.2 W±.2 Operating Temperature Range: -55 C to +125 C Dielectric Strength: 175% of rated Vdc for 5 seconds Insulation Resistance: 3000 M Min. at 20 C, 60s. 16 Vdc rated, test 10 Vdc; 50 Vdc rated, test 50 Vdc Construction: Stacked Metallized Polyphenylene Sulfide film Resistance to Soldering Heat: subjected to a 260 C reflow for 5 seconds will not have any significant visual damage, dielectric strength will be as specified, the capacitance will be within ±3% of the initial measured value, DF will be a maximum of.66% and IR will be a minimum of 1000 Mohm. Case Size Outline Dimentions (In.) Case Size OutlineDimentions (mm) Packaging Code L±.008 W T±.008 t (metric) L±.2 W T±.2 t Code ± ± ± J ±0.25 J H ± ± ± ±0.3 H H G ± ± ± ±0.3 G G E ± E ± ± ±0.2 E E D ± D ± ± ±0.2 D D East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

56 Type FCP Surface-Mount Film Chip Land Land Pattern Film Chip Chip and SMT c Solder Resist a b Size Land Dimentions (mm) Code a b c 0805 (2012) (3216) (3225) (4833) (6041) Ratings Capacitance Catalog Case Maximum (µf) (pf) Part Number Code Thickness (in.) 16 Vdc FCP0805C332J-J FCP0805C392J-J FCP0805C472J-J FCP0805C562J-J FCP0805C682J-J FCP0805C822J-J FCP0805C103J-J FCP1206C123J-H FCP1206C153J-H FCP1206C183J-H FCP1206C223J-H FCP1206C273J-H FCP1206C333J-H FCP1206C393J-H FCP1206C473J-H FCP1210C563J-G FCP1210C683J-G FCP1210C823J-G FCP1210C104J-G Vdc FCP0805H101J-J FCP0805H121J-J FCP0805H151J-J FCP0805H181J-J FCP0805H221J-J FCP0805H271J-J FCP0805H331J-J FCP0805H391J-J FCP0805H471J-J FCP0805H561J-J Cleaning Solvents Isopropyl alcohol Trichloro ethane Cleaning Methods Temperature Time Dipping 25 C < 5 min. Vapor < 50 C < 5 min. Ultrasonic < 50 C < 5 min. Dry the circuit board completely after cleaning. Capacitance Catalog Case Maximum (µf) (pf) Part Number Code Thickness (in.) FCP0805H681J-J FCP0805H821J-J FCP0805H102J-J FCP0805H122J-J FCP0805H152J-J FCP0805H182J-J FCP0805H222J-J FCP0805H272J-J FCP1206H332J-H FCP1206H392J-H FCP1206H472J-H FCP1206H562J-H FCP1206H682J-H FCP1206H822J-H FCP1206H103J-H FCP1210H123J-G FCP1210H153J-G FCP1210H183J-G FCP1210H223J-G FCP1210H273J-G FCP1210H333J-G FCP1210H393J-G FCP1913H473J-E FCP1913H563J-E FCP1913H683J-E FCP1913H823J-E FCP1913H104J-E FCP2416H124J-D FCP2416H154J-D FCP2416H184J-D FCP2416H224J-D Ordering Information FCP 0805 H 101 J - J1 Type Case Size Voltage Capacitance Code Tolerance Packaging Code Code C = 16 Vdc H = 50 Vdc pf code 101 = 100pF J = ±5% (G = ±2%) See Standard Ratings Table and page for tape and reeling information 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 1.053

57 Type FCP Surface-Mount Film Chip Chip and SMT Typical Temperature Characteristics Typical Frequency Characteristics East Rodney French Blvd. New Bedford, MA (508) , Fax (508)

58 Type FCP Surface-Mount Film Chip Reel Quantity and Dimensions Chip and SMT Packaging Tape Width Reel Diameter Quantity per Code (mm) (mm) Reel J1, J ,000 H1, H ,000 G1, G2, G3, H ,000 E1, E ,000 Symbol Dimensions (mm) 8 mm Tape 12 mm Tape A C D E 2 2 N r 1 1 W W Tape Dimensions Symbol Dimensions (mm) J1,J2,H1,H2,H3,G1,G2,G3 E1,E2 W 8.0 ± ±0.3 F 3.5 ± ±0.05 E 1.75 ± ±0.1 P1 4.0 ± ±0.1 P2 2.0 ± ±0.05 P0 4.0 ± ±0.1 D /-0 dia /-0 dia. D /-0 dia /-0 dia. mm Type A±0.1 B±0.1 T±0.05 T2±.2 K±.1 J J H1,H H G1,G G E E East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 1.055

59 Chip and SMT Type FCN Surface Mount Film Highlights General Purpose 16, 50, 100, & 250 Vdc ratings 1000 pf to 1.0 µf 1206 to 6040 SMT Case Sizes Reflow Soldering Temperature Ranges; Type FCN stacked metallized film SMT capacitors are the low cost, general purpose line of CDE's surface mount product offerings. They range in capacitance from.001 to 1.0, and are availble in voltage ratings up to 250 Vdc 16 Vdc, 50 Vdc, & 100 Vdc ( <.012 µf) : -55 to +105 C 100 Vdc (.012 µf), & 250 Vdc : -40 to +85 C Type FCN capacitors are designed for applications requiring a general purpose SMT capacitor with stable temperature and frequency characteristics similar to polyester film capacitoes. They are ideal for applications such as EMI noise filtering, power supply input/output filters, audio or signal coupling, and IC power bus bypassing or decoupling. FCN surface mount capacitors have a non-inductive stacked metallized PEN film construction which results in a low e.s.r. and excellent high frequency performance. They are designed to be mounted onto a circuit board using reflow soldering and come packaged on tape and reel. Ratings Chart (Case Size by Capacitance and Voltage) Capacitance (pf code) Vdc East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

60 Type FCN Surface Mount Film Ordering Information Chip and SMT FCN 1913 C 124 J - E1 Type Packaging Case Size Code Packaging Code H2 H3, G2, G3 E1, E2, D1, D2 E3, E4, D3, D4, D5 B, Z U, V, X, Y S, T Voltage C = 16 Vdc H = 50 Vdc A = 100Vdc E = 250Vdc Tape & Reel Specifications Capacitance Code pf code 124 = 120,000pf =0.12 F Tape Width (mm) Reel Dia. in. (mm) 7 (178) 7 (178) 13 (330) 13 (330) 13 (330) 13 (330) 13 (330) Tolerance J = 5% K = 10% Quantity per Reel Packaging Code Symbol H2, H3, G2, G3 E1, E2, E3, E4 Dimensions (mm) D1, D2, B D3, D4, D5, Z U, V, X, Y S, T W F E P P P D D Contents Ratings Chart 1 Ordering Information 2 Packaging 2 Tape & Reel Specification 2 Contents 2 16V & 50V Outline Drawing, Specifications, & Ratings 3 100V (.001 to.01 µf) O. D., Specifications, & Ratings 4 Typical FCN Temperature Characteristics 4 Symbol H2, H3, G2, G3 Dimensions (mm) E1, E2, E3, E4, B D1, D2, D3, D4, D5, Z U, V, X, Y S, T A C D E N W W r V (.012 to 1.0 µf) O. D., Specifications, & Ratings 5 250V (.001 to.068 µf) O. D., Specifications, & Ratings 6 250V (.082 to 1.0 µf) O. D., Specifications, & Ratings 7 Typical FCN Frequency Characteristics 7 Land Pattern 8 Soldering Information 8 Design Kits East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 1.057

61 Chip and SMT Outline Drawing Type FCN Surface Mount Film 16 Vdc & 50 Vdc Ratings Rated Voltage: 16 Vdc (12 Vac) Operating Temperature Range: -55 to +105 C Capacitance Range: 0.12 to 0.47 µf Dielectric Withstand Voltage: 28 Vdc for 5 seconds Capacitance Tolerance ± 5% (J) Insulation Resistance (20 C,10 Vdc, 60 Seconds); D.F. (20 C, 1 khz): 1% For C 0.33 µf: I.R MegΩ Max. capacitor surface temperature: 240 C For C > 0.33 µf: I.R. = 1000 MegΩ µf Min. Capacitance (µf) CDE P.N. Rated Voltage: 50 Vdc (40 Vac) Operating Temperature Range: -55 to +105 C Capacitance Range: to 0.22 µf Dielectric Withstand Voltage: 87.5 Vdc for 5 seconds Capacitance Tolerance ± 5% (J) Insulation Resistance (20 C, 50 Vdc, 60 Seconds); D.F. (20 C, 1 khz): 1% I.R MegΩ Max. capacitor surface temperature: 240 C L ±.008 (±0.2) [in.(mm)] W ±.012 (±0.3) [in.(mm)] T ±.008 (±0.2) [in.(mm)] 0.12 FCN1913C124J-E (4.8) (3.3) (1.4) 0.15 FCN1913C154J-E (4.8) (3.3) (2.0) 0.18 FCN1913C184J-E (4.8) (3.3) (2.0) 0.22 FCN1913C224J-E (4.8) (3.3) (2.4) 0.27 FCN2416C274J-D (6.0) (4.1) (1.8) 0.33 FCN2416C334J-D (6.0) (4.1) (2.0) 0.39 FCN2416C394J-D (6.0) (4.1) (2.4) 0.47 FCN2416C474J-D (6.0) (4.1) (2.8) Capacitance (µf) CDE P.N. L ±.008 (±0.2) [in.(mm)] W ±.012 (±0.3) [in.(mm)] T ±.008 (±0.2) [in.(mm)] FCN1913H563J-E (4.8) (3.3) (2.0) FCN1913H683J-E (4.8) (3.3) (2.0) FCN1913H823J-E (4.8) (3.3) (2.4) 0.10 FCN1913H104J-E (4.8) (3.3) (2.8) 0.12 FCN2416H124J-D (6.0) (4.1) (1.8) 0.15 FCN2416H154J-D (6.0) (4.1) (2.0) 0.18 FCN2416H184J-D (6.0) (4.1) (2.4) 0.22 FCN2416H224J-D (6.0) (4.1) (2.8) East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

62 Type FCN Surface Mount Film Outline Drawing Chip and SMT 100 Vdc Ratings.001µF to.01µf t =.026 ±.012in. (0.65 ± 0.3mm) Rated Voltage: 100 Vdc (63 Vac) Operating Temperature Range: -55 to +105 C Capacitance Range: to µf Dielectric Withstand Voltage: 175 Vdc for 5 seconds Capacitance Tolerance ± 5% (J) Insulation Resistance (20 C, 100 Vdc, 60 Seconds); D.F. (20 C, 1 khz): 1% I.R MegΩ Max. capacitor surface temperature: 240 C Capacitance (µf) CDE P.N. L ±.008 (±0.2) [in.(mm)] W ±.008 (±0.2) [in.(mm)] T ±.008 (±0.2) [in.(mm)] FCN1206A102J-H (3.2) (1.6) (1.1) FCN1206A122J-H (3.2) (1.6) (1.1) FCN1206A152J-H (3.2) (1.6) (1.1) FCN1206A182J-H (3.2) (1.6) (1.1) FCN1206A222J-H (3.2) (1.6) (1.1) FCN1206A272J-H (3.2) (1.6) (1.1) FCN1206A332J-H (3.2) (1.6) (1.5) FCN1206A392J-H (3.2) (1.6) (1.5) FCN1206A472J-H (3.2) (1.6) (1.5) FCN1210A562J-G (3.2) (2.5) (1.5) FCN1210A682J-G (3.2) (2.5) (1.5) FCN1210A822J-G (3.2) (2.5) (2.1) 0.01 FCN1210A103J-G (3.2) (2.5) (2.1) Typical type FCN Temperature Characteristics 3 Capacitance Change 1 Dissipation Factor Change C/C (%) D.F. (%) Temperature ( C) Temperature ( C) 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 1.059

63 Chip and SMT Outline Drawing Type FCN Surface Mount Film 100 Vdc Ratings.012 µf to 1.0 µf Rated Voltage: 100 Vdc (63 Vac) Operating Temperature Range: -40 to +85 C Capacitance Range: to 1.0 µf Dielectric Withstand Voltage: 150 Vdc for 60 seconds Capacitance Tolerance ± 10% (K) Insulation Resistance (20 C, 100 Vdc, 60 Seconds); D.F. (20 C, 1 khz): 1% For C 0.33 µf: I.R MegΩ Max. capacitor surface temperature: 230 C For C > 0.33 µf: I.R. = 1000 MegΩ µf Min. Capacitance (µf) CDE P.N. L ±.008 (±0.2) [in.(mm)] W ±.012 (±0.3) [in.(mm)] T ±.008 (±0.2) [in.(mm)] FCN1913A123K-E (4.8) (3.3) (1.4) FCN1913A153K-E (4.8) (3.3) (1.4) FCN1913A183K-E (4.8) (3.3) (1.4) FCN1913A223K-E (4.8) (3.3) (1.4) FCN1913A273K-E (4.8) (3.3) (1.4) FCN1913A333K-E (4.8) (3.3) (1.4) FCN1913A393K-E (4.8) (3.3) (1.4) FCN1913A473K-E (4.8) (3.3) (2.0) FCN1913A563K-E (4.8) (3.3) (2.0) FCN1913A683K-E (4.8) (3.3) (2.4) FCN1913A823K-E (4.8) (3.3) (2.8) 0.10 FCN2416A104K-D (6.0) (4.1) (1.8) 0.12 FCN2416A124K-D (6.0) (4.1) (2.4) 0.15 FCN2416A154K-D (6.0) (4.1) (2.8) Capacitance (µf) CDE P.N. L ±.016 (±0.4)π [in.(mm)] W ±.016 (±0.4) [in.(mm)] T ±.012 (±0.3) [in.(mm)] 0.18 FCN2820A184K-Z (7.1) (5.0) (2.0) 0.22 FCN2820A224K-Z (7.1) (5.0) (2.4) 0.27 FCN2820A274K-Z (7.1) (5.0) (2.9) 0.33 FCN2820A334K-Z (7.1) (5.0) (3.5) 0.39 FCN3022A394K-X (7.7) (5.5) (3.4) 0.47 FCN3022A474K-X (7.7) (5.5) (4.0) 0.56 FCN3925A564K-V (9.8) (6.3) (3.0) 0.68 FCN3925A684K-V (9.8) (6.3) (3.6) 0.82 FCN3925A824K-V (9.8) (6.3) (4.3) 1.0 FCN3925A105K-V (9.8) (6.3) (5.1) 1 L dimension tolerance is ±.02 (±0.5) for 3925 case size East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

64 Type FCN Surface Mount Film Outline Drawing Chip and SMT 250 Vdc Ratings.001 µf to.068 µf Rated Voltage: 250 Vdc (150 Vac) Operating Temperature Range: -40 to +85 C Capacitance Range: to.068 µf Dielectric Withstand Voltage: 375 Vdc for 60 seconds Capacitance Tolerance ± 10% (K) Insulation Resistance (20 C, 100 Vdc, 60 Seconds); D.F. (20 C, 1 khz): 1% Max. capacitor surface temperature: 230 C I.R MegΩ Capacitance (µf) CDE P.N. L ±.008 (±0.2) [in.(mm)] W ±.012 (±0.3) [in.(mm)] T ±.008 (±0.2) [in.(mm)] FCN1913E102K-E (4.8) (3.3) (1.4) FCN1913E122K-E (4.8) (3.3) (1.4) FCN1913E152K-E (4.8) (3.3) (1.4) FCN1913E182K-E (4.8) (3.3) (1.4) FCN1913E222K-E (4.8) (3.3) (1.4) FCN1913E272K-E (4.8) (3.3) (1.4) FCN1913E332K-E (4.8) (3.3) (1.4) FCN1913E392K-E (4.8) (3.3) (1.4) FCN1913E472K-E (4.8) (3.3) (1.4) FCN1913E562K-E (4.8) (3.3) (1.4) FCN1913E682K-E (4.8) (3.3) (1.4) FCN1913E822K-E (4.8) (3.3) (1.4) FCN1913E103K-E (4.8) (3.3) (1.4) FCN1913E123K-E (4.8) (3.3) (1.4) FCN1913E153K-E (4.8) (3.3) (1.4) FCN1913E183K-E (4.8) (3.3) (2.0) FCN1913E223K-E (4.8) (3.3) (2.0) FCN1913E273K-E (4.8) (3.3) (2.4) FCN1913E333K-E (4.8) (3.3) (2.8) FCN2416E393K-D (6.0) (4.1) (2.0) FCN2416E473K-D (6.0) (4.1) (2.4) FCN2416E563K-D (6.0) (4.1) (2.8) FCN2416E683K-D (6.0) (4.1) (3.2) 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 1.061

65 Chip and SMT Outline Drawing Type FCN Surface Mount Film 250 Vdc Ratings.082 µf to 1.0 µf Rated Voltage: 250 Vdc (150 Vac) Operating Temperature Range: -40 to +85 C Capacitance Range: to 1.0 µf Dielectric Withstand Voltage: 375 Vdc for 60 seconds Capacitance Tolerance ± 10% (K) Insulation Resistance (20 C, 100 Vdc, 60 Seconds); D.F. (20 C, 1 khz): 1% For C 0.33 µf: I.R MegΩ Max. capacitor surface temperature: 230 C For C > 0.33 µf: I.R. = 1000 MegΩ µf Min. Capacitance (µf) CDE P.N. L [in.(mm)] W ±.016 (±0.4) [in.(mm)] T ±.012 (±0.3) [in.(mm)] FCN2420E823K-B 0.236±.008 (6.0±0.2) (5.0) (3.2) 0.10 FCN2420E104K-B 0.236±.008 (6.0±0.2) (5.0) (3.8) 0.12 FCN2420E124K-B 0.236±.008 (6.0±0.2) (5.0) (4.5) 0.15 FCN2825E154K-Y 0.280±.016 (7.1±0.4) (6.3) (3.5) 0.18 FCN2825E184K-Y 0.280±.016 (7.1±0.4) (6.3) (4.1) 0.22 FCN2825E224K-Y 0.280±.016 (7.1±0.4) (6.3) (5.1) 0.27 FCN3925E274K-V 0.386±.020 (9.8±0.5) (6.3) (3.9) 0.33 FCN3925E334K-V 0.386±.020 (9.8±0.5) (6.3) (4.8) 0.39 FCN3931E394K-U 0.386±.020 (9.8±0.5) (8.0) (4.4) 0.47 FCN3931E474K-U 0.386±.020 (9.8±0.5) (8.0) (5.3) 0.56 FCN6031E564K-T 0.598±.020 (15.2±0.5) (8.0) (3.7) 0.68 FCN6031E684K-T 0.598±.020 (15.2±0.5) (8.0) (4.4) 0.82 FCN6040E824K-S 0.598±.020 (15.2±0.5) (10.0) (4.2) 1.0 FCN6040E105K-S 0.598±.020 (15.2±0.5) (10.0) (5.1) Typical type FCN Frequency Characteristics Capacitance Change Dissipation Factor Change C/C (%) D.F. (%) Frequency (khz) Frequency (khz) East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

66 Type FCN Surface Mount Film Land Pattern Capacitor Outline Land Soldering Information A B Land C Case Size Code Land Dimensions A B C in. (mm) (1.8) 0.14 (3.6) 0.06 (1.4) (1.8) 0.14 (3.6) 0.09 (2.3) (2.6) 0.26 (6.6) 0.12 (3.0) (3.8) 0.31 (7.8) 0.15 (3.8) (3.8) 0.31 (7.8) 0.18 (4.6) (4.5) 0.35 (9.0) 0.18 (4.6) (4.5) 0.35 (9.0) 0.22 (5.7) (5.1) 0.38 (9.7) 0.20 (5.0) (7.2) 0.47 (11.9) 0.22 (5.7) (7.2) 0.47 (11.9) 0.28 (7.2) (12.6) 0.68 (17.3) 0.28 (7.2) (12.6) 0.68 (17.3) 0.35 (9.0) Chip and SMT Soldering Reflow method only, not to exceed two reflow processings. Halogen content of flux, solder paste and cleaner should be less than 0.1% for each. Cleaning Solvent Isopropyl alcohol Cleaning Method Temperature Time Immersion 25 C <5min. Vapor <50 C <5min. Ultrasonic <50 C <5min. Dry the circuit board completely after cleaning. Recommended Reflow Soldering Conditions 30 seconds max. above 210 C Design Kits Information on design kits for many CDE products available at the CDE Web site. Kits containing various ratings of FCA, FCN, and FCP surface mount film products are offered. Also available are kits for aluminum electrolytic, polymer aluminum, and mica surface mount capacitors. Visit us at East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 1.063

67 Chip and SMT Type FCA Surface Mount Film High Capacitance 16 Vdc Film Chips 0.1µF to 1.0µF in 0805 to 1210 Case Size Smallest Film Chips Non-Polarized No Piezo Electric Effects Low E.S.R» Filtering» Decoupling» Noise Attenuation» Distortion Free Audio Highlights Type FCA acrylic film capacitors offer high capacitance values in standard surface mount case sizes. They are great for attenuating DC power bus noise, and as ripple filters in dc to dc power conversion circuits. As coupling capacitors in audio circuits, they yield Ratings Capacitance (µf) CDE Part Number Type FCA acrylic film chips are non-inductive stacked metallized film capacitors which feature large capacitance values in standard surface mount case sizes. distortion free sound and better high frequency filtering. The capacitor is constructed of stacked layers of metallized acrylic resin film, and the capacitor surface is sealed in a protective layer of acrylic resin. The terminals are solder plated copper alloy. dv/dt Maximum Current (Arms) (V/µs) 10kHz 20kHz 50kHz 100kHz 200kHz 500kHz 1MHz 0.10 FCA0805C104M-J FCA1206C154M-H FCA1206C224M-H FCA1206C334M-H FCA1206C474M-H FCA1206C684M-H FCA1210C105M-G East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

68 Type FCA Surface Mount Film Chip Specifications Operating Temperature Range; -40 C to +85 C Capacitance Tolerance; ±20% at 1 khz and +20 C Dissipation Factor (DF); It's no more than at 1 khz and +20 C. Dielectric Strength; 175% of rated voltage for 5 seconds Insulation Resistance (I.R.); After 1 10Vdc (+20 C), I.R. > 1000MΩ (C 0.33µF) I.R. > 300MΩ µf (C > 0.33µF) Ac Voltage Rating: 12 Volts rms Resistance to Soldering Heat; The capacitors can withstand being heated in an oven at 235 C for 200 seconds. Shelf Life Test; Shelf life accelerated test: after 500 hours at 105 C, capacitors will meet the following limits after stabilization at 20 C: Life Test; Apply 125% of the rated DC working voltage at 85 C for 1000 hours, and then stabilize them to +20 C. will meet the following limits: C = +7%/-20% of the initial measured value DF 1.65% (at 1kHz) I.R. > 300MΩ (C 0.33µF) I.R. > 100MΩ µ F(C > 0.33µF) Moisture Resistance; After 500 hours with rated voltage applied at +40 C and 90 to 95% R.H., the capacitor will meet the following limits: C = +20/-3% of the initial measured value DF 2.25% (at 1kHz) I.R. > 100MΩ (C 0.33µF) I.R. > 30MΩ µ F(C > 0.33µF) Dielectric Strength: Capacitor will withstand 130% of the rated voltage for 1 minute. Outline Drawing H S S Chip and SMT C = ±10% of the initial measured value DF & DCL the initial specified value Outline Dimensions W L Part Number Suffix Case Code L (±.008in.) W (±.008in.) English H (±.008in.) S (±.012in.) L (±0.2mm) W (±0.2mm) Metric H (±0.2mm) S (±0.3mm) J H H H G East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 1.065

69 Chip and SMT Type FCA Surface Mount Film Chip Temperature Characteristics Frequency Characteristics Capacitance Change (%) Capacitance Change (Typical) Temperature ( C) Capacitance Change (%) Capacitance Change 0.1uF 0.33uF 1.0uF ,000 10,000 Frequency (khz) 2 Dissipation Factor (Typical) uF Dissipation Factor 8.33uF 1.0uF 7 D.F. (%) Temperature ( C) D.F. (%) ,000 10,000 Frequency (khz) Impedance Insulation Resistance I. R. (MegOhms) uF 0.33uF 1.0uF Impedance (ohms) uF.33uF 1.0uF Temperature ( C) ,000 10,000 Frequency (khz) East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

70 Type FCA Surface Mount Film Chip Ordering Information Chip and SMT FCA 0805 C 104 M - J2 Type Case Size Code Voltage C = 16 Vdc Capacitance Code pf code 104 = 100,000pf =.1µF Tolerance M = 20% Packaging Code Packaging Packaging Code Land Pattern Tape Width (mm) Reel Diameter (mm) Quantity per Reel J ,000 H1, H ,000 H ,000 G ,000 Case Size Land Dimensions Code a b c (0.8) (2.4) (1.1) (1.8) (3.6) (1.4) (1.8) (3.6) (2.3) Soldering Information Soldering Reflow method only, not to exceed two reflow processings. Halogen content of flux, solder paste and cleaner should be less than 0.1% for each. Recommended Reflow Soldering Conditions Cleaning Solvent Isopropyl alcohol Cleaning Method Temperature Time Immersion 25 C <5min. Vapor <50 C <5min. Ultrasonic <50 C <5min. Dry the circuit board completely after cleaning East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 1.067

71 Aluminum Electrolytic Aluminum Electrolytic

72 Selector Guide, Aluminum Electrolytic Max Max Load Case Case Best Cap Volts Temp Life Sizes Sizes Bus Type (µf) (Vdc) ( C) (h) (inches) (mm) Application Caps Highlights Page Computergrade, Screw Terminal DCMC 2,700, to C 2000* 1.38x1.63 to 35x41 to UPS, Power Supply Highest µf, x x218 input/output ThermalPak 500C 2,600, to C 5000* 1.38x1.63 to 35x41 to UPS, Power Supply Long Long Life, x x218 Life, input/output ThermalPak 520C 39, to C 8000* 1.38x1.63 to 35x41 to Inverters, High Ripple, Inverter-Grade x x218 Long Life ThermalPak 550C 35, to C 10,000* 1.38x1.63 to 35x41 to Inverters, Higher Ripple, Inverter-Grade x x218 Longer Life ThermalPak 101C 1,500, to C 8,000* 1.38x1.63 to 35x41 to Wide Temp, Power Supply, 55 C, Low ESR x x218 Supply, input/output ThermalPak ,000 5 to C x1.63 to 35x41 to Ultra-High Temp, Power Hi Temperature x x143 Supply Output ThermalPak Snap-In 380LQ 3, to C x0.98 to 22x25 to Compact High Cap, 27% Smaller than x x50 General Purpose 380LX 380L/LX 100, to C x0.98 to 20x25 to High Capacitance, Widest Selection, x x80 General Purpose 45 case sizes 382L/LX 120, to C x0.98 to 35x25 to 4 or 5 terminals, High µf, Rugged x x80 general purpose Reverseproof 381LQ 46, to C x0.98 to 22x25 to Compact High-Ripple, 24% Smaller than x x50 High Temperature 381LX 381L/LX 120, to C x0.98 to 20x25 to High-Ripple, 4 X Life of 380L/LX x x80 High Temperature 383L/LX 150, to C x0.98 to 35x25 to 4 or 5 terminals, High Hi Ripple, Rugged x x80 Ripple, High Temp Reverseproof 381LR 2, to C x0.98 to 22x25 to Ultra-high Ripple Current 25% Higher Ripple x x50 than 381L/LX 381EL 2, to C x0.98 to 22x25 to Ultra-Long Life 10 X Life of 380L/LX x x50 Aluminum Electrolytic Aluminum Screw Terminal Computer Grade Aluminum Snap-In Aluminum Radial Leaded Aluminum Axial Leaded Photoflash Strobe-Flash Radial Leaded MLP 47, to C x1.75x0.5 to 38x44x13 to Flatpack, Ultra-Long Life Hi Ripple, x1.75x.5 51x44x13 Heatsinkable MLS 47, to C x1.75x0.5 to 38x44x13 to Flatpack, Ultra-Long Life Hi Ripple, x1.75x.5 51x44x13 Heatsinkable Aluminum Application Guide 300/301 33, to C x0.78 to 12.5x20 to Long Life, Switching Low ESR, Welded x x92 Power Grade Leads, Low Z@100 khz * Full load ripple life test mounted horizontally per EIA IS Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.001

73 Selector Guide, Aluminum Electrolytic Max Max Load Case Case Best Cap Volts Temp Life Sizes Sizes Bus Type (µf) (Vdc) ( C) (h) (inches) (mm) Application Caps Highlights Page Radial Leaded (continued) Aluminum Electrolytic 330/331 33, to C 0.77x3.65 to 19.5x93 to 30-year Power Supplies High Ripple, Ultra x x92 Long Life 325/326 46, to C x1.15 to 19.5x93 to High Ripple, Automotive x x , to C x1.125 to 19.5x93 to Low Impedance, Low ESL x x92 High Frequency 361R 18, to C x0.78 to 12.5x20 to Miniature, Industrial High Value x1.6 22x40 Grade 4CMC 560, to C 2000* 1.375x1.75 to 35x44 to High Capacitance, Highest Cap, x x146 Computer Grade 3 Leads 400C 530, to C 3000* 1.375x1.75 to 35x44 to Long Life, High Cap, Long Life, x x146 Computer Grade 3-Leads 401C 490, to C 2500* 1.375x1.75 t 35x44 to Low ESR, Wide High Ripple, Wide x x146 Temperature Grade Temp, 3 Leads 420C 27, to C 4000* 1.375x1.75 to 35x44 to Inverters, High Ripple, High Ripple, 3 Leads x x146 Long Life 450C 24, to C 5000* 1.375x1.75 to 35x44 to Inverters, Higher Ripple, Highest Ripple, x x146 Longer Life 3 Leads Axial Leaded NLW to C x.57 to 7x14 to Miniature Computer High Temperature x x40 Grade , to C x.51 to 6.3x13 to Computer Grade Long life, twice x x40 ripple capability , to C x.760 to 16.13x19.30 to Standard, Low DCL Low DCL x x95.25 WBR 10, to C x.57 to 7x14 to General Purpose High Capacitance, x x94 High Voltage 557/UHL 1,000 5 to C x.385 to 7.39x9.78 to Wide Temperature Range High Temperature, x x31.75 Long life , to C x1.25 to 13x32 to High Ripple, Military High Ripple, x x95 Grade High Vibration Photoflash and Strobe 7P 2, & C 100, x.98 to 30x25 to Photoflash, Hi-Energy 100,000 Flashes, flashes 1.57x x80 Snap-in PF 2, C 100, x1.68 to 35x43 to Photoflash, Long Life 100,000 Flashes, flashes 2x x144 Screw Terminals 10 Exceptional life ST to C million 0.98x1.38 to 25x35 to Strobe-Flash,Long Life capability, 30 million flashes 0.98x x50 discharges Aluminum Electrolytic Capacitor Application Guide *Full load ripple life test mounted horizontally per EIA IS 749 Cornell Dubilier is a QPL Supplier for MIL-C capacitors and is ISO 9000 registered Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

74 Aluminum Electrolytic ALUMINUM EXTENDED FOR POSITIVE HEAT CONDUCTION PATH (EXTENDED CATHODE DESIGN) POSITIONING RISER INSIDE CAN BOTTOM MATCHING RISER MOLDED INTO TOP Thermal Pak Construction Benefits Compression Design Better heat transfer because of continuous heat conduction path from core to case. Better Shock & Vibration Performance Capacitor core is firmly anchored and protected from rotational movement. Positive Orientation of Capacitor Core in Case Capacitor core is always upright, never tilted, and centrally located for even heat transfer. More Reliable Safety Vent The vent cannot become clogged with thermoplastic potting compound often used by other manufacturers. Longer Life Electrolytic capacitors gradually build up internal pressure during operation. Absence of thermoplastic potting compound allows more free space for gas thus lowering the rate of internal pressure rise. Lighter Weight Elimination of heavy thermoplastic potting compound reduces weight. Aluminum Electrolytic Your Source for Capacitor Solutions. Our new rallying cry is Your Source for Capacitor Solutions. Cornell Dubilier is an old-line capacitor company reborn with a vision. All of our standard products are capacitors. But most are not popcorn, me-too capacitors. Most have special capabilities that we can mold to solutions for your application needs. The capacitors in this book are capability statements. Think of them as starting places. Let us know your special requirements and we ll tweak the capacitors to meet your needs. To see the extra capability take a look at what s here: The New, Expanded Temperature-Lifetime Calculators allow you to save on bus capacitors by empowering yourself to choose the capacitors you need for your operating conditions and to meet your minimum lifetime requirements. Now you can know precisely how long your bus capacitors will last in a welder, power supply, motor drive, UPS or other inverter application. Three new calculators permit you to input your operating conditions and see the capacitor s hot spot temperature ± 2 C and expected lifetime in 100 h increments. Based on thousands of measurements of the thermal properties of capacitor materials and extensive modeling of ESR versus temperature and frequency, these new calculators take away much of the uncertainty in predicting capacitor expected life, especially in high ripple current applications. These three, easy-to-use calculators are at the Cornell-Dubilier Website, One is for computergrade capacitors, one for snap-in capacitors and a new one for PC-mount computergrade capacitors. New Thermal Pak PC-Mount capacitors are the bettervalue replacement for large snap-in capacitors. Now with extended cathode foil to pull heat from the capacitor element to the can, these new PC-mount computergrades are worth a look. You not only save the labor of installing and tightening two terminal screws and up to 4 mounting-bracket screws for each capacitor, you also gain more capacitance and ripple-current capability per case size. Look for the types beginning with the number 4, 4CMC, 400C, 420C, 450C and 401C. New Type 325 extends large radial-leaded capacitors to 125 C operation. As a complement to the ultra-long-life Type 330 capacitor, the new Type 325 capacitor allows continuous operation at slow, ham-roasting temperatures up to 125 C. Type 325 is the ultra-wide-temperature, low-esr capacitor for switching power-supply outputs and automotive applications. The 125 C capability and exceptionally low ESRs enable high ripple-current capability. With series inductance of 12 to 16 nh and ripple currents to 27 amps one of these capacitors can save by replacing eight to ten of the 12.5 mm diameter capacitors routinely at the output of switching power supplies. New snap-in capacitors are more compact or offer much higher ripple current capability. New Type 381LQ is on average 23% smaller and more than 5 mm shorter using a new can-closure method that permits installing capacitor elements into smaller cans. This enables you to shrink equipment size and retain the original performance. The new Type 381LR can handle an extra 25% ripple current or more. The new, extremely low ESR values really deliver in high ripple current applications like motor drives where you can save by using fewer capacitors. And discover for yourself why the Application Guide, Aluminum Electrolytic at the end of the aluminum electrolytic capacitor section got this unsolicited comment from one of our customers: I just finished reading the guide, and I had to write you guys a note to say thanks, and also a hearty well done to whoever wrote it! I ve been designing and modifying tube and solid-state circuits for quite a few years now, and have never seen a lot of the data in the guide you can find it pretty easily for tantalums, but not for AL s. It answered just about every question I ve ever had on AL s-and never knew where to find the answers. Not only that, but the quality of the writing is exceptional, really super readable! 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.003

75 Aluminum Electrolytic CDE Computergrade Life / Temperature Calculator Aluminum Electrolytic Initial Power Dissipation (W) Initial Core Temp (C) Avg Core Temp over Life (C) Expected Life (hours) CALCULATE? Expected Lifetime/Operating- Temperature Calculator on Web Site The figure above shows the new temperature-lifetime calculator for computergrade, screw terminal capacitors. In the instance here a Type DCMC, 6800 µf 450 V capacitor is operating in 45 C still air with 400 V and ripple currents of 10 amps at 120 Hz and 20 amps at 20 khz. The capacitor is pressed against a heatsink delivering a 2 C/W thermal resistance to ambient air. These operating conditions predict an expected life of 82,700 hours with an average internal hot spot temperature of 59 C. Without the heatsink the temperature would jump to 67 C and the expected life drop to 47,700 hours. That s a drop from nearly 10 years to just more than five years. To see this yourself, try it out at Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

76 Type DCMC, 85 C High Capacitance, Computer Grade, Aluminum 40 C to +85 C, High Capacitance Best Capacitance Value Screw Terminal Type Type DCMC capacitors are the choice for high-capacitance, power supply filters and energy storage applications such as welding equipment, UPS systems and computer hold-up power where high capacitance, low ESR and the ability to handle large ripple currents are the hallmarks. The extended cathode foil of the DCMC assures cool operation with heat flow from the capacitor element to the can. Specifications Highlights Highest capacitance value Right for Power Supply and UPS systems Thermal-Pak extended cathode construction Operating Temperature: 40 C to +85 C Rated Voltage: 6.3 to 550 Vdc Capacitance: 110 µf to 2.7 F Capacitance Tolerance: % up to 100 Vdc, % 160 Vdc & up Leakage Current: 6 CV µa (6mA maximum) at 5 minutes Cold Impedance: 20 C multiple of 25 C Z 20 for V, 8 for 16 50V, 4 for V, 3 for 150V and up. Ripple Current Multipliers: Ambient Temperature 45 C 55 C 65 C 75 C 85 C Aluminum Screw Terminal Computer Grade life MORE ripple cold 500C p C p C p EIA Ripple Life: Shelf Life: Vibration: Frequency 50 Hz 60 Hz 120 Hz 360 Hz 1 khz 5 khz 10 khz & up 1 3/8 & 1 3/4 Diameters: 6.3 to 160 V to 350 V to 550 V & 2 1/2 Diameters: 6.3 to 160 V to 350 V to 550 V & 3 1/2 Diameters: 6.3 to 160 V to 350 V to 550 V ,000 h at full +85 C per EIA IS-749 Capacitance 20% ESR 200% of limit DCL 100% of limit C, capacitance, ESR and DCL, initial requirements. 10 to 55 Hz, 0.06 and 10g max, 1.5 h ea of 2 axis 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.005

77 Type DCMC, 85 C High Capacitance, Computer Grade, Aluminum Outline Drawings Case Dimensions Uninsulated Case Dimensions For insulated case, add (0.610 mm) to D and (0.762 mm) to height. Aluminum Screw Terminal Computer Grade NOTE: With the stud-mount feature, a thermally-conductive disk can be inserted in the bottom flush with the outer insulating sleeve. This reduces the thermal resistance through the can bottom by 0.3 C/W. Order Can Style P. Stud Dimensions ( ) Case Stud P Diam. Thread ( 1.0 mm) M (12.0) M (16.0) M (16.0) M (16.0) M (16.0) Diam. (D) Length (L) Terminals (S) Case Typical Weight Code Inches mm Inches mm Inches mm oz g AK AA AH AB AJ AC AD AE AF EA EH EB EJ EC ED EE EF BA BH BB BJ BC BD BE BF CH CB CJ CC CD CE CF DJ DC DD DE DF DP DN DG FC FD FE FF FP FN FG Terminal Dimensions Post Diameter H max For Case Terminal Style Code inches (mm) inches (mm) Thread Diameters Low Post A (8.0) (2.39) to 3 High Post B (8.0) (7.14) to 3 High Current, Low Post D (17.5) (3.18) to High Current, High Post E (17.5) (7.14) to M5 Post F (13.0) (5.84) M & 3 Note: Only high post and M5 post terminals are available at 550 Vdc as they meet the required creepage distance Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

78 Type DCMC, 85 C High Capacitance, Computer Grade, Aluminum Part Numbering System DCMC 492 U 063 AA 2 B S Type Capacitance Tolerance Voltage Case Code Insulation Terminal Can Style 100 = 10 F M = 20% 6R3 = 6.3 Vdc 0 = None A = Low Post Blank = 101 = 100 F U = 10%+75% 063 = 63 Vdc 1 = Polyester B = High Post Standard 492 = 4900 F T = 10%+50% 100 = 100 Vdc 2 = PVC D = High Current, Can 433 = 43,000 F Low Post S = Stud E = High Current, Bottom Standard insulation is in PVC sleeve with 0.01-in polypropylene end disk. High Post F = M5 Post P = Stud with thermal pad Aluminum Screw Terminal Computer Grade Typical Performance Curves Temperature Characteristics - 100,000 F 10 Vdc Temperature Characteristics - 29,000 F 50 Vdc Temperature Characteristics F 100 Vdc 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.007

79 Type DCMC, 85 C High Capacitance, Computer Grade, Aluminum Typical Performance Curves Aluminum Screw Terminal Computer Grade Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

80 Type DCMC, 85 C High Capacitance, Computer Grade, Aluminum Typical Performance Curves Impedance vs +25 C Aluminum Screw Terminal Computer Grade Ratings ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) 6.3 Vdc (8 Vdc Surge) DCMC283U6R3AK2B /8 X 1 5/ DCMC573U6R3AA2B /8 X 2 1/ DCMC683U6R3AH2B /8 X 2 5/ DCMC913U6R3AB2B /8 X 3 1/ DCMC104U6R3EA2B /4 X 2 1/ DCMC114U6R3AJ2B /8 X 3 5/ DCMC124U6R3EH2B /4 X 2 5/ DCMC134U6R3AC2B /8 X 4 1/ DCMC134U6R3BA2B X 2 1/ DCMC154U6R3BH2B X 2 5/ DCMC164U6R3AD2B /8 X 4 5/ DCMC164U6R3EB2B /4 X 3 1/ DCMC184U6R3AE2B /8 X 5 1/ DCMC204U6R3AF2B /8 X 5 5/ DCMC204U6R3EJ2B /4 X 3 5/ DCMC214U6R3BB2B X 3 1/ DCMC244U6R3EC2B /4 X 4 1/ DCMC264U6R3BJ2B X 3 5/ DCMC264U6R3CH2B /2 X 2 5/ DCMC284U6R3ED2B /4 X 4 5/ DCMC314U6R3BC2B X 4 1/ DCMC324U6R3EE2B /4 X 5 1/ DCMC354U6R3CB2B /2 X 3 1/ DCMC364U6R3EF2B /4 X 5 5/ DCMC374U6R3BD2B X 4 5/ DCMC424U6R3BE2B X 5 1/8 ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) DCMC444U6R3CJ2B /2 X 3 5/ DCMC474U6R3BF2B X 5 5/ DCMC524U6R3DB2B X 3 1/ DCMC534U6R3CC2D /2 X 4 1/ DCMC614U6R3CD2D /2 X 4 5/ DCMC654U6R3DJ2D X 3 5/ DCMC704U6R3CE2D /2 X 5 1/ DCMC784U6R3DC2D X 4 1/ DCMC794U6R3CF2D /2 X 5 5/ DCMC914U6R3DD2D X 4 5/ DCMC105U6R3DE2D X 5 1/ DCMC115U6R3DF2D X 5 5/ DCMC115U6R3FC2D /2 X 4 1/ DCMC125U6R3DP2D X 5 7/ DCMC125U6R3FD2D /2 X 4 5/ DCMC145U6R3FE2D /2 X 5 1/ DCMC165U6R3DN2D X 7 5/ DCMC165U6R3FF2D /2 X 5 5/ DCMC175U6R3FP2D /2 X 5 7/ DCMC195U6R3DG2D X 8 5/ DCMC235U6R3FN2D /2 X 7 5/ DCMC275U6R3FG2D /2 X 8 5/8 10 Vdc (12 Vdc Surge) DCMC243U010AK2B /8 X 1 5/ DCMC443U010AA2B /8 X 2 1/ DCMC573U010AH2B /8 X 2 5/ DCMC763U010AB2B /8 X 3 1/8 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.009

81 Type DCMC, 85 C High Capacitance, Computer Grade, Aluminum Ratings Aluminum Screw Terminal Computer Grade ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) DCMC793U010EA2B /4 X 2 1/ DCMC963U010AJ2B /8 X 3 5/ DCMC104U010EH2B /4 X 2 5/ DCMC104U010BA2B X 2 1/ DCMC114U010AC2B /8 X 4 1/ DCMC134U010AD2B /8 X 4 5/ DCMC144U010EB2B /4 X 3 1/ DCMC144U010BH2B X 2 5/ DCMC154U010AE2B /8 X 5 1/ DCMC174U010AF2B /8 X 5 5/ DCMC174U010EJ2B /4 X 3 5/ DCMC184U010BB2B X 3 1/ DCMC214U010EC2B /4 X 4 1/ DCMC224U010BJ2B X 3 5/ DCMC224U010CH2B /2 X 2 5/ DCMC244U010ED2B /4 X 4 5/ DCMC274U010BC2B X 4 1/ DCMC284U010EE2B /4 X 5 1/ DCMC294U010CB2B /2 X 3 1/ DCMC314U010EF2B /4 X 5 5/ DCMC314U010BD2B X 4 5/ DCMC354U010BE2B X 5 1/ DCMC374U010CJ2B /2 X 3 5/ DCMC404U010BF2B X 5 5/ DCMC434U010DB2B X 3 1/ DCMC444U010CC2B /2 X 4 1/ DCMC514U010CD2B /2 X 4 5/ DCMC544U010DJ2D X 3 5/ DCMC594U010CE2B /2 X 5 1/ DCMC644U010DC2D X 4 1/ DCMC664U010CF2D /2 X 5 5/ DCMC754U010DD2D X 4 5/ DCMC864U010DE2D X 5 1/ DCMC904U010FC2D /2 X 4 1/ DCMC944U010DF2D X 5 5/ DCMC105U010DP2D X 5 7/ DCMC105U010FD2D /2 X 4 5/ DCMC125U010FE2D /2 X 5 1/ DCMC135U010FF2D /2 X 5 5/ DCMC145U010DN2D X 7 5/ DCMC145U010FP2D /2 X 5 7/ DCMC165U010DG2D X 8 5/ DCMC195U010FN2D /2 X 7 5/ DCMC225U010FG2D /2 X 8 5/8 16 Vdc (20 Vdc Surge) DCMC213U016AK2B /8 X 1 5/ DCMC353U016AA2B /8 X 2 1/ DCMC493U016AH2B /8 X 2 5/ DCMC573U016EA2B /4 X 2 1/ DCMC623U016AB2B /8 X 3 1/ DCMC733U016BA2B X 2 1/ DCMC763U016AJ2B /8 X 3 5/ DCMC773U016EH2B /4 X 2 5/ DCMC903U016AC2B /8 X 4 1/ DCMC993U016AD2B /8 X 4 5/ DCMC104U016EB2B /4 X 3 1/ DCMC114U016AE2B /8 X 5 1/ DCMC114U016BH2B X 2 5/ DCMC134U016AF2B /8 X 5 5/ DCMC134U016EJ2B /4 X 3 5/8 ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) DCMC134U016BB2B X 3 1/ DCMC154U016EC2B /4 X 4 1/ DCMC164U016BJ2B X 3 5/ DCMC164U016CH2B /2 X 2 5/ DCMC184U016ED2B /4 X 4 5/ DCMC204U016BC2B X 4 1/ DCMC214U016EE2B /4 X 5 1/ DCMC224U016CB2B /2 X 3 1/ DCMC234U016EF2B /4 X 5 5/ DCMC234U016BD2B X 4 5/ DCMC264U016BE2B X 5 1/ DCMC274U016CJ2B /2 X 3 5/ DCMC294U016BF2B X 5 5/ DCMC324U016CC2B /2 X 4 1/ DCMC324U016DB2B X 3 1/ DCMC384U016CD2B /2 X 4 5/ DCMC404U016DJ2D X 3 5/ DCMC434U016CE2B /2 X 5 1/ DCMC484U016DC2D X 4 1/ DCMC494U016CF2D /2 X 5 5/ DCMC564U016DD2D X 4 5/ DCMC654U016DE2D X 5 1/ DCMC704U016FC2D /2 X 4 1/ DCMC714U016DF2D X 5 5/ DCMC754U016DP2D X 5 7/ DCMC814U016FD2D /2 X 4 5/ DCMC934U016FE2D /2 X 5 1/ DCMC105U016FF2D /2 X 5 5/ DCMC105U016DN2D X 7 5/ DCMC155U016FN2D /2 X 7 5/ DCMC175U016FG2D /2 X 8 5/8 25 Vdc (30 Vdc Surge) DCMC123U025AK2B /8 X 1 5/ DCMC203U025AA2B /8 X 2 1/ DCMC243U025AH2B /8 X 2 5/ DCMC333U025AB2B /8 X 3 1/ DCMC363U025EA2B /4 X 2 1/ DCMC423U025AJ2B /8 X 3 5/ DCMC433U025EH2B /4 X 2 5/ DCMC473U025BA2B X 2 1/ DCMC523U025AC2B /8 X 4 1/ DCMC593U025BH2B X 2 5/ DCMC603U025EB2B /4 X 3 1/ DCMC613U025AD2B /8 X 4 5/ DCMC713U025AE2B /8 X 5 1/ DCMC763U025BB2B X 3 1/ DCMC773U025EJ2B /4 X 3 5/ DCMC803U025AF2B /8 X 5 5/ DCMC903U025CH2B /2 X 2 5/ DCMC943U025EC2B /4 X 4 1/ DCMC983U025BJ2B X 3 5/ DCMC114U025ED2B /4 X 4 5/ DCMC124U025BC2B X 4 1/ DCMC134U025EE2B /4 X 5 1/ DCMC134U025CB2B /2 X 3 1/ DCMC144U025BD2B X 4 5/ DCMC154U025EF2B /4 X 5 5/ DCMC164U025BE2B X 5 1/ DCMC164U025CJ2B /2 X 3 5/ DCMC194U025BF2B X 5 5/ Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

82 Type DCMC, 85 C High Capacitance, Computer Grade, Aluminum Ratings ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) DCMC194U025DB2B X 3 1/ DCMC204U025CC2B /2 X 4 1/ DCMC234U025CD2B /2 X 4 5/ DCMC244U025DJ2D X 3 5/ DCMC274U025CE2B /2 X 5 1/ DCMC304U025DC2D X 4 1/ DCMC314U025CF2B /2 X 5 5/ DCMC354U025DD2D X 4 5/ DCMC404U025DE2D X 5 1/ DCMC434U025FC2D /2 X 4 1/ DCMC464U025DF2D X 5 5/ DCMC494U025DP2D X 5 7/ DCMC504U025FD2D /2 X 4 5/ DCMC584U025FE2D /2 X 5 1/ DCMC664U025FF2D /2 X 5 5/ DCMC674U025DN2D X 7 5/ DCMC704U025FP2D /2 X 5 7/ DCMC784U025DG2D X 8 5/ DCMC954U025FN2D /2 X 7 5/ DCMC115U025FG2D /2 X 8 5/8 35 Vdc (40 Vdc Surge) 8200 DCMC822U035AK2B /8 X 1 5/ DCMC143U035AA2B /8 X 2 1/ DCMC163U035AH2B /8 X 2 5/ DCMC233U035AB2B /8 X 3 1/ DCMC253U035EA2B /4 X 2 1/ DCMC303U035AJ2B /8 X 3 5/ DCMC303U035EH2B /4 X 2 5/ DCMC323U035BA2B X 2 1/ DCMC363U035AC2B /8 X 4 1/ DCMC413U035BH2B X 2 5/ DCMC423U035EB2B /4 X 3 1/ DCMC433U035AD2B /8 X 4 5/ DCMC493U035AE2B /8 X 5 1/ DCMC533U035BB2B X 3 1/ DCMC543U035EJ2B /4 X 3 5/ DCMC563U035AF2B /8 X 5 5/ DCMC633U035CH2B /2 X 2 5/ DCMC663U035EC2B /4 X 4 1/ DCMC693U035BJ2B X 3 5/ DCMC783U035ED2B /4 X 4 5/ DCMC843U035BC2B X 4 1/ DCMC883U035CB2B /2 X 3 1/ DCMC903U035EE2B /4 X 5 1/ DCMC993U035BD2B X 4 5/ DCMC104U035EF2B /4 X 5 5/ DCMC114U035BE2B X 5 1/ DCMC114U035CJ2B /2 X 3 5/ DCMC134U035BF2B X 5 5/ DCMC134U035DB2B X 3 1/ DCMC144U035CC2B /2 X 4 1/ DCMC164U035CD2B /2 X 4 5/ DCMC174U035DJ2B X 3 5/ DCMC194U035CE2B /2 X 5 1/ DCMC214U035CF2B /2 X 5 5/ DCMC214U035DC2B X 4 1/ DCMC244U035DD2D X 4 5/ DCMC284U035DE2D X 5 1/ DCMC304U035FC2D /2 X 4 1/ DCMC324U035DF2D X 5 5/8 ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L µf Part Number (mω) (A) (inches) DCMC344U035DP2D X 5 7/ DCMC354U035FD2D /2 X 4 5/ DCMC414U035FE2D /2 X 5 1/ DCMC464U035FF2D /2 X 5 5/ DCMC474U035DN2D X 7 5/ DCMC494U035FP2D /2 X 5 7/ DCMC554U035DG2D X 8 5/ DCMC684U035FN2D /2 X 7 5/ DCMC794U035FG2D /2 X 8 5/8 50 Vdc (65 Vdc Surge) 5900 DCMC592U050AK2B /8 X 1 5/ DCMC103U050AA2B /8 X 2 1/ DCMC123U050AH2B /8 X 2 5/ DCMC163U050AB2B /8 X 3 1/ DCMC183U050EA2B /4 X 2 1/ DCMC213U050AJ2B /8 X 3 5/ DCMC213U050EH2B /4 X 2 5/ DCMC233U050BA2B X 2 1/ DCMC263U050AC2B /8 X 4 1/ DCMC293U050BH2B X 2 5/ DCMC303U050EB2B /4 X 3 1/ DCMC313U050AD2B /8 X 4 5/ DCMC353U050AE2B /8 X 5 1/ DCMC383U050EJ2B /4 X 3 5/ DCMC383U050BB2B X 3 1/ DCMC403U050AF2B /8 X 5 5/ DCMC453U050CH2B /2 X 2 5/ DCMC473U050EC2B /4 X 4 1/ DCMC493U050BJ2B X 3 5/ DCMC563U050ED2B /4 X 4 5/ DCMC603U050BC2B X 4 1/ DCMC633U050CB2B /2 X 3 1/ DCMC643U050EE2B /4 X 5 1/ DCMC713U050BD2B X 4 5/ DCMC733U050EF2B /4 X 5 5/ DCMC813U050CJ2B /2 X 3 5/ DCMC823U050BE2B X 5 1/ DCMC933U050BF2B X 5 5/ DCMC943U050DB2B X 3 1/ DCMC993U050CC2B /2 X 4 1/ DCMC124U050CD2B /2 X 4 5/ DCMC124U050DJ2B X 3 5/ DCMC134U050CE2B /2 X 5 1/ DCMC154U050CF2B /2 X 5 5/ DCMC154U050DC2B X 4 1/ DCMC174U050DD2B X 4 5/ DCMC204U050DE2B X 5 1/ DCMC204U050FC2B /2 X 4 1/ DCMC234U050DF2D X 5 5/ DCMC234U050FD2D /2 X 4 5/ DCMC244U050DP2D X 5 7/ DCMC274U050FE2D /2 X 5 1/ DCMC314U050FF2D /2 X 5 5/ DCMC324U050FP2D /2 X 5 7/ DCMC354U050DN2D X 7 5/ DCMC394U050DG2D X 8 5/ DCMC454U050FN2D /2 X 7 5/8 520,000 DCMC524U050FG2D /2 X 8 5/8 63 Vdc (75 Vdc Surge) 4100 DCMC412U063AK2B /8 X 1 5/8 Aluminum Screw Terminal Computer Grade 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.011

83 Type DCMC, 85 C High Capacitance, Computer Grade, Aluminum Aluminum Screw Terminal Computer Grade Ratings ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) 7000 DCMC702U063AA2B /8 X 2 1/ DCMC832U063AH2B /8 X 2 5/ DCMC123U063AB2B /8 X 3 1/ DCMC133U063EA2B /4 X 2 1/ DCMC153U063AJ2B /8 X 3 5/ DCMC153U063EH2B /4 X 2 5/ DCMC153U063BA2B X 2 1/ DCMC183U063AC2B /8 X 4 1/ DCMC183U063BH2B X 2 5/ DCMC213U063AD2B /8 X 4 5/ DCMC213U063EB2B /4 X 3 1/ DCMC253U063AE2B /8 X 5 1/ DCMC253U063BB2B X 3 1/ DCMC273U063EJ2B /4 X 3 5/ DCMC283U063AF2B /8 X 5 5/ DCMC293U063CH2B /2 X 2 5/ DCMC323U063BJ2B X 3 5/ DCMC333U063EC2B /4 X 4 1/ DCMC393U063ED2B /4 X 4 5/ DCMC393U063BC2B X 4 1/ DCMC413U063CB2B /2 X 3 1/ DCMC453U063EE2B /4 X 5 1/ DCMC463U063BD2B X 4 5/ DCMC513U063EF2B /4 X 5 5/ DCMC523U063CJ2B /2 X 3 5/ DCMC533U063BE2B X 5 1/ DCMC603U063BF2B X 5 5/ DCMC613U063DB2B X 3 1/ DCMC643U063CC2B /2 X 4 1/ DCMC763U063CD2B /2 X 4 5/ DCMC783U063DJ2B X 3 5/ DCMC873U063CE2B /2 X 5 1/ DCMC953U063DC2B X 4 1/ DCMC993U063CF2B /2 X 5 5/ DCMC114U063DD2B X 4 5/ DCMC134U063DE2B X 5 1/ DCMC134U063FC2B /2 X 4 1/ DCMC154U063DF2B X 5 5/ DCMC154U063FD2B /2 X 4 5/ DCMC164U063DP2B X 5 7/ DCMC184U063FE2B /2 X 5 1/ DCMC204U063FF2B /2 X 5 5/ DCMC214U063FP2B /2 X 5 7/ DCMC234U063DN2D X 7 5/ DCMC254U063DG2D X 8 5/ DCMC304U063FN2D /2 X 7 5/ DCMC354U063FG2D /2 X 8 5/8 75 Vdc (95 Vdc Surge) 3200 DCMC322U075AK2B /8 X 1 5/ DCMC532U075AA2B /8 X 2 1/ DCMC642U075AH2B /8 X 2 5/ DCMC902U075AB2B /8 X 3 1/ DCMC992U075EA2B /4 X 2 1/ DCMC123U075AJ2B /8 X 3 5/ DCMC123U075EH2B /4 X 2 5/ DCMC123U075BA2B X 2 1/ DCMC143U075AC2B /8 X 4 1/ DCMC143U075BH2B X 2 5/ DCMC163U075EB2B /4 X 3 1/8 ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L µf Part Number (mω) (A) (inches) DCMC173U075AD2B /8 X 4 5/ DCMC193U075AE2B /8 X 5 1/ DCMC193U075BB2B X 3 1/ DCMC213U075EJ2B /4 X 3 5/ DCMC223U075AF2B /8 X 5 5/ DCMC233U075CH2B /2 X 2 5/ DCMC253U075BJ2B X 3 5/ DCMC263U075EC2B /4 X 4 1/ DCMC303U075ED2B /4 X 4 5/ DCMC303U075BC2B X 4 1/ DCMC323U075CB2B /2 X 3 1/ DCMC353U075EE2B /4 X 5 1/ DCMC353U075BD2B X 4 5/ DCMC403U075EF2B /4 X 5 5/ DCMC413U075BE2B X 5 1/ DCMC413U075CJ2B /2 X 3 5/ DCMC463U075BF2B X 5 5/ DCMC473U075DB2B X 3 1/ DCMC503U075CC2B /2 X 4 1/ DCMC593U075CD2B /2 X 4 5/ DCMC613U075DJ2B X 3 5/ DCMC683U075CE2B /2 X 5 1/ DCMC743U075DC2B X 4 1/ DCMC773U075CF2B /2 X 5 5/ DCMC883U075DD2B X 4 5/ DCMC104U075DE2B X 5 1/ DCMC104U075FC2B /2 X 4 1/ DCMC114U075DF2B X 5 5/ DCMC124U075DP2B X 5 7/ DCMC124U075FD2B /2 X 4 5/ DCMC144U075FE2B /2 X 5 1/ DCMC164U075FF2B /2 X 5 5/ DCMC174U075DN2D X 7 5/ DCMC174U075FP2B /2 X 5 7/ DCMC204U075DG2B X 8 5/ DCMC234U075FN2D /2 X 7 5/ DCMC274U075FG2D /2 X 8 5/8 100 Vdc (125 Vdc Surge) 1900 DCMC192U100AK2B /8 X 1 5/ DCMC312U100AA2B /8 X 2 1/ DCMC392U100AH2B /8 X 2 5/ DCMC552U100AB2B /8 X 3 1/ DCMC602U100EA2B /4 X 2 1/ DCMC632U100BA2B X 2 1/ DCMC702U100AJ2B /8 X 3 5/ DCMC712U100EH2B /4 X 2 5/ DCMC862U100AC2B /8 X 4 1/ DCMC902U100BH2B X 2 5/ DCMC992U100EB2B /4 X 3 1/ DCMC103U100AD2B /8 X 4 5/ DCMC123U100AE2B /8 X 5 1/ DCMC133U100AF2B /8 X 5 5/ DCMC133U100EJ2B /4 X 3 5/ DCMC133U100BB2B X 3 1/ DCMC153U100CH2B /2 X 2 5/ DCMC163U100EC2B /4 X 4 1/ DCMC163U100BJ2B X 3 5/ DCMC183U100ED2B /4 X 4 5/ DCMC203U100BC2B X 4 1/ Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

84 Type DCMC, 85 C High Capacitance, Computer Grade, Aluminum Ratings ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) DCMC213U100EE2B /4 X 5 1/ DCMC213U100CB2B /2 X 3 1/ DCMC233U100BD2B X 4 5/ DCMC243U100EF2B /4 X 5 5/ DCMC273U100BE2B X 5 1/ DCMC273U100CJ2B /2 X 3 5/ DCMC313U100BF2B X 5 5/ DCMC313U100DB2B X 3 1/ DCMC333U100CC2B /2 X 4 1/ DCMC393U100CD2B /2 X 4 5/ DCMC403U100DJ2B X 3 5/ DCMC453U100CE2B /2 X 5 1/ DCMC493U100DC2B X 4 1/ DCMC513U100CF2B /2 X 5 5/ DCMC583U100DD2B X 4 5/ DCMC673U100DE2B X 5 1/ DCMC673U100FC2B /2 X 4 1/ DCMC763U100DF2B X 5 5/ DCMC793U100FD2B /2 X 4 5/ DCMC803U100DP2B X 5 7/ DCMC923U100FE2B /2 X 5 1/ DCMC104U100FF2B /2 X 5 5/ DCMC114U100DN2B X 7 5/ DCMC114U100FP2B /2 X 5 7/ DCMC134U100DG2B X 8 5/ DCMC154U100FN2D /2 X 7 5/ DCMC184U100FG2D /2 X 8 5/8 160 Vdc (200 Vdc Surge) 1100 DCMC112T160AK2B /8 X 1 5/ DCMC182T160AA2B /8 X 2 1/ DCMC232T160AH2B /8 X 2 5/ DCMC322T160AB2B /8 X 3 1/ DCMC352T160EA2B /4 X 2 1/ DCMC372T160BA2B X 2 1/ DCMC412T160AJ2B /8 X 3 5/ DCMC412T160EH2B /4 X 2 5/ DCMC502T160AC2B /8 X 4 1/ DCMC532T160BH2B X 2 5/ DCMC582T160EB2B /4 X 3 1/ DCMC592T160AD2B /8 X 4 5/ DCMC682T160AE2B /8 X 5 1/ DCMC742T160EJ2B /4 X 3 5/ DCMC742T160BB2B X 3 1/ DCMC772T160AF2B /8 X 5 5/ DCMC832T160CH2B /2 X 2 5/ DCMC912T160EC2B /4 X 4 1/ DCMC952T160BJ2B X 3 5/ DCMC113T160ED2B /4 X 4 5/ DCMC123T160EE2B /4 X 5 1/ DCMC123T160BC2B X 4 1/ DCMC123T160CB2B /2 X 3 1/ DCMC143T160EF2B /4 X 5 5/ DCMC143T160BD2B X 4 5/ DCMC153T160CJ2B /2 X 3 5/ DCMC163T160BE2B X 5 1/ DCMC173T160DB2B X 3 1/ DCMC183T160BF2B X 5 5/ DCMC183T160CC2B /2 X 4 1/ DCMC223T160CD2B /2 X 4 5/ DCMC223T160DJ2B X 3 5/8 ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) DCMC253T160CE2B /2 X 5 1/ DCMC273T160DC2B X 4 1/ DCMC283T160CF2B /2 X 5 5/ DCMC323T160DD2B X 4 5/ DCMC373T160DE2B X 5 1/ DCMC373T160FC2B /2 X 4 1/ DCMC423T160DF2B X 5 5/ DCMC443T160FD2B /2 X 4 5/ DCMC453T160DP2B X 5 7/ DCMC513T160FE2B /2 X 5 1/ DCMC583T160FF2B /2 X 5 5/ DCMC613T160FP2D /2 X 5 7/ DCMC623T160DN2D X 7 5/ DCMC723T160DG2D X 8 5/ DCMC853T160FN2D /2 X 7 5/ DCMC993T160FG2D /2 X 8 5/8 200 Vdc (250 Vdc Surge) 680 DCMC681T200AK2B /8 X 1 5/ DCMC102T200AA2B /8 X 2 1/ DCMC152T200AH2B /8 X 2 5/ DCMC182T200AB2B /8 X 3 1/ DCMC192T200EA2B /4 X 2 1/ DCMC222T200AJ2B /8 X 3 5/ DCMC242T200EH2B /4 X 2 5/ DCMC252T200BA2B X 2 1/ DCMC272T200AC2B /8 X 4 1/ DCMC312T200EB2B /4 X 3 1/ DCMC332T200AD2B /8 X 4 5/ DCMC332T200BH2B X 2 5/ DCMC382T200EJ2B /4 X 3 5/ DCMC392T200AE2B /8 X 5 1/ DCMC432T200BB2B X 3 1/ DCMC452T200AF2B /8 X 5 5/ DCMC462T200EC2B /4 X 4 1/ DCMC542T200ED2B /4 X 4 5/ DCMC552T200CH2B /2 X 2 5/ DCMC562T200BJ2B X 3 5/ DCMC612T200EE2B /4 X 5 1/ DCMC692T200EF2B /4 X 5 5/ DCMC692T200BC2B X 4 1/ DCMC712T200CB2B /2 X 3 1/ DCMC822T200BD2B X 4 5/ DCMC912T200BE2B X 5 1/ DCMC103T200BF2B X 5 5/ DCMC103T200CJ2B /2 X 3 5/ DCMC113T200CC2B /2 X 4 1/ DCMC113T200DB2B X 3 1/ DCMC123T200CD2B /2 X 4 5/ DCMC133T200CE2B /2 X 5 1/ DCMC133T200DJ2B X 3 5/ DCMC153T200CF2B /2 X 5 5/ DCMC153T200DC2B X 4 1/ DCMC183T200DD2B X 4 5/ DCMC213T200FC2B /2 X 4 1/ DCMC223T200DE2B X 5 1/ DCMC243T200DF2B X 5 5/ DCMC253T200FD2B /2 X 4 5/ DCMC263T200DP2B X 5 7/ DCMC283T200FE2B /2 X 5 1/ DCMC313T200FF2B /2 X 5 5/8 Aluminum Screw Terminal Computer Grade 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.013

85 Type DCMC, 85 C High Capacitance, Computer Grade, Aluminum Ratings ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L µf Part Number (mω) (A) (inches) Aluminum Screw Terminal Computer Grade DCMC333T200DN2B X 7 5/ DCMC333T200FP2B /2 X 5 7/ DCMC373T200DG2B X 8 5/ DCMC443T200FN2D /2 X 7 5/ DCMC513T200FG2D /2 X 8 5/8 250 Vdc (300 Vdc Surge) 470 DCMC471T250AK2B /8 X 1 5/8 820 DCMC821T250AA2B /8 X 2 1/ DCMC122T250AH2B /8 X 2 5/ DCMC142T250EA2B /4 X 2 1/ DCMC152T250AB2B /8 X 3 1/ DCMC182T250EH2B /4 X 2 5/ DCMC182T250BA2B X 2 1/ DCMC192T250AJ2B /8 X 3 5/ DCMC232T250AC2B /8 X 4 1/ DCMC232T250EB2B /4 X 3 1/ DCMC242T250AD2B /8 X 4 5/ DCMC252T250BH2B X 2 5/ DCMC272T250AE2B /8 X 5 1/ DCMC302T250EJ2B /4 X 3 5/ DCMC332T250BB2B X 3 1/ DCMC342T250AF2B /8 X 5 5/ DCMC372T250EC2B /4 X 4 1/ DCMC392T250ED2B /4 X 4 5/ DCMC392T250BJ2B X 3 5/ DCMC412T250CH2B /2 X 2 5/ DCMC452T250EE2B /4 X 5 1/ DCMC472T250BC2B X 4 1/ DCMC502T250EF2B /4 X 5 5/ DCMC522T250CB2B /2 X 3 1/ DCMC562T250BD2B X 4 5/ DCMC622T250BE2B X 5 1/ DCMC642T250CJ2B /2 X 3 5/ DCMC682T250BF2B X 5 5/ DCMC782T250DB2B X 3 1/ DCMC822T250CC2B /2 X 4 1/ DCMC103T250CD2B /2 X 4 5/ DCMC103T250DJ2B X 3 5/ DCMC113T250CE2B /2 X 5 1/ DCMC123T250CF2B /2 X 5 5/ DCMC123T250DC2B X 4 1/ DCMC133T250DD2B X 4 5/ DCMC153T250DE2B X 5 1/ DCMC163T250FC2B /2 X 4 1/ DCMC183T250DF2B X 5 5/ DCMC183T250FD2B /2 X 4 5/ DCMC193T250DP2B X 5 7/ DCMC213T250FE2B /2 X 5 1/ DCMC233T250FF2B /2 X 5 5/ DCMC243T250FP2B /2 X 5 7/ DCMC273T250DN2D X 7 5/ DCMC303T250DG2B X 8 5/ DCMC333T250FN2B /2 X 7 5/ DCMC383T250FG2B /2 X 8 5/8 300 Vdc (350 Vdc Surge) 330 DCMC331T300AK2B /8 X 1 5/8 600 DCMC601T300AA2B /8 X 2 1/8 730 DCMC731T300AH2B /8 X 2 5/ DCMC102T300AB2B /8 X 3 1/ DCMC102T300EA2B /4 X 2 1/ DCMC122T300EH2B /4 X 2 5/ DCMC122T300BA2B X 2 1/ DCMC132T300AJ2B /8 X 3 5/ DCMC152T300AC2B /8 X 4 1/ DCMC152T300BH2B X 2 5/ DCMC172T300EB2B /4 X 3 1/ DCMC182T300AD2B /8 X 4 5/ DCMC212T300AE2B /8 X 5 1/ DCMC212T300EJ2B /4 X 3 5/ DCMC222T300BB2B X 3 1/ DCMC232T300AF2B /8 X 5 5/ DCMC262T300EC2B /4 X 4 1/ DCMC262T300CH2B /2 X 2 5/ DCMC282T300BJ2B X 3 5/ DCMC302T300ED2B /4 X 4 5/ DCMC332T300CB2B /2 X 3 1/ DCMC342T300BC2B X 4 1/ DCMC352T300EE2B /4 X 5 1/ DCMC392T300EF2B /4 X 5 5/ DCMC402T300BD2B X 4 5/ DCMC422T300CJ2B /2 X 3 5/ DCMC462T300BE2B X 5 1/ DCMC482T300DB2B X 3 1/ DCMC522T300CC2B /2 X 4 1/ DCMC532T300BF2B X 5 5/ DCMC602T300DJ2B X 3 5/ DCMC612T300CD2B /2 X 4 5/ DCMC712T300CE2B /2 X 5 1/ DCMC742T300DC2B X 4 1/ DCMC802T300CF2B /2 X 5 5/ DCMC872T300DD2B X 4 5/ DCMC103T300DE2B X 5 1/ DCMC103T300FC2B /2 X 4 1/ DCMC113T300DF2B X 5 5/ DCMC123T300DP2B X 5 7/ DCMC123T300FD2B /2 X 4 5/ DCMC133T300FE2B /2 X 5 1/ DCMC153T300FF2B /2 X 5 5/ DCMC163T300DN2B X 7 5/ DCMC163T300FP2B /2 X 5 7/ DCMC193T300DG2B X 8 5/ DCMC223T300FN2B /2 X 7 5/ DCMC263T300FG2B /2 X 8 5/8 350 Vdc (400 Vdc Surge) 220 DCMC221T350AK2B /8 X 1 5/8 430 DCMC431T350AA2B /8 X 2 1/8 510 DCMC511T350AH2B /8 X 2 5/8 680 DCMC681T350AB2B /8 X 3 1/8 760 DCMC761T350EA2B /4 X 2 1/8 860 DCMC861T350AJ2B /8 X 3 5/8 920 DCMC921T350EH2B /4 X 2 5/8 990 DCMC991T350BA2B X 2 1/ DCMC102T350AC2B /8 X 4 1/ DCMC122T350AD2B /8 X 4 5/ DCMC122T350EB2B /4 X 3 1/ DCMC122T350BH2B X 2 5/ DCMC132T350AE2B /8 X 5 1/ DCMC152T350AF2B /8 X 5 5/ Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

86 Type DCMC, 85 C High Capacitance, Computer Grade, Aluminum Ratings ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) 1500 DCMC152T350EJ2B /4 X 3 5/ DCMC152T350BB2B X 3 1/ DCMC182T350EC2B /4 X 4 1/ DCMC192T350BJ2B X 3 5/ DCMC202T350CH2B /2 X 2 5/ DCMC212T350ED2B /4 X 4 5/ DCMC232T350BC2B X 4 1/ DCMC242T350EE2B /4 X 5 1/ DCMC252T350CB2B /2 X 3 1/ DCMC272T350EF2B /4 X 5 5/ DCMC272T350BD2B X 4 5/ DCMC312T350BE2B X 5 1/ DCMC312T350CJ2B /2 X 3 5/ DCMC352T350BF2B X 5 5/ DCMC372T350CC2B /2 X 4 1/ DCMC382T350DB2B X 3 1/ DCMC422T350CD2B /2 X 4 5/ DCMC462T350DJ2B X 3 5/ DCMC482T350CE2B /2 X 5 1/ DCMC542T350CF2B /2 X 5 5/ DCMC552T350DC2B X 4 1/ DCMC632T350DD2B X 4 5/ DCMC722T350DE2B X 5 1/ DCMC772T350FC2B /2 X 4 1/ DCMC822T350DF2B X 5 5/ DCMC842T350DP2B X 5 7/ DCMC882T350FD2B /2 X 4 5/ DCMC103T350FE2B /2 X 5 1/ DCMC113T350DN2B X 7 5/ DCMC113T350FF2B /2 X 5 5/ DCMC123T350FP2B /2 X 5 7/ DCMC133T350DG2B X 8 5/ DCMC163T350FN2B /2 X 7 5/ DCMC183T350FG2B /2 X 8 5/8 400 Vdc (450 Vdc Surge) 180 DCMC181T400AK2B /8 X 1 5/8 350 DCMC351T400AA2B /8 X 2 1/8 420 DCMC421T400AH2B /8 X 2 5/8 570 DCMC571T400AB2B /8 X 3 1/8 630 DCMC631T400EA2B /4 X 2 1/8 710 DCMC711T400AJ2B /8 X 3 5/8 760 DCMC761T400EH2B /4 X 2 5/8 820 DCMC821T400BA2B X 2 1/8 850 DCMC851T400AC2B /8 X 4 1/ DCMC102T400AD2B /8 X 4 5/ DCMC102T400EB2B /4 X 3 1/ DCMC102T400BH2B X 2 5/ DCMC112T400AE2B /8 X 5 1/ DCMC122T400AF2B /8 X 5 5/ DCMC122T400EJ2B /4 X 3 5/ DCMC132T400BB2B X 3 1/ DCMC152T400EC2B /4 X 4 1/ DCMC162T400BJ2B X 3 5/ DCMC172T400ED2B /4 X 4 5/ DCMC172T400CH2B /2 X 2 5/ DCMC192T400BC2B X 4 1/ DCMC202T400EE2B /4 X 5 1/ DCMC212T400CB2B /2 X 3 1/8 ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) 2200 DCMC222T400EF2B /4 X 5 5/ DCMC232T400BD2B X 4 5/ DCMC262T400BE2B X 5 1/ DCMC262T400CJ2B /2 X 3 5/ DCMC292T400BF2B X 5 5/ DCMC312T400CC2B /2 X 4 1/ DCMC322T400DB2B X 3 1/ DCMC392T400CD2B /2 X 4 5/ DCMC392T400DJ2B X 3 5/ DCMC402T400CE2B /2 X 5 1/ DCMC472T400CF2B /2 X 5 5/ DCMC472T400DC2B X 4 1/ DCMC532T400DD2B X 4 5/ DCMC602T400DE2B X 5 1/ DCMC642T400FC2B /2 X 4 1/ DCMC682T400DF2B X 5 5/ DCMC712T400DP2B X 5 7/ DCMC742T400FD2B /2 X 4 5/ DCMC842T400FE2B /2 X 5 1/ DCMC942T400FF2B /2 X 5 5/ DCMC962T400DN2B X 7 5/ DCMC992T400FP2B /2 X 5 7/ DCMC113T400DG2B X 8 5/ DCMC133T400FN2B /2 X 7 5/ DCMC153T400FG2B /2 X 8 5/8 450 Vdc (500 Vdc Surge) 150 DCMC151T450AK2B /8 X 1 5/8 270 DCMC271T450AA2B /8 X 2 1/8 350 DCMC351T450AH2B /8 X 2 5/8 460 DCMC461T450EA2B /4 X 2 1/8 470 DCMC471T450AB2B /8 X 3 1/8 560 DCMC561T450AJ2B /8 X 3 5/8 570 DCMC571T450EH2B /4 X 2 5/8 590 DCMC591T450BA2B X 2 1/8 680 DCMC681T450AC2B /8 X 4 1/8 740 DCMC741T450EB2B /4 X 3 1/8 780 DCMC781T450BH2B X 2 5/8 820 DCMC821T450AD2B /8 X 4 5/8 920 DCMC921T450EJ2B /4 X 3 5/8 930 DCMC931T450AE2B /8 X 5 1/ DCMC102T450AF2B /8 X 5 5/ DCMC102T450BB2B X 3 1/ DCMC112T450EC2B /4 X 4 1/ DCMC122T450BJ2B X 3 5/ DCMC122T450CH2B /2 X 2 5/ DCMC132T450ED2B /4 X 4 5/ DCMC152T450EE2B /4 X 5 1/ DCMC152T450BC2B X 4 1/ DCMC172T450EF2B /4 X 5 5/ DCMC172T450CB2B /2 X 3 1/ DCMC182T450BD2B X 4 5/ DCMC192T450BE2B X 5 1/ DCMC202T450CJ2B /2 X 3 5/ DCMC222T450BF2B X 5 5/ DCMC242T450CC2B /2 X 4 1/ DCMC252T450DB2B X 3 1/ DCMC282T450CD2B /2 X 4 5/ DCMC302T450DJ2B X 3 5/8 Aluminum Screw Terminal Computer Grade 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.015

87 Type DCMC, 85 C High Capacitance, Computer Grade, Aluminum Aluminum Screw Terminal Computer Grade Ratings ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) 3300 DCMC332T450CE2B /2 X 5 1/ DCMC392T450CF2B /2 X 5 5/ DCMC392T450DC2B X 4 1/ DCMC412T450DD2B X 4 5/ DCMC472T450DE2B X 5 1/ DCMC502T450FC2B /2 X 4 1/ DCMC562T450DF2B X 5 5/ DCMC582T450DP2B X 5 7/ DCMC582T450FD2B /2 X 4 5/ DCMC682T450FE2B /2 X 5 1/ DCMC732T450FF2B /2 X 5 5/ DCMC772T450FP2B /2 X 5 7/ DCMC792T450DN2B X 7 5/ DCMC902T450DG2B X 8 5/ DCMC103T450FN2B /2 X 7 5/ DCMC123T450FG2B /2 X 8 5/8 500 Vdc (550 Vdc Surge) 110 DCMC111T500AK2B /8 X 1 5/8 180 DCMC181T500AA2B /8 X 2 1/8 240 DCMC241T500AH2B /8 X 2 5/8 270 DCMC271T500EA2B /4 X 2 1/8 320 DCMC321T500AB2B /8 X 3 1/8 340 DCMC341T500BA2B X 2 1/8 380 DCMC381T500EH2B /4 X 2 5/8 400 DCMC401T500AJ2B /8 X 3 5/8 470 DCMC471T500BH2B X 2 5/8 480 DCMC481T500AC2B /8 X 4 1/8 500 DCMC501T500EB2B /4 X 3 1/8 560 DCMC561T500AD2B /8 X 4 5/8 640 DCMC641T500AE2B /8 X 5 1/8 650 DCMC651T500EJ2B /4 X 3 5/8 700 DCMC701T500BB2B X 3 1/8 720 DCMC721T500AF2B /8 X 5 5/8 790 DCMC791T500EC2B /4 X 4 1/8 800 DCMC801T500CH2B /2 X 2 5/8 860 DCMC861T500BJ2B X 3 5/8 930 DCMC931T500ED2B /4 X 4 5/8 ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L µf Part Number (mω) (A) (inches) 1000 DCMC102T500BC2B X 4 1/ DCMC112T500EE2B /4 X 5 1/ DCMC112T500CB2B /2 X 3 1/ DCMC122T500EF2B /4 X 5 5/ DCMC122T500BD2B X 4 5/ DCMC142T500BE2B X 5 1/ DCMC142T500CJ2B /2 X 3 5/ DCMC152T500BF2B X 5 5/ DCMC172T500CC2B /2 X 4 1/ DCMC172T500DB2B X 3 1/ DCMC212T500CE2B /2 X 5 1/ DCMC222T500CD2B /2 X 4 5/ DCMC222T500DJ2B X 3 5/ DCMC252T500CF2B /2 X 5 5/ DCMC252T500DC2B X 4 1/ DCMC302T500DD2B X 4 5/ DCMC342T500DE2B X 5 1/ DCMC352T500FC2B /2 X 4 1/ DCMC392T500DF2B X 5 5/ DCMC412T500DP2B X 5 7/ DCMC412T500FD2B /2 X 4 5/ DCMC482T500FE2B /2 X 5 1/ DCMC542T500FF2B /2 X 5 5/ DCMC572T500FP2B /2 X 5 7/ DCMC572T500DN2B X 7 5/ DCMC662T500DG2B X 8 5/ DCMC792T500FN2B /2 X 7 5/8 9,200 DCMC922T500FG2B /2 X 8 5/8 550 Vdc (600 Vdc Surge) 1400 DCMC142T550CC2B /2 X DCMC172T550CD2B /2 X DCMC192T550CE2B /2 X DCMC222T550DC2B X DCMC232T550CF2B /2 X DCMC252T550DD2B X DCMC292T550DE2B X DCMC342T550DF2B X Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

88 Type 500C, 95 C Long-life, Computer Grade, Aluminum Computer Grade, 40 C to +95 C, Long Life Specifications Twice the Life! Type 500C capacitors are designed for mainframe computers and other long life UPS and power supply filter applications. They deliver nearly as much capacitance as the Type DCMC capacitors, but with two times the life expectancy. They are an excellent choice for high ripple applications. The extended cathode foil of the 500C assures cool operation with heat flow from the capacitor element to the can. Highlights Long-life, High-Capacitance Better for Power-supply and UPS systems Thermal-Pak extended cathode construction Operating Temperature: 40 C to +95 C Rated Voltage: 6.3 to 500 Vdc Capacitance: 100 F to 2.6 F Capacitance Tolerance: <200 Vdc: % 200 Vdc: 10% +50% Leakage Current: 3 CV A at 5 minutes; 4mA max. Cold Impedance: 20 C multiple of 25 C Z 20 for V, 8 for 16 50V, 4 for V, 3 for 150V and up. Ripple Current Multipliers: Ambient Temperature 45 C 55 C 65 C 75 C 85 C Aluminum Screw Terminal Computer Grade Frequency 50 Hz 60 Hz 120 Hz 360 Hz 1 khz 5 khz 10 khz & up DCMC p F life MORE ripple cold 520C p C p C p /8 & 1 3/4 Diameters: 6.3 to 160 V to 350 V to 500 Vx & 2 1/2 Diameters: 6.3 to 160 V to 350 V to 500 V & 3 1/2 Diameters: 6.3 to 160 V to 350 V to 500 V EIA Ripple Life: Shelf Life: Vibration: 5,000 h at full +85 C per EIA IS-749 Capacitance 20% ESR 200% of limit DCL 100% of limit C, Capacitance, ESR and DCL, initial requirements. 10 to 55 Hz, 0.06 and 10 g max, 1.5 h ea. of 2 axis 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.017

89 Type 500C, 95 C Long-life, Computer Grade, Aluminum Outline Drawings Case Dimensions Uninsulated Case Dimensions For insulated case, add (0.610 mm) to D and (0.762 mm) to height. Aluminum Screw Terminal Computer Grade Stud Dimensions Case Stud P Diam. Thread ( 1.0 mm) M (12.0) M (16.0) M (16.0) M (16.0) M (16.0) ( ) NOTE: With the stud-mount feature, a thermally-conductive disk can be inserted in the bottom flush with the outer insulating sleeve. This reduces the thermal resistance through the can bottom by 0.3 C/W. Order Can Style P. Diam. (D) Length (L) Terminals (S) Case Typical Weight Code Inches mm Inches mm Inches mm oz g AK AA AH AB AJ AC AD AE AF EA EH EB EJ EC ED EE EF BA BH BB BJ BC BD BE BF CH CB CJ CC CD CE CF DJ DC DD DE DF DP DN DG FC FD FE FF FP FN FG Terminal Dimensions Post Diameter H max For Case Terminal Style Code inches (mm) inches (mm) Thread Diameters Low Post A (8.0) (2.39) to 3 High Post B (8.0) (7.14) to 3 High Current, Low Post D (17.5) (3.18) to High Current, High Post E (17.5) (7.14) to M5 Post F (13.0) (5.84) M & Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

90 Type 500C, 95 C Long-life, Computer Grade, Aluminum Part Numbering System 500C 492 U 063 AA 2 B S Type Capacitance Tolerance Voltage Case Code Insulation Terminal Can Style 500C 100 = 10 F M = 20% 6R3 = 6.3 Vdc 0 = None A = Low Post Blank = 101 = 100 F U = 10%+75% 063 = 63 Vdc 1 = Polyester B = High Post Standard 492 = 4900 F T = 10%+50% 100 = 100 Vdc 2 = PVC D = High Current, Can 433 = 43,000 F Low Post S = Stud E = High Current, Mount Standard insulation is in PVC sleeve with 0.01-in polypropylene end disk. Typical Performance Curves High Post F = M5 Post P = Stud with thermal pad Aluminum Screw Terminal Computer Grade Impedance vs. +25 C Temperature Characteristics - 29,000 F 50 Vdc Temperature Characteristics - 98,000 F 10 Vdc Temperature Characteristics F 100 Vdc 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.019

91 Type 500C, 95 C Long-life, Computer Grade, Aluminum Typical Performance Curves Aluminum Screw Terminal Computer Grade Ratings ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) 6.3 Vdc (8 Vdc Surge) C273U6R3AK2B /8 X 1 5/ C553U6R3AA2B /8 X 2 1/ C663U6R3AH2B /8 X 2 5/ C873U6R3AB2B /8 X 3 1/ C963U6R3EA2B /4 X 2 1/ C114U6R3AJ2B /8 X 3 5/ C124U6R3EH2B /4 X 2 5/ C124U6R3BA2B X 2 1/ C134U6R3AC2B /8 X 4 1/ C144U6R3BH2B X 2 5/ C154U6R3AD2B /8 X 4 5/ C164U6R3EB2B /4 X 3 1/ C174U6R3AE2B /8 X 5 1/ C194U6R3AF2B /8 X 5 5/ C194U6R3EJ2B /4 X 3 5/ C204U6R3BB2B X 3 1/ C234U6R3EC2B /4 X 4 1/ C254U6R3BJ2B X 3 5/ C254U6R3CH2B /2 X 2 5/ C274U6R3ED2B /4 X 4 5/ C304U6R3BC2B X 4 1/ C314U6R3EE2B /4 X 5 1/ C344U6R3CB2B /2 X 3 1/ C354U6R3EF2B /4 X 5 5/ C364U6R3BD2B X 4 5/ C414U6R3BE2B X 5 1/ C424U6R3CJ2B /2 X 3 5/ C454U6R3BF2D X 5 5/ C504U6R3DB2D X 3 1/ C514U6R3CC2D /2 X 4 1/ C584U6R3CD2D /2 X 4 5/ C624U6R3DJ2D X 3 5/ C684U6R3CE2D /2 X 5 1/ C744U6R3DC2D X 4 1/ C764U6R3CF2D /2 X 5 5/8 ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) C884U6R3DD2D X 4 5/ C984U6R3DE2D X 5 1/ C115U6R3DF2D X 5 5/ C115U6R3FC2D /2 X 4 1/ C115U6R3FD2D /2 X 4 5/ C125U6R3DP2D X 5 7/ C145U6R3FE2D /2 X 5 1/ C165U6R3FF2D /2 X 5 5/ C165U6R3DN2D X 7 5/ C175U6R3FP2D /2 X 5 7/ C185U6R3DG2D X 8 5/ C235U6R3FN2D /2 X 7 5/ C265U6R3FG2D /2 X 8 5/8 10 Vdc (12 Vdc Surge) C223U010AK2B /8 X 1 5/ C393U010AA2B /8 X 2 1/ C523U010AH2B /8 X 2 5/ C703U010AB2B /8 X 3 1/ C713U010EA2B /4 X 2 1/ C873U010AJ2B /8 X 3 5/ C953U010EH2B /4 X 2 5/ C104U010AC2B /8 X 4 1/ C104U010BA2B X 2 1/ C124U010AD2B /8 X 4 5/ C134U010EB2B /4 X 3 1/ C134U010BH2B X 2 5/ C144U010AE2B /8 X 5 1/ C164U010AF2B /8 X 5 5/ C164U010EJ2B /4 X 3 5/ C164U010BB2B X 3 1/ C194U010EC2B /4 X 4 1/ C204U010BJ2B X 3 5/ C204U010CH2B /2 X 2 5/ C224U010ED2B /4 X 4 5/ C244U010BC2B X 4 1/ C254U010EE2B /4 X 5 1/ Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

92 Type 500C, 95 C Long-life, Computer Grade, Aluminum Ratings ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) C274U010CB2B /2 X 3 1/ C284U010EF2B /4 X 5 5/ C284U010BD2B X 4 5/ C324U010BE2B X 5 1/ C344U010CJ2B /2 X 3 5/ C364U010BF2B X 5 5/ C404U010DB2D X 3 1/ C414U010CC2B /2 X 4 1/ C484U010CD2D /2 X 4 5/ C504U010DJ2D X 3 5/ C554U010CE2D /2 X 5 1/ C604U010DC2D X 4 1/ C614U010CF2D /2 X 5 5/ C704U010DD2D X 4 5/ C804U010DE2D X 5 1/ C834U010FC2D /2 X 4 1/ C874U010DF2D X 5 5/ C934U010DP2D X 5 7/ C974U010FD2D /2 X 4 5/ C115U010FE2D /2 X 5 1/ C125U010FF2D /2 X 5 5/ C135U010FP2D /2 X 5 7/ C135U010DN2D X 7 5/ C155U010DG2D X 8 5/ C175U010FN2D /2 X 7 5/ C205U010FG2D /2 X 8 5/8 16 Vdc (20 Vdc Surge) C153U016AK2B /8 X 1 5/ C273U016AA2B /8 X 2 1/ C363U016AH2B /8 X 2 5/ C483U016AB2B /8 X 3 1/ C493U016EA2B /4 X 2 1/ C613U016AJ2B /8 X 3 5/ C663U016EH2B /4 X 2 5/ C713U016BA2B X 2 1/ C733U016AC2B /8 X 4 1/ C853U016AD2B /8 X 4 5/ C883U016EB2B /4 X 3 1/ C903U016BH2B X 2 5/ C973U016AE2B /8 X 5 1/ C114U016AF2B /8 X 5 5/ C114U016EJ2B /4 X 3 5/ C114U016BB2B X 3 1/ C134U016EC2B /4 X 4 1/ C144U016BJ2B X 3 5/ C144U016CH2B /2 X 2 5/ C154U016ED2B /4 X 4 5/ C174U016BC2B X 4 1/ C184U016EE2B /4 X 5 1/ C194U016CB2B /2 X 3 1/ C204U016EF2B /4 X 5 5/ C204U016BD2B X 4 5/ C224U016BE2B X 5 1/ C234U016CJ2B /2 X 3 5/ C254U016BF2B X 5 5/ C284U016CC2B /2 X 4 1/ C284U016DB2D X 3 1/ C324U016CD2D /2 X 4 5/8 ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) C354U016DJ2D X 3 5/ C374U016CE2D /2 X 5 1/ C424U016CF2D /2 X 5 5/ C424U016DC2D X 4 1/ C494U016DD2D X 4 5/ C554U016DE2D X 5 1/ C604U016FC2D /2 X 4 1/ C614U016DF2D X 5 5/ C644U016DP2D X 5 7/ C704U016FD2D /2 X 4 5/ C804U016FE2D /2 X 5 1/ C874U016FF2D /2 X 5 5/ C874U016DN2D X 7 5/ C924U016FP2D /2 X 5 7/ C105U016DG2D X 8 5/ C135U016FN2D /2 X 7 5/ C155U016FG2D /2 X 8 5/8 25 Vdc (30 Vdc Surge) C113U025AK2B /8 X 1 5/ C183U025AA2B /8 X 2 1/ C263U025AH2B /8 X 2 5/ C333U025EA2B /4 X 2 1/ C343U025AB2B /8 X 3 1/ C393U025EH2B /4 X 2 5/ C433U025AJ2B /8 X 3 5/ C473U025BA2B X 2 1/ C513U025AC2B /8 X 4 1/ C533U025BH2B X 2 5/ C543U025EB2B /4 X 3 1/ C603U025AD2B /8 X 4 5/ C693U025AE2B /8 X 5 1/ C693U025BB2B X 3 1/ C703U025EJ2B /4 X 3 5/ C773U025AF2B /8 X 5 5/ C823U025CH2B /2 X 2 5/ C863U025EC2B /4 X 4 1/ C893U025BJ2B X 3 5/ C104U025ED2B /4 X 4 5/ C114U025BC2B X 4 1/ C114U025CB2B /2 X 3 1/ C124U025EE2B /4 X 5 1/ C134U025EF2B /4 X 5 5/ C134U025BD2B X 4 5/ C154U025BE2B X 5 1/ C154U025CJ2B /2 X 3 5/ C174U025BF2B X 5 5/ C174U025DB2B X 3 1/ C184U025CC2B /2 X 4 1/ C214U025CD2B /2 X 4 5/ C224U025DJ2D X 3 5/ C254U025CE2D /2 X 5 1/ C274U025DC2D X 4 1/ C284U025CF2D /2 X 5 5/ C324U025DD2D X 4 5/ C374U025DE2D X 5 1/ C394U025FC2D /2 X 4 1/ C424U025DF2D X 5 5/ C444U025DP2D X 5 7/8 Aluminum Screw Terminal Computer Grade 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.021

93 Aluminum Screw Terminal Computer Grade Type 500C, 95 C Long-life, Computer Grade, Aluminum Ratings ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) C464U025FD2D /2 X 4 5/ C534U025FE2D /2 X 5 1/ C604U025FF2D /2 X 5 5/ C614U025DN2D X 7 5/ C634U025FP2D /2 X 5 7/ C714U025DG2D X 8 5/ C874U025FN2D /2 X 7 5/ C105U025FG2D /2 X 8 5/8 35 Vdc (40 Vdc Surge) C662U035AK2B /8 X 1 5/ C113U035AA2B /8 X 2 1/ C163U035AH2B /8 X 2 5/ C203U035EA2B /4 X 2 1/ C213U035AB2B /8 X 3 1/ C243U035EH2B /4 X 2 5/ C263U035AJ2B /8 X 3 5/ C263U035BA2B X 2 1/ C323U035AC2B /8 X 4 1/ C333U035BH2B X 2 5/ C343U035EB2B /4 X 3 1/ C373U035AD2B /8 X 4 5/ C423U035AE2B /8 X 5 1/ C433U035EJ2B /4 X 3 5/ C433U035BB2B X 3 1/ C483U035AF2B /8 X 5 5/ C513U035CH2B /2 X 2 5/ C533U035EC2B /4 X 4 1/ C553U035BJ2B X 3 5/ C623U035ED2B /4 X 4 5/ C673U035BC2B X 4 1/ C713U035CB2B /2 X 3 1/ C723U035EE2B /4 X 5 1/ C803U035BD2B X 4 5/ C823U035EF2B /4 X 5 5/ C913U035CJ2B /2 X 3 5/ C923U035BE2B X 5 1/ C104U035BF2B X 5 5/ C114U035CC2B /2 X 4 1/ C114U035DB2B X 3 1/ C134U035CD2B /2 X 4 5/ C144U035DJ2B X 3 5/ C154U035CE2B /2 X 5 1/ C174U035CF2B /2 X 5 5/ C174U035DC2D X 4 1/ C204U035DD2D X 4 5/ C234U035DE2D X 5 1/ C244U035FC2D /2 X 4 1/ C264U035DF2D X 5 5/ C274U035DP2D X 5 7/ C284U035FD2D /2 X 4 5/ C334U035FE2D /2 X 5 1/ C374U035FF2D /2 X 5 5/ C384U035DN2D X 7 5/ C394U035FP2D /2 X 5 7/ C444U035DG2D X 8 5/ C544U035FN2D /2 X 7 5/ C634U035FG2D /2 X 8 5/8 ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) 50 Vdc (65 Vdc Surge) C452U050AK2B /8 X 1 5/ C762U050AA2B /8 X 2 1/ C113U050AH2B /8 X 2 5/ C143U050AB2B /8 X 3 1/ C143U050EA2B /4 X 2 1/ C163U050EH2B /4 X 2 5/ C173U050BA2B X 2 1/ C183U050AJ2B /8 X 3 5/ C213U050AC2B /8 X 4 1/ C223U050BH2B X 2 5/ C233U050EB2B /4 X 3 1/ C253U050AD2B /8 X 4 5/ C293U050AE2B /8 X 5 1/ C293U050EJ2B /4 X 3 5/ C293U050BB2B X 3 1/ C323U050AF2B /8 X 5 5/ C343U050CH2B /2 X 2 5/ C363U050EC2B /4 X 4 1/ C373U050BJ2B X 3 5/ C423U050ED2B /4 X 4 5/ C463U050BC2B X 4 1/ C483U050CB2B /2 X 3 1/ C493U050EE2B /4 X 5 1/ C543U050BD2B X 4 5/ C553U050EF2B /4 X 5 5/ C623U050BE2B X 5 1/ C623U050CJ2B /2 X 3 5/ C703U050BF2B X 5 5/ C723U050DB2B X 3 1/ C753U050CC2B /2 X 4 1/ C893U050CD2B /2 X 4 5/ C923U050DJ2B X 3 5/ C104U050CE2B /2 X 5 1/ C114U050DC2B X 4 1/ C124U050CF2B /2 X 5 5/ C134U050DD2D X 4 5/ C154U050DE2D X 5 1/ C154U050FC2D /2 X 4 1/ C174U050DF2D X 5 5/ C184U050DP2D X 5 7/ C184U050FD2D /2 X 4 5/ C204U050FE2D /2 X 5 1/ C234U050FF2D /2 X 5 5/ C254U050FP2D /2 X 5 7/ C264U050DN2D X 7 5/ C304U050DG2D X 8 5/ C344U050FN2D /2 X 7 5/ C404U050FG2D /2 X 8 5/8 63 Vdc (75 Vdc Surge) C342U063AK2B /8 X 1 5/ C582U063AA2B /8 X 2 1/ C822U063AH2B /8 X 2 5/ C113U063AB2B /8 X 3 1/ C113U063EA2B /4 X 2 1/ C123U063EH2B /4 X 2 5/ C133U063BA2B X 2 1/ Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

94 Ratings Type 500C, 95 C Long-life, Computer Grade, Aluminum ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) C143U063AJ2B /8 X 3 5/ C153U063BH2B X 2 5/ C163U063AC2B /8 X 4 1/ C173U063EB2B /4 X 3 1/ C193U063AD2B /8 X 4 5/ C203U063BB2B X 3 1/ C223U063AE2B /8 X 5 1/ C223U063EJ2B /4 X 3 5/ C243U063CH2B /2 X 2 5/ C253U063AF2B /8 X 5 5/ C263U063BJ2B X 3 5/ C273U063EC2B /4 X 4 1/ C323U063ED2B /4 X 4 5/ C323U063BC2B X 4 1/ C343U063CB2B /2 X 3 1/ C373U063EE2B /4 X 5 1/ C383U063BD2B X 4 5/ C423U063EF2B /4 X 5 5/ C433U063CJ2B /2 X 3 5/ C443U063BE2B X 5 1/ C493U063BF2B X 5 5/ C503U063DB2B X 3 1/ C533U063CC2B /2 X 4 1/ C623U063CD2B /2 X 4 5/ C653U063DJ2B X 3 5/ C723U063CE2B /2 X 5 1/ C793U063DC2B X 4 1/ C823U063CF2B /2 X 5 5/ C933U063DD2B X 4 5/ C114U063DE2B X 5 1/ C114U063FC2B /2 X 4 1/ C124U063DF2B X 5 5/ C134U063DP2B X 5 7/ C134U063FD2B /2 X 4 5/ C154U063FE2D /2 X 5 1/ C174U063FF2D /2 X 5 5/ C184U063DN2D X 7 5/ C184U063FP2D /2 X 5 7/ C214U063DG2D X 8 5/ C254U063FN2D /2 X 7 5/ C294U063FG2D /2 X 8 5/8 75 Vdc (95 Vdc Surge) C272U075AK2B /8 X 1 5/ C432U075AA2B /8 X 2 1/ C642U075AH2B /8 X 2 5/ C832U075EA2B /4 X 2 1/ C862U075AB2B /8 X 3 1/ C982U075EH2B /4 X 2 5/ C103U075BA2B X 2 1/ C113U075AJ2B /8 X 3 5/ C113U075BH2B X 2 5/ C133U075AC2B /8 X 4 1/ C143U075EB2B /4 X 3 1/ C153U075AD2B /8 X 4 5/ C163U075BB2B X 3 1/ C173U075AE2B /8 X 5 1/ C183U075EJ2B /4 X 3 5/ C193U075AF2B /8 X 5 5/8 ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) C193U075CH2B /2 X 2 5/ C213U075EC2B /4 X 4 1/ C213U075BJ2B X 3 5/ C253U075ED2B /4 X 4 5/ C253U075BC2B X 4 1/ C263U075CB2B /2 X 3 1/ C293U075EE2B /4 X 5 1/ C303U075BD2B X 4 5/ C333U075EF2B /4 X 5 5/ C343U075BE2B X 5 1/ C343U075CJ2B /2 X 3 5/ C393U075BF2B X 5 5/ C403U075DB2B X 3 1/ C423U075CC2B /2 X 4 1/ C493U075CD2B /2 X 4 5/ C513U075DJ2B X 3 5/ C573U075CE2B /2 X 5 1/ C623U075DC2B X 4 1/ C643U075CF2B /2 X 5 5/ C743U075DD2B X 4 5/ C853U075DE2B X 5 1/ C853U075FC2B /2 X 4 1/ C963U075DF2B X 5 5/ C104U075DP2B X 5 7/ C104U075FD2B /2 X 4 5/ C124U075FE2B /2 X 5 1/ C134U075FF2D /2 X 5 5/ C144U075DN2D X 7 5/ C144U075FP2D /2 X 5 7/ C164U075DG2D X 8 5/ C194U075FN2D /2 X 7 5/ C224U075FG2D /2 X 8 5/8 100 Vdc (125 Vdc Surge) C162U100AK2B /8 X 1 5/ C252U100AA2B /8 X 2 1/ C382U100AH2B /8 X 2 5/ C492U100EA2B /4 X 2 1/ C512U100AB2B /8 X 3 1/ C512U100BA2B X 2 1/ C582U100EH2B /4 X 2 5/ C632U100AJ2B /8 X 3 5/ C732U100BH2B X 2 5/ C762U100AC2B /8 X 4 1/ C812U100EB2B /4 X 3 1/ C892U100AD2B /8 X 4 5/ C103U100AE2B /8 X 5 1/ C103U100EJ2B /4 X 3 5/ C103U100BB2B X 3 1/ C113U100AF2B /8 X 5 5/ C123U100CH2B /2 X 2 5/ C133U100EC2B /4 X 4 1/ C133U100BJ2B X 3 5/ C153U100ED2B /4 X 4 5/ C163U100BC2B X 4 1/ C173U100EE2B /4 X 5 1/ C173U100CB2B /2 X 3 1/ C193U100BD2B X 4 5/ C203U100EF2B /4 X 5 5/8 Aluminum Screw Terminal Computer Grade 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.023

95 Type 500C, 95 C Long-life, Computer Grade, Aluminum Ratings Aluminum Screw Terminal Computer Grade ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) C223U100BE2B X 5 1/ C223U100CJ2B /2 X 3 5/ C253U100BF2B X 5 5/ C253U100DB2B X 3 1/ C273U100CC2B /2 X 4 1/ C323U100CD2B /2 X 4 5/ C333U100DJ2B X 3 5/ C363U100CE2B /2 X 5 1/ C403U100DC2B X 4 1/ C413U100CF2B /2 X 5 5/ C473U100DD2B X 4 5/ C543U100DE2B X 5 1/ C553U100FC2B /2 X 4 1/ C623U100DF2B X 5 5/ C653U100DP2B X 5 7/ C653U100FD2B /2 X 4 5/ C743U100FE2B /2 X 5 1/ C843U100FF2B /2 X 5 5/ C893U100FP2B /2 X 5 7/ C943U100DN2D X 7 5/ C114U100DG2D X 8 5/ C124U100FN2D /2 X 7 5/ C144U100FG2D /2 X 8 5/8 160 Vdc (200 Vdc) C751T160AK2B /8 X 1 5/ C122T160AA2B /8 X 2 1/ C152T160AH2B /8 X 2 5/ C212T160AB2B /8 X 3 1/ C232T160EA2B /4 X 2 1/ C242T160BA2B X 2 1/ C272T160AJ2B /8 X 3 5/ C272T160EH2B /4 X 2 5/ C332T160AC2B /8 X 4 1/ C352T160BH2B X 2 5/ C382T160EB2B /4 X 3 1/ C392T160AD2B /8 X 4 5/ C452T160AE2B /8 X 5 1/ C492T160EJ2B /4 X 3 5/ C492T160BB2B X 3 1/ C512T160AF2B /8 X 5 5/ C552T160CH2B /2 X 2 5/ C602T160EC2B /4 X 4 1/ C632T160BJ2B X 3 5/ C712T160ED2B /4 X 4 5/ C772T160BC2B X 4 1/ C772T160CB2B /2 X 3 1/ C822T160EE2B /4 X 5 1/ C912T160BD2B X 4 5/ C932T160EF2B /4 X 5 5/ C992T160CJ2B /2 X 3 5/ C103T160BE2B X 5 1/ C113T160DB2B X 3 1/ C123T160BF2B X 5 5/ C123T160CC2B /2 X 4 1/ C143T160CD2B /2 X 4 5/ C153T160DJ2B X 3 5/ C163T160CE2B /2 X 5 1/8 ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) C183T160DC2B X 4 1/ C193T160CF2B /2 X 5 5/ C213T160DD2B X 4 5/ C253T160DE2B X 5 1/ C253T160FC2B /2 X 4 1/ C283T160DF2D X 5 5/ C293T160DP2D X 5 7/ C293T160FD2B /2 X 4 5/ C343T160FE2D /2 X 5 1/ C383T160FF2D /2 X 5 5/ C403T160FP2D /2 X 5 7/ C413T160DN2D X 7 5/ C473T160DG2D X 8 5/ C563T160FN2D /2 X 7 5/ C653T160FG2D /2 X 8 5/8 200 Vdc (250 Vdc Surge) C541T200AK2B /8 X 1 5/ C771T200AA2B /8 X 2 1/ C971T200AH2B /8 X 2 5/ C142T200AB2B /8 X 3 1/ C152T200EA2B /4 X 2 1/ C162T200BA2B X 2 1/ C172T200AJ2B /8 X 3 5/ C172T200EH2B /4 X 2 5/ C212T200AC2B /8 X 4 1/ C222T200BH2B X 2 5/ C242T200EB2B /4 X 3 1/ C252T200AD2B /8 X 4 5/ C292T200AE2B /8 X 5 1/ C312T200EJ2B /4 X 3 5/ C312T200BB2B X 3 1/ C332T200AF2B /8 X 5 5/ C352T200CH2B /2 X 2 5/ C382T200EC2B /4 X 4 1/ C402T200BJ2B X 3 5/ C452T200ED2B /4 X 4 5/ C492T200BC2B X 4 1/ C492T200CB2B /2 X 3 1/ C522T200EE2B /4 X 5 1/ C582T200BD2B X 4 5/ C592T200EF2B /4 X 5 5/ C622T200CJ2B /2 X 3 5/ C672T200BE2B X 5 1/ C762T200BF2B X 5 5/ C762T200CC2B /2 X 4 1/ C762T200DB2B X 3 1/ C902T200CD2B /2 X 4 5/ C982T200DJ2B X 3 5/ C103T200CE2B /2 X 5 1/ C123T200CF2B /2 X 5 5/ C123T200DC2B X 4 1/ C143T200DD2B X 4 5/ C153T200FC2B /2 X 4 1/ C163T200FG2B X 5 1/ C183T200DF2B X 5 5/ C193T200DP2B X 5 7/ C203T200FD2B /2 X 4 5/ Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

96 Type 500C, 95 C Long-life, Computer Grade, Aluminum Ratings ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) C213T200FE2B /2 X 5 1/ C243T200FF2B /2 X 5 5/ C253T200FP2B /2 X 5 7/ C263T200DN2B X 7 5/ C313T200DG2B X 8 5/ C353T200FN2D /2 X 7 5/ C403T200FG2D /2 X 8 5/8 250 Vdc (300 Vdc Surge) C381T250AK2B /8 X 1 5/ C681T250AA2B /8 X 2 1/ C831T250AH2B /8 X 2 5/ C112T250AB2B /8 X 3 1/ C112T250EA2B /4 X 2 1/ C122T250BA2B X 2 1/ C132T250EH2B /4 X 2 5/ C142T250AJ2B /8 X 3 5/ C172T250AC2B /8 X 4 1/ C172T250BH2B X 2 5/ C182T250EB2B /4 X 3 1/ C202T250AD2B /8 X 4 5/ C232T250AE2B /8 X 5 1/ C232T250EJ2B /4 X 3 5/ C242T250BB2B X 3 1/ C262T250AF2B /8 X 5 5/ C262T250CH2B /2 X 2 5/ C282T250EC2B /4 X 4 1/ C312T250BJ2B X 3 5/ C332T250ED2B /4 X 4 5/ C372T250CB2B /2 X 3 1/ C382T250EE2B /4 X 5 1/ C382T250BC2B X 4 1/ C432T250EF2B /4 X 5 5/ C452T250BD2B X 4 5/ C472T250CJ2B /2 X 3 5/ C522T250BE2B X 5 1/ C562T250DB2B X 3 1/ C582T250CC2B /2 X 4 1/ C592T250BF2B X 5 5/ C692T250CD2B /2 X 4 5/ C722T250DJ2B X 3 5/ C792T250CE2B /2 X 5 1/ C882T250DC2B X 4 1/ C902T250CF2B /2 X 5 5/ C103T250DD2B X 4 5/ C113T250FC2B /2 X 4 1/ C123T250DE2B X 5 1/ C133T250FD2B /2 X 4 5/ C143T250DF2B X 5 5/ C153T250DP2B X 5 7/ C153T250FE2B /2 X 5 1/ C173T250FF2B /2 X 5 5/ C183T250FP2B /2 X 5 7/ C213T250DN2D X 7 5/ C243T250DG2D X 8 5/ C253T250FN2D /2 X 7 5/ C293T250FG2D /2 X 8 5/8 ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) 300 Vdc (350 Vdc Surge) C291T300AK2B /8 X 1 5/ C521T300AA2B /8 X 2 1/ C631T300AH2B /8 X 2 5/ C871T300AB2B /8 X 3 1/ C871T300EA2B /4 X 2 1/ C102T300BA2B X 2 1/ C112T300AJ2B /8 X 3 5/ C112T300EH2B /4 X 2 5/ C132T300AC2B /8 X 4 1/ C132T300BH2B X 2 5/ C142T300EB2B /4 X 3 1/ C162T300AD2B /8 X 4 5/ C182T300AE2B /8 X 5 1/ C182T300EJ2B /4 X 3 5/ C192T300BB2B X 3 1/ C202T300AF2B /8 X 5 5/ C222T300EC2B /4 X 4 1/ C222T300CH2B /2 X 2 5/ C242T300BJ2B X 3 5/ C262T300ED2B /4 X 4 5/ C292T300BC2B X 4 1/ C292T300CB2B /2 X 3 1/ C302T300EE2B /4 X 5 1/ C342T300EF2B /4 X 5 5/ C352T300BD2B X 4 5/ C372T300CJ2B /2 X 3 5/ C402T300BE2B X 5 1/ C412T300DB2B X 3 1/ C452T300BF2B X 5 5/ C452T300CC2B /2 X 4 1/ C522T300DJ2B X 3 5/ C532T300CD2B /2 X 4 5/ C612T300CE2B /2 X 5 1/ C642T300DC2B X 4 1/ C692T300CF2B /2 X 5 5/ C752T300DD2B X 4 5/ C872T300DE2B X 5 1/ C892T300FC2B /2 X 4 1/ C982T300DF2B X 5 5/ C103T300DP2B X 5 7/ C103T300FD2B /2 X 4 5/ C123T300FE2B /2 X 5 1/ C133T300FF2B /2 X 5 5/ C143T300FP2B /2 X 5 7/ C153T300DN2B X 7 5/ C173T300DG2B X 8 5/ C193T300FN2D /2 X 7 5/ C223T300FG2D /2 X 8 5/8 350 Vdc (400 Vdc Surge) C201T350AK2B /8 X 1 5/ C321T350AA2B /8 X 2 1/ C471T350AH2B /8 X 2 5/ C631T350AB2B /8 X 3 1/ C721T350EA2B /4 X 2 1/ C771T350EH2B /4 X 2 5/8 Aluminum Screw Terminal Computer Grade 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.025

97 Aluminum Screw Terminal Computer Grade Type 500C, 95 C Long-life, Computer Grade, Aluminum Ratings ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) C791T350AJ2B /8 X 3 5/ C791T350BA2B X 2 1/ C951T350AC2B /8 X 4 1/ C971T350BH2B X 2 5/ C991T350EB2B /4 X 3 1/ C112T350AD2B /8 X 4 5/ C132T350AE2B /8 X 5 1/ C132T350EJ2B /4 X 3 5/ C132T350BB2B X 3 1/ C142T350AF2B /8 X 5 5/ C152T350CH2B /2 X 2 5/ C162T350EC2B /4 X 4 1/ C162T350BJ2B X 3 5/ C182T350ED2B /4 X 4 5/ C202T350BC2B X 4 1/ C212T350EE2B /4 X 5 1/ C212T350CB2B /2 X 3 1/ C232T350BD2B X 4 5/ C242T350EF2B /4 X 5 5/ C272T350BE2B X 5 1/ C272T350CJ2B /2 X 3 5/ C292T350DB2B X 3 1/ C312T350BF2B X 5 5/ C332T350CC2B /2 X 4 1/ C372T350DJ2B X 3 5/ C392T350CD2B /2 X 4 5/ C452T350CE2B /2 X 5 1/ C462T350DC2B X 4 1/ C512T350CF2B /2 X 5 5/ C542T350DD2B X 4 5/ C622T350DE2B X 5 1/ C642T350FC2B /2 X 4 1/ C702T350DF2B X 5 5/ C752T350DP2B X 5 7/ C752T350FD2B /2 X 4 5/ C872T350FE2B /2 X 5 1/ C982T350FF2B /2 X 5 5/ C103T350DN2B X 7 5/ C103T350FP2B /2 X 5 7/ C123T350DG2B X 8 5/ C153T350FN2B /2 X 7 5/ C173T350FG2B /2 X 8 5/8 400 Vdc (450 Vdc Surge) C161T400AK2B /8 X 1 5/ C251T400AA2B /8 X 2 1/ C381T400AH2B /8 X 2 5/ C501T400AB2B /8 X 3 1/ C571T400EA2B /4 X 2 1/ C611T400EH2B /4 X 2 5/ C631T400AJ2B /8 X 3 5/ C631T400BA2B X 2 1/ C751T400AC2B /8 X 4 1/ C781T400BH2B X 2 5/ C791T400EB2B /4 X 3 1/ C881T400AD2B /8 X 4 5/ C102T400AE2B /8 X 5 1/ C102T400EJ2B /4 X 3 5/8 ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) C102T400BB2B X 3 1/ C112T400AF2B /8 X 5 5/ C122T400EC2B /4 X 4 1/ C122T400CH2B /2 X 2 5/ C132T400BJ2B X 3 5/ C152T400ED2B /4 X 4 5/ C162T400BC2B X 4 1/ C172T400EE2B /4 X 5 1/ C172T400CB2B /2 X 3 1/ C192T400EF2B /4 X 5 5/ C192T400BD2B X 4 5/ C212T400BE2B X 5 1/ C212T400CJ2B /2 X 3 5/ C232T400DB2B X 3 1/ C242T400BF2B X 5 5/ C262T400CC2B /2 X 4 1/ C302T400DJ2B X 3 5/ C312T400CD2B /2 X 4 5/ C352T400CE2B /2 X 5 1/ C362T400DC2B X 4 1/ C402T400CF2B /2 X 5 5/ C432T400DD2B X 4 5/ C492T400DE2B X 5 1/ C512T400FC2B /2 X 4 1/ C562T400DF2B X 5 5/ C592T400DP2B X 5 7/ C602T400FD2B /2 X 4 5/ C692T400FE2B /2 X 5 1/ C782T400FF2B /2 X 5 5/ C822T400DN2B X 7 5/ C832T400FP2B /2 X 5 7/ C952T400DG2B X 8 5/ C113T400FN2B /2 X 7 5/ C133T400FG2B /2 X 8 5/8 450 Vdc (500 Vdc Surge) C141T450AK2B /8 X 1 5/ C221T450AA2B /8 X 2 1/ C331T450AH2B /8 X 2 5/ C421T450EA2B /4 X 2 1/ C441T450AB2B /8 X 3 1/ C521T450EH2B /4 X 2 5/ C551T450AJ2B /8 X 3 5/ C551T450BA2B X 2 1/ C661T450AC2B /8 X 4 1/ C671T450EB2B /4 X 3 1/ C681T450BH2B X 2 5/ C761T450AD2B /8 X 4 5/ C871T450AE2B /8 X 5 1/ C871T450EJ2B /4 X 3 5/ C871T450BB2B X 3 1/ C981T450AF2B /8 X 5 5/ C112T450EC2B /4 X 4 1/ C112T450BJ2B X 3 5/ C112T450CH2B /2 X 2 5/ C132T450ED2B /4 X 4 5/ C142T450EE2B /4 X 5 1/ C142T450BC2B X 4 1/ Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

98 Type 500C, 95 C Long-life, Computer Grade, Aluminum Ratings ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) C152T450CB2B /2 X 3 1/ C162T450EF2B /4 X 5 5/ C162T450BD2B X 4 5/ C192T450BE2B X 5 1/ C192T450CJ2B /2 X 3 5/ C212T450BF2B X 5 5/ C212T450DB2B X 3 1/ C242T450CC2B /2 X 4 1/ C272T450DJ2B X 3 5/ C282T450CD2B /2 X 4 5/ C322T450CE2B /2 X 5 1/ C332T450DC2B X 4 1/ C362T450CF2B /2 X 5 5/ C392T450DD2B X 4 5/ C452T450DE2B X 5 1/ C462T450FC2B /2 X 4 1/ C512T450DF2B X 5 5/ C542T450DP2B X 5 7/ C542T450FD2B /2 X 4 5/ C632T450FE2B /2 X 5 1/ C712T450FF2B /2 X 5 5/ C752T450FP2B /2 X 5 7/ C752T450DN2B X 7 5/ C872T450DG2B X 8 5/ C972T450FN2B /2 X 7 5/ C113T450FG2B /2 X 8 5/8 500 Vdc (550 Vdc Surge) C101T500AK2B /8 X 1 5/ C171T500AA2B /8 X 2 1/ C231T500AH2B /8 X 2 5/ C261T500EA2B /4 X 2 1/ C311T500AB2B /8 X 3 1/ C321T500BA2B X 2 1/ C371T500EH2B /4 X 2 5/ C381T500AJ2B /8 X 3 5/ C461T500AC2B /8 X 4 1/ C471T500BH2B X 2 5/ C481T500EB2B /4 X 3 1/ C531T500AD2B /8 X 4 5/ C611T500AE2B /8 X 5 1/ C621T500EJ2B /4 X 3 5/ C651T500BB2B X 3 1/ C691T500AF2B /8 X 5 5/ C761T500EC2B /4 X 4 1/ C771T500CH2B /2 X 2 5/ C841T500BJ2B X 3 5/ C891T500ED2B /4 X 4 5/ C961T500BC2B X 4 1/ C102T500EE2B /4 X 5 1/ C112T500BD2B X 4 5/ C112T500CB2B /2 X 3 1/ C122T500EF2B /4 X 5 5/ C132T500BE2B X 5 1/ C142T500CJ2B /2 X 3 5/ C152T500BF2B X 5 5/8 ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) C162T500DB2B X 3 1/ C172T500CC2B /2 X 4 1/ C202T500CD2B /2 X 4 5/ C212T500DJ2B X 3 5/ C222T500CE2B /2 X 5 1/ C242T500CF2B /2 X 5 5/ C242T500DC2B X 4 1/ C282T500DD2B X 4 5/ C332T500DE2B X 5 1/ C342T500FC2B /2 X 4 1/ C372T500DF2B X 5 5/ C392T500DP2B X 5 7/ C402T500FD2B /2 X 4 5/ C462T500FE2B /2 X 5 1/ C522T500FF2B /2 X 5 5/ C542T500DN2B X 7 5/ C552T500FP2B /2 X 5 7/ C632T500DG2B X 8 5/ C762T500FN2B /2 X 7 5/ C882T500FG2B /2 X 8 5/8 550 Vdc (600 Vdc Surge) C142T550CC2B /2 X C172T550CD2B /2 X C192T550CE2B /2 X C222T550DC2B X C232T550CF2B /2 X C252T550DD2B X C292T550DE2B X C342T550DF2B X Aluminum Screw Terminal Computer Grade 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.027

99 Aluminum Screw Terminal Computer Grade Type 520C, 85 C Long-Life, Inverter Grade, Aluminum Ultra-Ripple, Long-life, Inverter Grade, 85 C Best Value High Ripple Type Type 520C is the 85 C version of the Type 550C Inverter- Grade capacitor. It delivers the ripple-current capability and exceptional life needed for motor-drive bus capacitors and approaches the performance of the 550C at lower cost. It is rated for 8000 hours life with full ripple current, rated voltage, 85 C and 100 lfm airflow while mounted horizontally. Horizontal mounting is more severe than vertical mounting. The extended cathode foil of the 520C assures heat flow from the capacitor element to the can in all orientations. Highlights New 8,000 hour load life Ripple current to 55 amps ESRs to 8 mω Best value high ripple current Thermal-Pak extended cathode construction Specifications Operating Temperature: 40 C to +85 C Rated Voltage: 200 to 500 Vdc Capacitance: 84 F to 39,000 F Capacitance Tolerance: 10% +50% Leakage Current: 3 CV ( A), 5 ma max, 5 minutes Cold Impedance: 20 C Multiple of 25 C Z 3 Ripple Current Multipliers: Ambient Temperature 45 C 55 C 65 C 75 C 85 C Frequency 50 Hz 60 Hz 120 Hz 360 Hz 1 khz 5 khz 10 khz & up 1 3/8 & 1 3/4 Diameters: 200 to 350 V to 500 Vx & 2 1/2 Diameters: 200 to 350 V to 500 V & 3 1/2 Diameters: 200 to 350 V to 500 V C p F MORE life ripple 550C p C p EIA Ripple Life: 8,000 h at full +85 C per EIA 1S-749 Capacitance ±20% ESR 200% of limit DCL 100% of limit Shelf Life Test: C, capacitance, ESR and DCL, initial requirements. Vibration: 10 to 55 Hz, 0.06 and 10 g max, 1.5 h ea of 2 axis Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

100 Type 520C, 85 C Long-life, Inverter Grade, Aluminum Outline Drawings Case Dimensions Uninsulated Case Dimensions For insulated case, add (0.610 mm) to D and (0.762 mm) to height. Stud Dimensions ( ) NOTE: With the stud-mount feature, a thermally-conductive disk can be inserted in the bottom flush with the outer insulating sleeve. This reduces the thermal resistance through the can bottom by 0.3 C/W. Order Can Style P. Case Stud P Diam. Thread ( 1.0 mm) M (12.0) M (16.0) M (16.0) M (16.0) M (16.0) Diam. (D) Length (L) Terminals (S) Case Typical Weight Code Inches mm Inches mm Inches mm oz g AK AA AH AB AJ AC AD AE AF EA EH EB EJ EC ED EE EF BA BH BB BJ BC BD BE BF CH CB CJ CC CD CE CF DJ DC DD DE DF DP DN DG FC FD FE FF FP FN FG Aluminum Screw Terminal Computer Grade Terminal Dimensions Post Diameter H max For Case Terminal Style Code inches (mm) inches (mm) Thread Diameters Low Post A (8.0) (2.39) to 3 High Post B (8.0) (7.14) to 3 High Current, Low Post D (17.5) (3.18) to High Current, High Post E (17.5) (7.14) to M5 Post F (13.0) (5.84) M & Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.029

101 Type 520C, 85 C Long-Life, Inverter Grade, Aluminum Part Numbering System 520C 782 T 500 FG 2 D S Aluminum Screw Terminal Computer Grade Type Capacitance Tolerance Voltage Case Code Insulation Terminal Can Style 782 = 7800 F M = 20% 200 = 200 Vdc 0 = None A = Low Post Blank = U = 10% +75% 500 = 500 Vdc 1 = Polyester B = High Post Standard T = 10% +50% 2 = PVC D = High Current Can Standard insulation is in PVC sleeve with 0.01-in polypropylene end disk. Low Post S = Stud E = High Current, Bottom Typical Performance Curves High Post F = M5 Post P = Stud with thermal pad Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

102 Type 520C, 85 C Long-life, Inverter Grade, Aluminum Ratings ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) 200 Vdc (250 Vdc Surge) C431T200AK2B /8 X 1 5/ C781T200AA2B /8 X 2 1/ C951T200AH2B /8 X 2 5/ C132T200AB2B /8 X 3 1/ C132T200EA2B /4 X 2 1/ C142T200BA2B X 2 1/ C162T200AJ2B /8 X 3 5/ C162T200EH2B /4 X 2 5/ C202T200AC2B /8 X 4 1/ C202T200BH2B X 2 5/ C222T200EB2B /4 X 3 1/ C232T200AD2B /8 X 4 5/ C272T200AE2B /8 X 5 1/ C272T200EJ2B /4 X 3 5/ C282T200BB2B X 3 1/ C302T200AF2B /8 X 5 5/ C322T200CH2B /2 X 2 5/ C332T200EC2B /4 X 4 1/ C362T200BJ2B X 3 5/ C392T200ED2B /4 X 4 5/ C442T200BC2B X 4 1/ C442T200CB2B /2 X 3 1/ C452T200EE2B /4 X 5 1/ C502T200EF2B /4 X 5 5/ C522T200BD2B X 4 5/ C572T200CJ2B /2 X 3 5/ C602T200BE2B X 5 1/ C642T200DB2B X 3 1/ C682T200BF2B X 5 5/ C702T200CC2B /2 X 4 1/ C822T200CD2B /2 X 4 5/ C822T200DJ2B X 3 5/ C952T200CD2B /2 X 5 1/ C103T200DC2B X 4 1/ C113T200CF2B /2 X 5 5/ C123T200DD2B X 4 5/ C143T200DE2B X 5 1/ C153T200FG2B /2 X 4 1/ C163T200DF2B X 5 5/ C163T200DP2B X 5 7/ C173T200FG2B /2 X 4 5/ C203T200FG2B /2 X 5 1/ C223T200DN2D X 7 5/ C233T200FG2B /2 X 5 5/ C243T200FG2B /2 X 5 7/ C263T200DG2D X 8 5/ C343T200FN2D /2 X 7 5/ C393T200FG2D X 8 5/8 250 Vdc (300 Vdc Surge) C291T250AK2B /8 X 1 5/ C531T250AA2B /8 X 2 1/ C641T250AH2B /8 X 2 5/ C881T250AB2B /8 X 3 1/ C881T250EA2B /4 X 2 1/ C941T250BA2B X 2 1/ C112T250AJ2B /8 X 3 5/ C112T250EH2B /4 X 2 5/ C132T250AC2B /8 X 4 1/ C142T250BH2B X 2 5/8 ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) C152T250EB2B /4 X 3 1/ C162T250AD2B /8 X 4 5/ C182T250AE2B /8 X 5 1/ C192T250EJ2B /4 X 3 5/ C192T250BB2B X 3 1/ C202T250AF2B /8 X 5 5/ C212T250CH2B /2 X 2 5/ C222T250EC2B /4 X 4 1/ C242T250BJ2B X 3 5/ C262T250ED2B /4 X 4 5/ C302T250EE2B /4 X 5 1/ C302T250BC2B X 4 1/ C302T250CB2B /2 X 3 1/ C342T250EF2B /4 X 5 5/ C352T250BD2B X 4 5/ C392T250CJ2B /2 X 3 5/ C412T250BE2B X 5 1/ C432T250DB2B X 3 1/ C462T250BF2B X 5 5/ C472T250CC2B /2 X 4 1/ C562T250CD2B /2 X 4 5/ C562T250DJ2B X 3 5/ C642T250CD2B /2 X 5 1/ C682T250DC2B X 4 1/ C732T250CF2B /2 X 5 5/ C802T250DD2B X 4 5/ C932T250DE2B X 5 1/ C103T250FC2B /2 X 4 1/ C113T250DF2B X 5 5/ C113T250DP2B X 5 7/ C123T250FD2B /2 X 4 5/ C143T250FE2B /2 X 5 1/ C153T250FF2B /2 X 5 5/ C163T250DN2B X 7 5/ C163T250FP2B /2 X 5 7/ C183T250DG2D X 8 5/ C223T250FN2B /2 X 7 5/ C263T250FG2D /2 X 8 5/8 300 Vdc (350 Vdc Surge) C211T300AK2B /8 X 1 5/ C361T300AA2B /8 X 2 1/ C511T300AH2B /8 X 2 5/ C531T300EA2B /4 X 2 1/ C671T300AB2B /8 X 3 1/ C671T300BA2B X 2 1/ C761T300EH2B /4 X 2 5/ C841T300AJ2B /8 X 3 5/ C961T300BH2B X 2 5/ C102T300AC2B /8 X 4 1/ C112T300EB2B /4 X 3 1/ C122T300AD2B /8 X 4 5/ C132T300AE2B /8 X 5 1/ C132T300BB2B X 3 1/ C142T300EJ2B /4 X 3 5/ C152T300AF2B /8 X 5 5/ C162T300CH2B /2 X 2 5/ C172T300EC2B /4 X 4 1/ C172T300BJ2B X 3 5/ C202T300ED2B /4 X 4 5/ C222T300CB2B /2 X 3 1/8 Aluminum Screw Terminal Computer Grade 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.031

103 Type 520C, 85 C Long-life, Inverter Grade, Aluminum Aluminum Screw Terminal Computer Grade Ratings ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) C232T300EE2B /4 X 5 1/ C242T300BC2B X 4 1/ C252T300BD2B X 4 5/ C262T300EF2B /4 X 5 5/ C292T300BE2B X 5 1/ C292T300CJ2B /2 X 3 5/ C332T300BF2B X 5 5/ C342T300DB2B X 3 1/ C352T300CC2B /2 X 4 1/ C412T300CD2B /2 X 4 5/ C432T300DJ2B X 3 5/ C482T300CD2B /2 X 5 1/ C532T300DC2B X 4 1/ C542T300CF2B /2 X 5 5/ C632T300DD2B X 4 5/ C722T300DE2B X 5 1/ C742T300FC2B /2 X 4 1/ C822T300DF2B X 5 5/ C872T300DP2B X 5 7/ C882T300FD2B /2 X 4 5/ C103T300FE2B /2 X 5 1/ C113T300FF2B /2 X 5 5/ C123T300DN2B X 7 5/ C123T300FP2B /2 X 5 7/ C143T300DG2B X 8 5/ C173T300FN2D /2 X 7 5/ C203T300FG2D /2 X 8 5/8 350 Vdc (400 Vdc Surge) C191T350AK2B /8 X 1 5/ C331T350AA2B /8 X 2 1/ C461T350AH2B /8 X 2 5/ C481T350EA2B /4 X 2 1/ C611T350BA2B X 2 1/ C621T350AB2B /8 X 3 1/ C691T350EH2B /4 X 2 5/ C771T350AJ2B /8 X 3 5/ C881T350BH2B X 2 5/ C921T350AC2B /8 X 4 1/ C971T350EB2B /4 X 3 1/ C112T350AD2B /8 X 4 5/ C122T350AE2B /8 X 5 1/ C122T350BB2B X 3 1/ C132T350EJ2B /4 X 3 5/ C142T350AF2B /8 X 5 5/ C152T350EC2B /4 X 4 1/ C152T350CH2B /2 X 2 5/ C162T350BJ2B X 3 5/ C182T350ED2B /4 X 4 5/ C202T350CB2B /2 X 3 1/ C212T350EE2B /4 X 5 1/ C222T350BC2B X 4 1/ C232T350BD2B X 4 5/ C242T350EF2B /4 X 5 5/ C262T350BE2B X 5 1/ C262T350CJ2B /2 X 3 5/ C302T350BF2B X 5 5/ C312T350DB2B X 3 1/ C322T350CC2B /2 X 4 1/ C382T350CD2B /2 X 4 5/ C402T350DJ2B X 3 5/8 ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) C442T350CD2B /2 X 5 1/ C482T350DC2B X 4 1/ C492T350CF2B /2 X 5 5/ C572T350DD2B X 4 5/ C662T350DE2B X 5 1/ C682T350FC2B /2 X 4 1/ C752T350DF2B X 5 5/ C792T350DP2B X 5 7/ C802T350FD2B /2 X 4 5/ C922T350FE2B /2 X 5 1/ C103T350FF2B /2 X 5 5/ C103T350FF2B /2 X 5 5/ C113T350FP2B /2 X 5 7/ C133T350DG2B X 8 5/ C153T350FN2B /2 X 7 5/ C183T350FG2B /2 X 8 5/8 400 Vdc (450 Vdc Surge) C151T400AK2B /8 X 1 5/ C251T400AA2B /8 X 2 1/ C351T400AH2B /8 X 2 5/ C371T400EA2B /4 X 2 1/ C471T400AB2B /8 X 3 1/ C471T400BA2B X 2 1/ C531T400EH2B /4 X 2 5/ C591T400AJ2B /8 X 3 5/ C671T400BH2B X 2 5/ C711T400AC2B /8 X 4 1/ C741T400EB2B /4 X 3 1/ C821T400AD2B /8 X 4 5/ C941T400AE2B /8 X 5 1/ C941T400BB2B X 3 1/ C951T400EJ2B /4 X 3 5/ C112T400AF2B /8 X 5 5/ C112T400CH2B /2 X 2 5/ C122T400EC2B /4 X 4 1/ C122T400BJ2B X 3 5/ C142T400ED2B /4 X 4 5/ C162T400EE2B /4 X 5 1/ C162T400CB2B /2 X 3 1/ C172T400BC2B X 4 1/ C172T400BD2B X 4 5/ C182T400EF2B /4 X 5 5/ C202T400BE2B X 5 1/ C202T400CJ2B /2 X 3 5/ C232T400BF2B X 5 5/ C242T400CC2B /2 X 4 1/ C242T400DB2B X 3 1/ C292T400CD2B /2 X 4 5/ C302T400DJ2B X 3 5/ C332T400CD2B /2 X 5 1/ C372T400DC2B X 4 1/ C382T400CF2B /2 X 5 5/ C442T400DD2B X 4 5/ C502T400DE2B X 5 1/ C522T400FC2B /2 X 4 1/ C572T400DF2B X 5 5/ C612T400DP2B X 5 7/ C612T400FD2B /2 X 4 5/ C702T400FE2B /2 X 5 1/ C802T400FF2B /2 X 5 5/ Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

104 Type 520C, 85 C Long-life, Inverter Grade, Aluminum Ratings ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) C842T400DN2B X 7 5/ C852T400FP2B /2 X 5 7/ C982T400DG2B X 8 5/ C123T400FN2B /2 X 7 5/ C143T400FG2B /2 X 8 5/8 450 Vdc (500 Vdc Surge) C121T450AK2B /8 X 1 5/ C211T450AA2B /8 X 2 1/ C291T450AH2B /8 X 2 5/ C301T450EA2B /4 X 2 1/ C391T450AB2B /8 X 3 1/ C391T450BA2B X 2 1/ C441T450EH2B /4 X 2 5/ C491T450AJ2B /8 X 3 5/ C551T450BH2B X 2 5/ C581T450AC2B /8 X 4 1/ C611T450EB2B /4 X 3 1/ C681T450AD2B /8 X 4 5/ C781T450AE2B /8 X 5 1/ C781T450BB2B X 3 1/ C791T450EJ2B /4 X 3 5/ C871T450AF2B /8 X 5 5/ C921T450CH2B /2 X 2 5/ C961T450EC2B /4 X 4 1/ C102T450BJ2B X 3 5/ C112T450ED2B /4 X 4 5/ C132T450EE2B /4 X 5 1/ C132T450CB2B /2 X 3 1/ C142T450BC2B X 4 1/ C142T450BD2B X 4 5/ C152T450EF2B /4 X 5 5/ C162T450CJ2B /2 X 3 5/ C172T450BE2B X 5 1/ C192T450BF2B X 5 5/ C192T450DB2B X 3 1/ C202T450CC2B /2 X 4 1/ C242T450CD2B /2 X 4 5/ C252T450DJ2B X 3 5/ C272T450CD2B /2 X 5 1/ C312T450CF2B /2 X 5 5/ C312T450DC2B X 4 1/ C362T450DD2B X 4 5/ C422T450DE2B X 5 1/ C432T450FC2B /2 X 4 1/ C472T450DF2B X 5 5/ C502T450DP2B X 5 7/ C502T450FD2B /2 X 4 5/ C582T450FE2B /2 X 5 1/ C662T450FF2B /2 X 5 5/ C702T450FP2B /2 X 5 7/ C702T450DN2B X 7 5/ C812T450DG2B X 8 5/ C952T450FN2D /2 X 7 5/ C113T450FG2D /2 X 8 5/8 500 Vdc (550 Vdc Surge) C840T500AK2B /8 X 1 5/ C141T500AA2B /8 X 2 1/ C201T500AH2B /8 X 2 5/ C211T500EA2B /4 X 2 1/ C271T500AB2B /8 X 3 1/ C271T500BA2B X 2 1/8 ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) C301T500EH2B /4 X 2 5/ C341T500AJ2B /8 X 3 5/ C381T500BH2B X 2 5/ C401T500AC2B /8 X 4 1/ C421T500EB2B /4 X 3 1/ C471T500AD2B /8 X 4 5/ C541T500AE2B /8 X 5 1/ C541T500BB2B X 3 1/ C551T500EJ2B /4 X 3 5/ C611T500AF2B /8 X 5 5/ C631T500CH2B /2 X 2 5/ C671T500EC2B /4 X 4 1/ C691T500BJ2B X 3 5/ C791T500ED2B /4 X 4 5/ C841T500BC2B X 4 1/ C891T500CB2B /2 X 3 1/ C911T500EE2B /4 X 5 1/ C102T500EF2B /4 X 5 5/ C102T500BD2B X 4 5/ C112T500CJ2B /2 X 3 5/ C122T500BE2B X 5 1/ C132T500BF2B X 5 5/ C132T500DB2B X 3 1/ C142T500CC2B /2 X 4 1/ C162T500CD2B /2 X 4 5/ C172T500DJ2B X 3 5/ C192T500CD2B /2 X 5 1/ C212T500DC2B X 4 1/ C222T500CF2B /2 X 5 5/ C252T500DD2B X 4 5/ C292T500DE2B X 5 1/ C302T500FC2B /2 X 4 1/ C332T500DF2B X 5 5/ C352T500DP2B X 5 7/ C352T500FD2B /2 X 4 5/ C402T500FE2B /2 X 5 1/ C462T500FF2B /2 X 5 5/ C482T500FP2B /2 X 5 7/ C482T500DN2B X 7 5/ C562T500DG2B X 8 5/ C672T500FN2B /2 X 7 5/ C782T500FG2B /2 X 8 5/8 Aluminum Screw Terminal Computer Grade 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.033

105 Type 550C, 105 C Ultra-Ripple, Long-life, Inverter Grade, Aluminum Aluminum Screw Terminal Computer Grade Ultra-Ripple, Long-life, Inverter Grade Specifications Operating Temperature: 40 C to +105 C Rated Voltage: 200 to 500 Vdc Capacitance: 90 F to 35,000 F Capacitance Tolerance: % DC Leakage Current: 3 CV A (4 ma max) Cold Impedance: 20 C multiple of 25 C Z 3 Ripple Current Multipliers: Ambient Temperature The Ultimate in Ripple and Life Type 550C is the standard for motor drive and other highripple, long-life applications. It boasts more than 25% extra ripple capability per can size, but less capacitance than Type 520C. Expected operating life is more than 100,000 hours in typical applications. (See Operating Life, page 2.037) Type 550C is rated for 10,000 hours life with full ripple current, rated voltage, 85 C and 100 lfm airflow while mounted horizontally. Horizontal mounting is more severe than vertical mounting. The extended cathode foil of the 550C assures heat flow from the capacitor element to the can in all orientations. Highlights New, 10,000 hour load life Ripple current to 105 amps ESRs to 7 mω 45 C 55 C 65 C 75 C 85 C 95 C 105 C Type 520C p F MORE hot low Vdc Type 125 p Type 101C p Frequency 50 Hz 60 Hz 120 Hz 360 Hz 1 khz 5 khz 10 khz & up 1 3/8 to 2 1/2 Diameters: 200 to 350 V to 500 V & 3 1/2 Diameters: 200 to 350 V to 500 V EIA Ripple Life: Shelf Life Test: Vibration: 10,000 h at full load at 85 C per EIA IS-749 Capacitance ±20% ESR 200% of limit DCL 100% of limit 500 h at 105 C, capacitance, ESR and DCL, initial requirements. 10 to 55 Hz, 0.06 and 10 g. max, 1.5 h ea. of 2 axis Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

106 Type 550C, 105 C Ultra-Ripple, Long-Life Inverter Grade, Aluminum Outline Drawings Case Dimensions Uninsulated Case Dimensions For insulated case, add (0.610 mm) to D and (0.762 mm) to height ( ) NOTE: With the stud-mount feature, a thermally-conductive disk can be inserted in the bottom flush with the outer insulating sleeve. This reduces the thermal resistance through the can bottom by 0.3 C/W. Order Can Style P. Stud Dimensions Case Stud P Diam. Thread ( 1.0 mm) M (12.0) M (16.0) M (16.0) M (16.0) M (16.0) Diam. (D) Length (L) Terminals (S) Typical Case Weight Code Inches mm Inches mm Inches mm oz g AK AA AH AB AJ AC AD AE AF EA EH EB EJ EC ED EE EF BA BH BB BJ BC BD BE BF CH CB CJ CC CD CE CF DJ DC DD DE DF DP DN DG FC FD FE FF FP FN FG Aluminum Screw Terminal Computer Grade Terminal Dimensions Post Diameter H max For Case Terminal Style Code inches (mm) inches (mm) Thread Diameters Low Post A (8.0) (2.39) to 3 High Post B (8.0) (7.14) to 3 High Current, Low Post D (17.5) (3.18) to High Current, High Post E (17.5) (7.14) to M5 Post F (13.0) (5.84) M & Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.035

107 Type 550C, 105 C Ultra-Ripple, Long-Life, Inverter Grade, Aluminum Part Numbering System T 450 FG 2 D S Aluminum Screw Terminal Computer Grade Type Capacitance Tolerance Voltage Case Code Insulation Terminal Can Style 812 = 8100 F M = 20% 200 = 200 Vdc 0 = None A = Low Post Blank = U = 10%+75% 1 = Polyester B = High Post Standard T = 10%+50% 2 = PVC D = High Current, Can Low Post S = Stud E = High Current, Bottom Standard insulation is in PVC sleeve with 0.01-in polypropylene end disk. Typical Performance Curves High Post F = M5 Post P = Stud with thermal pad ESR vs. Temperature and Frequency 5000 F 200 V Capacitance vs. Temperature and Frequency 5000 F 200 V Capacitance vs. Temperature and Frequency 4700 F 400 V ESR vs. Temperature and Frequency 4700 F 400 V Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

108 Type 550C, 105 C Ultra-Ripple, Long-Life, Inverter Grade, Aluminum Typical Performance Curves Ratings ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) 200 Vdc (250 Vdc Surge) C381T200AK2B /8 X 1 5/ C691T200AA2B /8 X 2 1/ C851T200AH2B /8 X 2 5/ C122T200AB2B /8 X 3 1/ C122T200EA2B /4 X 2 1/ C122T200BA2B X 2 1/ C142T200EH2B /4 X 2 5/ C152T200AJ2B /8 X 3 5/ C182T200AC2B /8 X 4 1/ C182T200BH2B X 2 5/ C192T200EB2B /4 X 3 1/ C212T200AD2B /8 X 4 5/ C242T200AE2B /8 X 5 1/ C242T200EJ2B /4 X 3 5/ C252T200BB2B X 3 1/ C272T200AF2B /8 X 5 5/ C282T200CH2B /2 X 2 5/ C302T200EC2B /4 X 4 1/ C322T200BJ2B X 3 5/ C352T200ED2B /4 X 4 5/ C392T200BC2B X 4 1/ C402T200EE2B /4 X 5 1/ C402T200CB2B /2 X 3 1/ C452T200EF2B /4 X 5 5/ C462T200BD2B X 4 5/ C512T200CJ2B /2 X 3 5/ C532T200BE2B X 5 1/ C572T200DB2B X 3 1/ C612T200BF2B X 5 5/ C622T200CC2B /2 X 4 1/ C732T200CD2B /2 X 4 5/ C732T200DJ2B X 3 5/ C852T200CE2B /2 X 5 1/ C902T200DC2B X 4 1/ C962T200CF2B /2 X 5 5/ C113T200DD2B X 4 5/ C123T200DE2B X 5 1/ C133T200FC2B /2 X 4 1/ C143T200DF2B X 5 5/ C153T200DP2D X 5 7/ C163T200FD2B /2 X 4 5/8 ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) C183T200FE2B /2 X 5 1/ C203T200FF2D /2 X 5 5/ C213T200DN2D X 7 5/ C223T200FP2D /2 X 5 7/ C243T200DG2D X 8 5/ C303T200FN2D /2 X 7 5/ C353T200FG2D /2X 8 5/8 250 Vdc (300 Vdc Surge) C281T250AK2B /8 X 1 5/ C511T250AA2B /8 X 2 1/ C621T250AH2B /8 X 2 5/ C851T250AB2B /8 X 3 1/ C851T250EA2B /4 X 2 1/ C911T250BA2B X 2 1/ C102T250EH2B /4 X 2 5/ C112T250AJ2B /8 X 3 5/ C132T250AC2B /8 X 4 1/ C132T250BH2B X 2 5/ C142T250EB2B /4 X 3 1/ C152T250AD2B /8 X 4 5/ C182T250AE2B /8 X 5 1/ C182T250EJ2B /4 X 3 5/ C182T250BB2B X 3 1/ C202T250AF2B /8 X 5 5/ C212T250CH2B /2 X 2 5/ C222T250EC2B /4 X 4 1/ C242T250BJ2B X 3 5/ C262T250ED2B /4 X 4 5/ C292T250EE2B /4 X 5 1/ C292T250BC2B X 4 1/ C292T250CB2B /2 X 3 1/ C332T250EF2B /4 X 5 5/ C342T250BD2B X 4 5/ C372T250CJ2B /2 X 3 5/ C392T250BE2B X 5 1/ C422T250DB2B X 3 1/ C452T250BF2B X 5 5/ C462T250CC2B /2 X 4 1/ C542T250CD2B /2 X 4 5/ C542T250DJ2B X 3 5/ C622T250CE2B /2 X 5 1/ C662T250DC2B X 4 1/8 Aluminum Screw Terminal Computer Grade 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.037

109 Aluminum Screw Terminal Computer Grade Type 550C, 105 C Ultra-Ripple, Long-life, Inverter Grade, Aluminum Ratings ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) C712T250CF2B /2 X 5 5/ C782T250DD2B X 4 5/ C902T250DE2B X 5 1/ C972T250FC2B /2 X 4 1/ C103T250DF2B X 5 5/ C113T250DP2B X 5 7/ C113T250FD2B /2 X 4 5/ C133T250FE2B /2 X 5 1/ C153T250DN2D X 7 5/ C153T250FF2D /2 X 5 5/ C163T250FP2D /2 X 5 7/ C173T250DG2D X 8 5/ C223T250FN2D /2 X 7 5/ C253T250FG2D /2X 8 5/8 300 Vdc (350 Vdc Surge) C201T300AK2B /8 X 1 5/ C321T300AA2B /8 X 2 1/ C481T300AH2B /8 X 2 5/ C491T300EA2B /4 X 2 1/ C641T300AB2B /8 X 3 1/ C641T300BA2B X 2 1/ C711T300EH2B /4 X 2 5/ C801T300AJ2B /8 X 3 5/ C911T300BH2B X 2 5/ C961T300AC2B /8 X 4 1/ C991T300EB2B /4 X 3 1/ C112T300AD2B /8 X 4 5/ C132T300AE2B /8 X 5 1/ C132T300EJ2B /4 X 3 5/ C132T300BB2B X 3 1/ C142T300AF2B /8 X 5 5/ C162T300EC2B /4 X 4 1/ C162T300BJ2B X 3 5/ C162T300CH2B /2 X 2 5/ C182T300ED2B /4 X 4 5/ C202T300BC2B X 4 1/ C212T300EE2B /4 X 5 1/ C222T300CB2B /2 X 3 1/ C242T300EF2B /4 X 5 5/ C242T300BD2B X 4 5/ C272T300BE2B X 5 1/ C282T300CJ2B /2 X 3 5/ C312T300BF2B X 5 5/ C342T300DB2B X 3 1/ C352T300CC2B /2 X 4 1/ C412T300CD2B /2 X 4 5/ C442T300DJ2B X 3 5/ C472T300CE2B /2 X 5 1/ C532T300CF2B /2 X 5 5/ C542T300DC2B X 4 1/ C642T300DD2B X 4 5/ C722T300FC2B /2 X 4 1/ C742T300DE2B X 5 1/ C832T300DF2B X 5 5/ C862T300FD2B /2 X 4 5/ C882T300DP2B X 5 7/ C992T300FE2B /2 X 5 1/ C113T300FF2B /2 X 5 5/ C123T300FP2D /2 X 5 7/ C123T300DN2D X 7 5/ C143T300DG2D X 8 5/ C163T300FN2D /2 X 7 5/ C183T300FG2D /2X 8 5/8 350 Vdc (400 Vdc Surge) C161T350AK2B /8 X 1 5/8 ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) C261T350AA2B /8 X 2 1/ C391T350AH2B /8 X 2 5/ C401T350EA2B /4 X 2 1/ C511T350BA2B X 2 1/ C521T350AB2B /8 X 3 1/ C571T350EH2B /4 X 2 5/ C641T350AJ2B /8 X 3 5/ C741T350BH2B X 2 5/ C771T350AC2B /8 X 4 1/ C801T350EB2B /4 X 3 1/ C901T350AD2B /8 X 4 5/ C102T350AE2B /8 X 5 1/ C102T350EJ2B /4 X 3 5/ C102T350BB2B X 3 1/ C122T350AF2B /8 X 5 5/ C132T350EC2B /4 X 4 1/ C132T350BJ2B X 3 5/ C132T350CH2B /2 X 2 5/ C152T350ED2B /4 X 4 5/ C162T350BC2B X 4 1/ C172T350EE2B /4 X 5 1/ C182T350CB2B /2 X 3 1/ C192T350EF2B /4 X 5 5/ C192T350BD2B X 4 5/ C222T350BE2B X 5 1/ C232T350CJ2B /2 X 3 5/ C252T350BF2B X 5 5/ C282T350CC2B /2 X 4 1/ C282T350DB2B X 3 1/ C332T350CD2B /2 X 4 5/ C362T350DJ2B X 3 5/ C382T350CE2B /2 X 5 1/ C432T350CF2B /2 X 5 5/ C442T350DC2B X 4 1/ C512T350DD2B X 4 5/ C582T350FC2B /2 X 4 1/ C592T350DE2B X 5 1/ C672T350DF2B X 5 5/ C692T350FD2B /2 X 4 5/ C712T350DP2B X 5 7/ C802T350FE2B /2 X 5 1/ C902T350FF2B /2 X 5 5/ C952T350FP2B /2 X 5 7/ C962T350DN2D X 7 5/ C113T350DG2D X 8 5/ C133T350FN2D /2 X 7 5/ C153T350FG2D /2 X 8 5/8 400 Vdc (450 Vdc Surge) C131T400AK2B /8 X 1 5/ C201T400AA2B /8 X 2 1/ C301T400AH2B /8 X 2 5/ C311T400EA2B /4 X 2 1/ C401T400AB2B /8 X 3 1/ C401T400BA2B X 2 1/ C451T400EH2B /4 X 2 5/ C511T400AJ2B /8 X 3 5/ C581T400BH2B X 2 5/ C611T400AC2B /8 X 4 1/ C631T400EB2B /4 X 3 1/ C711T400AD2B /8 X 4 5/ C801T400EJ2B /4 X 3 5/ C811T400AE2B /8 X 5 1/ C811T400BB2B X 3 1/ C911T400AF2B /8 X 5 5/ C981T400EC2B /4 X 4 1/ Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

110 Type 550C, 105 C Ultra-Ripple, Long-life, Inverter Grade, Aluminum Ratings ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) C991T400CH2B /2 X 2 5/ C102T400BJ2B X 3 5/ C122T400ED2B /4 X 4 5/ C132T400EE2B /4 X 5 1/ C132T400BC2B X 4 1/ C142T400CB2B /2 X 3 1/ C152T400EF2B /4 X 5 5/ C152T400BD2B X 4 5/ C172T400BE2B X 5 1/ C182T400CJ2B /2 X 3 5/ C202T400BF2B X 5 5/ C222T400CC2B /2 X 4 1/ C222T400DB2B X 3 1/ C262T400CD2B /2 X 4 5/ C282T400DJ2B X 3 5/ C302T400CE2B /2 X 5 1/ C342T400CF2B /2 X 5 5/ C342T400DC2B X 4 1/ C402T400DD2B X 4 5/ C462T400FC2B /2 4 1/ C472T400DE2B X 5 1/ C532T400DF2B X 5 5/ C542T400FD2B /2 X 4 5/ C562T400DP2B X 5 7/ C622T400FE2B /2 X 5 1/ C712T400FF2B /2 X 5 5/ C752T400FP2B /2 X 5 7/ C782T400DN2D X 7 5/ C902T400DG2D X 8 5/ C972T400FN2D /2 X 7 5/ C113T400FG2D /2X 8 5/8 450 Vdc (500 Vdc Surge) C900T450AK2B /8 X 1 5/ C141T450AA2B /8 X 2 1/ C211T450AH2B /8 X 2 5/ C221T450EA2B /4 X 2 1/ C281T450BA2B X 2 1/ C291T450AB2B /8 X 3 1/ C321T450EH2B /4 X 2 5/ C361T450AJ2B /8 X 3 5/ C411T450BH2B X 2 5/ C431T450AC2B /8 X 4 1/ C441T450EB2B /4 X 3 1/ C501T450AD2B /8 X 4 5/ C571T450AE2B /8 X 5 1/ C571T450EJ2B /4 X 3 5/ C571T450BB2B X 3 1/ C641T450AF2B /8 X 5 5/ C701T450EC2B /4 X 4 1/ C701T450CH2B /2 X 2 5/ C741T450BJ2B X 3 5/ C821T450ED2B /4 X 4 5/ C901T450BC2B X 4 1/ C951T450EE2B /4 X 5 1/ C981T450CB2B /2 X 3 1/ C112T450EF2B /4 X 5 5/ C112T450BD2B X 4 5/ C122T450BE2B X 5 1/ C132T450CJ2B /2 X 3 5/ C142T450BF2B X 5 5/ C152T450CC2B /2 X 4 1/ C152T450DB2B X 3 1/ C182T450CD2B /2 X 4 5/ C202T450DJ2B X 3 5/ C212T450CE2B /2 X 5 1/8 ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) C242T450CF2B /2 X 5 5/ C242T450DC2B X 4 1/ C292T450DD2B X 4 5/ C322T450FC2B /2 X 4 1/ C332T450DE2B X 5 1/ C372T450DF2B X 5 5/ C382T450FD2B /2 X 4 5/ C402T450DP2B X 5 7/ C442T450FE2B /2 X 5 1/ C502T450FF2B /2 X 5 5/ C532T450FP2B /2 X 5 7/ C552T450DN2B X 7 5/ C642T450DG2B X 8 5/ C712T450FN2D /2 X 7 5/ C812T450FG2D /2 X 8 5/8 500 Vdc (550 Vdc Surge) C910U500AK2B /8 X 1 5/ C151U500AA2B /8 X 2 1/ C221U500AH2B /8 X 2 5/ C231U500EA2B /4 X 2 1/ C291U500BA2B X 2 1/ C291U500AB2B /8 X 3 1/ C331U500EH2B /4 X 2 5/ C361U500AJ2B /8 X 3 5/ C411U500BH2B X 2 5/ C431U500AC2B /8 X 4 1/ C461U500EB2B /4 X 3 1/ C511U500AD2B /8 X 4 5/ C581U500BB2B X 3 1/ C581U500AE2B /8 X 5 1/ C591U500EJ2B /4 X 3 5/ C651U500AF2B /8 X 5 5/ C681U500CH2B /2 X 2 5/ C721U500EC2B /4 X 4 1/ C741U500BJ2B X 3 5/ C851U500ED2B /4 X 4 5/ C911U500BC2B X 4 1/ C961U500CB2B /2 X 3 1/ C981U500EE2B /4 X 5 1/ C112U500BD2B X 4 5/ C112U500EF2B /4 X 5 5/ C122U500CJ2B /2 X 3 5/ C122U500BE2B X 5 1/ C142U500DB2B X 3 1/ C142U500BF2B X 5 5/ C152U500CC2B /2 X 4 1/ C182U500CD2B /2 X 4 5/ C192U500DJ2B X 3 5/ C202U500CE2B /2 X 5 1/ C232U500DC2B X 4 1/ C232U500CF2B /2 X 5 5/ C272U500DD2B X 4 5/ C312U500DE2B X 5 1/ C322U500FC2B /2 X 4 1/ C352U500DF2B X 5 5/ C372U500DP2B X 5 7/ C382U500FD2B /2 X 4 5/ C432U500FE2B /2 X 5 1/ C492U500FF2B /2 X 5 5/ C522U500FP2B /2 X 5 7/ C542U500DN2B X 7 5/ C602U500DG2B X 8 5/ C702U500FN2B /2 X 7 5/ C842U500FG2B /2 X 8 5/8 Aluminum Screw Terminal Computer Grade 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.039

111 Type 101C, 55 C to 105 C Low-ESR, Wide-Temperature Grade Aluminum Screw Terminal Computer Grade The Ultimate in Cold Performance and ESR The Type 101C is the wide-temperature, low voltage version of the Type 550C. It is ideal for high-ripple current military and industrial applications that need full performance to 40 C and solid performance to 55 C. It also excels as a power-supply output capacitor because of its exceptionally low ESR. The extended cathode foil of the 101C assures heat flow from the capacitor element to the can in all mounting orientations. Highlights New, 5,000 hour load life Ripple Current to > C ESRs to 2.5 mω >90% capacitance at 40 C Thermal-Pak extended cathode construction Specifications Operating Temperature: 55 C to 105 C Rated Voltage: 7.5 to 250 Vdc Capacitance: 290 F to 1.5 F Capacitance Tolerance: 7.5 to 150 Vdc: %, 200 & 250 Vdc; % DC Leakage Current: 1.5 CV A, 4 ma max, 5 minutes Cold Impedance: 55 C multiple of 25 C Z 3 Ripple Current Multipliers: Ambient Temperature 45 C 55 C 65 C 75 C 85 C 95 C 105 C Frequency 50 Hz 60 Hz 120 Hz 360 Hz 1 khz 5 khz 10 khz & up 1 3/8 & 1 3/4 Diameters 7.5 to 150 V & 250 V & 2 1/2 Diameters 7.5 to 150 V & 250 V Diameter 7.5 to 150 V & 250 V C p F MORE hot ripple Type 125 p Type 125 p Load Life: Shelf Life Test: Vibration: 5,000 h at full 85 C per EIA IS-749 Capacitance 20% ESR 200% of limit DCL 100% of limit 500 h at 105 C, capacitance, ESR and DCL, initial requirements 10 to 55 Hz, 0.06 and 10 g max, 1.5 h ea. of 2 axis Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

112 Type 101C, 55 C to 105 C Low-ESR, Wide-Temperature Grade Outline Drawings Case Dimensions Uninsulated Case Dimensions For insulated case, add (0.610 mm) to D and (0.762 mm) to height. Diam. (D) Length (L) Terminals (S) Typical Weight Case Code Inches mm Inches mm Inches mm oz g Stud Dimensions ( ) NOTE: With the stud-mount feature, a thermally-conductive disk can be inserted in the bottom flush with the outer insulating sleeve. This reduces the thermal resistance through the can bottom by 0.3 C/W. Order Can Style P. Case Stud P Diam. Thread ( 1.0 mm) M (12.0) M (16.0) M (16.0) M (16.0) M (16.0) AK AA AH AB AJ AC AD AE AF EA EH EB EJ EC ED EE EF BA BH BB BJ BC BD BE BF CH CB CJ CC CD CE CF DJ DC DD DE DF DP DN DG Aluminum Screw Terminal Computer Grade Terminal Dimensions Post Diameter H max For Case Terminal Style Code inches (mm) inches (mm) Thread Diameters Low Post A (8.0) (2.39) to 3 High Post B (8.0) (7.14) to 3 High Current, High Post D (11.0) 0.19 (7.14) to Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.041

113 Type 101C, 55 C to 105 C Low-ESR, Wide-Temperature Grade Part Numbering System 101C 183 T 250 DG 2 D S Aluminum Screw Terminal Computer Grade Type Capacitance Tolerance Voltage Case Code Insulation Terminal Can Style 100 = 10 F M = 20% 7R5 = 7.5 Vdc 0 = None A = Low Post Blank = 101 = 100 F U = 10%+75% 063 = 63 Vdc 1 = Polyester B = High Post Standard 183 = 18,000 F T = 10%+50% 100 = 100 Vdc 2 = PVC D = High Current Can S = Stud Bottom P = Stud with Standard insulation is in PVC sleeve with 0.01-in polypropylene end disk. thermal pad Typical Performance Curves Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

114 Type 101C, 55 C to 105 C Low-ESR, Wide-Temperature Grade Ratings ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) 7.5 Vdc (10 Vdc Surge) C283U7R5AK2B /8 X 1 5/ C473U7R5AA2B /8 X 2 1/ C663U7R5AH2B /8 X 2 5/ C793U7R5BA2B X 2 1/ C843U7R5EA2B /4 X 2 1/ C843U7R5AB2B /8 X 3 1/ C104U7R5AJ2B /8 X 3 5/ C124U7R5EH2B /4 X 2 5/ C124U7R5BH2B X 2 5/ C124U7R5AC2B /8 X 4 1/ C144U7R5AD2B /8 X 4 5/ C164U7R5EB2B /4 X 3 1/ C164U7R5AE2B /8 X 5 1/ C174U7R5BB2B X 3 1/ C184U7R5AF2B /8 X 5 5/ C204U7R5EJ2B /4 X 3 5/ C214U7R5CH2B /2 X 2 5/ C224U7R5EC2B /4 X 4 1/ C224U7R5BJ2B X 3 5/ C264U7R5BC2D X 4 1/ C274U7R5ED2B /4 X 4 5/ C284U7R5CB2B /2 X 3 1/ C304U7R5BD2D X 4 5/ C314U7R5EE2B /4 X 5 1/ C354U7R5EF2B /4 X 5 5/ C354U7R5BE2D X 5 1/ C364U7R5CJ2D /2 X 3 5/ C394U7R5DB2D X 3 1/ C394U7R5BF2D X 5 5/ C434U7R5CC2D /2 X 4 1/ C494U7R5DJ2D X 3 5/ C494U7R5CD2D /2 X 4 5/ C574U7R5CE2D /2 X 5 1/ C614U7R5DC2D X 4 1/ C644U7R5CF2D /2 X 5 5/ C704U7R5DD2D X 4 5/ C814U7R5DE2D X 5 1/ C914U7R5DF2D X 5 5/ C964U7R5DP2D X 5 7/ C135U7R5DN2D X 7 5/ C155U7R5DG2D X 8 5/8 10 Vdc (15 Vdc Surge) C253U010AK2B /8 X 1 5/ C413U010AA2B /8 X 2 1/ C583U010AH2B /8 X 2 5/ C683U010BA2B X 2 1/ C693U010EA2B /4 X 2 1/ C743U010AB2B /8 X 3 1/ C893U010AJ2B /8 X 3 5/ C993U010EH2B /4 X 2 5/ C114U010BH2B X 2 5/ C114U010AC2B /8 X 4 1/ C124U010AD2B /8 X 4 5/ C134U010EB2B /4 X 3 1/ C144U010AE2B /8 X 5 1/ C154U010BB2B X 3 1/ C164U010EJ2B /4 X 3 5/8 ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) C164U010AF2B /8 X 5 5/ C184U010CH2B /2 X 2 5/ C184U010BJ2B X 3 5/ C194U010EC2B /4 X 4 1/ C224U010ED2B /4 X 4 5/ C234U010BC2D X 4 1/ C244U010CB2B /2 X 3 1/ C254U010EE2B /4 X 5 1/ C264U010BD2D X 4 5/ C284U010EF2B /4 X 5 5/ C304U010CJ2D /2 X 3 5/ C304U010BE2D X 5 1/ C344U010BF2D X 5 5/ C364U010DB2D X 3 1/ C374U010CC2D /2 X 4 1/ C434U010CD2D /2 X 4 5/ C454U010DJ2D X 3 5/ C504U010CE2D /2 X 5 1/ C554U010DC2D X 4 1/ C564U010CF2D /2 X 5 5/ C644U010DD2D X 4 5/ C744U010DE2D X 5 1/ C844U010DF2D X 5 5/ C884U010DP2D X 5 7/ C125U010DN2D X 7 5/ C145U010DG2D X 8 5/8 16 Vdc (25 Vdc Surge) C163U016AK2B /8 X 1 5/ C273U016AA2B /8 X 2 1/ C383U016AH2B /8 X 2 5/ C453U016BA2B X 2 1/ C463U016EA2B /4 X 2 1/ C493U016AB2B /8 X 3 1/ C593U016AJ2B /8 X 3 5/ C663U016EH2B /4 X 2 5/ C713U016BH2B X 2 5/ C733U016AC2B /8 X 4 1/ C823U016AD2B /8 X 4 5/ C863U016EB2B /4 X 3 1/ C933U016AE2B /8 X 5 1/ C104U016BB2B X 3 1/ C114U016EJ2B /4 X 3 5/ C114U016AF2B /8 X 5 5/ C124U016CH2B /2 X 2 5/ C124U016BJ2B X 3 5/ C134U016EC2B /4 X 4 1/ C154U016ED2B /4 X 4 5/ C164U016CB2B /2 X 3 1/ C164U016BC2D X 4 1/ C174U016EE2B /4 X 5 1/ C174U016BD2D X 4 5/ C194U016EF2B /4 X 5 5/ C204U016CJ2D /2 X 3 5/ C204U016BE2D X 5 1/ C234U016BF2D X 5 5/ C244U016DB2D X 3 1/ C254U016CC2D /2 X 4 1/ C294U016CD2D /2 X 4 5/8 Aluminum Screw Terminal Computer Grade 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.043

115 Type 101C, 55 C to 105 C Low-ESR, Wide-Temperature Grade Ratings Aluminum Screw Terminal Computer Grade ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) C304U016DJ2D X 3 5/ C334U016CE2D /2 X 5 1/ C364U016DC2D X 4 1/ C374U016CF2D /2 X 5 5/ C434U016DD2D X 4 5/ C494U016DE2D X 5 1/ C564U016DF2D X 5 5/ C594U016DP2D X 5 7/ C804U016DN2D X 7 5/ C924U016DG2D X 8 5/8 20 Vdc (30 Vdc Surge) C133U020AK2B /8 X 1 5/ C213U020AA2B /8 X 2 1/ C293U020AH2B /8 X 2 5/ C343U020BA2B X 2 1/ C353U020EA2B /4 X 2 1/ C383U020AB2B /8 X 3 1/ C453U020AJ2B /8 X 3 5/ C503U020EH2B /4 X 2 5/ C543U020BH2B X 2 5/ C553U020AC2B /8 X 4 1/ C623U020AD2B /8 X 4 5/ C663U020EB2B /4 X 3 1/ C713U020AE2B /8 X 5 1/ C773U020BB2B X 3 1/ C803U020AF2B /8 X 5 5/ C813U020EJ2B /4 X 3 5/ C893U020CH2B /2 X 2 5/ C943U020BJ2B X 3 5/ C983U020EC2B /4 X 4 1/ C114U020ED2B /4 X 4 5/ C124U020CB2B /2 X 3 1/ C124U020BC2D X 4 1/ C134U020EE2B /4 X 5 1/ C134U020BD2D X 4 5/ C144U020EF2B /4 X 5 5/ C154U020CJ2D /2 X 3 5/ C154U020BE2D X 5 1/ C184U020DB2D X 3 1/ C184U020BF2D X 5 5/ C194U020CC2D /2 X 4 1/ C224U020CD2D /2 X 4 5/ C234U020DJ2D X 3 5/ C254U020CE2D /2 X 5 1/ C284U020DC2D X 4 1/ C284U020CF2D /2 X 5 5/ C334U020DD2D X 4 5/ C384U020DE2D X 5 1/ C424U020DF2D X 5 5/ C454U020DP2D X 5 7/ C614U020DN2D X 7 5/ C714U020DG2D X 8 5/8 25 Vdc (40 Vdc Surge) C992U025AK2B /8 X 1 5/ C163U025AA2B /8 X 2 1/ C233U025AH2B /8 X 2 5/ C273U025EA2B /4 X 2 1/ C273U025BA2B X 2 1/8 ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) C303U025AB2B /8 X 3 1/ C353U025AJ2B /8 X 3 5/ C393U025EH2B /4 X 2 5/ C423U025BH2B X 2 5/ C433U025AC2B /8 X 4 1/ C493U025AD2B /8 X 4 5/ C523U025EB2B /4 X 3 1/ C563U025AE2B /8 X 5 1/ C603U025BB2B X 3 1/ C633U025AF2B /8 X 5 5/ C643U025EJ2B /4 X 3 5/ C703U025CH2B /2 X 2 5/ C733U025BJ2B X 3 5/ C773U025EC2B /4 X 4 1/ C883U025ED2B /4 X 4 5/ C903U025BC2B X 4 1/ C953U025CB2B /2 X 3 1/ C104U025EE2B /4 X 5 1/ C104U025BD2D X 4 5/ C114U025EF2B /4 X 5 5/ C124U025CJ2D /2 X 3 5/ C124U025BE2D X 5 1/ C144U025DB2D X 3 1/ C144U025BF2D X 5 5/ C154U025CC2D /2 X 4 1/ C174U025CD2D /2 X 4 5/ C184U025DJ2D X 3 5/ C204U025CE2D /2 X 5 1/ C224U025DC2D X 4 1/ C224U025CF2D /2 X 5 5/ C264U025DD2D X 4 5/ C294U025DE2D X 5 1/ C334U025DF2D X 5 5/ C354U025DP2D X 5 7/ C484U025DN2D X 7 5/ C554U025DG2D X 8 5/8 30 Vdc (45 Vdc Surge) C542U030AK2B /8 X 1 5/ C133U030AA2B /8 X 2 1/ C193U030AH2B /8 X 2 5/ C233U030EA2B /4 X 2 1/ C233U030BA2B X 2 1/ C243U030AB2B /8 X 3 1/ C303U030AJ2B /8 X 3 5/ C333U030EH2B /4 X 2 5/ C363U030AC2B /8 X 4 1/ C363U030BH2B X 2 5/ C413U030AD2B /8 X 4 5/ C443U030EB2B /4 X 3 1/ C473U030AE2B /8 X 5 1/ C493U030BB2B X 3 1/ C533U030AF2B /8 X 5 5/ C543U030EJ2B /4 X 3 5/ C593U030CH2B /2 X 2 5/ C623U030BJ2B X 3 5/ C643U030EC2B /4 X 4 1/ C753U030ED2B /4 X 4 5/ C753U030BC2D X 4 1/ Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

116 Type 101C, 55 C to 105 C Low-ESR, Wide-Temperature Grade Ratings ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) C813U030CB2B /2 X 3 1/ C853U030EE2B /4 X 5 1/ C883U030BD2D X 4 5/ C953U030EF2B /4 X 5 5/ C104U030CJ2D /2 X 3 5/ C104U030BE2D X 5 1/ C114U030BF2D X 5 5/ C124U030DB2D X 3 1/ C124U030CC2D /2 X 4 1/ C154U030DJ2D X 3 5/ C154U030CD2D /2 X 4 5/ C174U030CE2D /2 X 5 1/ C184U030DC2D X 4 1/ C194U030CF2D /2 X 5 5/ C224U030DD2D X 4 5/ C254U030DE2D X 5 1/ C284U030DF2D X 5 5/ C304U030DP2D X 5 7/ C414U030DN2D X 7 5/ C474U030DG2D X 8 5/8 40 Vdc (55 Vdc Surge) C542U040AK2B /8 X 1 5/ C902U040AA2B /8 X 2 1/ C133U040AH2B /8 X 2 5/ C163U040EA2B /4 X 2 1/ C163U040BA2B X 2 1/ C173U040AB2B /8 X 3 1/ C213U040AJ2B /8 X 3 5/ C233U040EH2B /4 X 2 5/ C253U040BH2B X 2 5/ C253U040AC2B /8 X 4 1/ C293U040AD2B /8 X 4 5/ C303U040EB2B /4 X 3 1/ C333U040AE2B /8 X 5 1/ C343U040BB2B X 3 1/ C373U040EJ2B /4 X 3 5/ C373U040AF2B /8 X 5 5/ C413U040CH2B /2 X 2 5/ C433U040BJ2B X 3 5/ C453U040EC2B /4 X 4 1/ C523U040ED2B /4 X 4 5/ C523U040BC2B X 4 1/ C563U040CB2B /2 X 3 1/ C593U040EE2B /4 X 5 1/ C613U040BD2D X 4 5/ C663U040EF2B /4 X 5 5/ C703U040BE2D X 5 1/ C713U040CJ2D /2 X 3 5/ C793U040BF2D X 5 5/ C833U040DB2D X 3 1/ C863U040CC2D /2 X 4 1/ C104U040CD2D /2 X 4 5/ C114U040DJ2D X 3 5/ C124U040CE2D /2 X 5 1/ C134U040DC2D X 4 1/ C134U040CF2D /2 X 5 5/ C154U040DD2D X 4 5/8 ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) C174U040DE2D X 5 1/ C194U040DF2D X 5 5/ C214U040DP2D X 5 7/ C284U040DN2D X 7 5/ C334U040DG2D X 8 5/8 50 Vdc (75 Vdc Surge) C382U050AK2B /8 X 1 5/ C702U050AA2B /8 X 2 1/ C103U050AH2B /8 X 2 5/ C123U050EA2B /4 X 2 1/ C123U050BA2B X 2 1/ C133U050AB2B /8 X 3 1/ C163U050AJ2B /8 X 3 5/ C183U050EH2B /4 X 2 5/ C193U050BH2B X 2 5/ C193U050AC2B /8 X 4 1/ C223U050AD2B /8 X 4 5/ C243U050EB2B /4 X 3 1/ C253U050AE2B /8 X 5 1/ C273U050BB2B X 3 1/ C293U050EJ2B /4 X 3 5/ C293U050AF2B /8 X 5 5/ C323U050CH2B /2 X 2 5/ C343U050BJ2B X 3 5/ C353U050EC2B /4 X 4 1/ C403U050ED2B /4 X 4 5/ C413U050BC2B X 4 1/ C443U050CB2B /2 X 3 1/ C463U050EE2B /4 X 5 1/ C483U050BD2D X 4 5/ C523U050EF2B /4 X 5 5/ C553U050CJ2D /2 X 3 5/ C553U050BE2D X 5 1/ C623U050BF2D X 5 5/ C653U050DB2B X 3 1/ C673U050CC2D /2 X 4 1/ C793U050CD2D /2 X 4 5/ C833U050DJ2D X 3 5/ C903U050CE2D /2 X 5 1/ C104U050DC2D X 4 1/ C104U050CF2D /2 X 5 5/ C124U050DD2D X 4 5/ C134U050DE2D X 5 1/ C154U050DF2D X 5 5/ C164U050DP2D X 5 7/ C224U050DN2D X 7 5/ C264U050DG2D X 8 5/8 63 Vdc (85 Vdc Surge) C282U063AK2B /8 X 1 5/ C502U063AA2B /8 X 2 1/ C722U063AH2B /8 X 2 5/ C882U063BA2B X 2 1/ C892U063EA2B /4 X 2 1/ C942U063AB2B /8 X 3 1/ C123U063AJ2B /8 X 3 5/ C133U063EH2B /4 X 2 5/ C143U063BH2B X 2 5/8 Aluminum Screw Terminal Computer Grade 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.045

117 Type 101C, 55 C to 105 C Low-ESR, Wide-Temperature Grade Aluminum Screw Terminal Computer Grade Ratings ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) C143U063AC2B /8 X 4 1/ C163U063AD2B /8 X 4 5/ C173U063EB2B /4 X 3 1/ C183U063AE2B /8 X 5 1/ C193U063BB2B X 3 1/ C203U063AF2B /8 X 5 5/ C213U063EJ2B /4 X 3 5/ C233U063CH2B /2 X 2 5/ C243U063BJ2B X 3 5/ C253U063EC2B /4 X 4 1/ C293U063ED2B /4 X 4 5/ C293U063BC2B X 4 1/ C313U063CB2B /2 X 3 1/ C333U063EE2B /4 X 5 1/ C343U063BD2B X 4 5/ C373U063EF2B /4 X 5 5/ C393U063BE2D X 5 1/ C403U063CJ2D /2 X 3 5/ C443U063BF2D X 5 5/ C473U063DB2B X 3 1/ C483U063CC2D /2 X 4 1/ C563U063CD2D /2 X 4 5/ C593U063DJ2D X 3 5/ C653U063CE2D /2 X 5 1/ C723U063DC2D X 4 1/ C733U063CF2D /2 X 5 5/ C843U063DD2D X 4 5/ C973U063DE2D X 5 1/ C114U063DF2D X 5 5/ C124U063DP2D X 5 7/ C164U063DN2D X 7 5/ C184U063DG2D X 8 5/8 75 Vdc (100 Vdc Surge) C212U075AK2B /8 X 1 5/ C362U075AA2B /8 X 2 1/ C522U075AH2B /8 X 2 5/ C642U075BA2B X 2 1/ C652U075EA2B /4 X 2 1/ C682U075AB2B /8 X 3 1/ C842U075AJ2B /8 X 3 5/ C942U075EH2B /4 X 2 5/ C103U075AC2B /8 X 4 1/ C103U075BH2B X 2 5/ C123U075EB2B /4 X 3 1/ C123U075AD2B /8 X 4 5/ C133U075AE2B /8 X 5 1/ C143U075BB2B X 3 1/ C153U075EJ2B /4 X 3 5/ C153U075AF2B /8 X 5 5/ C173U075CH2B /2 X 2 5/ C173U075BJ2B X 3 5/ C183U075EC2B /4 X 4 1/ C213U075ED2B /4 X 4 5/ C213U075BC2B X 4 1/ C233U075CB2B /2 X 3 1/ C243U075EE2B /4 X 5 1/ C253U075BD2B X 4 5/ C273U075EF2B /4 X 5 5/8 ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) C283U075BE2B X 5 1/ C293U075CJ2B /2 X 3 5/ C323U075BF2B X 5 5/ C343U075DB2B X 3 1/ C353U075CC2B /2 X 4 1/ C413U075CD2D /2 X 4 5/ C433U075DJ2B X 3 5/ C473U075CE2D /2 X 5 1/ C523U075DC2D X 4 1/ C533U075CF2D /2 X 5 5/ C613U075DD2D X 4 5/ C703U075DE2D X 5 1/ C793U075DF2D X 5 5/ C833U075DP2D X 5 7/ C114U075DN2D X 7 5/ C134U075DG2D X 8 5/8 100 Vdc (150 Vdc Surge) C132U100AK2B /8 X 1 5/ C232U100AA2B /8 X 2 1/ C342U100AH2B /8 X 2 5/ C412U100BA2B X 2 1/ C422U100EA2B /4 X 2 1/ C442U100AB2B /8 X 3 1/ C542U100AJ2B /8 X 3 5/ C612U100EH2B /4 X 2 5/ C652U100AC2B /8 X 4 1/ C652U100BH2B X 2 5/ C752U100AD2B /8 X 4 5/ C792U100EB2B /4 X 3 1/ C852U100AE2B /8 X 5 1/ C892U100BB2B X 3 1/ C962U100AF2B /8 X 5 5/ C982U100EJ2B /4 X 3 5/ C113U100CH2B /2 X 2 5/ C113U100BJ2B X 3 5/ C123U100EC2B /4 X 4 1/ C143U100ED2B /4 X 4 5/ C143U100BC2B X 4 1/ C153U100EE2B /4 X 5 1/ C153U100CB2B /2 X 3 1/ C163U100BD2B X 4 5/ C173U100EF2B /4 X 5 5/ C183U100BE2B X 5 1/ C193U100CJ2B /2 X 3 5/ C213U100BF2B X 5 5/ C223U100DB2B X 3 1/ C223U100CC2B /2 X 4 1/ C263U100CD2B /2 X 4 5/ C283U100DJ2B X 3 5/ C303U100CE2D /2 X 5 1/ C343U100DC2D X 4 1/ C343U100CF2D /2 X 5 5/ C393U100DD2D X 4 5/ C453U100DE2D X 5 1/ C513U100DF2D X 5 5/ C543U100DP2D X 5 7/ C743U100DN2D X 7 5/ C853U100DG2D X 8 5/ Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

118 Type 101C, 55 C to 105 C Low-ESR, Wide-Temperature Grade Ratings ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) 150 Vdc (200 Vdc Surge) C491U150AK2B /8 X 1 5/ C881U150AA2B /8 X 2 1/ C122U150EA2B /4 X 2 1/ C132U150AH2B /8 X 2 5/ C152U150BA2B X 2 1/ C172U150AB2B /8 X 3 1/ C182U150EH2B /4 X 2 5/ C192U150AJ2B /8 X 3 5/ C232U150BH2B X 2 5/ C252U150EB2B /4 X 3 1/ C252U150AC2B /8 X 4 1/ C272U150AD2B /8 X 4 5/ C312U150AE2B /8 X 5 1/ C322U150EJ2B /4 X 3 5/ C342U150BB2B X 3 1/ C362U150AF2B /8 X 5 5/ C382U150CH2B /2 X 2 5/ C402U150BJ2B X 3 5/ C442U150EC2B /4 X 4 1/ C452U150ED2B /4 X 4 5/ C522U150EE2B /4 X 5 1/ C522U150CB2B /2 X 3 1/ C522U150BC2B X 4 1/ C572U150BD2B X 4 5/ C582U150EF2B /4 X 5 5/ C662U150BE2B X 5 1/ C662U150CJ2B /2 X 3 5/ C782U150DB2B X 3 1/ C792U150BF2B X 5 5/ C852U150CC2B /2 X 4 1/ C942U150CD2B /2 X 4 5/ C992U150DJ2B X 3 5/ C113U150CE2B /2 X 5 1/ C123U150DC2B X 4 1/ C133U150CF2B /2 X 5 5/ C143U150DD2B X 4 5/ C163U150DE2B X 5 1/ C183U150DF2B X 5 5/ C193U150DP2B X 5 7/ C263U150DN2D X 7 5/ C303U150DG2D X 8 5/8 200 Vdc (275 Vdc Surge) C381T200AK2B /8 X 1 5/ C681T200AA2B /8 X 2 1/ C891T200EA2B /4 X 2 1/ C981T200AH2B /8 X 2 5/ C112T200BA2B X 2 1/ C132T200AB2B /8 X 3 1/ C142T200EH2B /4 X 2 5/ C162T200AJ2B /8 X 3 5/ C182T200BH2B X 2 5/ C192T200EB2B /4 X 3 1/ C192T200AC2B /8 X 4 1/ C222T200AD2B /8 X 4 5/ C242T200EJ2B /4 X 3 5/ C242T200BB2B X 3 1/ C252T200AE2B /8 X 5 1/8 ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) C282T200AF2B /8 X 5 5/ C312T200BJ2B X 3 5/ C342T200EC2B /4 X 4 1/ C352T200ED2B /4 X 4 5/ C402T200EE2B /4 X 5 1/ C402T200CB2B /2 X 3 1/ C402T200BC2B X 4 1/ C442T200BD2B X 4 5/ C452T200EF2B /4 X 5 5/ C502T200BE2B X 5 1/ C512T200CJ2B /2 X 3 5/ C612T200BF2B X 5 5/ C652T200CC2B /2 X 4 1/ C722T200CH2B /2 X 2 5/ C722T200CD2B /2 X 4 5/ C762T200DJ2B X 3 5/ C832T200CE2B /2 X 5 1/ C932T200DC2B X 4 1/ C103T200CF2B /2 X 5 5/ C113T200DD2B X 4 5/ C133T200DB2B X 3 1/ C133T200DE2B X 5 1/ C143T200DF2B X 5 5/ C153T200DP2B X 5 7/ C203T200DN2D X 7 5/ C233T200DG2D X 8 5/8 250 Vdc (350 Vdc Surge) C291T250AK2B /8 X 1 5/ C531T250AA2B /8 X 2 1/ C701T250EA2B /4 X 2 1/ C761T250AH2B /8 X 2 5/ C891T250BA2B X 2 1/ C991T250AB2B /8 X 3 1/ C112T250EH2B /4 X 2 5/ C122T250AJ2B /8 X 3 5/ C142T250BH2B X 2 5/ C152T250AC2B /8 X 4 1/ C152T250EB2B /4 X 3 1/ C172T250AD2B /8 X 4 5/ C192T250AE2B /8 X 5 1/ C192T250EJ2B /4 X 3 5/ C192T250BB2B X 3 1/ C222T250AF2B /8 X 5 5/ C232T250CH2B /2 X 2 5/ C232T250EC2B /4 X 4 1/ C242T250BJ2B X 3 5/ C272T250ED2B /4 X 4 5/ C292T250BC2B X 4 1/ C312T250CB2B /2 X 3 1/ C312T250EE2B /4 X 5 1/ C342T250BD2B X 4 5/ C352T250EF2B /4 X 5 5/ C392T250BE2B X 5 1/ C402T250CJ2B /2 X 3 5/ C452T250BF2B X 5 5/ C472T250DB2B X 3 1/ C512T250CC2B /2 X 4 1/ C572T250CD2B /2 X 4 5/8 Aluminum Screw Terminal Computer Grade 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.047

119 Type 101C, 55 C to 105 C Low-ESR, Wide-Temperature Grade Ratings Aluminum Screw Terminal Computer Grade ESR Max. Ripple C Nominal Size Cap. Catalog 120 Hz 120 Hz D x L F Part Number (mω) (A) (inches) C592T250DJ2B X 3 5/ C652T250CE2B /2 X 5 1/ C722T250DC2B X 4 1/ C772T250CF2B /2 X 5 5/ C852T250DD2B X 4 5/ C972T250DE2B X 5 1/ C113T250DF2B X 5 5/ C123T250DP2B X 5 7/ C163T250DN2D X 7 5/ C183T250DG2D X 8 5/ Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

120 Type 125, 55 C to 125 C, Ultra-High Temperature, Military Grade The Pace-Setter for Long Life and High Temperature Exceeding the requirements of military aluminum electrolytic large can capacitors, the Type 125 performs in the most demanding filter applications delivering the longest life and the lowest leakage in low-voltage, aluminum-electrolytic capacitors. It s the choice for output capacitors in high temperature and military power supplies. Specifications Highlights Now 5000 hour load life Ripple Current to 50 amps ESRs to 4 mω >90% capacitance at 40 C Operates at 125 C Operating Temperature: 55 C to 125 C Rated Voltage: 5 to 40 Vdc Capacitance: 2600 F to 190,000 F Capacitance Tolerance: % DC Leakage Current: CV 25 C, C Cold Impedance: 55 C Multiple of 25 C Z 2 Ripple Current Multipliers: Ambient Temperature 45 C 55 C 65 C 75 C 85 C 95 C 105 C Aluminum Screw Terminal Computer Grade Type 101C p µf MORE Frequency Type 101C p Vdc 50 Hz 60Hz 120 Hz 360 Hz 1 khz 5 khz 10 khz & up Load Life: Shelf Life: Vibration: 5,000 h at full 85 C per EIA IS-749 Capacitance ±20% ESR 200% of limit DCL 100% of limit C, capacitance, ESR and DCL, initial requirements 10 to 55 Hz, 0.06 and 10 g max, 1.5 h ea. of 2 axis 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.049

121 Type 125, 55 C to 125 C, Ultra-High Temperature, Military Grade Outline Drawings ( ) ( ) Aluminum Screw Terminal Computer Grade Terminal Dimensions Post Diameter H max Terminal Style Code inches (mm) inches (mm) Thread Low Post A (8.0) (2.39) High Post B (8.0) (7.14) ( ) Case Dimensions Uninsulated Case Dimensions For insulated case, add (0.610 mm) to D and (0.762 mm) to height. Diam. (D) Length (L) Terminals (S) Case Typical Weight Code Inches mm Inches mm Inches mm H max. oz g AK See AA Terminal AH Dimensions AB AJ AC AD AE AF Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

122 Type 125, 55 C to 125 C, Ultra-High Temperature, Military Grade Part Numbering System U 7R5 AA 1 B Type Capacitance Tolerance Voltage Case Code Insulation Terminal 100 = 10 F U = 10%+75% 6R3 = 6.3 Vdc 0 = None A = Low Post 101 = 100 F 063 = 63 Vdc 1 = Polyester B = High Post 100 = 100 Vdc Typical Performance Curves Impedance vs. Frequency - 14,000 µf 7.5 Vdc Impedance vs. Frequency µf 40 Vdc Aluminum Screw Terminal Computer Grade 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.051

123 Type 125, 55 C to 125 C, Ultra-High Temperature, Military Grade Aluminum Screw Terminal Computer Grade Ratings ESR Max. 25 C 85 C Nominal Cap. Catalog 120 Hz 20 khz 120 Hz 20 khz Size D x L µf Part Number (Ω) (A rms) (inches) 5 Vdc (8 Vdc Surge) U005AK1B /8 x 1 5/ U005AA1B /8 x 2 1/ U005AH1B /8 x 2 5/ U005AB1B /8 x 3 1/ U005AJ1B /8 x 3 5/ U005AC1B /8 x 4 1/ U005AD1B /8 x 4 5/ U005AE1B /8 x 5 1/ U005AF1B /8 x 5 5/8 6.3 Vdc (10 Vdc Surge) U6R3AK1B /8 x 1 5/ U6R3AA1B /8 x 2 1/ U6R3AH1B /8 x 2 5/ U6R3AB1B /8 x 3 1/ U6R3AJ1B /8 x 3 5/ U6R3AC1B /8 x 4 1/ U6R3AD1B /8 x 4 5/ U6R3AE1B /8 x 5 1/ U6R3AF1B /8 x 5 5/8 7.5 Vdc (12 Vdc Surge) U7R5AK1B /8 x1 5/ U7R5AA1B /8 x 2 1/ U7R5AH1B /8 x 2 5/ U7R5AB1B /8 x 3 1/ U7R5AJ1B /8 x 3 5/ U7R5AC1B /8 x 4 1/ U7R5AD1B /8 x 4 5/ U7R5AE1B /8 x 5 1/ U7R5AF1B /8 x 5 5/ Vdc (20 Vdc Surge) U12R5AK1B /8 x 1 5/ U12R5AA1B /8 x 2 1/ U12R5AH1B /8 x 2 5/ U12R5AB1B /8 x 3 1/ U12R5AJ1B /8 x 3 5/ U12R5AC1B /8 x 4 1/ U12R5AD1B /8 x 4 5/ U12R5AE1B /8 x 5 1/ U12R5AF1B /8 x 5 5/8 15 Vdc (25 Vdc Surge) U015AK1B /8 x 1 5/ U015AA1B /8 x 2 1/ U015AH1B /8 x 2 5/ U015AB1B /8 x 3 1/ U015AJ1B /8 x 3 5/ U015AC1B /8 x 4 1/ U015AD1B /8 x 4 5/ U015AE1B /8 x 5 1/ U015AF1B /8 x 5 5/8 ESR Max. 25 C 85 C Nominal Cap. Catalog 120 Hz 20 khz 120 Hz 20 khz Size D x L µf Part Number (Ω) (A rms) (inches) 20 Vdc (25 Vdc Surge) U020AK1B /8 x 1 5/ U020AA1B /8 x 2 1/ U020AH1B /8 x 2 5/ U020AB1B /8 x 3 1/ U020AJ1B /8 x 3 5/ U020AC1B /8 x 4 1/ U020AD1B /8 x 4 5/ U020AE1B /8 x 5 1/ U020AF1B /8 x 5 5/8 25 Vdc (40 Vdc Surge) U025AK1B /8 x 1 5/ U025AA1B /8 x 2 1/ U025AH1B /8 x 2 5/ U025AB1B /8 x 3 1/ U025AJ1B /8 x 3 5/ U025AC1B /8 x 4 1/ U025AD1B /8 x 4 5/ U025AE1B /8 x 5 1/ U025AF1B /8 x 5 5/8 30 Vdc (50 Vdc Surge) U030AK1B /8 x 1 5/ U030AA1B /8 x 2 1/ U030AH1B /8 x 2 5/ U030AB1B /8 x 3 1/ U030AJ1B /8 x 3 5/ U030AC1B /8 x 4 1/ U030AD1B /8 x 4 5/ U030AE1B /8 x 5 1/ U030AF1B /8 x 5 5/8 40 Vdc (60 Vdc Surge) U040AK1B /8 x 1 5/ U040AA1B /8 x 2 1/ U040AH1B /8 x 2 5/ U040AB1B /8 x 3 1/ U040AJ1B /8 x 3 5/ U040AC1B /8 x 4 1/ U040AD1B /8 x 4 5/ U040AE1B /8 x 5 1/ U040AF1B /8 x 5 5/ Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

124 Mounting Hardware for Screw-Terminal, Computer-Grade Mounting Hardware FIGURE 1 FIGURE 2 FIGURE 3 FIGURE 4 Clamp Dimensions Aluminum Screw Terminal Computer Grade Clamp Dimensions in Inches Number A B C D Bracket Dimensions Dimensions in Inches Dimensions in millimeters Figure Bracket A B C D E F A B C D E F Number * * * * * Note: All mounting brackets and clamps except Figure 4 are zinc plated. Figure 4 is black nylon. When mounting capacitors there is no need to wrap capacitors with protective wrapping before installing mounting clamp. * Stock bracket Nylon Nuts for Insulated Stud Mounting For Stud Standoff Nut Nut Hex Mounting Nylon Nut Diameter Diameter Diameter Elevation Head Min. Hole Max. Chassis Max. Tightening Part Number (mm) S (mm) W (mm) T (mm) J (mm) Diameter Thickness Torque (mm) (mm) in. lbs. M8S17W25 M M12S22W30 M M12S30W38 M Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.053

125 Type 380LQ, 85 C Compact, High-Capacitance Snap-in 27% Smaller for Same Capacitance Type 380LQ is on average 27% smaller and more than 10 mm shorter than Type 380L. This is achieved with a new can-closure method that permits installing capacitor elements into smaller cans. Approaching the capability of the 380L, the new 380LQ enables you to shrink equipment size and retain the original performance. Highlights New, more capacitance per case Compare to Type 380L Aluminum Snap-In Specifications Operating Temperature: 40 C to + 85 C <250Vdc 25 C to + 85 C >350Vdc Rated Voltage: 160 to 450 Vdc Capacitance: 82 µf to 3,900 µf ± 20% Leakage Current: 3 CV µa, 4 ma max, 5 minutes Ripple Current Multipliers: Ambient Temperature 45 C 60 C 70 C 85 C MORE life ripple 380LX p LQ p Frequency 50 Hz 60 Hz 120 Hz 500 Hz 1 khz 10 khz & up temp 381LQ p Load Life: 2000 h at full load at 85 C Capacitance 10% ESR 125% of limit DCL 100% of limit EIA Ripple Life: 2000 h at 85 C, full load per EIA IS-749 C Capacitance 20% ESR 200% of limit DCL 100% of limit Shelf Life: 1000 h at 85 C, capacitance ± 10%, ESR 200% of limit, DCL 100% of limit Vibration: 10 to 55 Hz, 0.06 and 10 g max, 2 h each plane Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

126 Outline Drawings Type 380LQ, 85 C Compact, High-Capacitance Snap-in Insulated Case Dimentions DIAMETER LENGTH Typical DIAMETER LENGTH Typical Case D L Weight Case D L Weight Code mm inches mm inches (grams) Code mm inches mm inches (grams) H K H K H K H K H K H K J A J A J A J A J A J A Aluminum Snap-In Part Numbering System 380LQ 561 M 160 HO1 2 Type Capacitance Tolerance Rated Case Code Insulation 561 = 560 µf M = 20% Voltage 2 = PVC 392 = 3900 µf 160 = 160 V 450 = 450 V 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.055

127 Type 380LQ, 85 C Compact, High-Capacitance Snap-in Typical Performance Curves Cap (%) and DF (%) Life Test, 105 C, Full Load, 120 F, 400 V DF 8 DCL C Test Hours 30 DCL (ua) Cap (%) and DF (%) Life Test, 105 C, Full Load, 330 F, 400 V DF DCL C Test Hours 90 DCL (ua) 1000 Type 380LQ Operating Life vs Ripple Current Aluminum Snap-In Expected Operating Life, kh C 55 C 65 C 75 C 85 C Ratings Rated Ripple-Current Multiple ESR Max Ripple Max C Size Cap. Catalog 120 Hz 20 khz 120 Hz 20 khz DxL (µf) Part Number (Ω) (Ω) (Α) (Α) (mm) 160 Vdc (200 Vdc Surge) LQ561M160H X LQ681M160H X LQ821M160H X LQ102M160H X LQ102M160J X LQ122M160H X LQ122M160J X LQ122M160K X LQ152M160H X LQ152M160J X LQ152M160K X LQ152M160A X LQ182M160J X LQ182M160K X LQ182M160A X LQ222M160K X LQ222M160A X LQ272M160K X LQ272M160A X LQ332M160A X LQ392M160A X Vdc. (225 Vdc Surge) LQ471M180H X LQ561M180H X LQ681M180H X LQ681M180J X LQ821M180H X LQ821M180J X 30 ESR Max Ripple Max C Size Cap. Catalog 120 Hz 20 khz 120 Hz 20 khz DxL (µf) Part Number (Ω) (Ω) (Α) (Α) (mm) LQ102M180H X LQ102M180J X LQ102M180K X LQ122M180H X LQ122M180J X LQ122M180K X LQ122M180A X LQ152M180J X LQ152M180K X LQ152M180A X LQ182M180J X LQ182M180K X LQ182M180A X LQ222M180K X LQ222M180A X LQ272M180K X LQ272M180A X LQ332M180A X Vdc, (250 Vdc Surge) LQ391M200H X LQ471M200H X LQ561M200H X LQ561M200J X LQ681M200H X LQ681M200J X LQ821M200H X LQ821M200J X LQ821M200K X LQ102M200H X Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

128 Type 380LQ, 85 C Compact, High-Capacitance Snap-in ESR Max Ripple Max C Size Cap. Catalog 120 Hz 20 khz 120 Hz 20 khz DxL (µf) Part Number (Ω) (Ω) (Α) (Α) (mm) LQ102M200J X LQ102M200K X LQ102M200A X LQ122M200H X LQ122M200J X LQ122M200K X LQ152M200J X LQ152M200K X LQ152M200A X LQ182M200K X LQ182M200A X LQ222M200K X LQ222M200A X LQ272M200A X Vdc, (300 Vdc Surge) LQ271M250H X LQ331M250H X LQ391M250H X LQ391M250J X LQ471M250H X LQ471M250J X LQ561M250H X LQ561M250J X LQ561M250K X LQ681M250H X LQ681M250J X LQ681M250K X LQ821M250H X LQ821M250J X LQ821M250K X LQ821M250A X LQ102M250J X LQ102M250K X LQ102M250A X LQ122M250K X LQ122M250A X LQ152M250K X LQ152M250A X LQ182M250A X LQ222M250A X Vdc, (385 Vdc Surge) LQ181M315H X LQ221M315H X LQ271M315H X LQ331M315H X LQ331M315J X LQ331M315K X LQ391M315H X LQ391M315J X LQ391M315K X LQ471M315H X LQ471M315J X LQ471M315K X LQ471M315A X LQ561M315J X LQ561M315K X LQ561M315A X LQ681M35K X LQ681M315A X LQ821M315K X LQ821M315A X LQ102M315K X LQ102M315A X Vdc (400 Vdc Surge) LQ151M350H X LQ181M350H X LQ221M350H X 35 ESR Max Ripple Max C Size Cap. Catalog 120 Hz 20 khz 120 Hz 20 khz DxL (µf) Part Number (Ω) (Ω) (Α) (Α) (mm) LQ271M350H X LQ271M350J X LQ331M350H X LQ331M350J X LQ391M350H X LQ391M350J X LQ391M350K X LQ391M350A X LQ471M350J X LQ471M350K X LQ471M350A X LQ561M350J X LQ561M350K X LQ561M350A X LQ681M350K X LQ681M350A X LQ821M350K X LQ821M350A X LQ102M350A X Vdc (450 Vdc Surge) LQ121M400H X LQ151M400H X LQ181M400H X LQ221M400H X LQ221M400J X LQ271M400H X LQ271M400J X LQ271M400K X LQ331M400H X LQ331M400J X LQ331M400K X LQ331M400A X LQ391M400J X LQ391M400K X LQ391M400A X LQ471M400J X LQ471M400K X LQ471M400A X LQ561M400K X LQ561M400A X LQ681M400K X LQ681M400A X LQ821M400A X Vdc (500 Vdc Surge) LQ820M450H X LQ101M450H X LQ121M450H X LQ151M450H X LQ151M450J X LQ181M450H X LQ181M450J X LQ221M450H X LQ221M450J X LQ221M450K X LQ221M450A X LQ271M450H X LQ271M450J X LQ271M450K X LQ331M450J X LQ331M450K X LQ331M450A X LQ391M450K X LQ391M450A X LQ471M450K X LQ471M450A X LQ561M450K X LQ561M450A X 45 Aluminum Snap-In 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.057

129 Types 380L, 382L, 380LX & 382LX, 85 C High-Capacitance Snap-In Types 380L/LX & 4-pin Mount 382LX (85 C) The excellent value of Type 380L/LX capacitors finds application in switching power supply input and output circuits and even motor drives where the high surface area of multiple units in parallel approaches the ripple capability of our Type 520C computer-grade capacitor. Type 380LX delivers more capacitance per can size while Type 380L gives lower ESR for the same capacitance rating. Type 382L gives the choice of 4 or 5 leads for stable, reverse proof mounting. 382LX is available with 4 pins. Highlights Latest available ratings, worldwide Top performance in power supplies and motor drives Big selection of 46 case sizes 2, 4 and 5 leads available Aluminum Snap-In Specifications Operating Temperature: Rated Voltage: Capacitance: Leakage Current: 40 C to 85 C up to 300 V, 25 C to 85 C 315 V 16 Vdc to 500 Vdc 33 µf to 120,000 F 20% 3 CV A at 5 min. Type 380LQ p Smaller MORE Ripple Current Multipliers: Ripple Temp Life Type 381LX p Type 381LX p Type 381LX p Ambient Temperature 45 C 60 C 70 C 85 C Frequency 60 Hz 120 Hz 500 Hz 1 khz 10 khz & up Vdc Vdc EIA Ripple Life: Shelf Life: Vibration: 3,000 full load at +85 C per EIA IS-749 Capacitance 20% ESR 150% of limit DCL 100% of limit C, capacitance, ESR and DCL, initial requirements 10 to 55 Hz, 0.06 and 10 g max, 2 h in each plane Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

130 Types 380L, 382L, 380LX & 382LX, 85 C High-Capacitance Snap-In Outline Drawings Two Pins 380L/LX (20 through 40 mm diameter) Four Pins 382L/LX (35 and 40 mm diameter) ** Safety Vent Aluminum Snap-In Five Pins 382L (40 and 50 mm diameter) D+1max. ** Safety Vent PC Board Mounting Holes bottom view Terminal Connection 40 mm Dia. 50 mm Dia. A dummy negative ( ) B dummy dummy C positive (+) positive (+) D dummy positive (+) negative ( ) negative ( ) V Terminal Standoff Pin Dimensions Notes: * Use dummy terminals for mechanical support only. Make no electrical connection because they resistively connect through the electrolyte to the negative terminal. ** Safety Vent may be on the bottom or on the side of the can. 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.059

131 Types 380L, 382L, 380LX & 382LX, 85 C High-Capacitance Snap-In Insulated Case Dimensions DIAMETER LENGTH Typical Case D L Weight Code mm inches mm inches (grams) DIAMETER LENGTH Typical Case D L Weight Code mm inches mm inches (grams) Aluminum Snap-In G G G G H H H H H H H J J J J J J J K K K K K K K A A A A A A A A A A A N N N N N B B B B B Part Numbering System 382LX 272 M 200 N05 2 V Type Capacitance Tolerance Rated Case Code Insulation 382L/LX 380L (2 pins) 272 = 2700 µf M = 20% Voltage 2 = PVC 5 Pin Mount 380LX (2 pins) 333 = µf Vdc blank = 4 pins 382L (4 or 5 pins) (35 or 40 mm dia) 382LX (4 or 5 pins) V = 5 pins (40 or 50 mm dia) Typical Performance Curves Life Test Data 380L222M050K012 Capacitance, DF, Leakage Current Life Test Data 380LX222M100J042 Capacitance, DF, Leakage Current Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

132 Types 380L, 382L, 380LX & 382LX, 85 C High-Capacitance Snap-In Typical Performance Curves Life Test Data 380LX151M400J02 Capacitance, DF, Leakage Current Life Test Data 380LX331M450K052 Capacitance, DF, Leakage Current Aluminum Snap-In Ratings Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 85 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) 16 Vdc (20 Vdc Surge) L472M016H x LX472M016H x L682M016H x L682M016J x LX682M016G x LX682M016J x LX822M016G x L103M016H x L103M016J x L103M016K x LX103M016G x LX103M016H x LX103M016J x LX103M016K x LX123M016G x LX123M016H x LX123M016J x L153M016H x L153M016J x L153M016K x LX153M016G x LX153M016H x LX153M016J x LX153M016A x LX183M016H x LX183M016J x L223M016J x50 Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 85 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) 16 Vdc (20 Vdc Surge) (cont d) L223M016K x L223M016A x LX223M016H x LX223M016J x LX223M016K x LX273M016J x LX273M016K x L333M016K x L333M016A x LX333M016J x LX333M016K x LX333M016A x LX393M016K x LX393M016A x LX473M016K x LX473M016A x LX563M016A x L563M016N x LX683M016A x L683M016N x LX823M016A x LX823M016N x LX104M016A x LX104M016N x LX124M016A x LX124M016B052V x LX124M016N x Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.061

133 Types 380L, 382L, 380LX & 382LX, 85 C High-Capacitance Snap-In Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 85 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 85 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) Aluminum Snap-In 16 Vdc (20 Vdc Surge) (cont d) LX154M016B062V x LX184M016B082V x LX184M016N x LX224M016B092V x LX274M016B102V x Vdc (32 Vdc Surge) L332M025H x LX332M025H x L472M025H x L472M025J x LX472M025G x LX472M025J x LX562M025G x L682M025H x L682M025J x L682M025K x LX682M025G x LX682M025H x LX682M025J x LX682M025K x LX822M025G x LX822M025H x LX822M025J x L103M025H x L103M025J x L103M025K x LX103M025H x LX103M025J x LX103M025K x LX103M025A x LX123M025H x LX123M025J x LX123M025K x L153M025J x L153M025K x L153M025A x LX153M025H x LX153M025J x LX153M025K x LX183M025J x LX183M025K x L223M025K x L223M025A x LX223M025J x LX223M025K x LX273M025K x LX273M025A x LX333M025K x LX333M025A x L333M025N x LX393M025A x LX393M025N x LX473M025A x L473M025A x L473M025N x L563M025A x L563M025N x LX563M025A x LX563M025N x LX683M025A x LX683M025N x L823M025N x LX823M025B052V x LX104M025A x LX104M025B062V x63 25 Vdc (32 Vdc Surge) (cont d) LX104M025N x LX124M025B082V x LX154M025N x LX154M025B092V x LX184M025B102V x Vdc (44 Vdc Surge) L222M035H x LX222M035H x L332M035H x L332M035J x LX332M035G x LX332M035J x LX392M035G x L472M035H x L472M035J x L472M035K x LX472M035G x LX472M035H x LX472M035J x LX472M035K x LX562M035G x LX562M035H x LX562M035J x L682M035H x L682M035J x L682M035K x LX682M035H x LX682M035A x LX682M035J x LX822M035H x LX822M035J x L103M035J x L103M035K x L103M035A x LX103M035H x LX103M035J x LX103M035K x LX103M035A x LX123M035J x LX123M035K x LX123M035A x L153M035K x L153M035A x LX153M035J x LX153M035K x LX153M035A x LX183M035K x LX183M035A x LX223M035K x LX223M035A x LX273M035A x L273M035N x LX333M035A x L333M035A x LX393M035A x L393M035A x L393M035N x LX473M035A x L473M035N x LX563M035B052V x LX683M035A x L683M035N x LX683M035B062V x LX823M035N x LX823M035B082V x Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

134 Types 380L, 382L, 380LX & 382LX, 85 C High-Capacitance Snap-In Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 85 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) 35 Vdc (44 Vdc Surge) (cont d) LX104M035B092V x LX124M035B102V x Vdc (63 Vdc Surge) LX152M050H x L152M050H x L222M050H x L222M050J x LX222M050G x LX222M050J x LX272M050G x L332M050H x L332M050J x L332M050K x LX332M050G x LX332M050H x LX332M050J x LX332M050K x LX392M050G x LX392M050H x LX392M050J x L472M050H x L472M050J x L472M050K x LX472M050H x LX472M050J x LX472M050K x LX472M050A x LX562M050H x LX562M050J x LX562M050K x L682M050J x L682M050K x L682M050A x LX682M050H x LX682M050J x LX682M050K x LX822M050J x LX822M050K x L103M050K x L103M050A x LX103M050J x LX103M050K x LX103M050A x LX123M050K x LX123M050A x LX153M050K x LX153M050A x L153M050N x L183M050A x LX183M050A x LX183M050N x L223M050A x LX223M050A x L223M050N x L273M050A x L273M050N x LX273M050A x LX273M050N x LX273M050A x LX273M050N x LX333M050B052V x L393M050N x LX473M050B062V x LX473M050A x LX563M050N x105 Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 85 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) 50 Vdc (63 Vdc Surge) (cont d) LX563M050B082V x LX683M050B092V x LX823M050B102V x Vdc (79 Vdc Surge) L102M063H x LX102M036H x L152M063H x L152M063J x LX152M063J x L222M063H x L222M063J x L222M063K x LX222M063G x LX222M063H x LX222M063J x LX222M063K x LX272M063G x LX272M063H x LX272M063J x L332M063H x L332M063J x L332M063K x LX332M063H x LX332M063J x LX332M063K x LX332M063A x LX392M063H x LX392M063J x LX392M063K x L472M063J x L472M063K x L472M063A x LX472M063H x LX472M063J x LX472M063K x LX472M063A x LX562M063A x LX562M063J x LX562M063K x L682M063K x L682M063A x LX682M063J x LX682M063K x LX682M063A x LX822M063K x LX822M063A x L103M063N x LX103MO63A x L123M063A x L123M063A x LX123M063N x L153M063A x L153M063N x LX153M063A x L183M063N x LX183M063A x L273M063N x LX273M063A x LX273M063B052V x LX333M063N x LX333M063B062V x LX473M063B082V x LX513M063B092V x LX563M063B102V x105 Aluminum Snap-In 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.063

135 Types 380L, 382L, 380LX & 382LX, 85 C High-Capacitance Snap-In Aluminum Snap-In Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 85 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) 80 Vdc (100 Vdc Surge) L681M080H x LX681M080H x L102M080H x L102M080J x LX102M080J x L152M080H x L152M080J x L152M080K x LX152M080G x LX152M080H x LX152M080J x LX152M080K x LX182M080G x LX182M080H x LX182M080J x L222M080H x L222M080J x L222M080K x LX222M080H x LX222M080J x LX222M080K x LX222M080A x LX272M080H x LX272M080J x LX272M080K x L332M080J x L332M080K x L332M080A x LX332M080H x LX332M080J x LX332M080K x LX392M080J x LX392M080K x L472M080K x L472M080A x LX472M080J x LX472M080K x LX562M080K x LX562M080A x LX682M080K x LX682M080A x LX822M080A x L822M080N x L103M080A x L123M080A x L123M080N x L153M080A x L153M080N x L183M080N x LX183M080B052V x LX223M080A x LX223M080B062V x LX273M080N x LX273M080B082V x LX333M080B092V x LX393M080B102V x Vdc (125 Vdc Surge) L471M100H x LX471M100H x L681M100H x L681M100J x LX681M100J x L102M100H x L102M100J x30 Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 85 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) 100 Vdc (125 Vdc Surge) (cont d) L102M100K x LX102M100G x LX102M100H x LX102M100J x LX102M100K x LX122M100G x LX122M100H x LX122M100J x L152M100H x L152M100J x L152M100K x LX152M100G x LX152M100H x LX152M100J x LX152M100K x LX152M100A x LX182M100H x LX182M100J x LX182M100K x L222M100J x L222M100K x L222M100A x LX222M100H x LX222M100J x LXM222100K x LX222M100A x LX272M100J x LX272M100K x LX272M100A x L332M100K x L332M100A x LX332M100J x LX332M100K x LX392M100K x LX392M100A x LX472M100K x LX472M100A x LX562M100N x LX562M100A x L682M100A x L682M100N x LX682M100A x L822M100A x L822M100N x LX822M100A x LX822M100N x LX103M100A x LX103M100N x LX103M100B052V x L123M100N x LX123M100A x LX153M100N x LX153M100B062V x LX183M100B082V x LX223M100B092V x LX273M100B102V x Vdc (200 Vdc Surge) L181M160H x LX221M160H x L271M160H x LX271M160J x L127M160J x LX331M160G x LX331M160H x LX391M160H x Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

136 Types 380L, 382L, 380LX & 382LX, 85 C High-Capacitance Snap-In Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 85 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 85 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) 160 Vdc (200 Vdc Surge) (cont d) LX391M160G x LX391M160H x L391M160H x LX391M160J x L391M160J x LX391M160K x L391M160K x LX471M160H x LX471M160J x LX561M160H x LX561M160H x L561M160H x LX561M160J x LX561M160J x L561M160J x LX561M160K x L561M160K x LX561M160A x LX681M160H x LX681M160H x LX681M160J x LX681M160J x LX681M160K x LX821M160H x LX821M160H x LX821M160J x L821M160J x LX821M160K x LX821M160K x L821M160K x L821M160A x LX102M160J x LX102M160K x LX102M160A x LX102M160H x LX102M160J x LX102M160K x LX122M160J x LX122M160K x L122M160K x LX122M160A x L122M160A x LX152M160K x LX152M160A x LX152M160J x LX152M160A x LX182M160K x LX182M160A x LX182M160A x LX222M160A x LX222M160K x LX222M160A x LX272M160A x LX332M160A x L332M160N x LX392M160A x L472M160N x Vdc (225 Vdc Surge) L181M180H x L271M180H x L271M180J x LX331M180G x LX331M180H x L331M180H x L331M180J x Vdc (225 Vdc Surge) (cont d) LX391M180G x LX391M180H x L391M180H x LX391M180J x L391M180J x L391M180K x LX471M180G x LX471M180H x LX471M180J x LX561M180H x L561M180H x LX561M180J x L561M180J x L561M180K x L561M180A x LX681M180H x LX681M180J x LX681M180K x LX821M180H x LX821M180J x L821M180J x LX821M180K x L821M180K x L821M180A x LX102M180J x LX102M180K x LX122M180J x LX122M180K x L122M180K x LX122M180A x L122M180A x LX152M180K x LX152M180A x LX182M180K x LX182M180A x LX222M180A x L272M180N x L272M180A x L332M180A x L472M180N x Vdc (250 Vdc Surge) LX151M200H x L151M200H x L221M200H x L221M200H x LX221M200J x L221M200J x LX271M200G x LX271M200H x LX331M200H x LX331M200G x LX331M200H x L331M200H x LX331M200J x L331M200J x LX331M200K x L331M200K x LX391M200H x LX391M200J x LX471M200G x LX471M200H x L471M200H x LX471M200J x L471M200J x LX471M200K x25 Aluminum Snap-In 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.065

137 Types 380L, 382L, 380LX & 382LX, 85 C High-Capacitance Snap-In Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 85 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 85 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) Aluminum Snap-In 200 Vdc (250 Vdc Surge) (cont d) L471M200K x LX471M200A x LX561M200J x LX561M200H x LX561M200J x LX561M200K x LX681M200H x LX681M200J x L681M200J x LX681M200K x L681M200K x L681M200A x LX821M200K x LX821M200J x LX821M200K x LX821M200A x LX102M200J x LX102M200J x LX102M200K x LX102M200K x L102M200K x LX102M200A x L102M200A x LX122M200K x LX122M200K x LX122M200A x LX122M200A x L122M200A x LX152M200K x LX152M200A x LX152M200K x LX152M200A x LX182M200A x LX182M200K x LX182M200A x LX222M200A x LX222M200A x LX222M200N x L272M200N x L272M200A x LX272M200A x LX272M200N x LX332M200A x LX332M200N x LX392M200B052V x LX392M200N x LX472M200N x LX472M200B062V x LX562M200A x LX682M200N x LX682M200B082V x LX752M200B092V x LX822M200B102V x Vdc (300 Vdc Surge) LX121M250H x L121M250H x L151M250H x LX151M250J x L151M250J x LX181M250G x LX181M250H x LX221M250H x LX221M250G x LX221M250H x Vdc (300 Vdc Surge) (cont d) L221M250H x LX221M250J x L221M250J x LX221M250K x L221M250K x LX271M250H x LX271M250J x LX331M250H x L331M250H x LX331M250J x L331M250J x LX331M250K x L331M250K x LX331M250A x LX391M250J x LX391M250H x LX391M250J x LX391M250K x LX471M250K x LX471M250H x LX471M250J x LX471M250J x L471M250J x LX471M250K x L471M250K x L471M250A x LX561M250J x LX561M250K x LX561M250J x LX561M250K x LX561M250A x LX681M250J x LX681M250K x LX681M250J x LX681M250K x L681M250K x LX681M250A x L681M250A x LX821M250K x LX821M250A x LX821M250K x LX821M250A x LX102M250K x LX102M250A x LX102M250K x LX102M250A x L102M250A x LX122M250A x LX122M250A x LX152M250A x LX152M250N x L182M250N x L182M250A x LX182M250A x LX182M250N x LX222M250A x LX222M250N x L272M250N x LX272M250B052V x LX332M250N x LX332M250B062V x LX392M250A x LX472M250N x LX472M250B082V x LX562M250B092V x LX682M250B102V x Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

138 Types 380L, 380LX, and 382LX, 85 C High-Capacitance Snap-In Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 85 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 85 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) 315 Vdc (365 Vdc Surge) LX101M315G x LX101M315H x LX121M315G x LX121M315H x LX121M315J x LX151M315H x LX151M315J x LX181M315H x LX181M315J x LX181M315K x LX221M315H x LX221M315J x LX221M315K x LX271M315H x LX271M315J x LX271M315K x LX331M315J x LX331M315K x LX331M315A x LX391M315J x LX391M315K x LX391M315A x LX471M315K x LX471M315A x LX561M315K x LX561M315A x LX681M315A x LX821M315A x L821M315N x L102M315A x L122M315A x L122M315N x L152M315A x L152M315N x L182M315N x Vdc (400 Vdc Surge) L560M350H x L680M350H x LX820M350H x LX820M350G x LX820M350H x L820M350H x L820M350J x LX101M350G x L101M350H x LX101M350H x LX121M350H x LX121M350H x L121M350H x LX121M350J x L121M350J x L121M350K x LX151M350J x LX151M350H x L151M350H x LX151M350J x L151M350J x L151M350K x LX151M350K x LX181M350J x LX181M350H x LX181M350J x L181M350J x LX181M350K x L181M350K x Vdc (400 Vdc Surge) (cont d) LX221M350J x LX221M350K x LX221M350H x L221M350H x LX221M350J x L221M350J x LX221M350K x L221M350K x L221M350A x LX221M350A x LX271M350J x LX271M350K x LX271M350A x LX271M350J x L271M350J x LX271M350K x LX271M350K x LX271M350A x LX271M350A x LX331M350K x LX331M350J x LX331M350K x L331M350K x LX331M350A x L331M350A x LX391M350J x LX391M350K x LX391M350A x LX391M350K x L391M350K x LX391M350A x L391M350A x LX471M350A x LX471M350K x LX471M350A x LX561M350K x LX561M350A x LX561M350A x LX681M350A x LX681M350A x L681M350N x LX821M350A x L821M350A x L102M350A x LX102M350A x LX102M350N x LX122M350A x LX122M350N x LX122M350B052V x LX152M350B062V x L182M350N x LX182M350A x LX182M350B082V x LX222M350N x LX222M350B092V x LX272M350B102V x Vdc (450 Vdc Surge) LX470M400H x L470M400H x LX680M400G x LX680M400H x L680M400H x LX680M400J x L680M400J x LX820M400G x30 Aluminum Snap-In 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.067

139 Types 380L, 382L, 380LX & 382LX, 85 C High-Capacitance Snap-In Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 85 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 85 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) Aluminum Snap-In 400 Vdc (450 Vdc Surge) (cont d) LX820M400H x LX101M400G x LX101M400H x L101M400H x LX101M400J x L101M400J x LX101M400K x L101M400K x LX121M400J x LX121M400G x LX121M400H x LX121M400J x LX151M400H x L151M400H x LX151M400J x L151M400J x LX151M400K x L151M400K x LX151M400A x LX181M400J x LX181M400H x LX181M400J x LX181M400K x LX221M400H x LX221M400J x L221M400J x LX221M400K x L221M400K x L221M400A x LX271M400J x LX271M400K x L271M400K x LX271M400A x L271M400A x LX331M400A x LX331M400K x LX331M400A x LX391M400A x LX391M400K x LX391M400A x L391M400A x LX471M400A x LX471M400A x LX561M400A x L561M400N x LX561M400A x LX681M400A x L821M400A x LX821M400A x LX821M400N x L102M400A x LX102M400B052V x LX102M400N x LX122M400A x LX122M400N x LX122M400B062V x LX152M400A x L152M400N x LX152M400B082V x LX182M400N x LX182M400B092V x LX222M400B102V x Vdc (500 Vdc Surge) LX330M450H x L330M450H x Vdc (500 Vdc Surge) (cont d) L470M450H x LX470M450J x L470M450J x LX560M450G x LX560M450H x LX680M450G x LX680M450H x L680M450H x L680M450J x LX680M450K x L680M450K x LX820M450G x LX820M450H x LX820M450J x LX101M450H x L101M450H x LX101M450J x L101M450J x LX101M450K x L101M450K x LX101M450A x LX121M450H x LX121M450J x LX121M450K x LX151M450H x LX151M450J x L151M450J x LX151M450K x L151M450K x L151M450A x LX181M450J x LX181M450K x LX181M450J x XL181M450K x LX181M450A x LX221M450J x LX221M450K x LX221M450J x LX221M450K x L221M450K x LX221M450A x L221M450A x LX271M450A x LX271M450K x LX271M450A x LX331M450A x LX331M450K x LX331M450A x L331M450A x LX391M450A x LX471M450A x LX471M450A x LX471M450N x L561M450N x L561M450A x LX561M450A x L681M450N x L681M450A x LX681M450N x L821M450A x LX821M450B052V x LX821M450N x LX102M450B062V x L122M450N x LX122M450A x LX122M450B082V x Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

140 Types 380L, 380LX, and 382LX, 85 C High-Capacitance Snap-In Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 85 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 85 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) 450 Vdc (500 Vdc Surge) (cont d) LX152M450N102V x LX152M450B092V x LX182M450B102V x Vdc (550 Vdc Surge) LX330M500H x LX470M500H x LX470M500J x LX560M500H x LX560M500H x LX680M500H x LX680M500J x LX680M500H x LX680M500J x LX820M500J x LX820M500K x LX820M500H x LX820M500J x LX101M500H x LX101M500J x LX101M500K x LX101M500A x LX101M500H x LX101M500J x LX121M500K x LX121M500A x LX121M500H x LX121M500J x LX121M500K x LX151M500K x LX151M500J x LX151M500J x Vdc (550 Vdc Surge) (cont d) LX151M500A x LX181M500A x LX181M500J x LX181M500A x LX221M500K x LX221M500A x LX221M500K x LX221M500A x LX271M500A x L271M500N x LX271M500A x LX331M500A x LX331M500N x L391M500N x LX391M500A x LX391M500A x L471M500N x LX471M500A x LX471M500A x LX471M500N x LX561M500A x LX561M500N x LX561M500B052V x L681M500N x LX681M500N x LX681M500B062V x LX821M500A x LX821M500N x LX102M500B082V x LX122M500N x LX122M500B092V x LX152M500B102V x105 Aluminum Snap-In 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.069

141 Type 381LQ, 105 C Compact, High-Ripple Snap-in 23% Smaller for Same Capacitance Type 381LQ is on average 23% smaller and more than 5 mm shorter than Type 381L. This is achieved with a new can-closure method that permits installing capacitor elements into smaller cans. Approaching the robust capability of the 381L, the new 381LQ enables you to shrink equipment size and retain the original performance. Highlights New, more capacitance per case Compare to Type 381L Aluminum Snap-In Specifications Operating Temperature: -40 C to C <250Vdc -25 C to C >350Vdc Rated Voltage: 160 to 450 Vdc Capacitance: 100 µf to 3300 µf ± 20% Leakage Current: 3 CV µa, 4 ma max, 5 minutes Ripple Current Multipliers: Ambient Temperature Type 380LQ p Smaller MORE Life Ripple Type 381LX p Type 381LR p C 60 C 70 C 85 C 105 C Frequency 50 Hz 60 Hz 120 Hz 500 Hz 1 khz 10 khz & up Load Life: 2000 h at full load at 105 C Capacitance 10% ESR 125% of limit DCL 100% of limit EIA Ripple Life: Shelf Life: Vibration: 8000 h at 85 C, full load per EIA IS-749 Capacitance 10% ESR 200% of limit DCL 100% of limit 1000 h at 105 C, capacitance ± 10%, ESR 200% of limit, DCL 100% of limit 10 to 55 Hz, 0.06 and 10 g max, 2 h each plane Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

142 Type 381LQ, 105 C Compact, High-Ripple Snap-in Outline Drawings Insulated Case Dimentions DIAMETER LENGTH Typical DIAMETER LENGTH Typical Case D L Weight Case D L Weight Code mm inches mm inches (grams) Code mm inches mm inches (grams) H K H K H K H K H K H K J A J A J A J A J A J A Aluminum Snap-In Part Numbering System 381LQ 471 M 160 HO1 2 Type Capacitance Tolerance Rated Case Code Insulation 471 = 470 µf M = 20% Voltage 2 = PVC 332 = 3300 µf 160 = 160 V 450 = 450 V 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.071

143 Type 381LQ, 105 C Compact, High-Ripple Snap-in Typical Performance Curves Cap (%) and DF (%) Life Test, 105 C, Full Load, 1500 µf, 200 V DF DCL 60 C Test Hours DCL (ua) DCL DF C Test Hours 1000 Type 381LQ Operating Life vs Ripple Current 45 C Aluminum Snap-In Expected Operating Life, kh C 65 C 75 C 85 C 95 C 105 C Ratings Rated Ripple-Current Multiple ESR Max Ripple Max C Size Cap. Catalog 120 Hz 20 khz 120 Hz 20 khz DxL (µf) Part Number (Ω) (Ω) (Α) (Α) (mm) 160 Vdc (200 Vdc Surge) LQ471M160H x LQ561M160H x LQ681M160H x LQ681M160J x LQ821M160H x LQ821M160J x LQ102M160H x LQ102M160J x LQ102M160K x LQ122M160H x LQ122M160J x LQ122M160K x LQ122M160A x LQ152M160J x LQ152M160K x LQ152M160A x LQ182M160J x LQ182M160K x LQ182M160A x LQ222M160K x LQ222M160A x LQ272M160K x LQ272M160A x LQ332M160A x Vdc (225 Vdc Surge) LQ561M180H x LQ561M180J x 25 ESR Max Ripple Max C Size Cap. Catalog 120 Hz 20 khz 120 Hz 20 khz DxL (µf) Part Number (Ω) (Ω) (Α) (Α) (mm) LQ681M180H x LQ681M180J x LQ821M180H x LQ821M180J x LQ821M180K x LQ102M180H x LQ102M180J x LQ102M108K x LQ102M180A x LQ122M180J x LQ122M180K x LQ152M180J x LQ152M180K x LQ152M180A x LQ182M180K x LQ182M180A x LQ222M180K x LQ222M180A x LQ272M180A x Vdc (250 Vdc Surge) LQ391M200H x LQ471M200H x LQ561M200H x LQ681M200H x LQ681M200J x LQ821M200H x LQ821M200J x LQ821M200K x LQ102M200H x Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

144 Type 381LQ, 105 C Compact, High-Ripple Snap-in ESR Max Ripple Max C Size Cap. Catalog 120 Hz 20 khz 120 Hz 20 khz DxL (µf) Part Number (Ω) (Ω) (Α) (Α) (mm) LQ102M200J x LQ102M200K x LQ102M200A x LQ122M200J x LQ122M200K x LQ122M200A x LQ152M200K x LQ152M200A x LQ182M200K x LQ182M200A x LQ222M200K x LQ222M200A x Vdc (300 Vdc Surge) LQ271M250H x LQ331M250H x LQ331M250J x LQ391M250H x LQ391M250J x LQ471M250H x LQ471M250J x LQ471M250K x LQ561M250H x LQ561M250J x LQ561M250K x LQ681M250H x LQ681M250J x LQ681M250K x LQ681M250A x LQ821M250J x LQ821M250K x LQ821M250A x LQ102M250K x LQ122M250K x LQ152M250A x LQ182M250A x Vdc (365 Vdc Surge) LQ151M315H x LQ181M315H x LQ221M315H x LQ271M315J x LQ331M315H x LQ331M315J x LQ331M315K x LQ391M315J x LQ391M315K x LQ391M315A x LQ471M315J x LQ471M315K x LQ561M315J x LQ561M315K x LQ561M315A x LQ681M315K x LQ681M315A x LQ821M315K x LQ821M315A x LQ102M315A x Vdc (400 Vdc Surge) LQ121M350H x LQ151M350H x LQ181M350H x LQ181M350J x LQ221M350H x LQ221M350J x LQ271M350J x LQ271M350K x LQ331M350J x 40 ESR Max Ripple Max C Size Cap. Catalog 120 Hz 20 khz 120 Hz 20 khz DxL (µf) Part Number (Ω) (Ω) (Α) (Α) (mm) LQ331M350K x LQ391M350J x LQ391M350K x LQ471M350J x LQ471M350A x LQ561M350K x LQ561M350A x LQ681M350K x LQ681M350A x LQ821M350A x Vdc (450 Vdc Surge) LQ101M400H x LQ121M400H x LQ151M400H x LQ181M400H x LQ181M400J x LQ221M400H x LQ221M400J x LQ221M400K x LQ271M400H x LQ271M400J x LQ271M400K x LQ271M400A x LQ331M400J x LQ331M400K x LQ331M400A x LQ391M400J x LQ391M400K x LQ391M400A x LQ471M400K x LQ471M400A x LQ561M400K x LQ561M400A x LQ681M400A x Vdc (500 Vdc Surge) LQ101M450H x LQ101M450J x LQ121M450H x LQ121M450J x LQ151M450H x LQ151M450J x LQ151M450K x LQ181M450H x LQ181M450J x LQ181M450K x LQ221M450J x LQ221M450K x LQ221M450A x LQ271M450J x LQ271M450K x LQ271M450A x LQ331M450K x LQ331M450A x LQ391M450A x LQ471M450A x LQ561M450A x LQ391M450K x LQ391M450A x LQ471M450A x LQ561M450A x 50 Aluminum Snap-In 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.073

145 Types 381L, 383L, 381LX & 383LX, 105 C High-Ripple Snap-In Types 381L/LX & 4-pin Mount 383LX (105 C) Adding longer-life and more ripple capability to the excellent value of Type 380L/LX capacitors, the 381L/LX readily handles tough switching power supply input and output circuits and motor-drive bus capacitor applications where the high surface area of multiple units in parallel equals the ripple capability of our Type 520C inverter-grade capacitor. Type 381LX delivers more capacitance per can size while Type 381L gives lower ESR for the same capacitance rating. Type 383L gives the choice of 4 or 5 leads for stable, reverseproof mounting. Type 383LX has 5 leads available. Highlights Latest available ratings, worldwide Top performance in power supplies and motor drives 4 times the life of Type 380L/LX Big selection of 46 case sizes 2, 4 and 5 leads available Aluminum Snap-In Specifications Operating Temperature: Rated Voltage: Capacitance: Leakage Current: Ripple Current Multipliers: 40 C to 105 C up to 315 Vdc, 25 C 350 Vdc and up 10 Vdc to 450 Vdc 33 µf to150,000 F 20% 3 CV A Ambient Temperature 45 C 60 C 70 C 85 C 105 C 381L Type 380LQ p F MORE Life Ripple Type 381EL p Type 381LR p LX, 383 LX Frequency 50 Hz 60 Hz 120 Hz 500 Hz 1 khz 10 khz & up Vdc Vdc EIA Ripple Life: Shelf Life: Vibration: 12, C, Full load as per EIA IS-749 Capacitance 20%, ESR 200% of limit, DCL 100% of limit C, capacitance 20%, DF 200% of limit, DCL 100% of limit. 10 to 55 Hz, 0.06 and 10 g max, 2 h in each plane Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

146 Types 381L, 383L, 381LX & 383LX, 105 C High-Ripple Snap-In Outline Drawings Two Pins 381L/LX (20 through 40 mm diameter) Four Pins 383L/LX (35 and 40 mm diameter) ** Safety Vent Aluminum Snap-In Five Pins 383L (40 and 50 mm diameter) D+1max. ** Safety Vent PC Board Mounting Holes Terminal Connection 40 mm Dia. 50 mm Dia. A dummy negative ( ) B dummy dummy C positive (+) positive (+) D dummy positive (+) negative ( ) negative ( ) V Terminal Standoff Pin Dimensions Notes: * Use dummy terminals for mechanical support only. Make no electrical connection because they resistively connect through the electrolyte to the negative terminal. ** Safety Vent may be on the bottom or on the side of the can. 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.075

147 Aluminum Snap-In Types 381L, 383L, 381LX & 383LX, 105 C High-Ripple Snap-In Insulated Case Dimensions DIAMETER LENGTH Typical Case D L Weight Code mm inches mm inches (grams) G G G G H H H H H H H J J J J J J J K K K K K K K Part Numbering System DIAMETER LENGTH Typical Case D L Weight Code mm inches mm inches (grams) A A A A A A A A A A A N N N N N B B B B B LX 472 M 200 N08 2 V Type Capacitance Tolerance Rated Case Code Insulation 383L/LX 381L (2 pins) 681 = 680 µf M = 20% Voltage 2 = PVC 4 or 5 Pin Mount 381LX (2 pins) 472 = 4700 µf Vdc blank = 4 pins 383L (4 or 5 pins) (35 or 40 mm dia) 383LX (4 or 5 pins) V = 5 pins (40 or 50 mm dia) Typical Performance Curves Life Test Data 381LX221M250J012 Capacitance, DF, Leakage Current Life Test Data 381LX680M450J022 Capacitance, DF, Leakage Current Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

148 Types 381L, 383L, 381LX & 383LX, 105 C High-Ripple Snap-In Ratings Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 105 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) 10 Vdc (13 Vdc Surge) L472M010H x L682M010H x L682M010J x L682M010H x LX682M010G x L822M010J x LX822M010G x L103M010H x L103M010J x L103M010K x L103M010H x LX103M010G x LX103M010H x LX123M010G x LX123M010H x L123M010H x L123M010J x L153M010H x L153M010J x L153M010K x L153M010H x L153M010J x L153M010K x LX153M010G x LX153M010H x LX153M010J x L183M010H x L183M010J x L183M010K x L183M010A x LX183M010H x LX183M010J x L223M010J x L223M010K x L223M010A x L223M010K x LX223M010H x LX223M010J x LX223M010K x L273M010J x L273M010K x L273M010A x LX273M010H x LX273M010J x LX273M010K x LX273M010A x L333M010K x L333M010A x LX333M010J x LX333M010K x LX333M010A x L393M010K x L393M010A x LX393M010J x LX393M010K x LX393M010A x LX473M010K x LX473M010A x LX563M010K x LX563M010A x LX683M010A x L823M010A x L823M010N x L104M010A x70 Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 105 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) 10 Vdc (13 Vdc Surge) (cont d) L124M010A x L124M010N x L154M010N x80 16 Vdc (20 Vdc Surge) L332M016H x LX332M016H x L472M016H x L472M016J x L472M016H x LX472M016J x L682M016H x L682M016J x L682M016K x L682M016H x L682M016J x LX682M016G x LX682M016H x LX682M016K x L822M016H x LX822M016G x LX822M016H x L103M016H x L103M016J x L103M016K x L103M016H x L103M016J x L103M016K x LX103M016G x LX103M016H x LX103M016J x LX103M016A x L123M016J x L123M016K x L123M016A x LX123M016H x LX123M016J x LX123M016K x L153M016J x L153M016K x L153M016A x L153M016H x L153M016J x LX153M016H x LX153M016J x LX153M016K x L183M016J x L183M016K x L183M016A x LX183M016H x LX183M016J x LX183M016K x LX183M016A x L223M016K x L223M016A x L223M016K x L223M016A x LX223M016J x LX223M016K x LX223M016A x L273M016K x L273M016A x LX273M016J x LX273M016K x40 Aluminum Snap-In 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.077

149 Types 381L, 383L, 381LX & 383LX, 105 C High-Ripple Snap-In Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 105 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 105 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) Aluminum Snap-In 16 Vdc (20 Vdc Surge) (cont d) LX273M016A x LX333M016K x LX333M016A x LX393M016K x LX393M016A x LX473M016A x LX473M016N x LX563M016A x L683M016A x L683M016N x LX683M016A x LX683M016N x L823M016A x LX823M016N x LX104M016A x L124M016N x LX124M016A x LX124M016B052V x LX154M016N x LX154M016B062V x LX184M016B082V x LX224M016B092V x LX254M016B102V x Vdc (32 Vdc Surge) LX222M025H x L222M025H x L332M025H x L332M025H x LX332M025J x L332M025J x L472M025H x L472M025J x LX472M025G x LX472M025H x L472M025H x L472M025J x LX472M025K x L472M025K x L562M025H x LX562M025G x LX562M025H x L682M025H x L682M025J x L682M025K x LX682M025G x LX682M025H x L682M025H x LX682M025J x L682M025J x L682M025K x LX682M025A x L822M025J x LX822M025H x LX822M025J x LX822M025K x L103M025H x L103M025J x L103M025A x LX103M025H x LX103M025J x L103M025J x L103M025K x L103M025A x LX103M025K x L123M025J x50 25 Vdc (32 Vdc Surge) (cont d) L123M025K x L123M025A x LX123M025J x LX123M025K x LX123M025A x LX123M025H x L153M025K x L153M025A x LX153M025J x LX153M025K x L153M025K x LX153M025A x L153M025A x L183M025K x L183M025A x LX183M025J x LX183M025K x LX183M025A x LX223M025K x LX223M025A x LX273M025A x LX273M025A x L273M025N x LX333M025A x LX333M025N x L393M025A x L393M025N x L473M025A x L473M025N x LX473M025A x LX473M025N x L563M025A x LX563M025N x L683M025N x LX823M025A x LX823M025N x LX823M025B052V x LX104M025N x LX104M025B062V x LX124M025B082V x LX154M025B092V x LX184M025B102V x Vdc (44 Vdc Surge) LX152M035H x L152M035H x L222M035H x L222M035H x LX222M035J x L222M035J x L332M035H x L332M035J x LX332M035G x LX332M035H x L332M035H x L332M035J x LX332M035K x L332M035K x L392M035H x LX392M035G x LX392M035H x L472M035H x L472M035J x L472M035K x LX472M035H x L472M035H x Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

150 Types 381L, 383L, 381LX & 383LX, 105 C High-Ripple Snap-In Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 105 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 105 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) 35 Vdc (44 Vdc Surge) (cont d) LX472M035J x L472M035J x L472M035K x LX472M035A x LX472M035G x L562M035J x LX562M035H x LX562M035J x LX562M035K x L682M035H x L682M035J x L682M035A x LX682M035H x L682M035A x LX682M035J x L682M035J x LX682M035K x L682M035K x L822M035J x L822M035K x LX822M035H x LX822M035J x LX822M035K x LX822M035A x L103M035K x LX103M035J x LX103M035K x L103M035K x LX103M035A x L103M035A x L123M035K x L123M035A x LX123M035J x LX123M035K x LX123M035A x L153M035A x LX153M035K x LX153M035A x LX183M035A x LX223M035A x LX223M035N x L273M035N x LX273M035A x L333M035A x L333M035N x L393M035A x L473M035N x LX473M035A x LX473M035B052V x LX563M035B062V x LX683M035N x LX683M035B082V x LX823M035B092V x LX104M035B102V x Vdc (63 Vdc Surge) LX102M050H x L102M050H x L122M050H x L152M050H x LX152M050J x L152M050J x L182M050H x L182M050J x LX182M050G x LX182M050H x25 50 Vdc (63 Vdc Surge) (cont d) L222M050H x LX222M050G x LX222M050H x L222M050H x L222M050J x LX222M050K x L222M050K x L272M050H x L272M050J x L272M050K x LX272M050G x LX272M050H x LX272M050J x L332M050J x LX332M050H x L332M050H x LX332M050J x L332M050J x L332M050K x LX332M050A x L392M050H x L392M050J x L392M050K x L392M050A x LX392M050H x LX392M050J x LX392M050K x L472M050K x LX472M050H x LX472M050J x L472M050J x LX472M050K x L472M050K x LX472M050A x L472M050A x L562M050J x L562M050K x LX562M050H x LX562M050J x LX562M050K x LX562M050A x L682M050A x LX682M050J x LX682M050K x L682M050K x LX682M050A x L682M050A x L822M050K x L822M050A x LX822M050K x LX822M050A x LX103M050K x LX103M050A x LX123M050A x L123M050N x L153M050A x L153M050N x LX153M050A x LX153M050N x L183M050A x L183M050N x LX183M050A x L223M050A x LX223M050N x L273M050N x LX273M050A x80 Aluminum Snap-In 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.079

151 Types 381L, 383L, 381LX & 383LX, 105 C High-Ripple Snap-In Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 105 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 105 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) Aluminum Snap-In 50 Vdc (63 Vdc Surge) (cont d) LX273M050N x LX333M050A x LX333M050B052V x LX393M050N x LX393M050B062V x LX473M050N x LX473M050B082V x LX563M050B092V x LX683M050B102V x Vdc (79 Vdc Surge) LX681M063H x L681M063H x L102M063H x L102M063H x LX102M063J x L102M063J x LX122M063G x LX122M063H x L152M063J x LX152M063G x LX152M063H x L152M063H x L152M063J x LX152M063K x L152M063K x L182M063H x LX182M063G x LX182M063J x LX182M063H x L222M063H x L222M063K x LX222M063H x L222M063H x LX222M063J x L222M063J x L222M063K x LX222M063A x LX272M063H x LX272M063J x LX272M063K x LX332M063H x LX332M063J x L332M063J x LX332M063K x L332M063K x LX332M063A x L332M063A x LX392M063J x LX392M063K x LX392M063A x LX472M063J x LX472M063K x L472M063K x LX472M063A x L472M063A x LX562M063K x LX562M063A x LX682M063K x LX682M063A x L822M063N x LX822M063A x LX103M063A x L123M063N x L123M063A x LX123M063N x40 63 Vdc (79 Vdc Surge) (cont d) LX123M063A x L153M063N x L153M063A x LX153M063A x LX153M063N x L183M063A x LX153M063N x L223M063N x LX223M063B052V x LX273M063A x LX273M063B062V x LX273M063N x LX333M063B082V x LX393M063N x LX393M063B092V x LX473M063B102V x Vdc (100 Vdc Surge) LX471M080H x L471M080H x L681M080H x LX681M080J x L681M080J x LX821M080G x LX821M080H x LX102M080G x LX102M080H x L102M080H x LX102M080J x L102M080J x LX102M080K x L102M080K x L122M080H x L122M080J x LX122M080G x LX122M080H x LX122M080J x L152M080H x L152M080J x L152M080K x LX152M080H x L152M080H x LX152M080J x L152M080J x L152M080K x LX152M080A x L182M080H x L182M080J x L182M080K x L182M080A x LX182M080H x LX182M080J x LX182M080K x L222M080K x LX222M080H x LX222M080J x L222M080J x LX222M080K x L222M080K x LX222M080A x L222M080A x L272M080J x L272M080K x LX272M080J x LX272M080K x LX272M080A x Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

152 Types 381L, 383L, 381LX & 383LX, 105 C High-Ripple Snap-In Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 105 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 105 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) 80 Vdc (100 Vdc Surge) (cont d) L332M080A x LX332M080J x LX332M080K x L332M080K x LX332M080A x L332M080A x L392M080K x L392M080A x LX392M080K x LX392M080A x LX472M080K x LX472M080A x L562M080N x LX562M080A x LX682M080A x LX682M080N x L822M080A x L822M080N x L103M080A x L103M080N x L123M080A x LX123M080B052V x L153M080N x LX153M080A x LX153M080B062V x LX183M080B082V x LX223M080N x LX223M080B092V x LX273M080B102V x Vdc (125 Vdc Surge) LX331M100H x L331M100H x L471M100H x L471M100H x LX471M100J x L271M100J x LX561M100G x LX561M100H x L681M100H x L681M100H x L681M100J x L681M100J x LX681M100K x L681M100K x LX821M100G x LX821M100H x L821M100H x LX821M100J x LX102M100G x LX102M100H x L102M100H x L102M100H x LX102M100J x L102M100J x L102M100J x L102M100K x L102M100K x LX102M100A x LX122M100H x LX122M100J x LX122M100K x L122M100K x LX152M100H x LX152M100J x L152M100J x Vdc (125 Vdc Surge) (cont d) LX152M100K x L152M100K x L152M100K x LX152M100A x L152M100A x LX182M100J x L182M100J x LX182M100K x L182M100K x LX182M100A x LX222M100J x LX222M100K x L222M100K x LX222M100A x L222M100A x L222M100A x LX272M100K x L272M100K x LX272M100A x L272M100A x L332M100N x LX332M100K x LX332M100A x LX392M100A x LX392M100A x L472M100A x L472M100N x LX472M100A x LX472M100N x L562M100A x L562M100N x LX562M100A x L682M100A x LX682M100N x L822M100N x LX822M100B052V x LX822M100A x LX822M100N x LX103M100A x LX123M100B062V x LX123M100N x LX153M100N x LX153M100B082V x LX183M100B092V x LX223M100B102V x Vdc (200 Vdc Surge) LX151M160H x L151M160H x L181M160H x LX221M160G x L221M160H x LX221M160J x L221M160J x LX271M160G x LX271M160H x L271M160H x L271M160J x LX331M160G x LX331M160H x L331M160H x L331M160H x L331M160J x LX331M160K x L331M160K x LX391M160G x40 Aluminum Snap-In 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.081

153 Types 381L, 383L, 381LX & 383LX, 105 C High-Ripple Snap-In Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 105 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 105 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) Aluminum Snap-In 160 Vdc (200 Vdc Surge) (cont d) LX391M160H x L391M160H x LX391M160J x L391M160J x L391M160K x LX471M160H x LX471M160H x L471M160H x LX471M160J x L471M160J x L471M160J x L471M160K x LX471M160A x LX561M160H x LX561M160H x L561M160H x LX561M160J x L561M160J x LX561M160K x L561M160K x L561M160A x LX681M160H x LX681M160H x LX681M160J x LX681M160J x L681M160J x LX681M160K x L681M160K x L681M160A x LX821M160H x LX821M160J x LX821M160J x L821M160J x LX821M160K x L821M160K x L821M160K x L821M160A x L821M160A x LX102M160H x LX102M160J x LX102M160J x LX102M160K x LX102M160K x L102M160K x LX102M160A x L102M160A x LX122M160J x LX122M160J x LX122M160K x LX122M160K x LX122M160A x L122M160A x LX152M160K x LX152M160K x LX152M160A x LX152M160A x LX182M160K x LX182M160K x LX182M160A x LX182M160A x L222M160A x LX222M160A x LX222M160A x LX222M160N x L272M160A x L272M160N x LX272M160A x L332M160A x LX332M160N x L392M160A x Vdc (225 Vdc Surge) L181M180H x LX221M180G x LX221M180H x L221M180H x L221M180J x LX271M180G x LX271M180H x L271M180H x LX331M180H x LX331M180J x L331M180J x L331M180K x L391M180H x L391M180H x LX391M180J x L391M180J x LX471M180H x L471M180H x LX471M180J x L471M180J x LX471M180K x L471M180K x L471M180A x LX561M180H x LX561M180J x LX561M180J x LX561M180K x L561M180K x LX681M180H x LX681M180H x LX681M180J x LX681M180J x L681M180J x LX681M180K x L681M180K x L681M180A x LX821M180H x LX821M180J x LX821M180J x LX821M180K x LX821M180K x L821M180A x LX102M180J x LX102M180K x LX102M180K x L102M180K x LX102M180A x L102M180A x LX122M180J x LX122M180K x LX122M180K x LX122M180A x LX152M180K x LX152M180K x LX152M180A x LX152M180A x L182M180A x L182M180N x LX182M180A x L222M180A x L222M180N x Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

154 Types 381L, 383L, 381LX & 383LX, 105 C High-Ripple Snap-In Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 105 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 105 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) 180 Vdc (225 Vdc Surge) (cont d) LX222M180A x L272M180A x L332M180N x Vdc (250 Vdc Surge) LX101M200H x L101M200H x L151M200H x L151M200H x LX151M200J x L151M200J x LX221M200G x LX221M200H x L221M200H x L221M200H x L221M200J x L221M200J x LX221M200K x L221M200K x LX271M200G x LX271M200H x L271M200H x LX271M200J x L271M200J x L271M200K x LX331M200G x LX331M200H x L331M200H x L331M200H x LX331M200J x L331M200J x L331M200K x LX331M200A x LX391M200H x LX391M200H x LX391M200J x LX391M200J x L391M200J x LX391M200K x L391M200K x L391M200A x LX471M200H x LX471M200H x L471M200H x LX471M200J x LX471M200J x L471M200J x L471M200J x LX471M200K x L471M200K x L471M200A x LX561M200H x LX561M200H x LX561M200J x LX561M200J x L561M200J x LX561M200K x LX561M200K x L561M200K x L561M200A x LX681M200H x LX681M200J x LX681M200J x LX681M200K x L681M200K x L681M200K x L681M200A x L681M200A x LX821M200J x Vdc (250 Vdc Surge) (cont d) LX821M200J x LX821M200K x LX821M200K x L821M200K x LX821M200A x L821M200A x LX102M200J x LX102M200K x LX102M200K x LX102M200A x LX102M200A x L102M200A x LX122M200K x LX122M200K x LX122M200A x LX122M200A x LX152M200K x LX152M200A x LX152M200A x L182M200A x L182M200N x LX182M200A x LX182M200N x L222M200A x L222M200N x LX222M200A x L272M200N x LX272M200A x LX272M200N x LX332M200A x LX332M200N x LX332M200B052V x LX392M200B062V x LX472M200A x LX472M200N x LX472M200B082V x LX562M200N x LX562M200B092V x LX682M200B102V x Vdc (300 Vdc Surge) LX680M250H x L680M250H x L101M250H x L101M250H x LX101M250J x L101M250J x L151M250H x L151M250H x L151M250J x L151M250J x LX151M250K x L151M250K x LX181M250H x LX181M250G x LX181M250H x L181M250H x LX181M250J x LX221M250G x LX221M250H x L221M250H x L221M250H x LX221M250J x L221M250J x L221M250J x L221M250K x25 Aluminum Snap-In 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.083

155 Types 381L, 383L, 381LX & 383LX, 105 C High-Ripple Snap-In Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 105 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 105 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) Aluminum Snap-In 250 Vdc (300 Vdc Surge) (cont d) L221M250K x LX221M250A x LX271M250H x LX271M250J x L271M250J x LX271M250K x L271M250K x L271M250A x LX331M250H x L331M250H x LX331M250J x LX331M250J x L331M250J x L331M250J x LX331M250K x L331M250K x L331M250A x LX391M250H x LX391M250J x LX391M250K x LX391M250K x L391M250A x LX471M250H x LX471M250J x LX471M250J x L471M250J x LX471M250K x LX471M250K x L471M250K x L471M250K x LX471M250A x L471M250A x L471M250A x LX561M250J x LX561M250J x LX561M250K x L561M250K x LX561M250A x LX561M250A x L561M250A x LX681M250J x LX681M250K x LX681M250A x LX681M250K x LX681M250A x L681M250A x LX821M250K x LX821M250K x LX821M250A x LX821M250A x LX102M250K x LX102M250A x LX102M250A x L122M250N x LX122M250A x LX122M250A x LX122M250N x L152M250A x LX152M250A x L182M250A x L182M250N x LX182M250N x L222M250N x LX222M250A x LX222M250B052V x LX222M250N x LX272M250A x LX272M250B062V x Vdc (300 Vdc Surge) (cont d) LX272M250N x LX332M250N x LX392M250N x LX392M250B082V x LX432M250B092V x LX472M250B102V x Vdc (365 Vdc Surge) L560M315H x LX820M315G x LX820M315H x L820M315H x L820M315J x LX101M315G x LX101M315H x LX121M315G x LX121M315H x L121M315H x LX121M315J x L121M315J x L121M315K x LX151M315H x L151M315H x LX151M315J x L151M315J x LX151M315K x LX181M315H x L181M315H x LX181M315J x LX181M315J x L181M315J x LX181M315K x L181M315K x L181M315A x LX221M315H x LX221M315J x LX221M315J x LX221M315K x LX221M315K x L221M315K x L221M315A x LX271M315H x LX271M315J x LX271M315J x L271M315J x LX271M315K x LX271M315K x L271M315K x LX271M315A x LX331M315J x LX331M315J x LX331M315K x LX331M315K x LX331M315A x L331M315A x L391M315J x L391M315K x LX391M315K x L391M315K x L391M315A x LX391M315A x L391M315A x LX471M315K x LX471M315K x LX471M315A x LX471M315A x LX561M315K x LX561M315A x LX561M315A x Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

156 Types 381L, 383L, 381LX & 383LX, 105 C High-Ripple Snap-In Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 105 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 105 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) 315 Vdc (365 Vdc Surge) (cont d) LX681M315A x LX681M315A x L821M315A x L821M315N x LX821M315A x L102M315A x L122M315A x L122M315N x L152M315N x Vdc (400 Vdc Surge) L560M350H x LX680M350G x LX820M350G x LX820M350H x L820M350H x L820M350J x LX101M350G x LX101M350H x L101M350H x LX101M350J x L101M350J x L101M350K x LX121M350G x LX121M350H x LX121M350H x L121M350H x LX121M350J x LX121M350J x L121M350J x LX151M350H x LX151M350H x LX151M350J x LX151M350K x L151M350K x L151M350A x LX181M350H x LX181M350H x L181M350H x LX181M350J x LX181M350J x L181M350J x LX181M350K x LX181M350K x L181M350K x LX221M350H x LX221M350H x LX221M350J x LX221M350J x L221M350J x LX221M350K x L221M350K x L221M350A x LX271M350J x LX271M350J x LX271M350K x LX271M350K x LX271M350A x LX271M350A x L271M350A x LX331M350J x LX331M350K x LX331M350K x L331M350K x LX331M350A x LX331M350A x L331M350A x LX391M350K x LX391M350K x Vdc (400 Vdc Surge) (cont d) LX391M350A x LX391M350A x LX471M350K x LX471M350A x L561M350N x LX561M350A x LX561M350A x LX681M350A x LX681M350N x LX821M350A x LX821M350N x L102M350N x L102M350A x LX102M350B052V x LX122M350A x LX122M350N x LX152M350A x LX152M350B062V x LX152M350N x LX182M350N x LX182M350B082V x LX202M350B092V x LX222M350B102V x Vdc (450 Vdc Surge) LX330M400H x L330M400H x L470M400H x LX470M400J x LX470M400J x LX470M400H x LX560M400G x LX560M400H x L560M400H x L560M400J x LX680M400G x LX680M400H x L680M400H x LX680M400J x L681M400J x LX680M400K x L680M400K x L680M400H x LX820M400G x LX820M400H x LX820M400H x LX820M400J x L820M400H x L820M400J x L820M400K x LX101M400H x LX101M400H x L101M400H x LX101M400J x LX101M400J x L101M400J x L101M400K x LX101M400A x L101M400J x LX121M400H x LX121M400H x LX121M400J x LX121M400J x LX121M400K x L121M400H x L121M400J x L121M400K x L121M400A x LX151M400H x40 Aluminum Snap-In 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.085

157 Types 381L, 383L, 381LX & 383LX, 105 C High-Ripple Snap-In Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 105 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 105 C Size DxL µf Number 120 Hz 20 khz 120 Hz 20 khz (mm) Aluminum Snap-In 400 Vdc (450 Vdc Surge) (cont d) LX151M400H x LX151M400J x LX151M400J x L151M400J x LX151M400K x LX151M400K x L151M400K x L151M400A x L151M400K x LX181M400H x LX181M400J x LX181M400J x LX181M400K x LX181M400K x LX181M400A x L181M400J x L181M400K x L181M400A x LX221M400J x LX221M400J x LX221M400K x LX221M400K x L221M400K x LX221M400A x LX221M400A x L221M400A x L221M400A x LX271M400J x LX271M400K x LX271M400K x LX271M400A x LX271M400A x L271M400K x L271M400A x LX331M400K x LX331M400K x LX331M400A x LX331M400A x L331M400A x LX391M400K x LX391M400A x LX391M400A x LX471M400N x LX471M400A x LX471M400A x L561M400A x L561M400N x LX561M400A x L681M400N x LX681M400N x LX821M400B052V x LX821M400A x LX1021M400A x LX102M400N x LX122M400A x LX122M400B062V x LX122M400N x LX152M400N x LX152M400B082V x LX162M400B092V x LX182M400B102V x Vdc (500 Vdc Surge) LX330M450H x LX470M450H x LX470M450J x LX560M450H x LX560M450H x LX680M450H x LX680M450J x LX680M450H x LX680M450J x LX680M450K x LX820M450J x LX820M450H x LX820M450J x LX101M450H x LX101M450K x LX101M450H x LX101M450H x LX101M450J x LX101M450J x LX101M450K x LX101M450A x LX121M450K x LX121M450H x LX121M450J x LX121M450K x LX151M450A x LX151M450H x LX151M450J x LX151M450J x LX151M450K x LX151M450K x LX151M450A x LX181M450J x LX181M450K x LX181M450A x LX221M450A x LX221M450J x LX221M450K x LX221M450K x LX221M450A x LX271M450K x LX271M450A x LX331M450K x LX331M450A x LX391M450N x LX391M450A x LX471M450A x L561M450N x LX561M450A x LX561M450N x L681M450A x LX681M450B052V x LX681M450N x L821M450N x LX821M450B062V x LX821M450A x LX102M450A x LX102M450N x LX122M450N x LX122M450B082V x LX132M450B092V x LX152M450B102V x Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

158 25% Smaller for Same Capacitance Type 381LR, 105 C Ultra-High-Ripple Snap-in Compared to standard 105 C snap-ins like the Type 381L/LX the new Type 381LR can handle an extra 25% ripple current or more. This remarkable capability stems from advances in electrolyte that give extremely low ESR values. In high ripple current applications like motor drives you can save by using fewer capacitors. Highlights The right choice for motor drive bus capacitors The right choice for UPS bus capacitors Compare to Type 381L Up to 2 times the ripple current Specifications Operating Temperature: -40 C to C 315Vdc -25 C to C 350Vdc Rated Voltage: 200 to 450 Vdc Capacitance: 56 µf to 2,200 µf ± 20% Leakage Current: 3 CV µa, 4 ma max, 5 minutes Ripple Current Multipliers: Ambient Temperature Aluminum Snap-In Frequency Load Life: 3000 h at full load at 105 C Capacitance 10% ESR 125% of limit DCL 100% of limit EIA Ripple Life: Shelf Life: Vibration: 45 C 60 C 70 C 85 C 105 C Hz 60 Hz 120 Hz 500 Hz 1 khz 10 khz & up ,000 h at 85 C, full load per EIA IS-749 Capacitance 20% ESR 200% of limit DCL 100% of limit 1000 h at 105 C, capacitance ± 10%, ESR 200% of limit, DCL 100% of limit 10 to 55 Hz, 0.06 and 10 g max, 2 h each plane 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.087

159 Type 381LR, 105 C Ultra-High-Ripple Snap-in Outline Drawings Insulated Case Dimentions Aluminum Snap-In DIAMETER LENGTH Typical DIAMETER LENGTH Typical Case D L Weight Case D L Weight Code mm inches mm inches (grams) Code mm inches mm inches (grams) H K H K H K H K H K H K J A J A J A J A J A J A Part Numbering System 381LR 271 M 200 HO1 2 Type Capacitance Tolerance Rated Case Code Insulation 271 = 270 µf M = 20% Voltage 2 = PVC 222 = 2200 µf 160 = 160 V 450 = 450 V Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

160 Typical Performance Curves Type 381LR, 105 C Ultra-High-Ripple Snap-in 6 Life Test, 105 C, Full Load, 220 F, 400 V 7 Life Test, 105 C, Full Load, 330 F, 400 V 80 Cap (%) and DF (%) DF DCL C DCL (ua) Cap (%) and DF (%) DF DCL C DCL (ua) Test Hours Test Hours 1000 Type 381LR Operating Life vs Ripple Current 45 C 55 C Expected Operating Life, kh C 75 C 85 C 95 C 105 C Aluminum Snap-In Ratings Rated Ripple-Current Multiple ESR Max Ripple Max C Size Cap. Catalog 120 Hz 20 khz 120 Hz 20 khz DxL (µf) Part Number (Ω) (Ω) (Α) (Α) (mm) 200 Vdc (250 Vdc Surge) LR271M200H X LR331M200H X LR391M200H X LR391M200J X LR471M200H X LR471M200J X LR561M200H X LR561M200J X LR561M200K X LR681M200H X LR681M200J X LR681M200K X LR821M200H X LR821M200J X LR821M200K X LR821M200A X LR102M200J X LR102M200K X LR102M200A X LR122M200K X LR122M200A X LR152M200K X LR152M200A X LR182M200A X LR222M200A X 50 ESR Max Ripple Max C Size Cap. Catalog 120 Hz 20 khz 120 Hz 20 khz DxL (µf) Part Number (Ω) (Ω) (Α) (Α) (mm) 250 Vdc (300 Vdc Surge) LR221M250H X LR271M250H X LR271M250J X LR331M250H X LR331M250J X LR391M250H X LR391M250J X LR391M250K X LR471M250H X LR471M250J X LR471M250K X LR561M250J X LR561M250K X LR561M250A X LR681M250J X LR681M250K X LR681M250A X LR821M250K X LR821M250A X LR102M250K X LR102M250A X LR122M250A X LR152M250A X Vdc (450 Vdc Surge) LR820M400H X Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.089

161 Type 381LR, 105 C Ultra-High-Ripple Snap-in Aluminum Snap-In ESR Max Ripple Max C Size Cap. Catalog 120 Hz 20 khz 120 Hz 20 khz DxL (µf) Part Number (Ω) (Ω) (Α) (Α) (mm) LR101M400H X LR101M400J X LR121M400H X LR121M400J X LR151M400H X LR151M400J X LR151M400K X LR181M400H X LR181M400J X LR181M400K X LR221M400H X LR221M400J X LR221M400K X LR221M400A X LR271M400J X LR271M400K X LR271M400A X LR331M400K X LR331M400A X LR391M400K X LR391M400A X LR471M400A X LR561M400A X Vdc (470 Vdc Surge) LR680M420H X LR820M420H X LR820M420J X L1R101M420H X LR101M420J X LR121M420H X LR121M420J X LR151M420H X LR151M420J X LR151M420K X LR181M420H X LR181M420J X LR181M420K X LR181M420A X LR221M420J X LR221M420K X LR221M420A X LR271M420J X LR271M420K X LR271M420A X LR331M420K X LR331M420A X LR391M420K X LR391M420A X LR471M420A X Vdc (500 Vdc Surge) LR560M450H X LR680M450H X LR680M450J X LR820M450H X LR820M450J X LR101M450H X LR101M450J X LR121M450H X LR121M450J X LR121M450K X LR151M450H X LR151M450J X 40 ESR Max Ripple Max C Size Cap. Catalog 120 Hz 20 khz 120 Hz 20 khz DxL (µf) Part Number (Ω) (Ω) (Α) (Α) (mm) LR151M450K X LR151M450A X LR181M450H X LR181M450J X LR181M450K X LR181M450A X LR221M450J X LR221M450K X LR221M450A X LR271M450K X LR271M450A X LR331M450K X LR331M450A X LR391M450A X LR471M450A X Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

162 Type 381EL, 105 C Ultra-Long Life Snap-In, Aluminum More than 100,000 Hours Operation at 65 C and Rated 105 C Ripple The new 381EL extends expected life capability to 15 years or more in typical applications. And that s with the 105 C rated ripple current applied. With 3.5 times the life of our long-life Type 381LX, the Type 381EL is the choice for hot applications like industrial power supplies, inverter lighting systems and motor drives. Highlights High value extended life. Withstands 7000 hours at 105 C with rated ripple current. Expected life more than 100,000 hours at 65 C with rated ripple. Rated voltage to 450 Vdc. Made in USA. 50% more ripple current than 381L. Specifications Operating Temperature: Rated Voltage: Capacitance: Leakage Current: Ripple Current Multipliers: 40 C to 105 C up to 300 V, 25 C to 105 C 315 V 160 Vdc to 450 Vdc 39 µf to 2200 F 20% 3 CV A at 5 min. Ambient Temperature 45 C 60 C 70 C 85 C 105 C Aluminum Snap-In Type 381LX p Type 381L p µf pins MORE Frequency 60 Hz 120 Hz 500 Hz 1 khz 10 khz & up Load Life: 7000 full load at 105 C Capacitance 10% ESR 200% of limit DCL 100% of limit EIA Ripple Life: Shelf Life: Vibration: 10,000 full load at +85 C per EIA IS-749 Capacitance 20% ESR 200% of limit C, capacitance 20%, DF 200% of limit, DCL 100% of limit. 10 to 55 Hz, 0.06 and 10 g max, 2 h in each plane 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.091

163 Type 381EL, 105 C Ultra-Long Life Snap-In, Aluminum Ratings Aluminum Snap-In ESR Max Ripple Amps Max 25 C 105 C Nominal Cap. Catalog DF Max 120 Hz 20 khz 120 Hz 20 khz Case Size µf Part Number 120 Hz ( ) ( ) (A) (A) D x L (mm) 160 Vdc (200 Vdc Surge) EL271M160H x EL331M160H x EL391M160H x EL391M160J x EL471M160H x EL471M160J x EL561M160H x EL561M160J x EL561M160K x EL681M160H x EL681M160J x EL681M160K x EL821M160J x EL821M160K x EL102M160J x EL102M160K x EL122M160J x EL122M160K x EL122M160A x EL152M160K x EL152M160A x EL182M160K x EL182M160A x EL222M160A x Vdc (225 Vdc Surge) EL221M180H x EL271M180H x EL331M180H x EL331M180J x EL391M180H x EL391M180J x EL471M180H x EL471M180J x EL471M180K x EL561M180H x EL561M180J x EL561M180K x EL681M180H x EL681M180J x EL681M180K x EL821M180J x EL821M180K x EL821M180A x EL102M180K x EL102M180A x EL122M180K x EL122M180A x EL152M180K x EL152M180A x EL182M180A x EL222M180A x Vdc (250 Vdc Surge) EL221M200H x EL271M200H x EL271M200J x EL331M200H x EL331M200J x EL391M200H x EL391M200J x EL391M200K x EL471M200H x EL471M200J x EL471M200K x EL561M200H x 45 ESR Max Ripple Amps Max 25 C 105 C Nominal Cap. Catalog DF Max 120 Hz 20 khz 120 Hz 20 khz Case Size µf Part Number 120 Hz ( ) ( ) (A) (A) D x L (mm) 200 Vdc (250 Vdc Surge) (cont d) EL561M200J x EL561M200K x EL681M200J x EL681M200K x EL821M200J x EL821M200K x EL821M200A x EL102M200K x EL102M200A x EL122M200K x EL122M200A x EL152M200A x Vdc (300 Vdc Surge) EL181M250H x EL181M250J x EL221M250H x EL221M250J x EL271M250H x EL271M250J x EL271M250K x EL331M250H x EL331M250J x EL331M250K x EL391M250H x EL391M250J x EL391M250K x EL471M250J x EL471M250K x EL471M250A x EL561M250J x EL561M250K x EL561M250A x EL681M250K x EL681M250A x EL821M250K x EL821M250A x EL102M250A x EL122M250A x Vdc (365 Vdc Surge) EL820M315H x EL101M315H x EL121M315H x EL121M315J x EL151M315H x EL151M315J x EL151M315K x EL181M315H x EL181M315J x EL181M315K x EL221M315H x EL221M315J x EL221M315K x EL271M315J x EL271M315K x EL271M315A x EL331M315J x EL331M315K x EL331M315A x EL391M315K x EL391M315A x EL471M315K x EL471M315A x EL561M315A x EL681M315A x Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

164 Ratings Type 381EL, 105 C Ultra-Long Life Snap-In, Aluminum ESR Max Ripple Amps Max 25 C 105 C Nominal Cap. Catalog DF Max 120 Hz 20 khz 120 Hz 20 khz Case Size µf Part Number 120 Hz ( ) ( ) (A) (A) D x L (mm) 350 Vdc (400 Vdc Surge) EL820M350H x EL101M350H x EL101M350J x EL121M350H x EL121M350J x EL151M350H x EL151M350J x EL151M350K x EL181M350H x EL181M350J x EL181M350K x EL221M350H x EL221M350J x EL221M350K x EL271M350J x EL271M350K x EL271M350A x EL331M350K x EL331M350A x EL391M350K x EL391M350A x EL471M350A x EL561M350A x Vdc (450 Vdc Surge) EL560M400H x EL680M400H x EL680M400J x EL820M400H x EL820M400J x EL101M400H x EL101M400J x EL121M400H x EL121M400J x EL121M400K x EL151M400H x EL151M400J x EL151M400K x 30 Outline Drawing ESR Max Ripple Amps Max 25 C 105 C Nominal Cap. Catalog DF Max 120 Hz 20 khz 120 Hz 20 khz Case Size µf Part Number 120 Hz ( ) ( ) (A) (A) D x L (mm) 400 Vdc (450 Vdc Surge) (cont d) EL181M400J x EL181M400K x EL181M400A x EL221M400J x EL221M400K x EL221M400A x EL271M400K x EL271M400A x EL331M400K x EL331M400A x EL391M400A x EL471M400A x Vdc (500 Vdc Surge) EL390M450H x EL470M450H x EL560M450H x EL560M450J x EL680M450H x EL680M450J x EL820M450H x EL820M450J x EL820M450K x EL101M450H x EL101M450J x EL101M450K x EL121M450J x EL121M450K x EL151M450J x EL151M450K x EL151M450A x EL181M450K x EL181M450A x EL221M450K x EL221M450A x EL271M450A x EL331M450A x 50 Aluminum Snap-In Part Numbering System 381EL 821 M 200 K04 2 Type Capacitance Tolerance Rated Case Code Insulation 390 = 39 µf M = 20% Voltage 2 = PVC 122 = 1200 µf Vdc 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.093

165 Type 381EL, 105 C Ultra-Long Life Snap-In, Aluminum Insulated Case Dimensions DIAMETER LENGTH Typical Case D L Weight Code mm inches mm inches (grams) H H H H H H J J J J J J DIAMETER LENGTH Typical Case D L Weight Code mm inches mm inches (grams) K K K K K K A A A A A A Typical Performance Curves 2.5 Life Test Data 1000 µf 200 V Capacitance, DF, Leakage Current Load Life 1000 µf 200 V 3.5 Life Test Data 180 µf 450 V Capacitance, DF, Leakage Current Load Life 180 µf 450 V Aluminum Snap-In Ratio to Initial Value ESR Capacitance Ratio to Initial Value ESR Capacitance 0.5 DCL 0.5 DCL Time (h) with rated ripple & 105 C Time (h) with rated ripple & 105 C 1.2 Capacitance vs Temperature and Frequency 470 F 200 V 65 C 85 C 25 C 1.2 Capacitance vs Temperature and Frequency 100 F 400 V 65 C 85 C 25 C C 0 C Ratio to 25 C, 120 Hz Value C Ratio to 25 C, 120 Hz Value C C Frequency (Hz) 40 C Frequency (Hz) 1000 Type 381EL Operating Life in Kilohours vs Ripple Current 45 C 55 C 65 C Expected Operating Life, kh C 85 C 95 C 105 C Rated Ripple-Current Multiple Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

166 Type MLP 85 C Type MLP, 85 C Flatpack, Ultra-Long Life, Aluminum 1/2-Inch Height, 50-Year Life The MLP s high-energy storage and box-shape make it perfect for voltage holdup or filtering in military SEM-E modules, telecom circuit packs and computer cards. The MLP delivers 25 joules of energy storage in a 1/2 height with 50 year s life at +45 C. You can readily heatsink it to double the ripple-current capability. Ratings up to 250 V can operate at 75% of rated voltage up to 125 C if clamped or potted to prevent expanding beyond 1/2. Highlights Low-profile replacement for snap-ins Double the ripple capability with a heatsink Near-hermatic welded seal assures 50-year life Specifications MORE Operating Temperature: Rated Voltage: Capacitance: Leakage Current: Cold Impedance: Ripple Current Multipliers: hot ripple Type MLS p Type MLS p C to +85 C up to 250 Vdc, 40 C to 85 C 300 Vdc & up 7.5 to 450 Vdc 130 µf to 47,000 µf 20% CV 25 C and 5 min 55 C multiple of 25 C Z 4 for 7.5 V, 2 for 10 V to 250 V 20 C multiple of 25 C Z 4 for 300 V and up Case Temperature 45 C 55 C 65 C 75 C 85 C Ambient Temperature, No Heatsink 45 C 55 C 65 C 75 C 85 C Frequency 50 Hz 60 Hz 120 Hz 360 Hz 1 khz 5 khz 10 khz & up 7.5 to 63 V to 420 V Aluminum Radial Leaded Load Life: 2, C, Capacitance 10%, ESR 200% of limit, DCL 100% of limit, height 0.5 in. max Shelf Life: 500 h at 85 C, capacitance, ESR and DCL, initial requirements. Height 0.5 in max Thermal Resistance: Maximum core temperature 88 C Core to Case, bare can 1.1 C/W Core to Case, insulated 1.6 C/W Vibration: 10 Hz to 2 khz, 0.06 pp max and 10 g, MIL-STD-202, Meth. 204 ESL: <30 nh measured 1/4 from case at 1 MHz Weight: Case EK 30g max. Case EB 66g max. 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.095

167 Type MLP, 85 C Flatpack, Ultra-Long Life, Aluminum Specifications Double the Ripple Current: Attach the MLP to an external heatsink and you can easily double the ripple current capability and assure long life through cooler operation. The broad, flat top and bottom on the MLP are ideal for cooling the capacitor and removing the heat caused by ripple current. Ripple Current Capability is set by the maximum permissible internal core temperature, 88 C. This assures that the case does not inflate beyond 0.5 inch height. Air Cooled. The ripple currents in the ratings tables are for 85 C case temperatures. For air temperatures without a heatsink use the multipliers Ambient Temperature, No Heatsink. where θcc is the thermal resistance from core to case and θca from case to ambient. To calculate maximum ripple capability with the MLP attached to a heatsink use the maximum core temperature and the values for θcc. As an illustration, suppose you operate an insulated MLP in 65 C air and attach it to a commercial heatsink with a free-air thermal resistance of 2.7 C/W. Use a good thermal grease between the MLP and the heatsink, and the total thermal resistance is or 4.3 C/W. The power which would heat the core to 88 C is (88-65)/4.3 or 5.35 W. For an ESR of 100 mω, 5.35 W equates to a ripple current of 6.5A. Heatsink Cooled. Temperature rise from the internal hottest spot, the core, to ambient air is: T = I 2 (ESR)(θcc + θca) Outline Drawings Aluminum Radial Leaded Style A: Mounting Tabs Style B: Four Leads Style C: No Tabs Style D: Hook Leads Case L Weight Code Length g EK EB Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

168 Type MLP, 85 C Flatpack, Ultra-Long Life, Aluminum Part Numbering System MLP 102 M 200 EB O A Type Capacitance Tolerance Rated Case Code Insulation Mounting Style MLP 821=820 F M = 20% Voltage EK, L = 1.5 in. 0 = bare can A = mounting tabs 102=1000 F Vdc EB, L = 3.0 in. 1 = polyester B = four leads C = two leads/no tabs D = hook leads/tabs E = hook leads/no tabs Typical Performance Curves Impedance vs. Frequency and Temperature 47,000 F 7.5 VDC Impedance vs. Frequency and Temperature 47,000 F 75 VDC Note: Impedance measured at ends of leads. Aluminum Radial Leaded MLP 4400 µf 50V Ripple Life Test 85 C MLP 300 µf 400V Ripple Life Test 85 C Ratio to Initial Value Ratio to Initial Value Test Hours w/48v & 60 Hz Test Hours w/391v & 60 Hz 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.097

169 Type MLP, 85 C Flatpack, Ultra-Long Life, Aluminum Typical Performance Curves Ratings Aluminum Radial Leaded ESR max Ripple Amps Cap. Catalog mω 85 C Case F Number 120 Hz 20 khz 120 Hz 20 khz Code 7.5 Vdc (10 Vdc Surge) 19,000 MLP193M7R5EK0A EK 47,000 MLP473M7R5EB0A EB 10 Vdc (13 Vdc Surge) 17,000 MLP173M010EK0A EK 43,000 MLP433M010EB0A EB 16 Vdc (20 Vdc Surge) 13,000 MLP133M016EK0A EK 38,000 MLP383M016EB0A EB 20 Vdc (25 Vdc Surge) 9,600 MLP962M020EK0A EK 24,000 MLP243M020EB0A EB 25 Vdc (30 Vdc Surge) 8,000 MLP802M025EK0A EK 20,000 MLP203M025EB0A EB 35 Vdc (50 Vdc Surge) 5,600 MLP562M035EK0A EK 14,000 MLP143M035EB0A EB 50 Vdc (63 Vdc Surge) 4,400 MLP442M050EK0A EK 11,000 MLP113M050EB0A EB 63 Vdc (75 Vdc Surge) 2,200 MLP222M063EK0A EK 5,600 MLP562M063EB0A EB 80 Vdc (100 Vdc Surge) 1,500 MLP152M080EK0A EK 3,300 MLP332M080EB0A EB ESR max Ripple Amps Cap. Catalog mω 85 C Case F Number 120 Hz 20 khz 120 Hz 20 khz Code 100 Vdc (125 Vdc Surge) 1,100 MLP112M100EK0A EK 2,700 MLP272M100EB0A EB 150 Vdc (180 Vdc Surge) 500 MLP501M150EK0A EK 1,300 MLP132M150EB0A EB 200 Vdc (250 Vdc Surge) 400 MLP401M200EK0A EK 1,000 MLP102M200EB0A EB 250 Vdc (300 Vdc Surge) 330 MLP331M250EKOA EK 820 MLP821M250EB0A EB 300 Vdc (350 Vdc Surge) 220 MLP221M300EK0A EK 560 MLP561M300EB0A EB 350 Vdc (400 Vdc Surge) 150 MLP151M350EK0A EK 370 MLP371M350EB0A EB 400 Vdc (450 Vdc Surge) 130 MLP131M400EK0A EK 330 MLP331M400EB0A EB 420 Vdc (475 Vdc Surge) 130 MLP131M420EK0A EK 330 MLP331M420EB0A EB 450 Vdc (500 Vdc Surge) 110 MLP111M450EK0A EK 280 MLP281M450EB0A EB Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

170 Type MLS,125 C Stainless Flatpack, Ultra-Long Life, Aluminum Type MLS 125 C The Type MLS extends the super performance of the MLP from a maximum operating temperature of 85 C to 125 C. While the MLP is inherently capable of operation at 125 C, its flat aluminum case can t withstand the higher temperature without inflating from internal pressure. The MLS incorporates a rugged, stainless steel case which assures flatness to beyond 125 C. The MLS is perfect for hi-rel military systems and applications operating above 85 C. Highlights Near-hermetic welded seal Stainless-steel case 100 years expected operating life Specifications Operating Temperature: 55 C to +125 C Rated Voltage: 5.0 to 250 Vdc Capacitance: 220 to 47,000 µf 20% Load Life: 2, C Leakage Current: CV 25 C and 5 min Cold Impedance: 55 C multiple of 25 C Z 4 for 5 V, 2 for 7.5 V and up Ripple Current Multipliers: Case Temperature 45 C 55 C 65 C 75 C 85 C 95 C 105 C 115 C 125 C Aluminum Radial Leaded Ambient Temperature, No Heatsink 45 C 55 C 65 C 75 C 85 C 95 C 105 C 115 C 125 C Frequency 50 Hz 60 Hz 120 Hz 360 Hz 1 khz 5 khz 10 khz & up Type MLP p F MORE 5 to 40 V to 250 V EIA Ripple Life: 10,000 h full load at 85 C per EIA IS-749 capacitance 10% ESR 200% of limit DCL 100% of limit Shelf Life: 500 h at 125 C, capacitance, ESR & DCL, initial requirements Thermal Resistance: Maximum core temperature 125 C Core to Case, bare can 1.1 C/W Core to Case, insulated 1.6 C/W Vibration: 10 Hz to 2 khz 0.06 pp max and 10 g, MIL-STD-202, Meth. 204 ESL: < 30 nh measured 1/4 from case at 1 MHz Weight: Case EK 43g max. Case EB 88g max. 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.099

171 Type MLS,125 C Stainless Flatpack, Ultra-Long Life, Aluminum Specifications Ripple Current Capability is set by the maximum permissible internal core temperature, 125 C. Air Cooled. The ripple currents in the ratings tables are for 85 C case temperatures. For air temperatures without a heatsink use the Ambient Temperature, No Heatsink multipliers. Heatsink Cooled. Temperature rise from the internal hottest spot, the core, to ambient air is: T = I 2 (ESR)(θcc + θca) capability with the MLP attached to a heatsink use the maximum core temperature and the values for θcc. As an illustration, suppose you operate an insulated MLS in 65 C air and attach it to a commercial heatsink with a free-air thermal resistance of 2.7 C/W. Use a good thermal grease between the MLS and the heatsink, and the total thermal resistance is or 6.6 C/W. The power which would heat the core to 125 C is (125-65)/6.6 or 9.09W. For an ESR of 100 mω, 5.35W equates to a ripple current of 9.5A. where θcc is the thermal resistance from core to case and θca from case to ambient. To calculate maximum ripple Outline Drawings Style A: Mounting Tabs Aluminum Radial Leaded Case L Weight Code Length g EK EB Style C: No Tabs Style D: Hook Leads Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

172 Type MLS,125 C Stainless Flatpack, Ultra-Long Life, Aluminum Part Numbering System MLS 821 M 200 EB O A Type Capacitance Tolerance Rated Case Code Insulation Mounting Style MLS 821=820 F M = 20% Voltage EK, L = 1.5 in. 0 = bare can A = mounting tabs 102=1000 F Vdc EB, L = 3.0 in. 1 = polyester C = two leads/no tabs D = hook leads/tabs E = hook leads/no tabs Typical Performance Curves Impedance vs. Frequency and Temperature 47,000 F 5.0 Vdc Impedance vs. Frequency and Temperature 47,000 F 50 Vdc Aluminum Radial Leaded Impedance vs. Frequency and Temperature 900 F 150 Vdc 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.101

173 Type MLS,125 C Stainless Flatpack, Ultra-Long Life, Aluminum Typical Performance Curves MLS 500 F 250 V Ripple Life Test 105 C (125 C Case) Aluminum Radial Leaded Ratings ESR max Ripple Amps Cap. Catalog mω 85 C Case F Number 120 Hz 20 khz 120 Hz 20 khz Code 5 Vdc (7.5 Vdc Surge) 19,000 MLS193M5R0EK0C EK 47,000 MLS473M5R0EB0C EB 7.5 Vdc (10 Vdc Surge) 17,000 MLS173M7R0EK0C EK 43,000 MLS433M7R0EB0C EB 10 Vdc (15 Vdc Surge) 13,000 MLS133M010EK0C EK 38,000 MLS383M010EB0C EB 20 Vdc (30 Vdc Surge) 6,800 MLS682M020EK0C EK 17,000 MLS173M020EB0C EB 40 Vdc (50 Vdc Surge) 4,400 MLS442M040EK0C EK 11,000 MLS113M040EB0C EB 60 Vdc (75 Vdc Surge) 1,500 MLS152M060EK0C EK 3,300 MLS332M060EB0C EB 75 Vdc (100 Vdc Surge) 1,100 MLS112M075EK0C EK 2,700 MLS272M075EB0C EB ESR max Ripple Amps Cap. Catalog mω 85 C Case F Number 120 Hz 20 khz 120 Hz 20 khz Code 100 Vdc (125 Vdc Surge) 500 MLS501M100EK0C EK 1,300 MLS132M100EB0C EB 150 Vdc (175 Vdc Surge) 400 MLS401M150EK0C EK 1,000 MLS102M150EB0C EB 200 Vdc (225 Vdc Surge) 330 MLS331M200EK0C EK 820 MLS821M200EB0C EB 250 Vdc (275 Vdc Surge) 220 MLS221M250EK0C EK 560 MLS561M250EB0C EB Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

174 Type 300/301, 55 C to 105 C Long-Life, Switching Power Grade Radial Specifications MORE Ripple Temp Operating Temperature: 55 C to +105 C Rated Voltage: 6.3 to 250 Vdc Capacitance: 10 µf to 33,000 µf Capacitance Tolerance: 6.3 to 100 Vdc; %, 160 to 250 Vdc; % Leakage Current: 0.5 CV A, 4 ma max, 5 minutes Cold Impedance: 55 C multiple of 25 C Z 4 for 6.3 & 7.5 V, 3 for 10 to 50 V, 2 for > 50 V Ripple Current Multipliers: Ambient Temperature Life Low z Type 325 p Type 330 p Type 350 p Type 325 p Load Life: Shelf Life: Vibration: 45 C 55 C 65 C 75 C 85 C 95 C 105 C Frequency High Capacitance and Ultra-Low ESR The Types 300 and 301 are the wide-temperature, low-esr capacitors for power-supply outputs and UPS battery stiffening. The exceptionally low ESRs enable high ripplecurrent capability. With series inductance of 12 to 16 nh and ripple currents to 16 amps one of these capacitors can save by replacing three or four of the 12.5 mm diameter capacitors routinely at the output of switching power supplies. Type 300 has three leads for rugged, reverse-proof mounting, and Type 301 has two leads. Types 300R and 301R deliver even lower ESR and higher ripple. Highlights Now 4000 hour load life Ripple Current to 16 amps ESRs to 6 mω > 90% capacitance at 40 C Replaces multiple capacitors 50 Hz 60 Hz 120 Hz 360 Hz 1 khz 5 khz 10 khz & up Less than.77 Diameter 6.3 & 7.5 V to 40 V V & 75 V to 250 V Diameter 6.3 & 7.5 V to 40 V V & 75 V to 250 V Diameter 6.3 & 7.5 V to 40 V V & 75 V to 250 V Diameter 6.3 & 7.5 V to 40 V V & 75 V to 250 V h at full load at 85 C Capacitance 20% ESR 200% of limit DCL 100% of limit 500 h at 105 C, capacitance, ESR and DCL, initial requirements 10 to 55 Hz, 0.06 and 10 g max, 2 h in each plane Aluminum Radial Leaded 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.103

175 Type 300/301, 55 C to 105 C Long-Life, Switching Power Grade Radial Outline Drawings 0.77, and 1.02 Diameters 0.51, 0.65 and 0.73 Diameters Type 300/300R Three Leads + S1 Type 300/300R Three Leads mm mm S2 Type 301/301R Two Leads + S2 Type 301/301R Two Leads Aluminum Radial Leaded Case Dimensions Insulated Epoxy Bare Can Lead Spacing Lead Diameter Case D (0.4 mm) endseal D (0.4 mm) Type 300 Type 301 dia. AWG Code L (1.6 mm) L Max L (0.8 mm) S1 T S2 D x L D x L (0.5 mm) (0.5 mm) Case Dimensions in Inches EG 0.512x x EK 0.512x x EM 0.512x x EN 0.512x x ER 0.512x x FK 0.650x x FF 0.650x x FQ 0.650x x FV 0.650x x LQ 0.728x x LV 0.728x x GE 0.765x x GJ 0.765x x GL 0.765x x GP 0.765x x GS 0.765x x GT x x HE x x HJ x x HL x x HP x x HS x x HT x x JJ x x JL x x JP x x JS x x JT x x Case Dimensions in Millimeters EG 13.0x x EK 13.0x x EM 13.0x x EN 13.0x x ER 13.0x x FK 16.5x x FF 16.5x x FQ 16.5x x FV 16.5x x LQ 18.5x x LV 18.5x x GE 19.4x x GJ 19.4x x GL 19.4x x GP 19.4x x GS 19.4x x GT 19.4 x x HE 22.6 x x HJ 22.6 x x HL 22.6 x x HP 22.6 x x HS 22.6 x x HT 22.6 X X JJ 25.8 X X JL 25.8 x x JP 25.8 x x JS 25.8 x x JT 25.8 x x mm Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

176 Type 300/301, 55 C to 105 C Long-Life, Switching Power Grade Radial Part Numbering System 301R 333 U 6R3 JS 2 Type Capacitance Tolerance Voltage Case Code Insulation Epoxy leads 100= 10 F M = 20% 6R3= 6.3 Vdc 0 = none E = epoxy endseal 300R - 3 leads 102= 1000 F T = 10% + 50% 063= 63 Vdc 1 = Polyester Blank =no epoxy Low ESR U = % 100= 100 Vdc 2 = PVC leads 8 = PVC 301R - 2 leads, Low ESR w/standoffs 301A - Laydown 3 leads 9 = Polyester w/standoffs Typical Performance Curves Aluminum Radial Leaded /301 Operating Life in Kilohours vs Ripple Current 45 C Expected Operating Life, kh C 65 C 75 C 85 C 95 C Rated Ripple-Current Multiple 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.105

177 Type 300/301, 55 C to 105 C Long-Life, Switching Power Grade Radial Typical Performance Curves Ratings Aluminum Radial Leaded Max. ESR Ripple Amps Nominal Size Cap. Catalog 25 C 85 C Insulated F Number 120 Hz 20 khz 120 Hz 20 khz DxL (in) 6.3 Vdc (9 Vdc Surge) U6R3EM X U6R3FK X U6R3ER X R152M6R3EG X U6R3FN X R222M6R3EM X U6R3GE X R272U6R3GE X R332M6R3EN X U6R3LV X R392M6R3FK X U6R3HE X R392U6R3HE X R472M6R3ER X U6R3GJ X R472U6R3GJ X R562M6R3FF X U6R3JE X R562U6R3JE X R682M6R3FQ X R822M6R3FV X R822M6R3LQ X U6R3GL X R822U6R3GL X U6R3HJ X R822U6R3HJ X R103M6R3LV X U6R3GP X R103U6R3GP X U6R3GS X R123U6R3GS X U6R3HL X R123U6R3HL X U6R3JJ X R123U6R3JJ X U6R3GT X R153U6R3GT X U6R3HP X R153U6R3HP X U6R3JL X R183U6R3JL X U6R3HS X R223U6R3HS X U6R3JP X R223U6R3JP X U6R3HT X 3.65 Max. ESR Ripple Amps Nominal Size Cap. Catalog 25 C 85 C Insulated F Number 120 Hz 20 khz 120 Hz 20 khz DxL (in) 6.3 Vdc (9 Vdc Surge) (cont d) R273U6R3HT X U6R3JS X R273U6R3JS X U6R3JT X R333U6R3JT X Vdc (10 Vdc Surge) U7R5GE X R222U7R5GE X U7R5HE X R392U7R5HE X U7R5GJ X R472U7R5GJ X U7R5JE X R562U7R5JE X U7R5GL X R682U7R5GL X U7R5HJ X R682U7R5HJ X U7R5GP X R822U7R5GP X U7R5HL X R103U7R5HL X U7R5JJ X R103U7R5JJ X U7R5GS X R123U7R5GS X U7R5GT X R123U7R5GT X U7R5HP X R153U7R5HP X U7R5JL X R153U7R5JL X U7R5HS X R183U7R5HS X U7R5HT X R223U7R5HT X U7R5JP X R223U7R5JP X U7R5JS X R273U7R5JS X U7R5JT X R333U7R5JT X Vdc (15 Vdc Surge) R102M010EG X R152M010EK X Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

178 Type 300/301, 55 C to 105 C Long-Life, Switching Power Grade Radial Ratings Max. ESR Ripple Amps Nominal Size Cap. Catalog 25 C 85 C Insulated F Number 120 Hz 20 khz 120 Hz 20 khz DxL (in) Max. ESR Ripple Amps Nominal Size Cap. Catalog 25 C 85 C Insulated F Number 120 Hz 20 khz 120 Hz 20 khz DxL (in) 10 Vdc (15 Vdc Surge) (cont d) R182M010EM X U010GE X R182U010GE X R272M010EN X R272M010FK X R332M010ER X R332U010HE X U010HE X U010GJ X R392U010GJ X R472M010FF X U010JE X R472U010JE X R562M010FQ X U010GL X R562U010GL X R682M010LQ X U010HJ X R682U010HJ X R882M010LV X U010GP X R822U010GP X U010JJ X R822U010JJ X U010GS X R103U010GS X U010HL X R103U010HL X U010GT X R123U010GT X U010HP X R123U010HP X U010JL X R123U010JL X U010HS X R153U010HS X U010HT X R183U010HT X U010JP X R183U010JP X U010JS X R223U010JS X U010JT X R273U010JT X Vdc (25 Vdc Surge) R821M016EG X R122M016EM X U016GE X R152U016GE X R182M016EN X R222M016FK X R272M016ER X U016HE X R272U016HE X R332M016FF X U016GJ X R332U016GJ X U016JE X R332U016JE X R392M016FQ X R472M016LQ X U016GL X Vdc (25 Vdc Surge) (cont d) R472U016GL X U016HJ X R472U016HJ X R562M016LV X U016GP X R562U016GP X U016HL X R682U016HL X U016JJ X R682U016JJ X U016GS X R822U016GS X U016GT X R103U016GT X U016HP X R103U016HP X U016JL X R103U016JL X U016HS X R123U016HS X U016HT X R153U016HT X U016JP X R153U016JP X U016JS X R183U016JS X U016JT X R223U016JT X Vdc (30 Vdc Surge) U020EM X R471M020EG X U020FK X U020ER X R681M020EM X U020FF X R102M020EN X U020GE X R122U020GE X R152M020ER X U020LV X R222M020FQ X U020HE X R222U020HE X U020GJ X R272U020GJ X U020JE X R272U020JE X R332M020LV X U020GL X R392U020GL X U020HJ X R392U020HJ X U020GP X R472U020GP X U020JJ X R562U020JJ X U020GS X R682U020GS X U020HL X R682U020HL X U020GT X R822U020GT X 3.65 Aluminum Radial Leaded 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.107

179 Type 300/301, 55 C to 105 C Long-Life, Switching Power Grade Radial Ratings Aluminum Radial Leaded Max. ESR Ripple Amps Nominal Size Cap. Catalog 25 C 85 C Insulated F Number 120 Hz 20 khz 120 Hz 20 khz DxL (in) 20 Vdc (30 Vdc Surge) (cont d) U020HP X R822U020HP X U020JL X R822U020JL X U020HS X R103U020HS X U020HT X R123U020HT X U020JP X R123U020JP X U020JS X R153U020JS X U020JT X R183U020JT X Vdc (35 Vdc Surge) U025EN X R391M025EG X U025ER X R561M025EK X R681M025EM X U025FQ X R102M025EN X U025GE X R102U025GE X R122M025ER X R122M025FK X U025LV X R152M025FF X R182M025FQ X U025HE X R182U025HE X R222M025FV X R222M025LQ X U025GJ X R222U025GJ X R272M025LV X U025JE X R272U025JE X U025GL X R332U025GL X U025HJ X R332U025HJ X U025GP X R472U025GP X U025JJ X R472U025JJ X U025GS X R562U025GS X U025HL X R562U025HL X U025GT X R682U025GT X U025HP X R682U025HP X U025JL X R682U025JL X U025HS X R822U025HS X U025HT X R103U025HT X U025JP X R103U025JP X U025JS X 3.15 Max. ESR Ripple Amps Nominal Size Cap. Catalog 25 C 85 C Insulated F Number 120 Hz 20 khz 120 Hz 20 khz DxL (in) 25 Vdc (35 Vdc Surge) (cont d) R123U025JS X U025JT X R153U025JT X Vdc (60 Vdc Surge) U040FK X R331M040EM X U040FN X U040ER X R471M040FK X R681M040ER X U040LV X R102M040FQ X U040HE X R122U040HE X R152M040LV X U040JE X R152U040JE X U040HJ X R222U040HJ X U040HL X R332U040HL X U040JJ X R332U040JJ X R392U040GS X U040GT X R472U040GT X U040HP X R472U040HP X U040JL X R472U040JL X U040HS X R562U040HS X U040HT X R682U040HT X U040JP X R682U040JP X U040JS X R822U040JS X U040JT X R103U040JT X Vdc (75 Vdc Surge) U050EN X R121M050EG X U050FK X R181M050EK X U050ER X R221M050EM X U050FN X R331M050EN X R391M050FK X R47lM050ER X U050LV X lR561M050FF X R561U050GE X U050GE X R681M050FQ X R821M050FV X R821M050LQ X R102M050LV X R122U050GJ X U050GJ X U050JE X Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

180 Type 300/301, 55 C to 105 C Long-Life, Switching Power Grade Radial Ratings Max. ESR Ripple Amps Nominal Size Cap. Catalog 25 C 85 C Insulated F Number 120 Hz 20 khz 120 Hz 20 khz DxL (in) Max. ESR Ripple Amps Nominal Size Cap. Catalog 25 C 85 C Insulated F Number 120 Hz 20 khz 120 Hz 20 khz DxL (in) 50 Vdc (75 Vdc Surge) (cont d) R122U050JE X R152U050GL X U050GL X U050HJ X R182U050HJ X R222U050GP X U050GP X R272U050GS X U050GS X U050HL X R272U050HL X U050JJ X R272U050JJ X R332U050GT X U050GT X U050HP X R332U050HP X U050JL X R392U050JL X U050HS X R472U050HS X U050HT X R562U050HT X U050JP X R562U050JP X U050JS X R682U050JS X U050JT X R822U050JT X Vdc (90 Vdc Surge) R121M063EG X R18lM063EK X R271M063EN X R331M063FK X R391M063ER X U063GE X R391U063GE X R471M063FF X R561M063FQ X R681M063FV X R681M063LQ X U063HE X R681U063HE X R821M063LV X U063GJ X R821U063GJ X U063JE X R102U063JE X U063GL X R122U063GL X U063HJ X R122U063HJ X U063GP X R152U063GP X U063HL X R182U063HL X U063JJ X R182U063JJ X U063GS X R222U063GS X U063GT X R222U063GT X U063HP X Vdc (90 Vdc Surge) (cont d) R272U063HP X U063JL X R272U063JL X U063HS X R332U063HS X U063HT X R392U063HT X U063JP X R392U063JP X U063JS X R472U063JS X U063JT X R562U063JT X Vdc (100 Vdc Surge) U075GE X R331U075GE X U075HE X R471U075HE X U075GJ X R561U075GJ X U075JE X R681U075JE X U075GL X R102U075GL X U075HJ X R102U075HJ X U075GP X R122U075GP X U075GS X R152U075GS X U075HL X R152U075HL X U075JJ X R152U075JJ X U075GT X R182U075GT X U075HP X R222U075HP X U075JL X R222U075JL X U075HS X R272U075HS X U075HT X R272U075HT X U075JP X R272U075JP X U075JS X R332U075JS X U075JT X R392U075JT X Vdc (140 Vdc Surge) U100EG X U100EM X U100EN X U100FK X U100ER X U100GE X R151U100GE X U100FF X U100FQ X U100HE X R221U100HE X 1.15 Aluminum Radial Leaded 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.109

181 Type 300/301, 55 C to 105 C Long-Life, Switching Power Grade Radial Ratings Max. ESR Ripple Amps Nominal Size Cap. Catalog 25 C 85 C Insulated F Number 120 Hz 20 khz 120 Hz 20 khz DxL (in) 100 Vdc (140 Vdc Surge) (Cont d) Max. ESR Ripple Amps Nominal Size Cap. Catalog 25 C 85 C Insulated F Number 120 Hz 20 khz 120 Hz 20 khz DxL (in) 160 Vdc (200 Vdc Surge) (Cont d) Aluminum Radial Leaded U100FV X U100GJ X R271U100GJ X U100LQ X U100JE X R331U100JE X U100LV X U100GL X R471U100GL X U100HJ X R471U100HJ X U100GP X R561U100GP X U100GS X R681U100GS X U100HL X R681U100HL X U100JJ X R681U100JJ X U100GT X R821U100GT X U100HP X R102U100HP X U100JL X R102U100JL X U100HS X R122U100HS X U100HT X R122U100HT X U100JP X R122U100JP X U100JS X R152U100JS X U100JT X R222U100JT X Vdc (200 Vdc Surge) U160EG X U160EK X U160EM X U160EN X U160FK X U160ER X T160GE X U160FF X U160FQ X T160HE X U160LQ X T160GJ X U160LV X T160JE X T160GL X T160HJ X T160GP X T160GS X T160HL X T160JJ X T160GT X T160HP X T160JL X T160HS X T160JP X T160HT X T160JS X T160JT X Vdc (250 Vdc Surge) U200EG X U200EK X U200EM X U200EN X U200FK X U200ER X U200FF X U200FQ X U200FV X T200GE X U200LQ X U200LV X T200HE X T200GJ X T200JE X T200GL X T200HJ X T200GP X T200JJ X T200GS X T200HL X T200GT X T200HP X T200HS X T200JL X T200HT X T200JP X T200JS X T200JT X Vdc (300 Vdc Surge) R2U250EG X U250EK X U250EM X U250EN X U250FK X U250ER X U250FF X U250FQ X T250GE X U250FV X U250LQ X U250LV X T250HE X T250GJ X T250JE X T250GL X T250HJ X T250GP X T250JJ X T250GS X T250HL X T250GT X T250HP X T250JL X T250HS X T250HT X T250JP X T250JS X T250JT X Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

182 Type 330, 55 C to 105 C Ultra-Long-Life, Switching Power Grade Radial High Ripple and Ultra-Long Life The Type 330 is the ultra-long-life version of the Type 300 capacitor. With an astonishing, 50,000-hour expected life operating continuously at full load and 65 C the 330 is the choice for powersupply outputs and UPS battery stiffening. The exceptionally low ESRs enable high ripple-current capability. With series inductance of 12 to 16 nh and ripple currents to 16 amps one of these capacitors can save by replacing three or four of the 12.5 mm diameter capacitors routinely at the output of switching power supplies. Type 330 R delivers even lower ESR and higher ripple. Type 330 has three leads for rugged, reverse-proof mounting. Two leads are available as Types 331 and 331R. Specifications MORE Ripple Temp Operating Temperature: 55 C to +105 C Rated Voltage: 6.3 to 250 Vdc Capacitance: 270 µf to 33,000 µf Capacitance Tolerance: 6.3 to 100 Vdc; %, 160 to 250 Vdc; % Leakage Current: 0.5 CV A, 4 ma max, 5 minutes Cold Impedance: 55 C multiple of 25 C Z 4 for 6.3 & 7.5 V, 3 for 10 to 50 V, 2 for > 50 V Ripple Current Multipliers: Ambient Temperature Low z Type 325 p Type 350 p Type 325 p Load Life: Shelf Life: 45 C 55 C 65 C 75 C 85 C 95 C 105 C Frequency Highlights Expected Life > C Ripple Current to 16 amps ESRs to 6 mω > 90% capacitance at -40 C Replaces multiple capacitors 50 Hz 60 Hz 120 Hz 360 Hz 1 khz 5 khz 10 khz & up.77 Diameter 6.3 & 7.5 V to 40 V V & 75 V to 250 V Diameter 6.3 & 7.5 V to 40 V V & 75 V to 250 V Diameter 6.3 & 7.5 V to 40 V V & 75 V to 250 V ,000 h at full load at 85 C Capacitance +20% ESR 200% of limit DCL 100% of limit 500 h at 105 C, capacitance, ESR and DCL, initial requirements Aluminum Radial Leaded 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.111

183 Type 330, 55 C to 105 C Ultra-Long-Life, Switching Power Grade Radial Outline Drawings + 330/330R Three Leads Type 331A only, delete for Type 301 S2 331/331R Two Leads Case Dimensions Aluminum Radial Leaded Insulated Epoxy Bare Can Lead Spacing Lead Diameter Case D (0.4 mm) endseal D (0.4 mm) Type 330 Type 331 dia. AWG Code L (1.6 mm) L Max L (0.8 mm) S1 T S2 D x L D x L (0.5 mm) (0.5 mm) Case Dimensions in Inches GT x x HP x x HS x x HT x x JL x x JP x x JS x x JT x x Case Dimensions in Millimeters GT 19.4 x x HP 22.6 x x HS 22.6 x x HT 22.6 X X JL 25.8 x x JP 25.8 x x JS 25.8 x x JT 25.8 x x Part Numbering System 330R 333 U 6R3 JS 2 E Type Capacitance Tolerance Voltage Case Code Insulation Epoxy leads 100=10 F M = 20% 6R3=6.3 Vdc See 0 = bare can (blank) =no epoxy 330R - 3 leads 102=1000 F T = 10% + 50% 063=63 Vdc Rating 1 = polyester E = Epoxy endseal Low ESR U = % 100=100 Vdc 2 = PVC leads 8 = PVC w/standoffs 331R - 2 leads, Low ESR 9 = Polyester w/standoffs 331A - Laydown 3 leads Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

184 Type 330, 55 C to 105 C Ultra-Long-Life, Switching Power Grade Radial Typical Performance Curve Ratings Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 85 C Size F Number 120 Hz 20 khz 120 Hz 20 khz DxL (in) 6.3 Vdc (9 Vdc Surge) U6R3GT X R153U6R3GT X U6R3HP X R153U6R3HP X U6R3JL X R183U6R3JL X U6R3HS X R223U6R3HS X U6R3JP X R223U6R3JP X U6R3HT X R273U6R3HT X U6R3JS X R273U6R3JS X U6R3JT X R333U6R3JT X Vdc (10 Vdc Surge) U7R5GT X R123U7R5GT X U7R5HP X R153U7R5HP X U7R5JL X R153U7R5JL X U7R5HS X R183U7R5HS X U7R5HT X R223U7R5HT X U7R5JP X R223U7R5JP X U7R5JS X R273U7R5JS X U7R5JT X R333U7R5JT X Vdc (15 Vdc Surge) U010GT X R123U010GT X 3.65 Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 85 C Size F Number 120 Hz 20 khz 120 Hz 20 khz DxL (in) 10 Vdc (15 Vdc Surge) (cont d) U010HP X R123U010HP X U010JL X R123U010JL X U010HS X R153U010HS X U010HT X R183U010HT X U010JP X R183U010JP X U010JS X R223U010JS X U010JT X R273U010JT X Vdc (25 Vdc Surge) U016GT X R103U016GT X U016HP X R103U016HP X U016JL X R103U016JL X U016HS X R123U016HS X U016HT X R153U016HT X U016JP X R153U016JP X U016JS X R183U016JS X U016JT X R223U016JT X Vdc (30 Vdc Surge) U020GT X R822U020GT X U020HP X 2.65 Aluminum Radial Leaded 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.113

185 Type 330, 55 C to 105 C Ultra-Long-Life, Switching Power Grade Radial Ratings Aluminum Radial Leaded Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 85 C Size F Number 120 Hz 20 khz 120 Hz 20 khz DxL (in) 20 Vdc (30 Vdc Surge) (cont d) R822U020HP X U020JL X R822U020JL X U020HS X R103U020HS X U020HT X R123U020HT X U020JP X R123U020JP X U020JS X R153U020JS X U020JT X R183U020JT X Vdc (35 Vdc Surge) U025GT X R682U025GT X U025HP X R682U025HP X U025JL X R682U025JL X U025HS X R822U025HS X U025HT X R103U025HT X U025JP X R103U025JP X U025JS X R123U025JS X U025JT X R153U025JT X Vdc (60 Vdc Surge) U040GT X R472U040GT X U040HP X R472U040HP X U040JL X R472U040JL X U040HS X R562U040HS X U040HT X R682U040HT X U040JP X R682U040JP X U040JS X R822U040JS X U040JT X R103U040JT X Vdc (75 Vdc Surge) U050GT X R332U050GT X U050HP X R332U050HP X U050JL X 2.15 Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 85 C Size F Number 120 Hz 20 khz 120 Hz 20 khz DxL (in) 50 Vdc (75 Vdc Surge) (cont d) R392U050JL X U050HS X R472U050HS X U050HT X R562U050HT X U050JP X R562U050JP X U050JS X R682U050JS X U050JT X R822U050JT X Vdc (90 Vdc Surge) U063GT X R222U063GT X U063HP X R272U063HP X U063JL X R272U063JL X U063HS X R332U063HS X U063HT X R392U063HT X U063JP X R392U063JP X U063JS X R472U063JS X U063JT X R562U063JT X Vdc (100 Vdc Surge) U075GT X R182U075GT X U075HP X R222U075HP X U075JL X R222U075JL X U075HS X R272U075HS X U075HT X R272U075HT X U075JP X R272U075JP X U075JS X R332U075JS X U075JT X R392U075JT X Vdc (140 Vdc Surge) U100GT X R821U100GT X U100HP X R102U100HP X U100JL X R102U100JL X U100HS X Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

186 Type 330, 55 C to 105 C Ultra-Long-Life, Switching Power Grade Radial Ratings Max. ESR Ripple Amps Nominal Cap. Catalog 25 C 85 C Size F Number 120 Hz 20 khz 120 Hz 20 khz DxL (in) 100 Vdc (140 Vdc Surge) (cont d) R122U100HS X U100HT X R122U100HT X U100JP X R122U100JP X U100JS X R152U100JS X U100JT X R222U100JT X Vdc (200 Vdc Surge) T160GT X T160HP X T160JL X T160HS X T160JP X T160HT X T160JS X T160JT X Vdc (250 Vdc Surge) T200GT X T200HP X T200HS X T200JL X T200HT X T200JP X T200JS X T200JT X 3.65 Aluminum Radial Leaded 250 Vdc (300 Vdc Surge) T250GT X T250HP X T250JL X T250HS X T250HT X T250JP X T250JS X T250JT X Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.115

187 Type 325/326, 55 C to 125 C Long-Life, Switching Power Grade Radial High Temperature and Ultra-Low ESR The Types 325 and 326 are the ultra-wide-temperature, low-esr capacitors for switching power-supply outputs and automotive applications. The 125 C capability and exceptionally low ESRs enable high ripple-current capability. With series inductance of 12 to 16 nh and ripple currents to 27 amps one of these capacitors can save by replacing eight to ten of the 12.5 mm diameter capacitors routinely at the output of switching power supplies. Type 325 has three leads for rugged, reverse-proof mounting, and Type 326 has two leads. Type 325 Type 326 Highlights 2000 hour life test at 125 C Ripple Current to 27 amps ESRs to 5 mω > 90% capacitance at 40 C Replaces multiple capacitors Aluminum Radial Leaded Specifications Operating Temperature: 55 C to 125 C Rated voltage: 6.3 to 35 Vdc Capacitance: 880 µf to 46,000 µf Capacitance Tolerance: % Leakage Current: 0.5 CV µa, 4 ma max, 5 minutes Cold Impedance: 55 C multiple of 25 C Z 120 Hz 20 from khz Ripple Current Multipliers: Ambient Temperature 45 C 55 C 65 C 75 C 85 C 95 C 105 C 115 C 125 C Frequency 120 Hz 360 Hz 400 Hz 1 khz khz see ratings Life Test: 2000 h with rated voltage at 125 C capacitance ± 10% ESR 125 % of limit DCL 100 % of limit Load Life: 4000 h at full load at 85 C capacitance ± 10% ESR 200 % of limit DCL 100 % of limit Shelf Life: 500 h at 105 C, capacitance ± 10%, ESR 110% of limit, DCL 200% of limit Vibration: 10 to 55 Hz, 0.06 and 10 g max, 2 h each plane Outline Drawings Type 325 Three Leads Third Lead Type 326A Type 326 Two Leads Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

188 Type 325/326, 55 C to 125 C Long-Life, Switching Power Grade Radial Insulated Epoxy Bare Can Lead Spacing Lead Diameter Case D (0.4 mm) endseal D (0.4 mm) Type 325 Type 326 dia. AWG Code L (1.6 mm) L Max L (0.8 mm) S1 T S2 D x L D x L (0.5 mm) (0.5 mm) Case Dimensions in Inches GE.765 x x GJ.765 x x GL.765 x x GP.765 x x GS.765 x x GT.765 x x HE.890 x x HJ.890 x x HL.890 x x HP.890 x x HS.890 x x HT.890 x x JE x x JJ x x JL x x JP x x JS x x JT x x Case Dimensions in Millimeters GE 19.4 x x GJ 19.4 x x GL 19.4 x x GP 19.4 x x GS 19.4 x x GT 19.4 x x HE 22.6 x x HJ 22.6 x x HL 22.6 x x HP 22.6 x x HS 22.6 x x HT 22.6 x x JE 25.8 x x JJ 25.8 x x HL 25.8 x x JP 25.8 x x JS 25.8 x x JT 25.8 x x Aluminum Radial Leaded Part Numbering System U 6R3 JS 1 E Type Capacitance Tolerance Voltage Case Code Insulation Epoxy leads 152=1500 F M = 20% 6R3=6.3 V See 0 = bare can (blank) =no epoxy leads 393=39000 F T = 10% + 50% 035=35 V Ratings 1 = polyester E = Epoxy endseal 326A - 3 leads, laydown U = 10% + 75% 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.117

189 Type 325/326, 55 C to 125 C Long-Life, Switching Power Grade Radial Typical Performance Curves Ratio to 25 C, 120 Hz Value Type 325 Capacitance vs Temperature & Frequency, µf, 16 V 125 C 105 C 85 C 25 C 0 C 20 C 40 C 55 C Ratio to 25 C, 120 Hz Value Type 325 ESR vs Temperature and Frequency, µf, 16 V 125 C 105 C 85 C 55 C 40 C 20 C 0 C 25 C Frequency (Hz) Frequency (Hz) Type 325 Impedance vs Temperature and Frequency, µf, 16 V Type 325 Capacitance vs Temperature & Frequency, 5600 µf, 25 V Ratio to 25 C, 120 Hz Value C 55 C 40 C 20 C 0 C 25 C 85 C Ratio to 25 C, 120 Hz Value C 105 C 85 C 25 C 0 C 20 C 40 C 55 C Aluminum Radial Leaded Frequency (Hz) Type 325 ESR vs Temperature and Frequency, 5600 µf, 25 V Frequency (Hz) Type 325 Impedance vs Temperature and Frequency, 5600 µf, 25 V Ratio to 25 C, 120 Hz Value C 105 C 85 C 55 C 40 C 20 C 0 C 25 C Ratio to 25 C, 120 Hz Value C 55 C 40 C 20 C 0 C 85 C 25 C Frequency (Hz) Frequency (Hz) Ratio to 25 C, 120 Hz Value Type 325 Capacitance vs Temperature & Frequency, 3900 µf, 35 V 125 C 105 C 85 C 25 C Frequency (Hz) 0 C 20 C 40 C 55 C Ratio to 25 C, 120 Hz Value Type 325 ESR vs Temperature and Frequency, 3900 µf, 35 V 125 C 105 C 1 85 C 55 C 40 C 20 C 0 C 25 C Frequency (Hz) Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

190 Type 325/326, 55 C to 125 C Long-Life, Switching Power Grade Radial Typical Performance Curves Type 325 Impedance vs Temperature and Frequency, 3900 µf, 35 V C 55 C Type 325/326 Operating Life vs Ripple Current 65 C Ratio to 25 C, 120 Hz Value C 105 C 55 C 40 C 20 C 0 C Expected Operating Life, kh C 85 C 95 C 105 C 115 C 125 C 85 C 25 C Ratings ESR Max Ripple Max Nom C Insulated Cap. Catalog 120 Hz 20 khz 120 Hz 20 khz D xl F Number (mω) (mω) (in) 6.3 Vdc (8 Vdc Surge) U6R3GE X U6R3HE X U6R3GJ X U6R3JE X U6R3GL X U6R3HJ X U6R3GP X U6R3JJ X U6R3HL X U6R3GS X U6R3GT X U6R3HP X U6R3JL X U6R3HS X U6R3JP X U6R3HT X U6R3JS X U6R3JT X Vdc (13 Vdc Surge) U010GE X U010HE X U010GJ X U010JE X U010GL X U010HJ X U010GP X U010GS X U010JJ X U010HL X U010GT X U010HP X U010JL X U010HS X U010JP X U010HT X U010JS X U010JT X Vdc (20 Vdc Surge) U016GE X U016HE X U016GJ X U016JE X U016GL X U016HJ X U016GP X U016JJ X U016GS X Rated Ripple-Current Multiple ESR Max Ripple Max Nom C Insulated Cap. Catalog 120 Hz 20 khz 120 Hz 20 khz D xl F Number (mω) (mω) (in) U016HL X U016GT X U016HP X U016JL X U016HS X U016JP X U016HT X U016JS X U016JT X Vdc (32 Vdc Surge) U025GE X U025HE X U025GJ X U025JE X U025GL X U025HJ X U025GP X U025JJ X U025GS X U025HL X U025GT X U025HP X U025JL X U025HS X U025JP X U025HT X U025JS X U025JT X Vdc (44 Vdc Surge) U035GE X U035HE X U035GJ X U035JE X U035HJ X U035GL X U035GP X U035HL X U035JJ X U035GS X U035GT X U035HP X U035JL X U035HS X U035HT X U035JP X U035JS X U035JT X 3.65 Aluminum Radial Leaded 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.119

191 Type 350, 105 C, Low Inductance, High Frequency, Radial, Aluminum Low-Inductance, Solid Aluminum Top Type 350 s solid aluminum top assures extremely low impedance. With a typical 4 to 6nH ESL, the self resonant frequency is well above 100 khz. The very low ESR assures the low impedance rating. The capacitors are fitted with three rugged welded mounting leads to provide maximum resistance to shock and vibration. Highlights Operates to beyond 200 khz Less than 10 nh ESL Solid aluminum top Aluminum Radial Leaded Specifications Operating Temperature: 55 C to +105 C Rated Voltage: 6.3 to 100 Vdc Capacitance: 90 to 11,000 F, % Shelf Life: C Leakage Current: 0.5 CV A at 25 C Cold Impedance: 55 C multiple of 25 C Z 6 for 6.3 V, 3 for 10 to 50 V, 2 for 75 & 100 V Ripple Current Multipliers: Ambient Temperature 45 C 55 C 65 C 75 C 85 C 95 C 105 C Frequency Type 330 p Type 325 p life ripple MORE 60 Hz 120 Hz 360 Hz 1 khz 5 khz 10 khz & up 6.3 to 20 V to 35 V to 75 V V Load Life: Shelf Life: Vibration: 4, C at full load Capacitance 10% ESR 150% of limit DCL 100% of limit C, capacitance, ESR and DCL, initial requirements 10 to 55 Hz, 0.06 and 10 g max, 2 h in each plane. Outline Drawings Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

192 Type 350, 105 C, Low Inductance, High Frequency, Radial, Aluminum Case Dimensions Case Code Inches Nominal Insulated S1 S2 T D x L D x L GE 3/4 x 1 1/ x GJ 3/4 x 1 5/ x GL 3/4 x 2 1/ x GP 3/4 x 2 5/ x HE 7/8 x 1 1/ x HJ 7/8 x 1 5/ x HL 7/8 x 2 1/ x HP 7/8 x 2 5/ x JJ 1 x 1 5/ x JL 1 x 2 1/ x JP 1 x 2 5/ x Part Numbering System 350 JP 1152 U 6R3 C Type Case Code Capacitance Tolerance Voltage Insulation 900 = 90 F U = % 6R3 = 6.3 Vdc 0 = bare can 161 = 160 F T = % 063 = 63 Vdc B = plastic insulation with epoxy 882 = 8800 F 100 = 100 Vdc C = plastic insulation, no epoxy 1152 = F Aluminum Radial Leaded Typical Performance Curves Type 350 Impedance vs Frequency ESR vs. Temperature Characteristics (10 khz) 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.121

193 Type 350, 105 C, Low Inductance, High Frequency, Radial, Aluminum Typical Performance Curves Capacitance vs. Temperature (120 Hz) Ratings ESR Max. Ω Imped. Ripple Nom Cap. Catalog +25 C Ω +25 C A + 85 C Size (in) F Number 120 Hz 20 khz 100 khz 20 khz D X L ESR Max. Ω Imped. Ripple Nom Cap. Catalog +25 C Ω +25 C A + 85 C Size (in) F Number 120 Hz 20 khz 100 khz 20 khz D X L Aluminum Radial Leaded 6.3 Vdc (8.5 Vdc Surge) GE162U6R3C /4 x 1 1/ HE242U6R3C /8 x 1 1/ GJ302U6R3C /4 x 1 5/ JE342U6R3C x 1 1/ GL422U6R3C /4 x 2 1/ HJ442U6R3C /8 x 1 5/ GP542U6R3C /4 x 2 5/ JJ612U6R3C x 1 5/ HL632U6R3C /8 x 2 1/ HP832U6R3C /8 x 2 5/ JL882U6R3C x 2 1/ JP113U6R3C x 2 5/8 7.5 Vdc (10 Vdc Surge) GE152U7R5C /4 x 1 1/ HE232U7R5C /8 x 1 1/ GJ272U7R5C /4 x 1 5/ JE322U7R5C x 1 1/ GL392U7R5C /4 x 2 1/ HJ422U7R5C /8 x 1 5/ GP512U7R5C /4 x 2 5/ JJ582U7R5C x 1 5/ HL602U7R5C /8 x 2 1/ HP792U7R5C /8 x 2 5/ JL842U7R3C x 2 1/ JP113U7R5C x 2 5/8 10 Vdc (12 Vdc Surge) GE142U010C /4 x 1 1/ HE212U010C /8 x 1 1/ GJ262U010C /4 x 1 5/ JE302U010C x 1 1/ GL382U010C /4 x 2 1/ HJ392U010C /8 x 1 5/ GP482U010C /4 x 2 5/ JJ542U010C x 1 5/8 10 Vdc (12 Vdc Surge) (cont d) HL562U010C /8 x 2 1/ HP732U010C /8 x 2 5/ JL782U010C x 2 1/ JP103U010C x 2 5/8 12 Vdc (18 Vdc Surge) GE112U012C /4 x 1 1/ HE172U012C /8 x 1 1/ GJ202U012C /4 x 1 5/ JE242U012C x 1 1/ GL292U012C /4 x 2 1/ HJ302U012C /8 x 1 5/ GP372U012C /4 x 2 5/ JJ422U012C x 1 5/ HL442U012C /8 x 2 1/ HP582U012C /8 x 2 5/ JL612U012C x 2 1/ JP802U012C x 2 5/8 16 Vdc (20 Vdc Surge) GE951U016C /4 x 1 1/ HE152U016C /8 x 1 1/ GJ172U016C /4 x 1 5/ JE202U016C x 1 1/ GL252U016C /4 x 2 1/ HJ262U016C /8 x 1 5/ GP322U016C /4 x 2 5/ JJ362U016C x 1 5/ HL382U016C /8 x 2 1/ HP492U016C /8 x 2 5/ JL522U016C x 2 1/ JP682U016C x 2 5/8 20 Vdc (25 Vdc Surge) GE801U020C /4 x 1 1/ HE122U020C /8 x 1 1/ GJ152U020C /4 x 1 5/ JE172U020C x 1 1/ Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

194 Type 350, 105 C, Low Inductance, High Frequency, Radial, Aluminum Ratings ESR Max. Ω Imped. Ripple Nom Cap. Catalog +25 C Ω +25 C A + 85 C Size (in) F Number 120 Hz 20 khz 100 khz 20 khz D X L 20 Vdc (25 Vdc Surge) (cont d) ESR Max. Ω Imped. Ripple Nom Cap. Catalog +25 C Ω +25 C A + 85 C Size (in) F Number 120 Hz 20 khz 100 khz 20 khz D X L 50 Vdc (75 Vdc Surge) (cont d) GL212U020C /4 x 2 1/ HJ222U020C /8 x 1 5/ GP282U020C /4 x 2 5/ JJ302U020C x 1 5/ HL322U020C /8 x 2 1/ HP422U020C /8 x 2 5/ JL452U020C x 2 1/ JP592U020C x 2 5/8 25 Vdc (30 Vdc Surge) GE601U025C /4 x 1 1/ HE901U025C /8 x 1 1/ GJ112U025C /4 x 1 5/ JE132U025C x 1 1/ GL152U025C /4 x 2 1/ HJ162U025C /8 x 1 5/ GP202U025C /4 x 2 5/ HL232U025C /8 x 2 1/ JJ232U025C x 1 5/ HP312U025C /8 x 2 5/ JL332U025C x 2 1/ JP432U025C x 2 5/8 30 Vdc (40 Vdc Surge) GE451U030C /4 x 1 1/ HE701U030C /8 x 1 1/ GJ801U030C /4 x 1 5/ JE951U030C x 1 1/ GL112U030C /4 x 2 1/ HJ122U030C /8 x 1 5/ GP152U030C /4 x 2 5/ JJ172U030C x 1 5/ HL182U030C /8 x 2 1/ HP232U030C /8 x 2 5/ JL252U030C x 2 1/ JP322U030C x 2 5/8 40 Vdc (50 Vdc Surge) GE321U040C /4 x 1 1/ HE501U040C /8 x 1 1/ GJ601U040C /4 x 1 5/ JE701U040C x 1 1/ GL851U040C /4 x 2 1/ HJ901U040C /8 x 1 5/ GP112U040C /4 x 2 5/ JJ122U040C x 1 5/ HL132U040C /8 x 2 1/ HP172U040C /8 x 2 5/ JL182U040C x 2 1/ JP232U040C x 2 5/ GP801U050C /4 x 2 5/ JJ901U050C x 1 5/ HL102U050C /8 x 2 1/ HP132U050C /8 x 2 5/ JL132U050C x 2 1/ JP182U050C x 2 5/8 60 Vdc (85 Vdc Surge) GE221U060C /4 x 1 1/ HE331U060C /8 x 1 1/ GJ351U060C /4 x 1 5/ JE461U060C x 1 1/ GL501U060C /4 x 2 1/ HJ561U060C /8 x 1 5/8 75 Vdc (95 Vdc Surge) GE151U075C /4 x 1 1/ HE231U075C /8 x 1 1/ GJ251U075C /4 x 1 5/ JE321U075C x 1 1/ GL341U075C /4 x 2 1/ HJ391U075C /8 x 1 5/ GP461U075C /4 x 2 5/ HL531U075C /8 x 2 1/ JJ541U075C x 1 5/ HP711U075C /8 x 2 5/ JL741U075C x 2 1/ JP101U075C x 2 5/8 100 Vdc (125 Vdc Surge) GE090U100C /4 x 1 1/ HE141U100C /8 x 1 1/ GJ161U100C /4 x 1 5/ JE201U100C x 1 1/ GL211U100C /4 x 2 1/ HJ241U100C /8 x 1 5/ GP291U100C /4 x 2 5/ HL331U100C /8 x 2 1/ JJ341U100C x 1 5/ HP451U100C /8 x 2 5/ JL461U100C x 2 1/ JP621U100C x 2 5/8 Aluminum Radial Leaded 50 Vdc (75 Vdc Surge) GE251U050C /4 x 1 1/ HE371U050C /8 x 1 1/ GJ451U050C /4 x 1 5/ JE501U050C x 1 1/ GL651U050C /4 x 2 1/ HJ681UO5OC /8 x 1 5/8 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.123

195 Type 361R, 105 C, Miniature, Industrial Grade, Radial Leaded High-value, High Ripple, Low ESR & ESL Type 361R capacitors are for industrial applications from 40 C to +105 C. They deliver excellent ripple capability and low ESR and ESL. Also available with three mounting leads. For three leads, change Type designation from 361R to 366R. Highlights Excellent Ripple Capability Low ESR and ESL High Value Aluminum Radial Leaded Specifications Operating Temperature: 40 C to +105 C Rated Voltage: 6.3 to 450 Vdc Capacitance: 7 to 18,000 F 20% Leakage Current: CV A +25 C, 6.3 to 160 Vdc 0.02 CV A +25 C, 200 to 450 Vdc Ripple Current Multipliers: Ambient Temperature 45 C 55 C 65 C 75 C 85 C 95 C 105 C Frequency Type 300/301 p Type 300/301 p cold ripple MORE 50 Hz 60 Hz 120 Hz 360 Hz 1 khz 5 khz 10 khz & up 6.3 & 10 V to 25 V V & up Load Life: 4, C Capacitance 15% ESR 175% of limit DCL 100% of limit Shelf Life: 1000 h at 105 C Capacitance 15% ESR 150% of limit DCL 200% of limit Vibration: 10 to 55 Hz, 0.06 and 10 g, 2 h ea of 3 planes Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

196 Type 361R, 105 C, Miniature, Industrial Grade, Radial Leaded Outline Drawings + + Case Dimensions Case Nominal Insulated Insulated S T Lead Diam. Weight Code D x L D x L Epoxy Seal mm AWG g (mm) (mm) (mm) (mm) (mm) EG 12.5 x x x EK 12.5 x x x EM 12.5 x x x EN 12.5 x x x ER 12.5 x x x FK 16.0 x x x FF 16.0 x x x FN 16.0 x x x FQ 16.0 x x x FV 16.0 x x x LQ 18.0 x x x LV 18.0 x x x HH 22.0 x x x HK 22.0 x x x HG 22.0 x x x Aluminum Radial Leaded L incl. Sleeve & Epoxy Seal - Millimeters Part Numbering System 361R 183 M 6R3 LV 2 E Type Capacitance Tolerance Voltage Case Code Insulation Epoxy End Seal 361R 100 = 10 F M = 20 6R3 = 6.3 Vdc 0 = None (blank) = no epoxy or 366R 101 = 100 F U = 10% +75% 063 = 63 Vdc 2 = PVC E = Epoxy 183 = F 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.125

197 Type 361R, 105 C, Miniature, Industrial Grade, Radial Leaded Typical Performance Curves Type 361R Impedance vs. Frequency - 10,000 F 10 Vdc Ratings ESR Max Ω Ripple A Nom Cap. Catalog + 25 C + 85 C Size (mm) F Part Number 120 Hz 120 Hz D X L 6.3 Vdc (8 Vdc Surge) ESR Max Ω Ripple A Nom Cap. Catalog + 25 C + 85 C Size (mm) F Part Number 120 Hz 120 Hz D X L 16 Vdc (20 Vdc Surge) (cont d) Aluminum Radial Leaded R222M6R3EG x R332M6R3EK x R392M6R3EM x R472M6R3EN x R682M6R3ER x R682M6R3FK x R682M6R3HH x R822M6R3HK x R103M6R3FF x R103M6R3HG x R123M6R3FQ x R123M6R3FV x R153M6R3HV x R153M6R3LQ x R183M6R3LV x Vdc (12.5 Vdc Surge) R152M010EG x R222M010EK x R272M010EM x R332M010EN x R472M010ER x R472M010FK x R472M010HH x R562M010HK x R682M010FF x R822M010FQ x R822M010HG x R103M010FV x R123M010HV x R123M010LQ x R153M010LV x Vdc (20 Vdc Surge) R102M016EG x R182M016EK x R222M016EM x R332M016EN x R332M016FK x R332M016HH x R472M016ER x R472M016FF x R472M016HK x R682M016FQ x R682M016FV x R682M016HG x R782M016LQ x R902M016HV x R103M016LV x Vdc (25 Vdc Surge) R102M020EG x R152M020EK x R222M020EM x R272M020EN x R332M020FK x R332M020HH x R392M020ER x R392M020HK x R472M020FF x R562M020FQ x R682M020FV x R682M020HG x R822M020LQ x R103M020HV x R103M020LV x Vdc (32 Vdc Surge) R821M025EG x R102M025EK x R122M025EM x R182M025EN x R222M025FK x R222M025HH x R272M025ER x R332M025FF x R332M025HK x R392M025FK x R472M025FV x R472M025HG x Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com

198 Ratings Type 361R, 105 C, Miniature, Industrial Grade, Radial Leaded ESR Max Ω Ripple A Nom Cap. Catalog + 25 C + 85 C Size (mm) F Part Number 120 Hz 120 Hz D X L 25 Vdc (32 Vdc Surge) (cont d) ESR Max Ω Ripple A Nom Cap. Catalog + 25 C + 85 C Size (mm) F Part Number 120 Hz 120 Hz D X L 75 Vdc (90 Vdc Surge) (cont d) R472M025LQ x R562M025LV x R682M025HV x Vdc (44 Vdc Surge) R681M035EG x R102M035EK x R122M035EM x R152M035EN x R182M035FK x R182M035HH x R222M035ER x R222M035FF x R272M035FQ x R272M035HK x R332M035FV x R332M035HG x R332M035LQ x R472M035HV x R472M035LV x Vdc (63 Vdc Surge) R331M050EG x R471M050EK x R561M050EM x R821M050EN x R821M050HH x R102M050FK x R122M050ER x R152M050FF x R152M050HK x R182M050FQ x R182M050HG x R222M050LQ x R222M050FV x R272M050HV x R272M050LV x Vdc (79 Vdc Surge) R331M063EG x R471M063EK x R471M063EM x R561M063EN x R681M063ER x R821M063FK x R821M063HH x R122M063FF x R122M063HK x R152M063FQ x R152M063HG x R182M063FV x R182M063LQ x R222M063HV x R222M063LV x Vdc (90 Vdc Surge) R151M075EG x R221M075EK x R271M075EM x R391M075EN x R471M075FK x R471M075HH x R561M075ER x R681M075FF x R681M075HK x R821M075FQ x R102M075FV x R102M075HG x R102M075LQ x R122M075LV x R152M075HV x Vdc (125 Vdc Surge) R101M100EG x R121M100EK x R151M100EM x R221M100EN x R221M100HH x R271M100ER x R271M100HK x R331M100FK x R391M100FF x R471M100FQ x R471M100FV x R471M100HG x R561M100LQ x R681M100HV x R681M100LV x Vdc (185 Vdc Surge) R330M160EG x R470M160EK x R560M160EM x R820M160EN x R101M160ER x R101M160FK x R101M160HH x R151M160FF x R151M160HK x R181M160FQ x R221M160FV x R221M160HG x R221M160LQ x R271M160LV x R331M160HV x Vdc (225 Vdc Surge) R270M200EG x R470M200EK x R560M200EM x R680M200EN x R820M200FK x R820M200HH x R101M200ER x R121M200FF x R121M200HK x 25 Aluminum Radial Leaded 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.127

199 Type 361R, 105 C, Miniature, Industrial Grade, Radial Leaded Ratings ESR Max Ω Ripple A Nom Cap. Catalog + 25 C + 85 C Size (mm) F Part Number 120 Hz 120 Hz D X L 200 Vdc (225 Vdc Surge) (cont d) ESR Max Ω Ripple A Nom Cap. Catalog + 25 C + 85 C Size (mm) F Part Number 120 Hz 120 Hz D X L 400 Vdc (450 Vdc Surge) Aluminum Radial Leaded R151M200FQ x R181M200HG x R221M200FV x R221M200LQ x R271M200HV x R271M200LV x Vdc (300 Vdc Surge) R180M250EG x R270M250EK x R330M250EM x R470M250EN x R470M250FK x R560M250ER x R560M250HH x R680M250FF x R820M250FQ x R820M250HK x R101M250FV x R121M250HG x R121M250LQ x R151M250LV x R181M250HV x Vdc (365 Vdc Surge) R120M300EG x R180M300EK x R220M300EM x R330M300EN x R330M300FK x R390M300HH x R470M300ER x R470M300FF x R560M300FQ x R560M300HK x R680M300FV x R680M300HG x R820M300LQ x R101M300HV x R101M300LV x R080M400EK x R120M400EM x R180M400EN x R220M400FK x R270M400ER x R330M400FF x R330M400HH x R390M400FQ x R390M400HK x R470M400FV x R470M400HG x R560M400LQ x R680M400HV x R680M400LV x Vdc (500 Vdc Surge) 7 361R070M450EK x R100M450EM x R150M450EN x R180M450FK x R220M450ER x R270M450FF x R270M450HH x R330M450FQ x R330M450HK x R390M450FV x R390M450HG x R470M450LQ x R560M450LV x R680M450HV x Vdc (400 Vdc Surge) R100M350EK x R150M350EM x R220M350EN x R270M350FK x R330M350ER x R330M350HH x R390M350FF x R470M350FQ x R470M350HK x R560M350FV x R560M350HG x R680M350LQ x R820M350HV x R820M350LV x Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

200 Type 4CMC 85 C, High-Cap, Computer Grade, Radial Leaded Best Value Printed Circuit Mount Type Specifications Operating Temperature: 40 C to +85 C Rated Voltage: 16 to 500 Vdc Capacitance: 210 µf to 330,000 µf ± 20% Capacitance Tolerance: ± 20% DC Leakage Current: 6 CV A, 6 max, 5 min, Cold Impedance: 20 C multiple of 25 C Z 8 for 16 to 50 V, 4 for 63 to 100 V, 3 for 160 V & up Ripple Current Multipliers: Ambient Temperatures Frequency The Type 4CMC is the PC-mount version of the high-capacitance Type DCMC screw-terminal capacitor and has about 50% more capacitance per can size through 250 V. It s for bus filtering applications where more capacitance or smaller can size is important like welders and energy storage. It s a much better value than a large snap-in capacitor. Its extended cathode foil assures cool operation with heatflow from the capacitor element to the can in all mounting orientations. Highlights Much better value than large snap-in capacitor Ripple Currents to > 50 amps at 55 C 3-leads for reverse proof, strong mounting Printed-circuit mounting version of DCMC Thermal-Pak extended cathode construction 45 C 55 C 65 C 75 C 85 C Hz 60 Hz 120 Hz 360 Hz 1 khz 5 khz 10 khz & up 6.3 to 50 V to 250 V to 500 V Aluminum Radial Leaded EIA Ripple Life: Shelf Life: Vibration: C and full load Capacitance 20% ESR 200% of limit DCL 100% of limit C, capacitance, ESR and DCL, initial requirements 10 to 55 Hz, 0.06 and 10 g max, 2 h in each plane. 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.129

201 Type 4CMC 85 C, High-Cap, Computer Grade, Radial Leaded Outline Drawings LAY DOWN, 3 LEADS (L) + + Laydown Style Case Dimensions Case Inches Millimeters Code D ±.031 L MAX C ±.015 S ±.031 E ±.031 F±.015 D±.78 L MAX C±.78 S±.78 E±.78 F±.38 AK AA AH AB AJ Aluminum Radial Leaded AC AD AE AF EA EH EB EJ EC ED EE EF BA BH BB BJ BC BD BE BF Part Numbering System 4CMC 382 M 100 AK 8 Type Capacitance Tolerance Voltage Case Code Insulation Terminal 4CMX 382 = 3800 F M = 20% 6R3 = 6.3 V 0 = Bare Can (blank) = Straight Leads 212 = 2100 F T = 10% +50% 063 = 63 V 8 = PVC & standoffs L = Lay Down (3 leads) U = 10% +75% 100 = 100 V 9 = Polyester & standoffs Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

202 Type 4CMC 85 C, High-Cap, Computer Grade, Radial Leaded Typical Performance Curves Type 4CMC ESR vs Temperature and Frequency 200µF 200V C 100 Type 4CMC Impedance vs Temperature and Frequency 200µF 200V Ratio to 25 C, 120 Hz Value Frequency (Hz) 65 C 20 C 0 C 25 C 45 C 85 C Ratio to 25 C, 120 Hz Value C 20 C 0 C 25 C 45 C 65 C 85 C Frequency (Hz) Expected Operating Life, kh Type 4CMC Operating Life vs Ripple Current (90% V) 45 C 55 C 65 C 75 C 85 C Rated Ripple-Current Multiple Ratings Ratio to 25 C, 120 Hz Value Type 4CMC Capacitance vs Temperature & Frequency 2000µF 200V 85 C 65 C 45 C Frequency (Hz) 25 C 0 C 20 C 40 C Aluminum Radial Leaded ESR Max. 25 C Ripple Amps, 85 C Nom Size Cap. Catalog Part 120 Hz 20 khz 120 Hz 20 khz D X L F Number (mω) (mω) (A) (A) (in) 16 Vdc (20 Vdc Surge) CMC333M016AK /8 X 1 3/ CMC553M016AA /8 X 2 1/ CMC773M016AH /8 X 2 3/ CMC793M016EA /4 X 2 1/ CMC993M016AB /8 X 3 1/ CMC114M016EH /4 X 2 3/ CMC124M016AJ /8 X 3 3/ CMC124M016BA X 2 1/ CMC144M016AC /8 X 4 1/ CMC144M016EB /4 X 3 1/ CMC154M016BH X 2 3/ CMC164M016AD /8 X 4 3/ CMC184M016AE /8 X 5 1/ CMC184M016EJ /4 X 3 3/ CMC194M016BB X 3 1/ CMC204M016AF /8 X 5 3/ CMC224M016EC /4 X 4 1/ CMC244M016BJ X 3 3/ CMC254M016ED /4 X 4 3/ CMC284M016EE /4 X 5 1/ CMC284M016BC X 4 1/ CMC314M016EF /4 X 5 3/ CMC334M016BD X 4 3/4 ESR Max. 25 C Ripple Amps, 85 C Nom Size Cap. Catalog Part 120 Hz 20 khz 120 Hz 20 khz D X L F Number (mω) (mω) (A) (A) (in) CMC374M016BE X 5 1/ CMC424M016BF X 5 3/4 25 Vdc (30 Vdc Surge) CMC223M025AK /8 X 1 3/ CMC373M025AA /8 X 2 1/ CMC523M025AH /8 X 2 3/ CMC543M025EA /4 X 2 1/ CMC673M025AB /8 X 3 1/ CMC783M025EH /4 X 2 3/ CMC823M025AJ /8 X 3 3/ CMC833M025BA X 2 1/ CMC973M025AC /8 X 4 1/ CMC104M025BH X 2 3/ CMC1003M025EB /4 X 3 1/ CMC114M025AD /8 X 4 3/ CMC124M025AE /8 X 5 1/ CMC124M025EJ /4 X 3 3/ CMC134M025BB X 3 1/ CMC144M025AF /8 X 5 3/ CMC154M025EC /4 X 4 1/ CMC164M025BJ X 3 3/ CMC174M025ED /4 X 4 3/ CMC194M025EE /4 X 5 1/ CMC194M025BC X 4 1/4 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.131

203 Type 4CMC 85 C, High-Cap, Computer Grade, Radial Leaded Ratings Aluminum Radial Leaded ESR Max. 25 C Ripple Amps, 85 C Nom Size Cap. Catalog Part 120 Hz 20 khz 120 Hz 20 khz D X L F Number (mω) (mω) (A) (A) (in) CMC214M025EF /4 X 5 3/ CMC224M025BD X 4 3/ CMC254M025BE X 5 1/ CMC284M025BF X 5 3/4 35 Vdc (40 Vdc Surge) CMC153M035AK /8 X 1 3/ CMC253M035AA /8 X 2 1/ CMC353M035AH /8 X 2 3/ CMC383M035EA /4 X 2 1/ CMC453M035AB /8 X 3 1/ CMC523M035EH /4 X 2 3/ CMC553M035AJ /8 X 3 3/ CMC563M035BA X 2 1/ CMC653M035AC /8 X 4 1/ CMC673M035EB /4 X 3 1/ CMC683M035BH X 2 3/ CMC753M035AD /8 X 4 3/ CMC833M035EJ /4 X 3 3/ CMC843M035AE /8 X 5 1/ CMC873M035BB X 3 1/ CMC933M035AF /8 X 5 3/ CMC104M035EC /4 X 4 1/ CMC114M035BJ X 3 3/ CMC114M035ED /4 X 4 3/ CMC134M035EE /4 X 5 1/ CMC134M035BC X 4 1/ CMC144M035EF /4 X 5 3/ CMC154M035BD X 4 3/ CMC174M035BE X 5 1/ CMC194M035BF X 5 3/4 50 Vdc (65 Vdc Surge) CMC103M050AK /8 X 1 3/ CMC173M050AA /8 X 2 1/ CMC243M050AH /8 X 2 3/ CMC273M050EA /4 X 2 1/ CMC313M050AB /8 X 3 1/ CMC333M050BA X 2 1/ CMC363M050EH /4 X 2 3/ CMC383M050AJ /8 X 3 3/ CMC393M050EB /4 X 3 1/ CMC453M050AC /8 X 4 1/ CMC473M050AD /8 X 4 3/ CMC473M050BH X 2 3/ CMC483M050EJ /4 X 3 3/ CMC533M050AE /8 X 5 1/ CMC563M050BB X 3 1/ CMC583M050EC /4 X 4 1/ CMC603M050AF /8 X 5 3/ CMC673M050ED /4 X 4 3/ CMC683M050BJ X 3 3/ CMC763M050EE /4 X 5 1/ CMC823M050BC X 4 1/ CMC853M050EF /4 X 5 3/ CMC913M050BD X 4 3/ CMC104M050BE X 5 1/ CMC124M050BF X 5 3/4 ESR Max. 25 C Ripple Amps, 85 C Nom Size Cap. Catalog Part 120 Hz 20 khz 120 Hz 20 khz D X L F Number (mω) (mω) (A) (A) (in) 63 Vdc (75 Vdc Surge) CMC752M063AK /8 X 1 3/ CMC123M063AA /8 X 2 1/ CMC163M063EA /4 X 2 1/ CMC163M063AH /8 X 2 3/ CMC213M063AB /8 X 3 1/ CMC223M063EH /4 X 2 3/ CMC263M063AJ /8 X 3 3/ CMC263M063BA X 2 1/ CMC293M063EB /4 X 3 1/ CMC303M063AC /8 X 4 1/ CMC333M063BH X 2 3/ CMC353M063AD /8 X 4 3/ CMC363M063EJ /4 X 3 3/ CMC383M063AE /8 X 5 1/ CMC433M063EC /4 X 4 1/ CMC443M063AF /8 X 5 3/ CMC473M063BB X 3 1/ CMC503M063ED /4 X 4 3/ CMC533M063BJ X 3 3/ CMC573M063EE /4 X 5 1/ CMC593M063BC X 4 1/ CMC643M063EF /4 X 5 3/ CMC693M063BD X 4 3/ CMC793M063BE X 5 1/ CMC893M063BF X 5 3/ CMC562M080AK /8 X 1 3/ CMC852M080AA /8 X 2 1/ CMC123M080EA /4 X 2 1/ CMC123M080AH /8 X 2 3/ CMC153M080AB /8 X 3 1/ CMC173M080EH /4 X 2 3/ CMC183M080BA X 2 1/ CMC193M080AJ /8 X 3 3/ CMC223M080AC /8 X 4 1/ CMC223M080EB /4 X 3 1/ CMC233M080BH X 2 3/ CMC263M080AD /8 X 4 3/ CMC273M080EJ /4 X 3 3/ CMC293M080AE /8 X 5 1/ CMC303M080BB X 3 1/ CMC323M080AF /8 X 5 3/ CMC323M080EC /4 X 4 1/ CMC373M080BJ X 3 3/ CMC373M080ED /4 X 4 3/ CMC433M080BC X 4 1/ CMC433M080EE /4 X 5 1/ CMC483M080EF /4 X 5 3/ CMC503M080BD X 4 3/ CMC583M080BE X 5 1/ CMC653M080BF X 5 3/4 100 Vdc (125 Vdc Surge) CMC382M100AK /8 X 1 3/ CMC632M100AA /8 X 2 1/ CMC812M100AH /8 X 2 3/ Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

204 Ratings Type 4CMC, 85 C, High-Cap, Computer Grade, Radial Leaded ESR Max. 25 C Ripple Amps, 85 C Nom Size Cap. Catalog Part 120 Hz 20 khz 120 Hz 20 khz D X L F Number (mω) (mω) (A) (A) (in) CMC822M100EA /4 X 2 1/ CMC103M100AB /8 X 3 1/ CMC113M100BA X 2 1/ CMC123M100EH /4 X 2 3/ CMC133M100AJ /8 X 3 3/ CMC153M100EB /4 X 3 1/ CMC153M100AC /8 X 4 1/ CMC163M100BH X 2 3/ CMC173M100AD /8 X 4 3/ CMC193M100EJ /4 X 3 3/ CMC203M100AE /8 X 5 1/ CMC213M100BB X 3 1/ CMC223M100AF /8 X 5 3/ CMC223M100EC /4 X 4 1/ CMC263M100ED /4 X 4 3/ CMC263M100BJ X 3 3/ CMC303M100EE /4 X 5 1/ CMC303M100BC X 4 1/ CMC333M100EF /4 X 5 3/ CMC353M100BD X 4 3/ CMC403M100BE X 5 1/ CMC453M100BF X 5 3/4 160 Vdc (200 Vdc Surge) CMC152M160AK /8 X 1 3/ CMC252M160AA /8 X 2 1/ CMC352M160AH /8 X 2 3/ CMC372M160EA /4 X 2 1/ CMC452M160AB /8 X 3 1/ CMC482M160BA X 2 1/ CMC522M160EH /4 X 2 3/ CMC552M160AJ /8 X 3 3/ CMC662M160AC /8 X 4 1/ CMC682M160EB /4 X 3 1/ CMC712M160AD /8 X 4 3/ CMC712M160BH X 2 3/ CMC802M160AE /8 X 5 1/ CMC832M160EJ /4 X 3 3/ CMC902M160AF /8 X 5 3/ CMC932M160BB X 3 1/ CMC1002M160EC /4 X 4 1/ CMC113M160BJ X 3 3/ CMC123M160ED /4 X 4 3/ CMC133M160EE /4 X 5 1/ CMC133M160BC X 4 1/ CMC153M160EF /4 X 5 3/ CMC163M160BD X 4 3/ CMC183M160BE X 5 1/ CMC203M160BF X 5 3/4 200 Vdc (250 Vdc Surge) CMC122M200AK /8 X 1 3/ CMC192M200AA /8 X 2 1/ CMC272M200AH /8 X 2 3/ CMC272M200EA /4 X 2 1/ CMC352M200AB /8 X 3 1/ CMC352M200BA X 2 1/ CMC372M200EH /4 X 2 3/ CMC432M200AJ /8 X 3 3/4 ESR Max. 25 C Ripple Amps, 85 C Nom Size Cap. Catalog Part 120 Hz 20 khz 120 Hz 20 khz D X L F Number (mω) (mω) (A) (A) (in) CMC482M200EB /4 X 3 1/ CMC502M200BH X 2 3/ CMC512M200AC /8 X 4 1/ CMC582M200AD /8 X 4 3/ CMC592M200EJ /4 X 3 3/ CMC662M200AE /8 X 5 1/ CMC682M200BB X 3 1/ CMC712M200EC /4 X 4 1/ CMC742M200AF /8 X 5 3/ CMC812M200BJ X 3 3/ CMC822M200ED /4 X 4 3/ CMC932M200EE /4 X 5 1/ CMC952M200BC X 4 1/ CMC103M200EF /4 X 5 3/ CMC113M200BD X 4 3/ CMC123M200BE X 5 1/ CMC143M200BF X 5 3/4 250 Vdc (300 Vdc Surge) 890 4CMC891M250AK /8 X 1 3/ CMC152M250AA /8 X 2 1/ CMC192M250EA /4 X 2 1/ CMC212M250AH /8 X 2 3/ CMC272M250BA X 2 1/ CMC272M250AB /8 X 3 1/ CMC282M250EH /4 X 2 3/ CMC322M250AJ /8 X 3 3/ CMC372M250EB /4 X 3 1/ CMC382M250BH X 2 3/ CMC392M250AC /8 X 4 1/ CMC442M250AD /8 X 4 3/ CMC452M250EJ /4 X 3 3/ CMC502M250AE /8 X 5 1/ CMC502M250BB X 3 1/ CMC542M250EC /4 X 4 1/ CMC562M250AF /8 X 5 3/ CMC622M250BJ X 3 3/ CMC632M250ED /4 X 4 3/ CMC722M250EE /4 X 5 1/ CMC732M250BC X 4 1/ CMC812M250EF /4 X 5 3/ CMC852M250BD X 4 3/ CMC972M250BE X 5 1/ CMC113M250BF X 5 3/4 300 Vdc (350 Vdc Surge) 520 4CMC521M300AK /8 X 1 3/ CMC871M300AA /8 X 2 1/ CMC122M300AH /8 X 2 3/ CMC132M300EA /4 X 2 1/ CMC162M300BA X 2 1/ CMC162M300AB /8 X 3 1/ CMC182M300EH /4 X 2 3/ CMC192M300AJ /8 X 3 3/ CMC222M300BH X 2 3/ CMC232M300AC /8 X 4 1/ CMC232M300EB /4 X 3 1/ CMC262M300AD /8 X 4 3/ CMC292M300AE /8 X 5 1/ CMC292M300BB X 3 1/4 Aluminum Radial Leaded 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.133

205 Type 4CMC, 85 C, High-Cap, Computer Grade, Radial Leaded Ratings Aluminum Radial Leaded ESR Max. 25 C Ripple Amps, 85 C Nom Size Cap. Catalog Part 120 Hz 20 khz 120 Hz 20 khz D X L F Number (mω) (mω) (A) (A) (in) CMC292M300EJ /4 X 3 3/ CMC332M300AF /8 X 5 3/ CMC352M300EC /4 X 4 1/ CMC362M300BJ X 3 3/ CMC402M300ED /4 X 4 3/ CMC432M300BC X 4 1/ CMC462M300EE /4 X 5 1/ CMC492M300BD X 4 3/ CMC512M300EF /4 X 5 3/ CMC572M300BE X 5 1/ CMC642M300BF X 5 3/4 350 Vdc (400 Vdc Surge) 430 4CMC431M350AK /8 X 1 3/ CMC711M350AA /8 X 2 1/ CMC102M350EA /4 X 2 1/ CMC102M350AH /8 X 2 3/ CMC122M350BA X 2 1/ CMC132M350EH /4 X 2 3/ CMC132M350AB /8 X 3 1/ CMC162M350BH X 2 3/ CMC162M350AJ /8 X 3 3/ CMC172M350EB /4 X 3 1/ CMC182M350AC /8 X 4 1/ CMC212M350BB X 3 1/ CMC212M350AD /8 X 4 3/ CMC212M350EJ /4 X 3 3/ CMC242M350AE /8 X 5 1/ CMC252M350EC /4 X 4 1/ CMC262M350BJ X 3 3/ CMC272M350AF /8 X 5 3/ CMC292M350ED /4 X 4 3/ CMC312M350BC X 4 1/ CMC332M350EE /4 X 5 1/ CMC362M350BD X 4 3/ CMC372M350EF /4 X 5 3/ CMC422M350BE X 5 1/ CMC472M350BF X 5 3/4 400 Vdc (450 Vdc Surge) 320 4CMC321M400AK2B /8 X 1 3/ CMC591M400AA2B /8 X 2 1/ CMC801M400AH2B /8 X 2 3/ CMC841M400EA /4 X 2 1/ CMC102M400BA X 2 1/ CMC102M400AB2B /8 X 3 1/ CMC122M400EH /4 X 2 3/ CMC132M400AJ2B /8 X 3 3/ CMC142M400BH X 2 3/ CMC152M400EB /4 X 3 1/ CMC152M400AC2B /8 X 4 1/ CMC162M400AD2B /8 X 4 3/ CMC182M400EJ /4 X 3 3/ CMC182M400AE2B /8 X 5 1/ CMC192M400BB X 3 1/ CMC202M400AF2B /8 X 5 3/ CMC212M400EC /4 X 4 1/ CMC232M400BJ X 3 3/ CMC252M400ED /4 X 4 3/ CMC272M400BC X 4 1/4 ESR Max. 25 C Ripple Amps, 85 C Nom Size Cap. Catalog Part 120 Hz 20 khz 120 Hz 20 khz D X L F Number (mω) (mω) (A) (A) (in) CMC292M400EE /4 X 5 1/ CMC322M400EF /4 X 5 3/ CMC322M400BD X 4 3/ CMC362M400BE X 5 1/ CMC412M400BF X 5 3/4 450 Vdc (500 Vdc Surge) 330 4CMC331M450AK /8 X 1 3/ CMC491M450AA /8 X 2 1/ CMC601M450AH /8 X 2 3/ CMC691M450EA /4 X 2 1/ CMC861M450BA X 2 1/ CMC861M450AB /8 X 3 1/ CMC931M450EH /4 X 2 3/ CMC102M450AJ /8 X 3 3/ CMC112M450BH X 2 3/ CMC122M450EB /4 X 3 1/ CMC122M450AC /8 X 4 1/ CMC132M450AD /8 X 4 3/ CMC152M450BB X 3 1/ CMC152M450AE /8 X 5 1/ CMC152M450EJ /4 X 3 3/ CMC162M450AF /8 X 5 3/ CMC182M450EC /4 X 4 1/ CMC192M450BJ X 3 3/ CMC212M450ED /4 X 4 3/ CMC222M450BC X 4 1/ CMC232M450EE /4 X 5 1/ CMC262M450EF /4 X 5 3/ CMC262M450BD X 4 3/ CMC312M450BE X 5 1/ CMC342M450BF X 5 3/4 500 Vdc (550 Vdc Surge) 210 4CMC211M500AK /8 X 1 3/ CMC311M500AA /8 X 2 1/ CMC441M500EA /4 X 2 1/ CMC451M500AH /8 X 2 3/ CMC561M500BA X 2 1/ CMC591M500AB /8 X 3 1/ CMC631M500EH /4 X 2 3/ CMC731M500AJ /8 X 3 3/ CMC781M500BH X 2 3/ CMC821M500EB /4 X 3 1/ CMC821M500AC /8 X 4 1/ CMC901M500AD /8 X 4 3/ CMC102M500BB X 3 1/ CMC102M500AE /8 X 5 1/ CMC102M500EJ /4 X 3 3/ CMC112M500AF /8 X 5 3/ CMC122M500EC /4 X 4 1/ CMC132M500BJ X 3 3/ CMC142M500ED /4 X 4 3/ CMC152M500BC X 4 1/ CMC162M500EE /4 X 5 1/ CMC182M500EF /4 X 5 3/ CMC182M500BD X 4 3/ CMC212M500BE X 5 1/ CMC232M500BF X 5 3/ Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

206 Type 400C, 95 C, Long-Life, Computer Grade, Radial Leaded Twice the Life! The Type 400C is the PC-mount equivalent for Type 500C screw-terminal computergrade capacitor. It s for bus filtering applications where long life is critical like telecom systems and industrial power supplies. Type 400C delivers 2 to 3 times the life of Type 4CMC, and above 250 V it has nearly the same capacitance. Its extended cathode foil assures cool operation with heatflow from the capacitor element to the can in all mounting orientations. Highlights More than 10 years life in most applications Ripple Currents to > 50 amps at 55 C 3-leads Printed-circuit mounting Thermal-Pak TM extended cathode construction Specifications Operating Temperature: 40 C to +95 C Rated Voltage: 100 to 500 Vdc Capacitance: 170 F to 29,000 F 20% DC Leakage Current: 3 sqrt CV A 4 ma max, 5 min. Cold Impedance: 20 C multiple of 25 C Z 4 for 100 V 3 for 150 V & up. Ripple Current Multipliers: Ambient Temperature 45 C 55 C 65 C 75 C 85 C 95 C Aluminum Radial Leaded Frequency 50 Hz 60 Hz 120 Hz 360 Hz 1 khz 5 khz 10 khz 100 to 160 V to 350 V to 500 V EIA Ripple Life: Shelf Life Test: Vibration: 3000 h at full load at 85 C per EIA IS-749 Capacitance 20% ESR 200% of limit DCL 100% of limit 500 h at 95 C. Capacitance, ESR and DCL meet initial requirements. 10 to 55 Hz, 0.06 and 10 g max, 2 h each plane. 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.135

207 Type 400C, 95 C, Long-Life, Computer Grade, Radial Leaded Outline Drawings LAY DOWN, 3 LEADS (L) + + Case Dimensions Laydown Style Case Inches Millimeters Code D.031 L MAX C.015 S.031 E.031 F.015 D.78 L MAX C.78 S±.78 E.78 F±.38 Aluminum Radial Leaded AK AA AH AB AJ AC AD AE AF EA EH EB EJ EC ED EE EF BA BH BB BJ BC BD BE BF Part Numbering System 400C 262 M 100 AK 8 Type Capacitance Tolerance Voltage Case Code Insulation Terminal 262 = 2600 F M = 20% 100 = 100 V 0 = bare can (blank) = Straight Leads 171 = 170 F T = 10% + 50% 450 = 450 V 8 = PVC L = Lay Down (3 Leads) U = 10% +75% with Standoffs 9 = Polyester with Standoffs Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

208 Type 400C, 95 C, Long-Life, Computer Grade, Radial Leaded Typical Performance Curves Temperature Characteristics - 98,000 F 10 Vdc Temperature Characteristics - 29,000 F 50 Vdc Impedance vs. Frequency Temperature Characteristics F 100 Vdc Aluminum Radial Leaded 1000 Type 400C Operating Life vs Ripple Current (90% V) Expected Operating Life, kh C 55 C 65 C 75 C 85 C Rated Ripple-Current Multiple 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.137

209 Type 400C, 95 C, Long-Life, Computer Grade, Radial Leaded Ratings ESR Max. 25 C Ripple Amps, 85 C Nom Size Cap. Catalog 120 Hz 10 khz 120 Hz 10 khz D X L (in) F Number (mω) (mω) (A) (A) (in) ESR Max. 25 C Ripple Amps, 85 C Nom Size Cap. Catalog 120 Hz 10 khz 120 Hz 10 khz D X L (in) F Number (mω) (mω) (A) (A) (in) Aluminum Radial Leaded 100 Vdc (125 Vdc Surge) C262M100AK /8 X 1 3/ C382M100AA /8 X 2 1/ C503M100AH /8 X 2 3/ C572M100EA /4 X 2 1/ C682M100AB /8 X 3 1/ C722M100BA X 2 1/ C782M100EH /4 X 2 3/ C832M100AJ /8 X 3 3/ C972M100BH X 2 3/ C992M100AC /8 X 4 1/ C103M100EB /4 X 3 1/ C123M100AD /8 X 4 3/ C133M100AE /8 X 5 1/ C133M100EJ /4 X 3 3/ C133M100BB X 3 1/ C153M100EC /4 X 4 1/ C153M100AF /8 X 5 3/ C163M100BJ X 3 3/ C173M100ED /4 X 4 3/ C193M100BC X 4 1/ C203M100EE /4 X 5 1/ C223M100EF /4 X 5 3/ C223M100BD X 4 3/ C263M100BE X 5 1/ C293M100BF X 5 3/4 160 Vdc (200 Vdc Surge) C142M160AK /8 X 1 3/ C202M160AA /8 X 2 1/ C302M160EA /4 X 2 1/ C302M160AH /8 X 2 3/ C382M160AB /8 X 3 1/ C382M160BA X 2 1/ C412M160EH /4 X 2 3/ C472M160AJ /8 X 3 3/ C512M160BH X 2 3/ C542M160EB /4 X 3 1/ C552M160AC /8 X 4 1/ C612M160AD /8 X 4 3/ C672M160EJ /4 X 3 3/ C682M160BB X 3 1/ C702M160AE /8 X 5 1/ C772M160AF /8 X 5 3/ C802M160EC /4 X 4 1/ C852M160BJ X 3 3/ C922M160ED /4 X 4 3/ C103M160EE /4 X 5 1/ C103M160BC X 4 1/ C123M160EF /4 X 5 3/ C123M160BD X 4 3/ C143M160BE X 5 1/ C153M160BF X 5 3/4 200 Vdc(250 Vdc Surge) C921M200AK /8 X 1 3/ C142M200AA /8 X 2 1/ C202M200EA /4 X 2 1/ C202M200AH /8 X 2 3/ C262M200AB /8 X 3 1/ C262M200BA X 2 1/ C282M200EH /4 X 2 3/ C322M200AJ /8 X 3 3/ C352M200BH X 2 3/ C372M200EB /4 X 3 1/ C382M200AC /8 X 4 1/ C422M200AD /8 X 4 3/ C452M200EJ /4 X 3 3/ C472M200BB X 3 1/ C482M200AE /8 X 5 1/ C532M200AF /8 X 5 3/ C542M200EC /4 X 4 1/ C572M200BJ X 3 3/ C632M200ED /4 X 4 3/ C682M200BC X 4 1/ C712M200EE /4 X 5 1/ C782M200BD X 4 3/ C802M200EF /4 X 5 3/ C932M200BE X 5 1/ C103M200BF X 5 3/4 250 Vdc (300 Vdc Surge) C671M250AK /8 X 1 3/ C102M250AH /8 X 2 3/ C102M250AA /8 X 2 1/ C152M250EA /4 X 2 1/ C192M250AB /8 X 3 1/ C192M250BA X 2 1/ C202M250EH /4 X 2 3/ C232M250AJ /8 X 3 3/ C252M250BH X 2 3/ C272M250EB /4 X 3 1/ C272M250AC /8 X 4 1/ C302M250AD /8 X 4 3/ C332M250EJ /4 X 3 3/ C342M250BB X 3 1/ C352M250AE /8 X 5 1/ C382M250AF /8 X 5 3/ C392M250EC /4 X 4 1/ C422M250BJ X 3 3/ C462M250ED /4 X 4 3/ C492M250BC X 4 1/ C512M250EE /4 X 5 1/ C572M250BD X 4 3/ C582M250EF /4 X 5 3/ C682M250BE X 5 1/ C752M250BF X 5 3/4 300 Vdc (350 Vdc Surge) C491M300AK /8 X 1 3/ C741M300AA /8 X 2 1/ C102M300AH /8 X 2 3/ C122M300EA /4 X 2 1/ C142M300AB /8 X 3 1/ C152M300BA X 2 1/ C172M300EH /4 X 2 3/ C172M300AJ /8 X 3 3/ C202M300AC /8 X 4 1/ C212M300BH X 2 3/ C222M300EB /4 X 3 1/ C242M300AD /8 X 4 3/ C272M300AE /8 X 5 1/ C272M300EJ /4 X 3 3/ C282M300BB X 3 1/ C302M300AF /8 X 5 3/ C322M300EC /4 X 4 1/ C342M300BJ X 3 3/ C382M300ED /4 X 4 3/ Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

210 Ratings Type 400C, 95 C, Long-Life, Computer Grade, Radial Leaded ESR Max. 25 C Ripple Amps, 85 C Nom Size Cap. Catalog 120 Hz 10 khz 120 Hz 10 khz D X L (in) F Number (mω) (mω) (A) (A) (in) ESR Max. 25 C Ripple Amps, 85 C Nom Size Cap. Catalog 120 Hz 10 khz 120 Hz 10 khz D X L (in) F Number (mω) (mω) (A) (A) (in) C412M300BC X 4 1/ C422M300EE /4 X 5 1/ C472M300BD X 4 3/ C482M300EF /4 X 5 3/ C562M300BE X 5 1/ C622M300BF X 5 3/4 350 Vdc (400 Vdc Surge) C361M350AK /8 X 1 3/ C541M350AA /8 X 2 1/ C801M350AH /8 X 2 3/ C921M350EA /4 X 2 1/ C102M350AB /8 X 3 1/ C112M350BA X 2 1/ C122M350EH /4 X 2 3/ C122M350AJ /8 X 3 3/ C152M350BH X 2 3/ C152M350AC /8 X 4 1/ C162M350EB /4 X 3 1/ C172M350AD /8 X 4 3/ C202M350EJ /4 X 3 3/ C202M350BB X 3 1/ C202M350AE /8 X 5 1/ C222M350AF /8 X 5 3/ C242M350EC /4 X 4 1/ C252M350BJ X 3 3/ C282M350ED /4 X 4 3/ C302M350BC X 4 1/ C312M350EE /4 X 5 1/ C342M350BD X 4 3/ C352M350EF /4 X 5 3/ C412M350BE X 5 1/ C452M350BF X 5 3/4 400 Vdc (450 Vdc Surge) C301M400AK /8 X 1 3/ C451M400AA /8 X 2 1/ C601M400AH /8 X 2 3/ C751M400EA /4 X 2 1/ C841M400AB /8 X 3 1/ C931M400BA X 2 1/ C102M400AJ /8 X 3 3/ C102M400EH /4 X 2 3/ C122M400AC /8 X 4 1/ C132M400EB /4 X 3 1/ C132M400BH X 2 3/ C142M400AD /8 X 4 3/ C162M400AE /8 X 5 1/ C162M400EJ /4 X 3 3/ C172M400BB X 3 1/ C182M400AF /8 X 5 3/ C202M400EC /4 X 4 1/ C212M400BJ X 3 3/ C232M400ED /4 X 4 3/ C242M400BC X 4 1/ C262M400EE /4 X 5 1/ C282M400BD X 4 3/ C292M400EF /4 X 5 3/ C342M400BE X 5 1/ C372M400BF X 5 3/4 450 Vdc (500 Vdc Surge) C251M450AK /8 X 1 3/ C371M450AA /8 X 2 1/ C501M450AH /8 X 2 3/ C631M450EA /4 X 2 1/ C701M450AB /8 X 3 1/ C781M450BA X 2 1/ C851M450AJ /8 X 3 3/ C851M450EH /4 X 2 3/ C102M450AC /8 X 4 1/ C102M450BH X 2 3/ C112M450EB /4 X 3 1/ C122M450AD /8 X 4 3/ C142M450AE /8 X 5 1/ C142M450EJ /4 X 3 3/ C142M450BB X 3 1/ C152M450AF /8 X 5 3/ C162M450EC /4 X 4 1/ C172M450BJ X 3 3/ C192M450ED /4 X 4 3/ C202M450BC X 4 1/ C212M450EE /4 X 5 1/ C242M450EF /4 X 5 3/ C242M450BD X 4 3/ C282M450BE X 5 1/ C312M450BF X 5 3/4 500 Volts (550 Volts Surge) C171M500AK /8 X 1 3/ C261M500AA /8 X 2 1/ C381M500AH /8 X 2 3/ C401M500EA /4 X 2 1/ C491M500AB /8 X 3 1/ C511M500BA X 2 1/ C581M500EH /4 X 2 3/ C611M500AJ /8 X 3 3/ C711M500BH X 2 3/ C721M500AC /8 X 4 1/ C761M500EB /4 X 3 1/ C801M500AD /8 X 4 3/ C941M500EJ /4 X 3 3/ C951M500AE /8 X 5 1/ C961M500BB X 3 1/ C112M500AF /8 X 5 3/ C112M500EC /4 X 4 1/ C122M500BJ X 3 3/ C132M500ED /4 X 4 3/ C142M500BC X 4 1/ C152M500EE /4 X 5 1/ C162M500BD X 4 3/ C172M500EF /4 X 5 3/ C192M500BE X 5 1/ C212M500BF X 5 3/4 Aluminum Radial Leaded 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.139

211 Type 420C, 85 C, Long-Life, Inverter Grade, Radial Leaded Best Value High Ripple Type Plug-in Type 420C is the PC-mount version of the Type 520C screwterminal, computergrade capacitor and the 85 C version of the Type 450C Inverter Grade capacitor. It delivers the ripplecurrent capability and exceptional life needed for motor-drive bus capacitors and approaches the performance of the 450C at a lower cost. The extended cathode foil of the 420C assures cool operation and heat flow from the capacitor element to the can in all orientations. Highlights New type For motor drives and UPS systems ESRs to 6.9 mω Printed-circuit mounting Thermal-Pak extended cathode construction Aluminum Radial Leaded Specifications Operating Temperature: 40 C to 85 C Rated Voltage: 100 to 500 Vdc Capacitance: 160 µf to 27,000 µf ± 20% DC Leakage Current: 3 CV µa, 4 ma max, 5 minutes Cold Impedance: 20 C multiple of 25 C Z 3 Ripple Current Multipliers: Ambient Temperature 45 C 55 C 65 C 75 C 85 C Part Numbering System Frequency 50 Hz 60 Hz 120 Hz 360 Hz 1 khz 5 khz 10 khz 1 3/8 & 1 3/4 Diameters 100 to 350 V to 500 V Diameters 100 to 350 V to 500 V EIA Ripple Life: 4000 h at full load at 85 C capacitance ± 20% ESR 200 % of limit DCL 100 % of limit Shelf Life Test: 500 h at 105 C. Capacitance, ESR and DCL meet initial requirements Vibration: 10 to 55 Hz, 0.06 and 10 g max, 2 h each plane 420C 242 M 100 AK 8 Type Capacitance Tolerance Voltage Case Code Insulation Terminal 242 = 2400 F M = 20% 100 = 100 V 0 = bare can (blank) = Straight Leads 221 = 220 F T = 10% +50% 450 = 450 V 8 = PVC and Standoffs L = Lay Down 3 Leads U = 50% +75% 9 = Polyester and Standoffs Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

212 Type 420C, 85 C, Long-Life, Inverter Grade, Radial Leaded Ratings ESR Max. 25 C Ripple Amps, 85 C Nom Size Cap. Catalog 120 Hz 20 khz 120 Hz 20 khz D X L F Number (mω) (mω) (A) (A) (in) ESR Max. 25 C Ripple Amps, 85 C Nom Size Cap. Catalog 120 Hz 20 khz 120 Hz 20 khz D X L F Number (mω) (mω) (A) (A) (in) 100 Vdc (125 Vdc Surge) C242M100AK /8 X 1 3/ C362M100AA /8 X 2 1/ C502M100AH /8 X 2 3/ C532M100EA /4 X 2 1/ C642M100AB /8 X 3 1/ C682M100BA X 2 1/ C732M100EH /4 X 2 3/ C782M100AJ /8 X 3 3/ C912M100BH X 2 3/ C932M100AC /8 X 4 1/ C962M100EB /4 X 3 1/ C113M100AD /8 X 4 3/ C123M100AE /8 X 5 1/ C123M100EJ /4 X 3 3/ C123M100BB X 3 1/ C143M100EC /4 X 4 1/ C143M100AF /8 X 5 3/ C153M100BJ X 3 3/ C163M100ED /4 X 4 3/ C183M100EE /4 X 5 1/ C183M100BC X 4 1/ C203M100BD X 4 3/ C213M100EF /4 X 5 3/ C243M100BE X 5 1/ C273M100BF X 5 3/4 160 Vdc (200 Vdc Surge) C132M160AK /8 X 1 3/ C192M160AA /8 X 2 1/ C282M160EA /4 X 2 1/ C302M160AH /8 X 2 3/ C362M160AB /8 X 3 1/ C362M160BA X 2 1/ C392M160EH /4 X 2 3/ C442M160AJ /8 X 3 3/ C482M160BH X 2 3/ C512M160EB /4 X 3 1/ C522M160AC /8 X 4 1/ C572M160AD /8 X 4 3/ C632M160EJ /4 X 3 3/ C642M160BB X 3 1/ C662M160AE /8 X 5 1/ C722M160AF /8 X 5 3/ C742M160EC /4 X 4 1/ C792M160BJ X 3 3/ C862M160ED /4 X 4 3/ C932M160BC X 4 1/ C972M160EE /4 X 5 1/ C113M160EF /4 X 5 3/ C113M160BD X 4 3/ C133M160BE X 5 1/ C143M160BF X 5 3/4 200 Vdc (250 Vdc Surge) C901M200AK /8 X 1 3/ C132M200AA /8 X 2 1/ C202M200EA /4 X 2 1/ C202M200AH /8 X 2 3/ C252M200AB /8 X 3 1/ C252M200BA X 2 1/ C272M200EH /4 X 2 3/ C312M200AJ /8 X 3 3/ C342M200BH X 2 3/ C362M200EB /4 X 3 1/ C372M200AC /8 X 4 1/ C412M200AD /8 X 4 3/ C442M200EJ /4 X 3 3/ C452M200BB X 3 1/ C472M200AE /8 X 5 1/ C512M200AF /8 X 5 3/ C532M200EC /4 X 4 1/ C562M200BJ X 3 3/ C612M200ED /4 X 4 3/ C662M200BC X 4 1/ C692M200EE /4 X 5 1/ C762M200BD X 4 3/ C782M200EF /4 X 5 3/ C912M200BE X 5 1/ C103M200BF X 5 3/4 250 Vdc (300 Vdc Surge) C601M250AK /8 X 1 3/ C901M250AA /8 X 2 1/ C102M250AH /8 X 2 3/ C132M250EA /4 X 2 1/ C172M250AB /8 X 3 1/ C172M250BA X 2 1/ C182M250EH /4 X 2 3/ C202M250AJ /8 X 3 3/ C232M250BH X 2 3/ C242M250EB /4 X 3 1/ C242M250AC /8 X 4 1/ C272M250AD /8 X 4 3/ C292M250EJ /4 X 3 3/ C302M250BB X 3 1/ C312M250AE /8 X 5 1/ C342M250AF /8 X 5 3/ C352M250EC /4 X 4 1/ C372M250BJ X 3 3/ C412M250ED /4 X 4 3/ C442M250BC X 4 1/ C462M250EE /4 X 5 1/ C512M250BD X 4 3/ C522M250EF /4 X 5 3/ C602M250BE X 5 1/ C672M250BF X 5 3/4 300 Vdc (350 Vdc Surge) C451M300AK /8 X 1 3/ C681M300AA /8 X 2 1/ C102M300AH /8 X 2 3/ C112M300EA /4 X 2 1/ C132M300AB /8 X 3 1/ C142M300BA X 2 1/ C152M300AJ /8 X 3 3/ C152M300EH /4 X 2 3/ C182M300AC /8 X 4 1/ C192M300BH X 2 3/ C202M300EB /4 X 3 1/ C222M300AD /8 X 4 3/ C252M300AE /8 X 5 1/ C252M300EJ /4 X 3 3/ C262M300BB X 3 1/ C272M300AF /8 X 5 3/ C302M300EC /4 X 4 1/ C322M300BJ X 3 3/ C342M300ED /4 X 4 3/4 Aluminum Radial Leaded 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.141

213 Type 420C, 85 C, Long-Life, Inverter Grade, Radial Leaded Ratings ESR Max. 25 C Ripple Amps, 85 C Nom Size Cap. Catalog 120 Hz 20 khz 120 Hz 20 khz D X L F Number (mω) (mω) (A) (A) (in) ESR Max. 25 C Ripple Amps, 85 C Nom Size Cap. Catalog 120 Hz 20 khz 120 Hz 20 khz D X L F Number (mω) (mω) (A) (A) (in) Aluminum Radial Leaded C372M300BC X 4 1/ C392M300EE /4 X 5 1/ C432M300BD X 4 3/ C442M300EF /4 X 5 3/ C512M300BE X 5 1/ C572M300BF X 5 3/4 350 Vdc (400 Vdc Surge) C351M350AK /8 X 1 3/ C521M350AA /8 X 2 1/ C701M350AH /8 X 2 3/ C881M350EA /4 X 2 1/ C981M350AB /8 X 3 1/ C112M350BA X 2 1/ C122M350EH /4 X 2 3/ C122M350AJ /8 X 3 3/ C142M350AC /8 X 4 1/ C152M350EB /4 X 3 1/ C152M350BH X 2 3/ C172M350AD /8 X 4 3/ C192M350EJ /4 X 3 3/ C192M350AE /8 X 5 1/ C202M350BB X 3 1/ C212M350AF /8 X 5 3/ C232M350EC /4 X 4 1/ C242M350BJ X 3 3/ C262M350ED /4 X 4 3/ C282M350BC X 4 1/ C302M350EE /4 X 5 1/ C332M350BD X 4 3/ C342M350EF /4 X 5 3/ C392M350BE X 5 1/ C432M350BF X 5 3/4 400 Vdc (450 Vdc Surge) C291M400AK /8 X 1 3/ C441M400AA /8 X 2 1/ C601M400AH /8 X 2 3/ C741M400EA /4 X 2 1/ C831M400AB /8 X 3 1/ C921M400BA X 2 1/ C102M400EH /4 X 2 3/ C102M400AJ /8 X 3 3/ C122M400BH X 2 3/ C122M400AC /8 X 4 1/ C132M400EB /4 X 3 1/ C142M400AD /8 X 4 3/ C162M400AE /8 X 5 1/ C162M400EJ /4 X 3 3/ C172M400BB X 3 1/ C182M400AF /8 X 5 3/ C192M400EC /4 X 4 1/ C202M400BJ X 3 3/ C222M400ED /4 X 4 3/ C242M400BC X 4 1/ C252M400EE /4 X 5 1/ C282M400EF /4 X 5 3/ C282M400BD X 4 3/ C332M400BE X 5 1/ C372M400BF X 5 3/4 450 Volts (500 Volts Surge) C221M450AK /8 X 1 3/ C331M450AA /8 X 2 1/ C501M450AH /8 X 2 3/ C571M450EA /4 X 2 1/ C631M450AB /8 X 3 1/ C701M450BA X 2 1/ C761M450EH /4 X 2 3/ C761M450AJ /8 X 3 3/ C911M450AC /8 X 4 1/ C941M450BH X 2 3/ C102M450EB /4 X 3 1/ C112M450AD /8 X 4 3/ C122M450EJ /4 X 3 3/ C122M450AE /8 X 5 1/ C132M450AF /8 X 5 3/ C132M450BB X 3 1/ C152M450EC /4 X 4 1/ C162M450BJ X 3 3/ C172M450ED /4 X 4 3/ C182M450BC X 4 1/ C192M450EE /4 X 5 1/ C212M450BD X 4 3/ C222M450EF /4 X 5 3/ C252M450BE X 5 1/ C282M450BF X 5 3/4 500 Vdc (550 Vdc Surge) C161M500AK /8 X 1 3/ C241M500AA /8 X 2 1/ C351M500AH /8 X 2 3/ C371M500EA /4 X 2 1/ C461M500AB /8 X 3 1/ C481M500BA X 2 1/ C541M500EH /4 X 2 3/ C571M500AJ /8 X 3 3/ C671M500BH X 2 3/ C671M500AC /8 X 4 1/ C711M500EB /4 X 3 1/ C751M500AD /8 X 4 3/ C881M500EJ /4 X 3 3/ C891M500BB X 3 1/ C891M500AE /8 X 5 1/ C102M500EC /4 X 4 1/ C102M500AF /8 X 5 3/ C112M500BJ X 3 3/ C122M500ED /4 X 4 3/ C132M500BC X 4 1/ C142M500EE /4 X 5 1/ C152M500EF /4 X 5 3/ C152M500BD X 4 3/ C182M500BE X 5 1/ C202M500BF X 5 3/ Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

214 Type 450C, 105 C Ultra-Ripple, Long-life, Inverter Grade, Radial Leaded The Ultimate in Ripple for Plug-in Type 450C is the 105 C version of the Type 420C Inverter Grade capacitor, and it is the PC-mount version of the Type 550C. It delivers the ripple-current capability and exceptional life needed for motor-drive and inverter bus capacitors. It is a significantly better value than comparable 105 C snap-in capacitors. The extended cathode foil of the 450C assures cool operation and heat flow from the capacitor element to the can in all orientations. Highlights Better value than large 105 C snap-in capacitors Especially for motor drives and UPS systems ESRs to 6.9 mω Printed-circuit mounting Thermal-Pak extended cathode construction Specifications Operating Temperature: 40 C to 105 C Rated Voltage: 100 to 500 Vdc Capacitance: 150 µf to 24,000 µf ± 20% DC Leakage Current: 3 CV µa, 4 ma max, 5 minutes Cold Impedance: 20 C multiple of 25 C Z 3 Ripple Current Multipliers: Ambient Temperature 45 C 55 C 65 C 75 C 85 C Aluminum Radial Leaded Frequency 50 Hz 60 Hz 120 Hz 360 Hz 1 khz 5 khz 10 khz 1 3/8 & 1 3/4 Diameters 100 to 350 V to 500 V Diameters 100 to 350 V to 500 V EIA Ripple Life: Shelf Life Test: Vibration: Part Numbering System 5000 h at full load at 85 C per EIA IS-749 capacitance ± 20% ESR 200 % of limit DCL 100 % of limit 500 h at 105 C. Capacitance, ESR and DCL meet initial requirements 10 to 55 Hz, 0.06 and 10 g max, 2 h each plane 450C 222 M 100 AK 8 Type Capacitance Tolerance Voltage Case Code Insulation Terminal 222 = 2200 F M = 20% 100 = 100 V 0 = bare can (blank) = Straight Leads 151 = 150 F T = 10% +50% 450 = 450 V 8 = PVC and Standoffs L = Lay Down 3 Leads U = 10% +75% 9 = Polyester and Standoffs 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.143

215 Type 450C, 105 C Ultra-Ripple, Long-life, Inverter Grade, Radial Leaded Ratings ESR Max. 25 C Ripple Amps, 85 C Nom Size Cap. Catalog 120 Hz 20 khz 120 Hz 20 khz D X L F Number (mω) (mω) (A) (A) (in) ESR Max. 25 C Ripple Amps, 85 C Nom Size Cap. Catalog 120 Hz 20 khz 120 Hz 20 khz D X L F Number (mω) (mω) (A) (A) (in) Aluminum Radial Leaded 100 Vdc (125 Vdc Surge) C222M100AK /8 X 1 3/ C332M100AA /8 X 2 1/ C402M100AH /8 X 2 3/ C482M100EA /4 X 2 1/ C582M100AB /8 X 3 1/ C612M100BA X 2 1/ C662M100EH /4 X 2 3/ C712M100AJ /8 X 3 3/ C822M100BH X 2 3/ C842M100AC /8 X 4 1/ C872M100EB /4 X 3 1/ C982M100AD /8 X 4 3/ C113M100AE /8 X 5 1/ C113M100EJ /4 X 3 3/ C113M100BB X 3 1/ C123M100AF /8 X 5 3/ C133M100EC /4 X 4 1/ C143M100BJ X 3 3/ C153M100ED /4 X 4 3/ C163M100BC X 4 1/ C173M100EE /4 X 5 1/ C183M100BD X 4 3/ C193M100EF /4 X 5 3/ C223M100BE X 5 1/ C243M100BF X 5 3/4 160 Vdc (200 Vdc Surge) C122M160AK /8 X 1 3/ C182M160AA /8 X 2 1/ C262M160EA /4 X 2 1/ C302M160AH /8 X 2 3/ C332M160AB /8 X 3 1/ C332M160BA X 2 1/ C362M160EH /4 X 2 3/ C402M160AJ /8 X 3 3/ C452M160BH X 2 3/ C472M160EB /4 X 3 1/ C482M160AC /8 X 4 1/ C532M160AD /8 X 4 3/ C582M160EJ /4 X 3 3/ C602M160BB X 3 1/ C612M160AE /8 X 5 1/ C672M160AF /8 X 5 3/ C692M160EC /4 X 4 1/ C742M160BJ X 3 3/ C802M160ED /4 X 4 3/ C872M160BC X 4 1/ C912M160EE /4 X 5 1/ C103M160EF /4 X 5 3/ C103M160BD X 4 3/ C123M160BE X 5 1/ C133M160BF X 5 3/4 200 Vdc (250 Vdc Surge) C881M200AK /8 X 1 3/ C132M200AA /8 X 2 1/ C192M200EA /4 X 2 1/ C202M200AH /8 X 2 3/ C252M200AB /8 X 3 1/ C252M200BA X 2 1/ C272M200EH /4 X 2 3/ C302M200AJ /8 X 3 3/ C332M200BH X 2 3/ C352M200EB /4 X 3 1/ C362M200AC /8 X 4 1/ C402M200AD /8 X 4 3/ C432M200EJ /4 X 3 3/ C442M200BB X 3 1/ C452M200AE /8 X 5 1/ C502M200AF /8 X 5 3/ C512M200EC /4 X 4 1/ C552M200BJ X 3 3/ C602M200ED /4 X 4 3/ C642M200BC X 4 1/ C672M200EE /4 X 5 1/ C742M200BD X 4 3/ C762M200EF /4 X 5 3/ C892M200BE X 5 1/ C982M200BF X 5 3/4 250 Vdc (300 Vdc Surge) C551M250AK /8 X 1 3/ C831M250AA /8 X 2 1/ C102M250AH /8 X 2 3/ C122M250EA /4 X 2 1/ C152M250BA X 2 1/ C162M250AB /8 X 3 1/ C172M250EH /4 X 2 3/ C192M250AJ /8 X 3 3/ C212M250BH X 2 3/ C222M250EB /4 X 3 1/ C232M250AC /8 X 4 1/ C252M250AD /8 X 4 3/ C272M250EJ /4 X 3 3/ C282M250BB X 3 1/ C292M250AE /8 X 5 1/ C312M250AF /8 X 5 3/ C322M250EC /4 X 4 1/ C342M250BJ X 3 3/ C382M250ED /4 X 4 3/ C412M250BC X 4 1/ C422M250EE /4 X 5 1/ C472M250BD X 4 3/ C482M250EF /4 X 5 3/ C562M250BE X 5 1/ C622M250BF X 5 3/4 300 Vdc (350 Vdc Surge) C381M300AK /8 X 1 3/ C571M300AA /8 X 2 1/ C801M300AH /8 X 2 3/ C961M300EA /4 X 2 1/ C112M300AB /8 X 3 1/ C122M300BA X 2 1/ C132M300EH /4 X 2 3/ C132M300AJ /8 X 3 3/ C152M300AC /8 X 4 1/ C162M300BH X 2 3/ C172M300EB /4 X 3 1/ C182M300AD /8 X 4 3/ C212M300AE /8 X 5 1/ C212M300EJ /4 X 3 3/ C212M300BB X 3 1/ C232M300AF /8 X 5 3/ C252M300EC /4 X 4 1/ C262M300BJ X 3 3/ C292M300ED /4 X 4 3/ Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

216 Type 450C, 105 C Ultra-Ripple, Long-life, Inverter Grade, Radial Leaded Ratings ESR Max. 25 C Ripple Amps, 85 C Nom Size Cap. Catalog 120 Hz 20 khz 120 Hz 20 khz D X L F Number (mω) (mω) (A) (A) (in) ESR Max. 25 C Ripple Amps, 85 C Nom Size Cap. Catalog 120 Hz 20 khz 120 Hz 20 khz D X L F Number (mω) (mω) (A) (A) (in) C312M300BC X 4 1/ C332M300EE /4 X 5 1/ C362M300BD X 4 3/ C372M300EF /4 X 5 3/ C432M300BE X 5 1/ C472M300BF X 5 3/4 350 Vdc (400 Vdc Surge) C301M350AK /8 X 1 3/ C461M350AA /8 X 2 1/ C601M350AH /8 X 2 3/ C771M350EA /4 X 2 1/ C861M350AB /8 X 3 1/ C961M350BA X 2 1/ C102M350EH /4 X 2 3/ C102M350AJ /8 X 3 3/ C122M350AC /8 X 4 1/ C132M350BH X 2 3/ C142M350EB /4 X 3 1/ C152M350AD /8 X 4 3/ C172M350EJ /4 X 3 3/ C172M350BB X 3 1/ C172M350AE /8 X 5 1/ C182M350AF /8 X 5 3/ C202M350EC /4 X 4 1/ C212M350BJ X 3 3/ C232M350ED /4 X 4 3/ C252M350BC X 4 1/ C262M350EE /4 X 5 1/ C292M350BD X 4 3/ C302M350EF /4 X 5 3/ C352M350BE X 5 1/ C382M350BF X 5 3/4 400 Vdc (450 Vdc Surge) C271M400AK /8 X 1 3/ C411M400AA /8 X 2 1/ C601M400AH /8 X 2 3/ C691M400EA /4 X 2 1/ C771M400AB /8 X 3 1/ C861M400BA X 2 1/ C931M400EH /4 X 2 3/ C931M400AJ /8 X 3 3/ C112M400AC /8 X 4 1/ C122M400EB /4 X 3 1/ C122M400BH X 2 3/ C132M400AD /8 X 4 3/ C152M400BB X 3 1/ C152M400AE /8 X 5 1/ C152M400EJ /4 X 3 3/ C162M400AF /8 X 5 3/ C182M400EC /4 X 4 1/ C192M400BJ X 3 3/ C212M400ED /4 X 4 3/ C222M400BC X 4 1/ C232M400EE /4 X 5 1/ C262M400EF /4 X 5 3/ C262M400BD X 4 3/ C312M400BE X 5 1/ C342M400BF X 5 3/4 450 Vdc (500 Vdc Surge) C211M450AK /8 X 1 3/ C311M450AA /8 X 2 1/ C401M450AH /8 X 2 3/ C521M450EA /4 X 2 1/ C581M450AB /8 X 3 1/ C651M450BA X 2 1/ C701M450EH /4 X 2 3/ C711M450AJ /8 X 3 3/ C841M450AC /8 X 4 1/ C871M450BH X 2 3/ C921M450EB /4 X 3 1/ C991M450AD /8 X 4 3/ C112M450EJ /4 X 3 3/ C112M450AE /8 X 5 1/ C122M450AF /8 X 5 3/ C122M450BB X 3 1/ C142M450BJ X 3 3/ C142M450EC /4 X 4 1/ C162M450ED /4 X 4 3/ C172M450BC X 4 1/ C182M450EE /4 X 5 1/ C202M450EF /4 X 5 3/ C202M450BD X 4 3/ C232M450BE X 5 1/ C262M450BF X 5 3/4 500 Volts (550 Volts Surge) C151M500AK /8 X 1 3/ C231M500AA /8 X 2 1/ C331M500AH /8 X 2 3/ C351M500EA /4 X 2 1/ C431M500AB /8 X 3 1/ C441M500BA X 2 1/ C501M500EH /4 X 2 3/ C531M500AJ /8 X 3 3/ C621M500BH X 2 3/ C631M500AC /8 X 4 1/ C661M500EB /4 X 3 1/ C701M500AD /8 X 4 3/ C821M500EJ /4 X 3 3/ C831M500BB X 3 1/ C831M500AE /8 X 5 1/ C931M500AF /8 X 5 3/ C971M500EC /4 X 4 1/ C102M500BJ X 3 3/ C112M500ED /4 X 4 3/ C122M500BC X 4 1/ C132M500EE /4 X 5 1/ C142M500EF /4 X 5 3/ C142M500BD X 4 3/ C172M500BE X 5 1/ C192M500BF X 5 3/4 Aluminum Radial Leaded 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.145

217 Type 401C, 55 C to 105 C Low-ESR, Wide Temperature Grade The Ultimate in Cold Performance and ESR The Type 401C is the wide-temperature, low-voltage version of the Type 450C. It is ideal for high-ripple current military and industrial applications that need full performance at cold temperatures. It also excels as a power-supply output capacitor because of its exceptionally low ESR. The extended cathode foil of the 401C assures cool operation and heat flow from the capacitor element to the can in all mounting orientations Highlights Better value than large snap-in capacitors Ripple Currents to >50 amps at 55 C ESRs to 3.5 mω > 90% capacitance at 40 C Thermal-Pak extended cathode construction Aluminum Radial Leaded Specifications Operating Temperature: 55 C to 105 C Rated Voltage: 6.3 to 250 Vdc Capacitance: 380 µf to 570,000 µf ± 20% DC Leakage Current: 1.5 CV µa, 4 ma max, 5 minutes Cold Impedance: 55 C multiple of 25 C Z 3 Ripple Current Multipliers: Ambient Temperature 45 C 55 C 65 C 75 C 85 C 95 C 105 C Frequency 50 Hz 60 Hz 120 Hz 360 Hz 1 khz 5 khz 10 khz+ 6.3 to 50 V to 250 V Load Life: Shelf Life: Vibration: 2,000 h at 85 C and full load Capacitance 10% ESR 200% of limit DCL 100% of limit 500 h at +105 C, capacitance, ESR and DCL, will meet initial requirements 10 to 55 Hz, 0.06 and 10 g max, 2 h each plane Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

218 Type 401C, 55 C to 105 C Low-ESR, Wide Temperature Grade Outline Drawings LAY DOWN, 3 LEADS (L) + + Laydown Style Case Dimensions Case Inches Millimeters Code D.031 L MAX C.015 S.031 E.031 F.015 D.78 L MAX C.78 S.78 E.78 F.38 AK AA AH AB AJ AC AD AE AF EA EH EB EJ EC ED EE EF BA BH BB BJ BC BD BE BF Aluminum Radial Leaded Part Numbering System 401C 393 M 100 AK 8 Type Capacitance Tolerance Voltage Case Code Insulation Terminal 242 = 2400 F M = 20% 100 = 100 V 0 = bare can (blank) = Straight Leads 221 = 220 F T = 10% +50% 450 = 450 V 8 = PVC and L = Lay Down (3 Leads) U = 10% +75% Standoffs 9 = Polyester and Standoffs 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.147

219 Type 401C, 55 C to 105 C Low-ESR, Wide Temperature Grade Typical Performance Curves Temperature Characteristics - 14,000 F 10 Vdc Temperature Characteristics - 14,000 F 10 Vdc Temperature Characteristics F 100 Vdc Impedance vs. Frequency F 100 Vdc Aluminum Radial Leaded 1000 Type 401C Operating Life vs Ripple Current (90% V) Expected Operating Life, kh C 55 C 65 C 75 C 85 C 95 C Rated Ripple-Current Multiple Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

220 Type 401C, 55 C to 105 C Low-ESR, Wide Temperature Grade Ratings ESR Max. 25 C Ripple Amps, 85 C Nom Size Cap. Catalog 120 Hz 20 khz 120 Hz 20 khz D X L F Number (mω) (mω) (A) (A) (in) 6.3 Vdc (9 Vdc Surge) C423M6R3AK /8 X 1 5/ C663M6R3AA /8 X 2 1/ C923M6R3AH /8 X 2 5/ C104M6R3EA /4 X 2 1/ C124M6R3AB /8 X 3 1/ C144M6R3AJ /8 X 3 5/ C154M6R3BA X 2 1/ C154M6R3EH /4 X 2 5/ C174M6R3AC /8 X 4 1/ C204M6R3AD /8 X 4 5/ C204M6R3BH X 2 5/ C204M6R3EB /4 X 3 1/ C234M6R3AE /8 X 5 1/ C254M6R3BB X 3 1/ C254M6R3EJ /4 X 3 5/ C264M6R3AF /8 X 5 5/ C294M6R3EC /4 X 4 1/ C314M6R3BJ X 3 5/ C354M6R3ED /4 X 4 5/ C374M6R3BC X 4 1/ C394M6R3EE /4 X 5 1/ C424M6R3BD X 4 5/ C444M6R3EF /4 X 5 5/ C514M6R3BE X 5 1/ C574M6R3BF X 5 5/8 7.5 Vdc (10 Vdc Surge) C413M7R5AK /8 X 1 5/ C623M7R5AA /8 X 2 1/ C903M7R5AH /8 X 2 5/ C104M7R5EA /4 X 2 1/ C124M7R5AB /8 X 3 1/ C144M7R5AJ /8 X 3 5/ C144M7R5BA X 2 1/ C154M7R5EH /4 X 2 5/ C174M7R5AC /8 X 4 1/ C194M7R5AD /8 X 4 5/ C194M7R5BH X 2 5/ C194M7R5EB /4 X 3 1/ C234M7R5AE /8 X 5 1/ C244M7R5EJ /4 X 3 5/ C254M7R5AF /8 X 5 5/ C254M7R5BB X 3 1/ C294M7R5EC /4 X 4 1/ C304M7R5BJ X 3 5/ C344M7R5ED /4 X 4 5/ C374M7R5BC X 4 1/ C384M7R5EE /4 X 5 1/ C424M7R5BD X 4 5/ C444M7R5EF /4 X 5 5/ C504M7R5BE X 5 1/ C564M7R5BF X 5 5/8 10 Vdc (15 Vdc Surge) C313M010AK /8 X 1 5/ C503M010AA /8 X 2 1/ C693M010AH /8 X 2 5/8 ESR Max. 25 C Ripple Amps, 85 C Nom Size Cap. Catalog 120 Hz 20 khz 120 Hz 20 khz D X L F Number (mω) (mω) (A) (A) (in) C813M010EA /4 X 2 1/ C913M010AB /8 X 3 1/ C114M010AJ /8 X 3 5/ C114M010BA X 2 1/ C124M010EH /4 X 2 5/ C134M010AC /8 X 4 1/ C154M010AD /8 X 4 5/ C154M010BH X 2 5/ C154M010EB /4 X 3 1/ C174M010AE /8 X 5 1/ C184M010EJ /4 X 3 5/ C194M010AF /8 X 5 5/ C194M010BB X 3 1/ C234M010EC /4 X 4 1/ C244M010BJ X 3 5/ C264M010ED /4 X 4 5/ C284M010BC X 4 1/ C294M010EE /4 X 5 1/ C334M010BD X 4 5/ C344M010EF /4 X 5 5/ C394M010BE X 5 1/ C444M010BF X 5 5/8 16 Vdc (24 Vdc Surge) 20, C203M016AK /8 X 1 5/8 33, C333M016AA /8 X 2 1/ C463M016AH /8 X 2 5/ C533M016EA /4 X 2 1/ C603M016AB /8 X 3 1/ C743M016AJ /8 X 3 5/ C753M016BA X 2 1/ C783M016EH /4 X 2 5/ C893M016AC /8 X 4 1/ C104M016AD X 2 5/ C104M016BH /4 X 3 1/ C104M016EB /8 X 4 5/ C124M016AE /8 X 5 1/ C134M016AF /8 X 5 5/ C134M016BB X 3 1/ C134M016EJ /4 X 3 5/ C154M016EC /4 X 4 1/ C164M016BJ X 3 5/ C174M016ED /4 X 4 5/ C184M016BC X 4 1/ C194M016EE /4 X 5 1/ C224M016BD X 4 5/ C224M016EF /4 X 5 5/ C264M016BE X 5 1/ C284M016BF X 5 5/8 20 Vdc (30 Vdc Surge) C173M020AK /8 X 1 5/ C263M020AA /8 X 2 1/ C333M020AH /8 X 2 5/ C453M020EA /4 X 2 1/ C503M020AB /8 X 3 1/ C583M020BA X 2 1/ C613M020AJ /8 X 3 5/8 Aluminum Radial Leaded 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.149

221 Type 401C, 55 C to 105 C Low-ESR, Wide Temperature Grade Ratings Aluminum Radial Leaded ESR Max. 25 C Ripple Amps, 85 C Nom Size Cap. Catalog 120 Hz 20 khz 120 Hz 20 khz D X L F Number (mω) (mω) (A) (A) (in) C643M020EH /4 X 2 5/ C733M020AC /8 X 4 1/ C823M020BH X 2 5/ C843M020EB /4 X 3 1/ C853M020AD /8 X 4 5/ C963M020AE /8 X 5 1/ C104M020AF /4 X 3 5/ C104M020BB X 3 1/ C104M020EJ /8 X 5 5/ C124M020EC /4 X 4 1/ C134M020BJ X 3 5/ C144M020ED /4 X 4 5/ C154M020BC X 4 1/ C164M020EE /4 X 5 1/ C174M020BD X 4 5/ C184M020EF /4 X 5 5/ C224M020BE X 5 1/ C244M020BF X 5 5/8 25 Vdc (35 Vdc Surge) C133M025AK /8 X 1 5/ C203M025AA /8 X 2 1/ C333M025AH /8 X 2 5/ C353M025EA /4 X 2 1/ C383M025AB /8 X 3 1/ C453M025BA X 2 1/ C483M025AJ /8 X 3 5/ C503M025EH /4 X 2 5/ C573M025AC /8 X 4 1/ C633M025BH X 2 5/ C663M025AD /8 X 4 5/ C663M025EB /4 X 3 1/ C753M025AE /8 X 5 1/ C813M025EJ /4 X 3 5/ C833M025BB X 3 1/ C843M025AF /8 X 5 5/ C963M025EC /4 X 4 1/ C104M025BJ X 3 5/ C114M025ED /4 X 4 5/ C124M025BC X 4 1/ C134M025EE /4 X 5 1/ C144M025BD X 4 5/ C144M025EF /4 X 5 5/ C164M025BE X 5 1/ C184M025BF X 5 5/8 40 Vdc (60 Vdc Surge) C822M040AK /8 X 1 5/ C123M040AA /8 X 2 1/ C203M040EA /4 X 2 1/ C223M040AH /8 X 2 5/ C233M040AB /8 X 3 1/ C273M040BA X 2 1/ C283M040AJ /8 X 3 5/ C303M040EH /4 X 2 5/ C343M040AC /8 X 4 1/ C383M040BH X 2 5/8 ESR Max. 25 C Ripple Amps, 85 C Nom Size Cap. Catalog 120 Hz 20 khz 120 Hz 20 khz D X L F Number (mω) (mω) (A) (A) (in) C393M040AD /8 X 4 5/ C393M040EB /4 X 3 1/ C453M040AE /8 X 5 1/ C493M040EJ /4 X 3 5/ C503M040BB X 3 1/ C503M040AF /8 X 5 5/ C583M040EC /4 X 4 1/ C613M040BJ X 3 5/ C683M040ED /4 X 4 5/ C733M040BC X 4 1/ C773M040EE /4 X 5 1/ C843M040BD X 4 5/ C863M040EF /4 X 5 5/ C104M040BE X 5 1/ C114M040BF X 5 5/8 50 Vdc (75 Vdc Surge) C562M050AK /8 X 1 5/ C842M050AA /8 X 2 1/ C113M050AH /8 X 2 5/ C143M050EA /4 X 2 1/ C153M050AB /8 X 3 1/ C183M050BA X 2 1/ C193M050AJ /8 X 3 5/ C203M050EH /4 X 2 5/ C233M050AC /8 X 4 1/ C263M050BH X 2 5/ C273M050AD /8 X 4 5/ C273M050EB /4 X 3 1/ C303M050AE /8 X 5 1/ C333M050EJ /4 X 3 5/ C343M050AF /8 X 5 5/ C343M050BB X 3 1/ C393M050EC /4 X 4 1/ C413M050BJ X 3 5/ C463M050ED /4 X 4 5/ C503M050BC X 4 1/ C523M050EE /4 X 5 1/ C583M050EF /4 X 5 5/ C583M050BD X 4 5/ C603M050BE X 5 1/ C703M050BF X 5 5/8 63 Vdc (90 Vdc Surge) C482M063AK /8 X 1 5/ C722M063AA /8 X 2 1/ C113M063AH /8 X 2 5/ C123M063EA /4 X 2 1/ C133M063AB /8 X 3 1/ C153M063BA X 2 1/ C163M063AJ /8 X 3 5/ C173M063EH /4 X 2 5/ C193M063AC /8 X 4 1/ C223M063BH X 2 5/ C233M063EB /8 X 4 5/ C233M063AD /4 X 3 1/ C263M063AE /8 X 5 1/ C283M063EJ /4 X 3 5/ Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

222 Type 401C, 55 C to 105 C Low-ESR, Wide Temperature Grade Ratings ESR Max. 25 C Ripple Amps, 85 C Nom Size Cap. Catalog 120 Hz 20 khz 120 Hz 20 khz D X L F Number (mω) (mω) (A) (A) (in) C293M063BB /8 X 5 5/ C293M063AF X 3 1/ C343M063EC /4 X 4 1/ C363M063BJ X 3 5/ C393M063ED /4 X 4 5/ C423M063BC X 4 1/ C453M063EE /4 X 5 1/ C503M063BD /4 X 5 5/ C503M063EF X 4 5/ C593M063BE X 5 1/ C663M063BF X 5 5/8 75 Vdc (100 Vdc Surge) C252M075AK /8 X 1 5/ C412M075AA /8 X 2 1/ C662M075AH /8 X 2 5/ C792M075EA /4 X 2 1/ C822M075AB /8 X 3 1/ C103M075BA X 2 1/ C103M075AJ /8 X 3 5/ C113M075EH /4 X 2 5/ C123M075AC /8 X 4 1/ C143M075BH /8 X 4 5/ C143M075AD X 2 5/ C153M075EB /4 X 3 1/ C163M075AE /8 X 5 1/ C183M075BB /8 X 5 5/ C183M075EJ /4 X 3 5/ C183M075AF X 3 1/ C223M075EC /4 X 4 1/ C233M075BJ X 3 5/ C253M075ED /4 X 4 5/ C273M075BC X 4 1/ C283M075EE /4 X 5 1/ C313M075BD X 4 5/ C333M075EF /4 X 5 5/ C373M075BE X 5 1/ C413M075BF X 5 5/8 100 Vdc (140 Vdc Surge) C142M100AK /8 X 1 5/ C222M100AA /8 X 2 1/ C352M100AH /8 X 2 5/ C412M100EA /4 X 2 1/ C462M100AB /8 X 3 1/ C532M100BA X 2 1/ C572M100AJ /8 X 3 5/ C602M100EH /4 X 2 5/ C682M100AC /8 X 4 1/ C752M100BH X 2 5/ C792M100EB /8 X 4 5/ C792M100AD /4 X 3 1/ C902M100AE /8 X 5 1/ C972M100EJ /4 X 3 5/ C103M100BB X 3 1/ C103M100AF /8 X 5 5/ C123M100BJ X 4 1/ C123M100EC /4 X 4 1/8 ESR Max. 25 C Ripple Amps, 85 C Nom Size Cap. Catalog 120 Hz 20 khz 120 Hz 20 khz D X L F Number (mω) (mω) (A) (A) (in) C123M100BC X 3 5/ C133M100ED /4 X 4 5/ C153M100BD /4 X 5 1/ C153M100EE X 4 5/ C173M100EF /4 X 5 5/ C183M100BE X 5 1/ C203M100BF X 5 5/8 150 Volts (200 Volts Surge) C711M150AK /8 X 1 5/ C112M150AA /8 X 2 1/ C152M150AH /8 X 2 5/ C172M150EA /4 X 2 1/ C192M150AB /8 X 3 1/ C252M150AJ X 2 1/ C252M150BA /8 X 3 5/ C262M150EH /4 X 2 5/ C292M150AC /8 X 4 1/ C342M150AD X 2 5/ C342M150EB /4 X 3 1/ C342M150BH /8 X 4 5/ C392M150AE /8 X 5 1/ C422M150EJ /4 X 3 5/ C442M150AF /8 X 5 5/ C452M150BB X 3 1/ C502M150EC /4 X 4 1/ C552M150BJ X 3 5/ C582M150ED /4 X 4 5/ C662M150BC X 4 1/ C672M150EE /4 X 5 1/ C732M150BD X 4 5/ C742M150EF /4 X 5 5/ C842M150BE X 5 1/ C942M150BF X 5 5/8 200 Vdc (250 Vdc Surge) C521M200AK /8 X 1 5/ C811M200AA /8 X 2 1/ C112M200AH /8 X 2 5/ C132M200EA /4 X 2 1/ C152M200AB /8 X 3 1/ C182M200AJ X 2 1/ C182M200BA /8 X 3 5/ C192M200EH /4 X 2 5/ C222M200AC /8 X 4 1/ C252M200EB X 2 5/ C252M200AD /8 X 4 5/ C252M200BH /4 X 3 1/ C282M200AE /8 X 5 1/ C312M200EJ /4 X 3 5/ C332M200AF X 3 1/ C332M200BB /8 X 5 5/ C372M200EC /4 X 4 1/ C402M200BJ X 3 5/ C442M200ED /4 X 4 5/ C482M200BC X 4 1/ C492M200EE /4 X 5 1/ C552M200EF X 4 5/8 Aluminum Radial Leaded 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.151

223 Type 401C, 55 C to 105 C Low-ESR, Wide Temperature Grade Ratings Aluminum Radial Leaded ESR Max. 25 C Ripple Amps, 85 C Nom Size Cap. Catalog 120 Hz 20 khz 120 Hz 20 khz D X L F Number (mω) (mω) (A) (A) (in) C552M200BD /4 X 5 5/ C622M200BE X 5 1/ C702M200BF X 5 5/8 250 Vdc (300 Vdc Surge) C381M250AK /8 X 1 5/ C611M250AA /8 X 2 1/ C861M250AH /8 X 2 5/ C961M250EA /4 X 2 1/ C112M250AB /8 X 3 1/ C132M250AJ /8 X 3 5/ C142M250EH X 2 1/ C142M250BA /4 X 2 5/ C172M250AC /8 X 4 5/ C172M250AD /8 X 4 1/ C182M250EB /4 X 3 1/ C192M250BH X 2 5/ C202M250AE /8 X 5 1/ C232M250EJ /8 X 5 5/ C232M250AF /4 X 3 5/ C252M250BB X 3 1/ C282M250EC /4 X 4 1/ C302M250BJ X 3 5/ C312M250ED /4 X 4 5/ C362M250EE /4 X 5 1/ C372M250BC X 4 1/ C392M250EF /4 X 5 5/ C422M250BD X 4 5/ C482M250BE X 5 1/ C532M250BF X 5 5/ Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

224 Type NLW, 105 C, Miniature Computer Grade, Axial Leaded 105 C, Miniature Computer Grade Designed for industrial applications requiring resistance to vibration and extended operating temperatures, Type NLW combines low DCL and ESR to provide superior performance. Specifications MORE Operating Temperature: 40 C to +105 C Rated Voltage: 6.3 to 150 Vdc Capacitance: 1 F to 600 F Capacitance Tolerance: % Leakage Current: <25 Vdc 0.1 CV +2 A 25 Vdc 0.2 CV +2 A Ripple Current Multipliers: Ambient Temperature F life ripple 556 p p p Outline Drawings Frequency Highlights Rugged Construction Extended Life Low DCL and ESR Extended Temperature Subminiature, high capacitance, low cost 45 C 55 C 65 C 75 C 85 C 95 C 105 C Hz 60 Hz 120 Hz 360 Hz 1 khz 5 khz 10 khz & up 0-60 Vdc Vdc Load Life: 1, C Capacitance 20% ESR 200% of limit DCL 200% of limit Shelf Life: 1,000 h at 105 C Capacitance 20%, ESR 200% of limit, DCL 200% of limit Vibration: 10 to 55 Hz; 0.06 and 10 g max, 2 h in each plane Aluminum Axial Leaded 20AWG 1.5 min L 1.5 min D 1605 East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 2.153

225 Type NLW, 105 C, Miniature Computer Grade, Axial Leaded Part Numbering System NLW E Type Capacitance Voltage Options 500 = 500 F 6 = 6 Vdc E = Epoxy End Seal (blank) = no epoxy PVC sleeve and % tolerance Ratings { } For epoxy add the following to lenght can L dia (in) (in) Aluminum Axial Leaded Ripple A Nominal Cap. Catalog ESR 85 C Size (in) F Number 120 Hz 120 Hz D x L 6.3 Vdc (8 Vdc Surge) 200 NLW x Vdc (14 Vdc Surge) 15 NLW x NLW x NLW x NLW x Vdc (20 Vdc Surge) 10 NLW x NLW x NLW x NLW x NLW x NLW x NLW x NLW x NLW x NLW x NLW x NLW x NLW x NLW x Vdc (30 Vdc Surge) 1 NLW x NLW x NLW x NLW x NLW x NLW x NLW x NLW x NLW x NLW x NLW x NLW x NLW x NLW x NLW x NLW x NLW x NLW x 1.57 Ripple A Nominal Cap. Catalog ESR 85 C Size (in) F Number 120 Hz 120 Hz D x L 50 Vdc (65 Vdc Surge) 1 NLW x NLW x NLW x NLW x NLW x NLW x NLW x NLW x NLW x NLW x NLW x NLW x NLW x NLW x NLW x NLW x NLW x NLW x Vdc (125 Vdc Surge) 2 NLW x NLW x NLW x NLW x NLW x Vdc (180 Vdc Surge) 1 NLW x NLW x NLW x NLW x NLW x NLW x East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

226 Type 556, 105 C, Computer Grade, Axial Leaded, Aluminum 105 C, Computer Grade Type 556 capacitors are designed for data processing, telecom and instrumentation applications requiring smaller size with extended temperature range. They have longer life and up to twice the ripple capability of +85 C capacitors. Highlights Small size Extended life Extended temperature Twice ripple capability of +85 C capacitors Designed for data processing, telecom and instrumentation applications Specifications MORE Operating Temperature Range: 40 C to +105 C Rated Voltage Range: 6.3 to 450 Vdc Capacitance: 1.5 F to 6,800 F Capacitance Tolerance: 20% Leakage Current: 3-20 Vdc 0.1 CV +2 A 25 Vdc & up 0.2 CV +2 A Ripple Current: Ambient Temperature Life F Temp 066R p UHL p UHL p C 55 C 65 C 75 C 85 C 95 C 105 C Frequency 50 Hz 60 Hz 120 Hz 360 Hz 1 khz 5 khz 10 khz Vdc Vdc Aluminum Axial Leaded Load Life: Shelf Life: Vibration: 4, C, capacitance 20%, ESR 200% of limit, DCL 100% of limit 100 h at 105 C, capacitance, ESR & DCL, initial requirements. 10 to 55 Hz; 0.06 and 10 g max, 2 h. in each plane Outline Drawings 20 AWG mm min. L 38 mm min. D 140 Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com 2.155

227 Type 556, 105 C, Computer Grade, Axial Leaded, Aluminum Typical Performance Curves Aluminum Axial Leaded Technology Place Liberty, SC Phone (864) , Fax (864)

228 Type 556,105 C Computer Grade, Axial Leaded, Aluminum Case Dimensions Millimeters Insulated with Case Nominal Insulated Epoxy Endseal Code Diameter (mm) Length (mm) Diameter (max) Length (max) Diameter (max) Length (max) BA BB CB CC DC DD DF DH MF MH EH ER FH FR LV Part Numbering System M 6R3 LV 2 E Type Capacitance Tolerance Voltage Case Code Insulation Epoxy Endseal 6R8=6.8 F M= 20% 6R3=6.3 Vdc 0=Bare Can E = Epoxy Endseal 680=68 F 063=63 Vdc 1=Polyester (blank) = No Epoxy 681=680 F 100=100 Vdc 2=PVC 682=6800 F 123=12,000 F Ratings Ripple A Nominal Cap. Catalog ESR 85 C Size (mm) F Number 120 Hz 120 Hz D x L 6.3 Vdc (8 Vdc Surge) M6R3BA x M6R3BB O 6.3 x M6R3CB x M6R3CC x M6R3DC x M6R3DD x M6R3DF x M6R3DH x M6R3MH x M6R3EH x M6R3ER x M6R3FH x M6R3FR x M6R3LV x Vdc (12 Vdc Surge) M010BA x M010BB x M010CB x M010CC x M010DC x 20.5 Ripple A Nominal Cap. Catalog ESR 85 C Size (mm) F Number 120 Hz 120 Hz D x L 10 Vdc (12 Vdc Surge) (cont d) M010DD x M010DF x M010DH x M010MF x M010EH x M010MH x M010ER x M010FH x M010FR x M010LV x Vdc (15 Vdc Surge) M012BA x M012BB x M012CB x M012CC x M012DC x M012DD x M012DF x M012DH x 38 Aluminum Axial Leaded 140 Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com 2.157

229 Type 556,105 C Computer Grade, Axial Leaded, Aluminum Ratings Aluminum Axial Leaded Ripple A Nominal Cap. Catalog ESR 85 C Size (mm) F Number 120 Hz 120 Hz D x L 12 Vdc (15 Vdc Surge) (cont d) M012MF x M012MH x M012EH x M012ER x M012FR x M012LV x Vdc (20 Vdc Surge) M016BA x M016BB x M016CB x M016CC x M016DC x M016DD x M016DF x M016DH x M016MF x M016EH x M016MH x M016ER x M016FR x M016LV x Vdc (25 Vdc Surge) M020BA x M020BB x M020CB x M020CC x M020DC x M020DD x M020DF x M020DH x M020MF x M020EH x M020ER x M020FR x M020LV x Vdc (35 Vdc Surge) M025BA x M025BB x M025CB x M025CC x MO25DC x M025DD x M025DF x M025DH x M025MF x M025MH x M025EH x M025ER x M025FR x M025LV x Vdc (45 Vdc Surge) M035BA x M035BB x M035CB x M035CC x M035DC x M035DD x M035DF x M035DH x 3 Ripple A Nominal Cap. Catalog ESR 85 C Size (mm) F Number 120 Hz 120 Hz D x L 35 Vdc (45 Vdc Surge) (cont d) M035MF x M035MH x M035EH x M035ER x M035FR x M035LV x Vdc (50 Vdc Surge) M040BA x l M040BB x M040CB x M040CC x M040DC x M040DD x M040DF x M040DH x M040MF x M040EH x M040MH x M040ER x M040FR x M040LV x Vdc (65 Vdc Surge) M050BA x M050BB x M050CB x l M050CC x M050DC x M050DD x M050DF x M050DH x M050MF x M050EH x M050MH x M050ER x M050FH x M050FR x M050LV x Vdc (75 Vdc Surge) M063BA X M063BB X M063CB X M063CC X M063DC X M063DD X M063DF X M063DH X M063MF X M063MH X M063EH X M063ER X M063FH X M063FR X M063LV Vdc (100 Vdc Surge) R6M080BA x M080BB x M080CB x M080CC x Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com

230 Type 556,105 C Computer Grade, Axial Leaded, Aluminum Ratings Ripple A Nominal Cap. Catalog ESR 85 C Size (mm) F Number 120 Hz 120 Hz D x L 80 Vdc (100 Vdc Surge) (cont d) M080DC x M080DD x M080DF x M080DH x M080MF x M080EH x M080MH x M080ER x M080FH x M080FR x M080LV x Vdc (125 Vdc Surge) R9M100BA x l R8M100BB x M100CB x M100CC x M100DC x M100DD x M100DF x M100DH x M100EH x M100MH x M100ER x M100FR x M100LV x Vdc (170 Vdc Surge) R5M150BA x R7M150BB x R3M150CB x l R8M150CC x M150DC x M150DD x M150DF x M150DH x M150MH x M150EH x M150ER x M150FR x M150LV x Vdc (250 Vdc Surge) R2M200BA x R7M200BB x R3M200CB x R6M200CC x M200DC x M200DD x M200DF x M200DH x M200EH x M200MH x M200ER x M200FH x M200FR x M200LV x Vdc (300 Vdc Surge) R0M250BA x R8M250BB x R2M250CB x R3M250CC x 20.5 Ripple A Nominal Cap. Catalog ESR 85 C Size (mm) F Number 120 Hz 120 Hz D x L 250 Vdc (300 Vdc Surge) (cont d) R8M250DC x R2M250DD x M250DF x M250DH x M250MH x M250EH x M250ER x M250FR x M250LV x Vdc (360 Vdc Surge) R68M300BA x lR2M300BB x R5M300CB x R2MI300CC x R9M300DC x R6M300DD x R2M300DF x M300DH x M300MH x M300EH x M300ER x M300FR x M300LV x Vdc (400 Vdc Surge) R56M350BA x R0M350BB x R2M350CB x R8M350CC x R3M350DC x R7M350DD x R8M350D F x M350DH x M350MH x M350E H x M350ER x M350FR x M350LV x Vdc (450 Vdc Surge) R8M400DC x R7M400DD x R9M400DF x R7M400DH x M400MH x M400EH x M400ER x M400FR x M400LV x Vdc (500 Vdc Surge) R5M450DC x R2M450DD x R3M450DF x R9M450DH x M450MH x M450EH x M450ER x M450FR x M450LV x 40 Aluminum Axial Leaded 140 Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com 2.159

231 Type 066/066R, 85 C & 105 C, Standard, Axial Leaded, Aluminum 85 C & 105 C, Standard Ideal for general purpose use where long life at rated temperature and operating voltage are important. Type 066 is equipped with a molded top and uses an o-ring to ensure a long life seal and an expected life of more than ten years in most applications. Type 066X has extra capacitance. Type 066R has lower ESR and higher ripple capability. Specifications Highlights Long life, more than ten years in most applications Molded top Low DCL High Ripple General purpose Operating Temperature: 40 C to +85 C (Type 066R 40 C to +105 C) Rated Voltage: 6.3 to 450 Vdc Capacitance: 8.2 F to 68,000 F Capacitance Tolerance: % Leakage Current: CV +25 C, 0.04 CV 85 C Ripple Current Multipliers: Ambient Temperature Type 45 C 55 C 65 C 75 C 85 C 95 C 105 C R Aluminum Axial Leaded MORE Cold Ripple 057 p p Frequency 50 Hz 60 Hz 120 Hz 360 Hz 1 khz 5 khz 10 khz F F F Load Life: 1, C Capacitance 10% ESR 150% of limit DCL 100% of limit Shelf Life: 100 h at 85 C, capacitance, ESR and DCL, initial requirements Vibration: 10 to 55 Hz; 0.06 and 10 g max, 2 h. in each plane Outline Drawings d 1.5 min (38mm min) L 1.5 min (38mm min) D d = 20 AWG for D < 0.75, 18 AWG for D Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com

232 Type 066/066R, 85 C & 105 C, Standard, Axial Leaded, Aluminum Case Dimensions Case Inches mm Case Inches mm Code D.016 L max D.397 L max Code D.016 L max D.397 L max FE HE FJ HJ FL HL FP HP FS HS FT HT GE JE GJ JJ GL JL GP JP GS JS GT JT Part Numbering System U 6R3 JE 2 E Type Capacitance Tolerance Voltage Case Code Insulation Epoxy Endseal 066 6R8=6.8 F U= 10%+75% 6R3=6.3 Vdc 0 = Bare Can E = Epoxy 066X 680=68 F T= 10%+50% 063=63 Vdc 1 = Polyester (blank) = No Epoxy 066R 681=680 F 100=100 Vdc 2 = PVC 682=6800 F Typical Performance Curves Impedance vs. Frequency Vdc Temperature Characteristics Vdc Aluminum Axial Leaded 140 Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com 2.161

233 Type 066/066R, 85 C & 105 C, Standard, Axial Leaded, Aluminum Ratings Aluminum Axial Leaded Ripple A Nominal Cap. Catalog ESR 85 C Size (in) F Part Number 120 Hz 20 khz 120 Hz 20 khz D x L 6.3 Vdc (8 Vdc Surge) U6R3FE /8 X 1 1/ U6R3GE /4 X 1 1/ U6R3FJ /8 X 1 5/ U6R3HE /8 X 1 1/ U6R3GJ /4 X 1 5/ R562U6R3GE /4 X 1 1/ X562U6R3GE /4 X 1 1/ U6R3JE X 1 1/ U6R3HJ /8 X 1 5/ U6R3FS /8 X 3 1/ R103U6R3GJ /4 X 1 5/ U6R3GP /4 X 2 5/ X123U6R3GJ /4 X 1 5/ U6R3HL /8 X 2 1/ R153U6R3HJ /8 X 1 5/ U6R3JL x 2 1/ X183U6R3HJ /8 x 1 5/ U6R3HS /8 x 3 1/ R223U6R3HL /8 x 2 1/ U6R3JP x 2 5/ X273U6R3HL /8 x 2 1/ U6R3JS x 3 1/ R333U6R3JL x 2 1/ X333U6R3JL x 2 1/ U6R3JT x 3 5/ R473U6R3JP X 2 5/ X473U6R3JP X 2 5/ R563U6R3JS X 3 1/ X563U6R3JS X 3 1/ R683U6R3JT X 3 5/ X683U6R3JT X 3 5/8 7.5 Vdc (9 Vdc Surge) U7R5FE /8 X 1 1/ U7RSGE /4 X 1 1/ U7R5FJ /8 X 1 5/ U7R5HE /8 X 1 1/ R472U7R5GE /4 X 1 1/ U7R5GJ /4 X 1 5/ X562U7R5GE /4 X 1 1/ U7R5FS /8 X 3 1/ U7R5HJ /8 X 1 5/ U7R5GP /4 X 2 5/ R103U7R5GJ /4 X 1 5/ U7R5HL /8 X 2 1/ R153U7R5HJ /8 X 1 5/ X153U7R5HJ /8 X 1 5/ U7R5JL X 2 1/ U7R5JP X 2 5/ R223U7R5HL /8 X 2 1/ X223U7R5HL /8 X 2 1/ U7R5JS X 3 1/ U7R5JT X 3 5/ R333U7R5JL X 2 1/ X333U7R5JL X 2 1/ R393U7RSJP X 2 5/8 Ripple A Nominal Cap. Catalog ESR 85 C Size (in) F Part Number 120 Hz 20 khz 120 Hz 20 khz D x L 7.5 Vdc (9 Vdc Surge) (cont d) R473U7R5JS X 3 1/ X473U7R5JP X 2 5/ U7R5JT X 3 5/ X563U7R5JS X 3 1/ X683U7R5JT X 3 5/8 10 Vdc (12 Vdc Surge) U010FE /8 X 1 1/ U010GE /4 X 1 1/ U010FJ /8 X 1 5/ U010GJ /4 X 1 5/ R392U010GE /4 X 1 1/ X472U010GE /4 X 1 1/ U010HJ /8 X 1 5/ U010GP /4 X 2 5/ U010HL /8 X 2 1/ R822U010GJ /4 X l 5/ X103U010GJ /4 X 1 5/ U010HJ /8 X 1 5/ U010JL X 2 1/ U010HS /8 X 3 1/ X153U010HJ /8 X l 5/ LR183U010HL /8 X 2 1/ U010JP X 2 5/ U010JS X 3 1/ X223U010HL /8 X 2 1/ U010JT X 3 5/ R273U010JL x 2 1/ R333U010JP x 2 5/ X333U010JL x 2 1/ X393U010JP x 2 5/ R473U010JS x 3 1/ X473U010JS x 3 l/ R563U010JT x 3 5/ X563U010JT x 3 5/8 16 Vdc (20 Vdc Surge) U016FE /8 X 1 1/ U016GE /4 X 1 1/ U016FJ /8 X 1 5/ R272U016GE /4 X 1 1/ U016GJ /4 X l 5/ X332U016GE /4 x 1 l/ U016HJ /8 x 1 5/ R562U016GJ /4 x 1 5/ U016GP /4 x 2 5/ U016HL /8 x 2 1/ X682U016GJ /4 x 1 5/ R822U016HJ /8 x 1 5/ U016JL x 2 1/ X103U016HJ /8 x 1 5/ U016HS /8 x 3 1/ R123U016HL /8 x 2 1/ U016JP x 2 5/ X153U016HL /8 x 2 1/ U016JS x 3 1/ R183U016JL x 2 1/ Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com

234 Type 066/066R, 85 C & 105 C, Standard, Axial Leaded, Aluminum Ratings Ripple A Nominal Cap. Catalog ESR 85 C Size (in) F Part Number 120 Hz 20 khz 120 Hz 20 khz D x L 16 Vdc (20 Vdc Surge) (cont d) U016JT x 3 5/ R223U016JP x 2 5/ X223U016JL x 2 1/ R273U016JS x 3 1/ X273U016JP x 2 5/ R333U016JT x 3 5/ X333U016JS x 3 1/ X393U016JT x 3 5/8 25 Vdc (35 Vdc Surge) U025FE /8 x 11/ U025GE /4 x 11/ U025FJ /8 x 1 5/ U025HE /8 x 1 1/ U025GJ /4 x 1 5/ R182U025GE /4 x 1 1/ X222U025GE /4 x 1 1/ U025HJ /8 x 1 5/ U025HL /8 x 2 1/ R392U025GJ /4 x 1 5/ X472U025GJ /4 x 1 5/ U025JL x 2 1/ R562U025HJ /8 x 1 5/ U025JP x 2 5/ X682U025HJ /8 x 1 5/ U025JS x 3 1/ R822U025HL /8 x 2 1/ U025JT x 3 5/ xl03U025HL /8 x 2 l/ R123U025JL x 2 1/ R153U025JP x 2 5/ X153U025JL x 2 1/ X183U025JP x 2 5/ R223U025JS x 3 1/ R223U025JT x 3 5/ X223U025JS x 3 1/ X273U025JT x 3 5/8 35 Vdc (45 Vdc Surge) U035FE /8 x 1 1/ U035GE /4 x 1 1/ U035FJ /8 x 1 5/ U035HE /8 x 1 1/ R122LI035GE /4 x 1 1/ U035GJ /4 x 1 5/ X152U035GE /4 x 1 1/ U035HJ /8 x 1 5/ R222U035GJ /4 x 1 5/ U035GP /4 x 2 5/ U035HL /8 x 2 1/ X332U035GJ /4 x 1 5/ R392U035HJ /8 x 1 5/ X472U035HJ /8 x 1 5/ U035JL x 2 1/ U035JP x 2 5/ R562U035HL /8 x 2 1/ X682U035HL /8 x 2 1/8 Ripple A Nominal Cap. Catalog ESR 85 C Size (in) F Part Number 120 Hz 20 khz 120 Hz 20 khz D x L 35 Vdc (45 Vdc Surge) (cont d) U035JS x 3 1/ R822U035JL x 2 1/ R103U035JP x 2 5/ X103U035JL x 2 1/ R123U035JS x 3 1/ X123U035JP x 2 5/ R153U035JT x 3 5/ X183U035JT x 3 5/8 50 Vdc (70 Vdc Surge) U050FE /8 x 1 1/ U050GE /4 x 1 1/ U050FJ /8 x 1 5/ U050HE /8 x 1 1/ R681U050GE /4 x 1 1/ U050GJ /4 x 1 5/ X821U050GE /4 x 1 1/ U050JE x 1 1/ U050HJ /8 x 1 5/ R122U050GJ /4 x 1 5/ U050FS /8 x 3 1/ U050HL /8 x 2 1/ X182U050GJ /4 x 1 5/ R222U050HJ /8 x 1 5/ U050JL x 2 1/ X272U050HJ /8 x 1 5/ U050HS /8 x 3 1/ R332U050HL /8 x 2 1/ U050JP x 2 5/ R392U050JL x 2 1/ X392U050HL /8 x 2 1/ U050JS x 3 1/ U050JT x 3 5/ R562U050JP x 2 5/ X562UOSOJL x 2 1/ R682U050JS x 3 1/ X682U050JP x 2 5/ R822U050JT x 3 5/ X103U050JS x 3 1/ X123U050JT x 3 5/8 63 Vdc (80 Vdc Surge) U063FE /8 x 1 1/ U063GE /4 x 1 1/ U063FJ /8 x 1 5/ R471U063GE /4 x 1 1/ U063GJ /4 x 1 5/ X561U063GE /4 x 1 1/ U063JE x 1 1/ U063HJ /8 x 1 5/ R821U063GJ /4 x 1 5/ U063FS /8 x 3 1/ U063GP /4 x 2 5/ X122U063GJ /4 x 1 5/ U063HL /8 x 2 1/ R152U063HJ /8 x 1 5/ U063JL x 2 1/8 Aluminum Axial Leaded 140 Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com 2.163

235 Type 066/066R, 85 C & 105 C, Standard, Axial Leaded, Aluminum Ratings Aluminum Axial Leaded Ripple A Nominal Cap. Catalog ESR 85 C Size (in) F Part Number 120 Hz 20 khz 120 Hz 20 khz D x L 63 Vdc (80 Vdc Surge) (cont d) X182U063HJ /8 x 1 5/ U063HS /8 x 3 1/ R222U063HL /8 x 2 1/ R272U063JL x 2 1/ X272U063HL /8 x 2 1/ U063JP x 2 5/ U063JS x 3 1/ U063JT x 3 5/ R392U063JP x 2 5/ X392U063JL x 2 1/ R472U063JS x 3 1/ R562U063JT x 3 5/ X562U063JP x 2 5/ X682U063JS x 3 1/ X822U063JT x 3 5/8 100 Vdc (125 Vdc Surge) U100FE /8 x 1 1/ U100GE /4 x 1 1/ U100FJ /8 x 1 5/ U100HE /8 x 1 1/ U100GJ /4 x 1 5/ R221U100GE /4 x 1 1/ U100JE x 1 1/ X271U100GE /4 x 1 1/ U100HJ /8 x 1 5/ U100GP /4 x 2 5/ R471U100GJ /4 x 1 5/ U100HL /8 x 2 1/ X561U100GJ /4 x 1 5/ U100JL x 2 1/ R681U100HJ /8 x 1 5/ U100HS /8 x 3 1/ X821U100HJ /8 x 1 5/ U100JP x 2 5/ R102U100HL /8 x 2 1/ U100JS x 3 1/ X122U100HL /8 x 2 1/ U100JT x 3 5/ R152U100JL x 2 1/ R182U100JP x 2 5/ X182U100JL x 2 1/ R222U100JS x 3 1/ X222U100JP x 2 5/ R272U1OOJT x 3 5/ X332U100JS x 3 1/ X392U100JT x 3 5/8 200 Vdc (250 Vdc Surge) U200FE /8 x 1 1/ U200GE /4 x 1 1/ R330U200GE /4 x 1 1/ U200FJ /8 x 1 5/ U200HE /8 x 1 l/ R560U200GJ /4 x 1 5/ U200GJ /4 x 1 5/ U200JE x 1 1 1/8 Ripple A Nominal Cap. Catalog ESR 85 C Size (in) F Part Number 120 Hz 20 khz 120 Hz 20 khz D x L 200 Vdc (250 Vdc Surge) (cont d) R101U200HJ /8 x 1 1/ U200HJ /8 x 1 5/ U200GP /4 x 2 5/ R151U200HL /8 x 2 1/ U200HL /8 x 2 1/ U200JL x 2 1/ R221U200JL x 2 1/ U200HS /8 x 3 1/ R271U200JP x 2 5/ U200JP x 2 5/ R331U200JS x 3 1/ R391U200JT x 3 5/ U200JS x 3 1/ U200JT x 3 5/8 250 Vdc (300 Vdc Surge) U250FE /8 x 1 1/ R220U250GE /4 x 1 1/ U250GE /4 x 1 1/ U250FJ /8 x 1 5/ U250HE /8 x 1 1/ R470U250GJ /4 x 1 5/ U250GJ /4 x 1 5/ U250JE x 1 1/ R680U250HJ /8 x 1 5/ U250HJ /8 x 1 5/ U250GP /4 x 2 5/ R121U250HL /8 x 2 1/ U250HL /8 x 2 1/ R151U250JL x 2 1/ U250JL x 2 1/ R221U250JP x 2 5/ U250JP x 2 5/ R271U250JS x 3 1/ U250JS x 3 1/ R331U250JT x 3 5/ U250JT x 3 5/8 300 Vdc (350 Vdc Surge) U300FE /8 x 1 1/ U300GE /4 x 1 1/ R220U300GE /4 x 1 1/ U300FJ /8 x 1 5/ U300HE /8 x 1 1/ R390U300GJ /4 x 1 5/ U300GJ /4 x 1 5/ R560U300HJ /8 x 1 5/ U300HJ /8 x 1 5/ U300GP /4 x 2 5/ R101U300HL /8 x 2 1/ U300HL /8 x 2 1/ R121U300JL x 2 1/ U300JL x 2 1/ U300HS /8 x 3 1/ R181U300JP x 2 5/ U300JP x 2 5/ R221U300JS x 3 1/ Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com

236 Type 066/066R, 85 C & 105 C, Standard, Axial Leaded, Aluminum Ratings Ripple A Nominal Cap. Catalog ESR 85 C Size (in) F Part Number 120 Hz 20 khz 120 Hz 20 khz D x L 300 Vdc (350 Vdc Surge) (cont d) U300JS x 3 1/ R271U300JT x 3 5/ U300JT x 3 5/8 350 Vdc (400 Vdc Surge) U350FE /8 x 1 1/ U350GE /4 x 1 1/ R180U350GE /4 x 1 1/ U350FJ /8 x 1 5/ U350HE /8 x 1 1/ U350GJ /4 x 1 5/ R330U350GJ /4 x 1 5/ U350JE x 1 1/ U350HJ /8 x 1 5/ R560U350HJ /8 x 1 5/ U350GP /4 x 2 5/ U350HL /8 x 2 1/ R820U350HL /8 x 2 1/ R121U350JL x 2 1/ U350JL x 2 1/ U350JP x 2 5/ R151U350JP x 2 5/ U350JS x 3 1/ R181U350JS x 3 1/ U350JT x 3 5/ R221U350JT x 3 5/8 400 Vdc (450 Vdc Surge) U400FE /8 x 1 1/ R120U400GE /4 x 1 1/ U400GE /4 x 1 1/ U400FJ /8 x 1 5/ U400HE /8 x 1 1/ U400GJ /4 x 1 5/ R270U400GJ /4 x 1 5/ U400JE x 1 1/ R390U400HJ /8 x 1 5/ U400HJ /8 x 1 5/ U4OOGP /4 x 2 5/ R560U400HL /8 x 2 1/ U400HL /8 x 2 1/ R820U400JL x 2 1/ U4O0JL x 2 1/ R101U400JP x 2 5/ U400JP x 2 5/ R121U400JS x 3 1/ U400JS x 3 l/ R151U400JT x 3 5/ U400JT x 3 5/8 Ripple A Nominal Cap. Catalog ESR 85 C Size (in) F Part Number 120 Hz 20 khz 120 Hz 20 khz D x L 450 Vdc (500 Vdc Surge) R2U450FE /8 x 1 1/ U450GE /4 x 1 1/ U450FJ /8 x 1 5/ U450HE /8 x 1 1/ U450GJ /4 x 1 5/ U450HJ /8 x 1 5/ U450GP /4 x 2 5/ U450HL /8 x 2 1/ U450JL x 2 1/ U450JP x 2 5/ U450JS x 3 1/ U450JT x 3 5/8 Aluminum Axial Leaded 140 Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com 2.165

237 Type WBR, 85 C Industrial Grade, Axial Leaded, Aluminum 85 C, Industrial Grade Type WBR capacitors are the preferred choice for many varied industrial applications because they have high capacitance and extended life characteristics. The rugged construction delivers the high vibration resistance required in industrial applications. Aluminum Axial Leaded Specifications 066 p p Operating Temperature: 450 Vdc, 40 C to +85 C Rated Voltage: 16 to 450 Vdc Capacitance: 1 F to 10,000 F Capacitance Tolerance: Vdc %, Vdc %, 450 Vdc % Leakage Current: Vdc 0.01CV + 10 A, Vdc 0.03CV + 20 A Ripple Current Multipliers: Ambient Temperature 45 C 55 C 65 C 75 C 85 C 95 C 105 C life ripple MORE cold 057 p Frequency Highlights High Capacitance Extended Life Rugged Construction High Vibration Resistance 60 Hz 120 Hz 400 Hz 1000 Hz 10 khz 50 khz 100 khz Vdc Vdc Vdc Load Life: 2, C Capacitance 20% ESR 150% of limit DCL 100% of limit Shelf Life: C, Capacitance 20%, ESR 150% of limit, DCL 200% of limit Vibration: 10 to 55 Hz; 0.06 and 10 g max, 2 h in each plane Outline Drawings Wire Lead Size D L* d (20 AWG) (or A suffix) > (18 AWG) East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

238 Type WBR, 85 C Industrial Grade, Axial Leaded, Aluminum Part Numbering System WBR A E Type Capacitance Voltage Lead Epoxy Endseal WBR 500 = 500 F 16 = 16 Vdc A = AWG E = epoxy (blank) = see table (blank) = no epoxy Ratings ESR Ripple A Max Case Cap. Catalog 85 C Size (in) F Number 120 Hz 120 Hz D x L 16 Vdc (20 Vdc Surge) 100 WBR100-16A WBR250-16A WBR500-16A WBR A WBR A WBR A WBR A WBR A Vdc (30 Vdc Surge) 10 WBR10-25A WBR25-25A WBR50-25A WBR100-25A WBR250-25A WBR500-25A WBR A WBR A Vdc (40 Vdc Surge) 100 WBR100-35A WBR150-35A WBR300-35A WBR500-35A WBR A WBR A WBR A Vdc (65 Vdc Surge) 1 WBR1-50A WBR2-50A WBR5-50A WBR10-50A WBR25-50A WBR50-50A WBR100-50A WBR150-50A WBR250-50A WBR500-50A WBR A WBR A Vdc (95 Vdc Surge) 150 WBR150-75A WBR275-75A WBR500-75A ESR Ripple A Max Case Cap. Catalog 85 C Size (in) F Number 120 Hz 120 Hz D x L 150 Vdc (175 Vdc Surge) 4 WBR4-150A WBR5-150A WBR8-150A WBR10-150A WBR16-150A WBR20-150A WBR30-150A WBR40-150A WBR50-150A WBR60-150A WBR80-150A WBR A WBR A Vdc (250 Vdc Surge) 125 WBR A Vdc (300 Vdc Surge) 4 WBR4-250A WBR8-250A WBR12-250A WBR16-250A WBR20-250A WBR30-250A WBR40-250A WBR50-250A WBR60-250A WBR80-250A Vdc (400 Vdc Surge) 4 WBR4-350A WBR8-350A WBR20-350A WBR40-350A Vdc (525 Vdc Surge) 1 WBR1-450A WBR2-450A WBR4-450A WBR5-450A WBR8-450A WBR10-450A WBR12-450A WBR16-450A WBR20-450A WBR30-450A Aluminum Axial Leaded 1605 East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 2.167

239 Type 557 UHL, 125 C Military Grade, Axial Leaded, Aluminum Ultra-High Temperature Capability Specifications Designed for data and mobile communications and military applications requiring extra high temperature and longest life. Type 557 UHL is the equivalent of MIL-C-39018/01 (CU13) with high frequency vibration capabilities to 15g at 2,000 Hz. Highlights Long life High Temperature High Frequency Vibration Capabilities Operating Temperature: 55 C to +125 C Rated Voltage: 5 to 200 Vdc (7 to C) Capacitance: 2.2 to 1000 F Capacitance Tolerance: 5 to 60 Vdc %, 75 to 200 Vdc % Leakage Current: Case Size + 25 C +85/125 C Case Size +25 C +85/125 C 3/8 x 15/16 3 A 18 A 3/8 x 2 3/16 7 A 42 A 3/8 x 1-1/8 3 A 18 A 3/8 x 2 11/16 10 A 60 A 3/8 x 1-3/8 4 A 24 A 3/8 x 1-5/8 5 A 32 A Multiply by 2 for 200 & 250 Vdc Ripple Current Multiplier: Ambient Temperature 45 C 55 C 65 C 75 C 85 C 95 C 105 C Aluminum Axial Leaded 556 p p F volts MORE Frequency 50 Hz 60 Hz 120 Hz 360 Hz 1 khz 5 khz 10 khz Vdc Vdc Load Life: 2, C, 10, C Capacitance 15% ESR 130% of limit DCL 100% of limit Shelf Life: C, Capacitance 10% ESR 115% of limit DCL 200% of limit Vibration: 10 to 2000 Hz; 0.06 and 15 g max, 2 h in each plane Outline Drawings Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com

240 Type 557 UHL, 125 C Military Grade, Axial Leaded, Aluminum Case Dimensions Case Inches mm Case Inches mm Code D.016 L max D.41 L max Code D.016 L max D.41 L max DC DJ DD DL DE DX DG Insulated dimensions including sleeve and epoxy Part Numbering System 557UHL 561 U 005 DJ 1 E Type Capacitance Tolerance Voltage Case Code Insulation Epoxy Endseal 557UHL 6R8 = 6.8 F U = 10% + 75% 005 = 5 Vdc 1 = Polyester E = epoxy 680 = 68 F T = 10% + 50% 060 = 60 Vdc 561 = 560 F 100 = 100 Vdc Typical Performance Curves Aluminum Axial Leaded Impedance vs. Frequency Vdc Temperature Characteristics Vdc 140 Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com 2.169

241 Type 557 UHL, 125 C Military Grade, Axial Leaded, Aluminum Typical Performance Curves Impedance vs. Frequency Vdc Temperature Characteristics Vdc Ratings ESR Z Max Ω Ripple A Nominal Cap. Catalog Ω 55 C C Size (in) F Number 120 Hz 120 Hz 100 khz 120 Hz 100 khz D x L ESR Z Max Ω Ripple A Nominal Cap. Catalog Ω 55 C C Size (in) F Number 120 Hz 120 Hz 100 khz 120 Hz 100 khz D x L Aluminum Axial Leaded 5 Vdc (7 Vdc Surge) [85 C; 7 Vdc (10 Vdc Surge)] UHL221U005DD1E /8 x 15/ UHL271U005DE1E /8 x 1 1/ UHL391U005DGlE /8 x 1 3/ UHL561U005DJ1E /8 x 1 5/ UHL821U005DL1E /8 x 2 3/ UHL102U005DX1E /8 x 2 11/16 7 Vdc (10 Vdc Surge) [85 C; 10 Vdc (15 Vdc Surge)] UHL181U007DD1E /8 x 15/ UHL221U007DE1E /8 x 1 1/ UHL331U007DGlE /8 x 1 3/ UHL471U007DJ1E /8 x 1 5/ UHL681U007DL1E /8 x 2 3/ UHL821U007DX1E /8 x 2 11/16 10 Vdc (15 Vdc Surge) [85 C; 15 Vdc (20 Vdc Surge)] UHL151U010DD1E /8 x 15/ UHL181U010DE1E /8 x 1 1/ UHL271U010DG1E /8 x 1 3/ UHL391U010DJ1E /8 x 1 5/ UHL561U010DL1E /8 x 2 3/ UHL681U010DX1E /8 x 2 11/16 20 Vdc (30 Vdc Surge) [85 C; 30 Vdc (40 Vdc Surge)] UHL820U020DD1E /8 x 15/ UHL101U020DE1E /8 x 1 1/ UHL121U020DG1E /8 x 1 3/ UHL151U020DG1E /8 x 1 3/ UHL221U020DJ1E /8 x 1 5/ UHL331U020DL1E /8 x 2 3/ UHL39IU020DX1E /8 x 2 11/16 40 Vdc (50 Vdc Surge) [85 C; 50 Vdc (60 Vdc Surge)] UHL330U040DD1E /8 x 15/ UHL470UG40DE1E /8 x 1 1/ UHL560U040DG1E /8 x 1 3/ UHL680U040DG1E /8 x 1 3/ UHL101U040DJ1E /8 x 1 5/ UHL151UG40DLlE /8 x 2 3/ UHL181U040DXlE /8 x 2 11/16 60 Vdc (75 Vdc Surge) [85 C; 75 Vdc (90 Vdc Surge)] UHL220U060DDE /8 x 15/ UHL330U060DE1E /8 x 1 1/ UHL470U060DG1E /8 x 1 3/ UHL680U060DJ1E /8 x 1 5/ UHL101U060DL1E /8 x 2 3/ UHL121U060DX1E /8 x 2 11/16 75 Vdc (100 Vdc Surge) [85 C; 100 Vdc (125 Vdc Surge)] UHL120T075DD1E /8 x 15/ UHL150T075DE1E /8 x 1 l/ UHL220T075DGlE /8 x 1 3/ UHL330T075DJ1E /8 x 1 5/ UHL470T075DL1E /8 x 2 3/ UHL680T075DX1E /8 x 2 11/ Vdc (125 Vdc Surge) [85 C; 150 Vdc (175 Vdc Surge)] UHL8R2T100DD1E /8 x 15/ UHL120T100DE1E /8 x 1 1/ UHL180T100DG1E /8 x 1 3/ UHL220T100DJlE /8 x 1 5/ UHL330T100DL1E /8 x 2 3/ UHL560T100DX1E /8 x 2 11/ Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com

242 Ratings Type 557 UHL, 125 C Military Grade, Axial Leaded, Aluminum ESR Z Max Ω Ripple A Nominal Cap. Catalog Ω 55 C C Size (in) F Number 120 Hz 120 Hz 100 khz 120 Hz 100 khz D x L 150 Vdc (175 Vdc Surge) [85 C; 200 Vdc (225 Vdc Surge)] UHL5R6T150DD1E /8 x 15/ UHL8R2T150DE1E /8 x 1 l/ UHL120T150DG1E /8 x 1 3/ UHL150T150DJ1E /8 x 1 5/ UHL270T150DL1E /8 x 2 3/ UHL390T150DX1E /8 x 2 11/ Vdc (250 Vdc Surge) [85 C; 250 Vdc (275 Vdc Surge)] UHL5R6T200DD1E /8 x 15/ UHL6R8T200DE1E /8 x 1 1/ UHL100T200DG1E /8 x 1 3/ UHL120T200DJ1E /8 x 1 5/ UHL220T200DL1E /8 x 2 3/ UHL270T200DX1E /8 x 2 11/16 Aluminum Axial Leaded 140 Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com 2.171

243 Type 057, 105 C Military Grade, Axial Leaded, Aluminum Type 057 capacitors are the commercial equivalent to MIL-C-39018/03 (CU17) types and are ideal for high reliability, long life and high temperature applications. Specifications Highlights Long life High Ripple High Temperature Operating Temperature: 55 C to +105 C Rated Voltage: 6.3 to 250 Vdc Capacitance: 12 F to 33,000 F Capacitance Tolerance: 10% to 75% Leakage Current: CV +25 C, CV +105 C Ripple Current Multipliers: Ambient Temperature 45 C 55 C 65 C 75 C 85 C 95 C 105 C p UHL p F hot MORE Frequency 50 Hz 60 Hz 120 Hz 360 Hz 1 khz 5 khz 10 khz Vdc Vdc Aluminum Axial Leaded Load Life: 2, C Capacitance 10% ESR 125% of limit DCL 100% of limit Shelf Life: 1, C Capacitance 10% ESR 100% of limit DCL 200% of limit Vibration: 10 to 500 Hz, 0.06 and 10 g max, 2 h in each plane Outline Drawings d = 20 AWG for D < 0.75, 18 AWG for D Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com

244 Type 057, 105 C Military Grade, Axial Leaded, Aluminum Case Dimensions Case Inches mm Case Inches mm Code D.016 L max D.41 L max Code D.016 L max D.41 L max FE HE FJ HJ FL HL FP HP FS v HS FT HT GE JE GJ JJ GL JL GP JP GS JS GT JT Insulated dimensions Insulated dimensions Part Numbering System U 250 FE 2 E Type Capacitance Tolerance Voltage Case Code Insulation Epoxy Endseal 057 6R8 = 6.8 F U = 10% + 75% 6R3 = 6.3 Vdc See 0 = Bare Can E = epoxy 120 = 12 F T = 10% + 50% 050 = 50 Vdc ratings 1 = Polyester Blank = no epoxy 681 = 680 F 250 = 250 Vdc 2 = PVC 682 = 6800 F Typical Performance Curves Impedance vs. Frequency Vdc Impedance vs. Frequency Vdc Aluminum Axial Leaded Temperature Characteristics Vdc Temperature Characteristics Vdc 140 Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com 2.173

245 Type 057, 105 C Military Grade, Axial Leaded, Aluminum Ratings ESR Ripple A Nominal Cap. Catalog 85 C Size (in) F Number 120 Hz 20 khz 120 Hz 20 khz D x L ESR Ripple A Nominal Cap. Catalog 85 C Size (in) F Number 120 Hz 20 khz 120 Hz 20 khz D x L Aluminum Axial Leaded 6.3 Vdc (8 Vdc Surge) U6R3FE /8 x 1 1/ U6R3GE /4 x 1 1/ U6R3FJ /8 x 1 5/ U6R3HE /8 x 1 1/ U6R3FL /8 x 2 1/ U6R3GJ /4 x 1 5/ U6R3FP /8 x 2 5/ U6R3GL /4 x 2 1/ U6R3HJ /8 x 1 5/ U6R3GP /4 x 2 5/ U6R3JJ x 1 5/ U6R3GS /4 x 3 1/ U6R3HL /8 x 2 1/ U6R3HP /8 x 2 5/ U6R3JL x 2 1/ U6R3HS /8 x 3 1/ U6R3JP x 2 5/ U6R3JS x 3 1/ U6R3JT x 3 5/8 7.5 Vdc (9 Vdc Surge) U7R5FE /8 x 1 1/ U7R5GE /4 x 1 1/ U7R5FJ /8 x 1 5/ U7R5HE /8 x 1 1/ U725FL /8 x 2 1/ U7RSGJ /4 x 1 5/ U7R5FP /8 x 2 5/ U7R5HJ /8 x 1 5/ U7R8GL /4 x 2 1/ U7R5GP /4 x 2 5/ U7RSJJ x 1 5/ U7R5GS /4 x 3 1/ U7R5HL /8 x 2 1/ U7R5HP /8 x 2 5/ U7R5JL x 2 1/ U7R5HS /8 x 3 1/ U7R5JP x 2 5/ U7R5JS x 3 1/ U7R5JT x 3 5/8 10 Vdc (12 Vdc Surge) U010FE /8 x 1 1/ U010GE /4 x 1 1/ U010FJ /8 x 1 5/ U010HE /8 x 1 1/ U010FL /8 x 2 1/ U010GJ /4 x 1 5/ U010FP /8 x 2 5/ U010GL /4 x 2 1/ U010HJ /8 x 1 5/ U010GP /4 x 2 5/ U010JJ x 1 5/ U010GS /4 x 3 1/ U010HL /8 x 2 1/ U010HP /8 x 2 5/ U010JL x 2 1/8 10 Vdc (12 Vdc Surge) (cont d) U010HS /8 x 3 1/ U010JP x 2 5/ U010JS x 3 1/ U010JT x 3 5/8 16 Vdc (20 Vdc Surge) U016FE /8 x 1 1/ U016GE /4 x 1 1/ U016FJ /8 x 1 5/ U016HE /8 x 1 1/ U016FL /8 x 2 1/ U016GJ /4 x 1 5/ U016FP /8 x 2 5/ U016GL /4 x 2 1/ U016HJ /8 x 1 5/ U016GP /4 x 2 5/ U016JJ x 1 5/ U016GS /4 x 3 1/ U016HL /8 x 2 1/ U016HP /8 x 2 5/ U016JL x 2 1/ U016HS /8 x 3 1/ U016JP x 2 5/ U016JS x 3 1/ U016JT x 3 5/8 25 Vdc (35 Vdc Surge) U025FE /8 x 1 1/ U025GE /4 x 1 1/ U025FJ /8 x 1 5/ U025HE /8 x 1 1/ U025FL /8 x 2 1/ U025GJ /4 x 1 5/ U025FP /8 x 2 5/ U025GL /4 x 2 1/ U025HJ /8 x 1 5/ U025GP /4 x 2 5/ U025JJ x 1 5/ U025GS /4 x 3 1/ U025HL /8 x 2 1/ U025HP /8 x 2 5/ U025JL x 2 1/ U025JP x 2 5/ U025HS /8 x 3 1/ U025JS x 3 1/ U025JT x 3 5/8 40 Vdc (55 Vdc Surge) U040FE /8 x 1 1/ U040GE /4 x 1 1/ U040FJ /8 x 1 5/ U040HE /8 x 1 1/ U040FL /8 x 2 1/ U040GJ /4 x 1 5/ U040FP /8 x 2 5/ U040HJ /8 x 1 5/ UO40GL /4 x 2 1/ Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com

246 Type 057, 105 C Military Grade, Axial Leaded, Aluminum Ratings ESR Ripple A Nominal Cap. Catalog 85 C Size (in) F Number 120 Hz 20 khz 120 Hz 20 khz D x L ESR Ripple A Nominal Cap. Catalog 85 C Size (in) F Number 120 Hz 20 khz 120 Hz 20 khz D x L 40 Vdc (55 Vdc Surge) (cont d) U040GP /4 x 2 5/ U040HL /8 x 2 1/ U040JJ x 1 5/ U040GS /4 x 3 1/ U040HP /8 x 2 5/ U040JL x 2 1/ U040HS /8 x 3 1/ U040JP x 2 5/ U040JS x 3 1/ U040JT x 3 5/8 50 Vdc (70 Vdc Surge) U050FE /8 x 1 1/ U050GE /4 x 1 1/ U0S0FJ /8 x 1 5/ U050HE /8 x 1 1/ U050GJ /4 x 1 5/ U050FL /8 x 2 1/ U050FP /8 x 2 5/ U050GL /4 x 2 1/ U050HJ /8 x 1 5/ U050GP /4 x 2 5/ U050HL /8 x 2 1/ U050JJ x 1 5/ U050GS /4 x 3 1/ U050JL x 2 1/ U050HP /8 x 2 5/ U050HS /8 x 3 1/ U050JP x 2 5/ U050JS x 3 1/ U050JT x 3 5/8 100 Vdc (135 Vdc Surge) U100FE /8 x 1 1/ U100GE /4 X 1 1/ U100FJ /8 X 1 5/ U100HE /8 X 1 1/ U100FL /8 X 2 1/ U100GJ /4 X 1 5/ U100FP /8 X 2 5/ U100GL /4 X 2 1/ U100HJ /8 X 1 5/ U100GP /4 X 2 5/ U100JJ X 1 5/ U100HL /8 X 2 1/ U100GS /4 X 3 1/ U100HP /8 X 2 5/ U100JL X 2 1/ U100HS /8 x 3 1/ U100JP x 2 5/ U100JS x 3 1/ U100JT x 3 5/8 200 Vdc (250 Vdc Surge) (cont d) U200FL /8 x 2 1/ U200GJ /4 x 1 5/ U200FP /8 x 2 5/ U200GL /4 x 2 1/ U200HJ /8 x 1 5/ U00GP /4 x 2 5/ U200HL /8 x 2 1/ U200JJ x 1 5/ U200GS /4 x 3 1/ U200HP /8 x 2 5/ U200JL x 2 1/ U200HS /8 x 3 1/ U200JP x 2 5/ U200JS x 3 1/ U200JT x 3 5/8 250 Vdc (300 Vdc Surge) U250FE /8 x 1 1/ U250GE /4 x 1 1/ U250FJ /8 x 1 5/ U250HE /8 x 1 1/ U250FL /8 x 2 1/ U250GJ /4 x 1 5/ U250FP /8 x 2 5/ U250GL /4 x 2 1/ U250HJ /8 x 1 5/ U250GP /4 x 2 5/ U250JJ x 1 5/ U250HL /8 x 2 1/ U250GS /4 x 3 1/ U250HP /8 x 2 5/ U250JL x 2 1/ U250HS /8 x 3 1/ U250JP x 2 5/ U250JS x 3 1/ U250JT x 3 5/8 Aluminum Axial Leaded 200 Vdc (250 Vdc Surge) OU200FE /8 x 1 1/ U200GE /4 x 1 1/ U200FJ /8 x 1 5/ U200HE /8 x 1 1/8 140 Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com 2.175

247 Type 7P, 55 C Photoflash, High-Energy, Long Life, Aluminum Type 7P Photoflash High Energy, Long-Life Snapmount or Solder-Lug Terminals Rugged Type 7P capacitors can withstand more than 100,000 full discharges in typical photoflash applications that s more than ten times the life of ordinary photoflash capacitors. And thanks to special, high-energy anode foil, the Type 7P has industryleading energy densities of more than 1 joule per cc. Highlights 100,000 flash capability 1 joule per cc energy density Specifications Operating Temperature Range: 20 C to +55 C Rated Voltage: 330 or 360 Vdc Capacitance: 300 to 3000 F 10% +20% Leakage Current: 1 times C in A maximum at 5 min. Dissipation Factor (Tan ): 15% 25 C & 120 Hz Discharge Life: 100,000 minimum at 30 s interval Capacitance 10% ESR 150% of limit DCL 150% of limit Shelf Life: C Capacitance 10% ESR 150% of limit DCL 150% of limit Vibration: 10 to 55 Hz; 0.06 and 10 g max, 6 h vertical, 2 h. ea. 2 other planes Outline Drawings Photoflash Strobe-Flash Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com

248 Type 7P, 55 C Photoflash, High-Energy, Long Life, Aluminum Terminal Drawings Snap-In Terminals Solder-Lug Terminals Part Numbering System 7P 122 V 330 N05 2 L Type Capacitance Tolerance Rated Case Insulation Terminals 301 = 300 F % Voltage Code 2 = PVC (blank) = snap-in 122 = 1200 F L = solder lugs Ratings ESR Max. Ω Cap. +25 C Diameter Length F Number 120 Hz mm in mm in 330 Vdc (360 Vdc Surge) 300 7P301V330J P301V330K P351V330J P351V330K P401V330J P401V330K P501V330J P501V330K P601V330K P701V330A P801V330A P901V330A P901V330A P102V330A P102V330N P122V330A P152V330A P202V330A P272V330N ESR Max. Ω Cap. +25 C Diameter Length F Number 120 Hz mm in mm in 360 Vdc (390 Vdc Surge) 300 7P301V360J P351V360K P351V360A P401V360J P401V360K P451V360K P451V360A P501V360K P601V360A P701V360A P801V360A P901V360N P102V360A P122V360A P152V360A P202V360N P252V360N Photoflash Strobe-Flash 140 Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com 2.177

249 Type PF, 55 C Photoflash, High-Energy, Long Life, 500 V, Aluminum High Energy, Long-Life High Energy, Long-Life Screw-Terminals Case Style Type PF can withstand more than 100,000 full discharges in typical photoflash applications, and Type PF also delivers the higher energy density possible with a rated voltage of 500 V and higher capacitance values in screw-terminal style cans. Type PF is right for the highest flash-energy applications. Highlights 100,000 flash capability 1 joule per cc energy density Specifications Operating Temperature Range: 20 C to 55 C Rated Voltage: 500 Vdc Capacitance: 600 to 2100 F 10% +20% Leakage Current: 1 times C in A maximum Dissipation Factor (Tan ): 15% 25 C & 120 Hz Discharge Life: 100,000 minimum at 30 s interval Capacitance 10%, ESR 150% of limit DCL 150% of limit Shelf Life: C Capacitance 10% ESR 150% of limit DCL 150% of limit Vibration: 10 to 55 Hz; 0.06 and 10 g max, 6 h vertical, 2 h. ea. 2 other planes Photoflash Strobe-Flash Outline Drawings ( ) S D H Terminal Styles Code (in) (mm) Thread Low Post A High Post B Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com

250 Type PF, 55 C Photoflash, High-Energy, Long Life, 500 V, Aluminum Case Dimensions Insulated Case Dimensions Diam. (D) Length (L) Terminals (S) Typical Case Weight Code Inches mm Inches mm Inches mm oz g AK AA AH AB AJ AC AD AE AF EA EH EB EJ EC ED EE EF BA BH BB BJ BC BD BE BF Part Numbering System PF 212 V 500 BF 2 B Type Capacitance Tolerance Rated Case Insulation Terminals 601 = 600 F % Voltage Code 0 = none A = Low post, = 2100 F Vdc 2 = PVC B = High post, Ratings Photoflash Strobe-Flash ESR Max. Ω Cap. Catalog +25 C Diameter Length F Number 120 Hz (mm) (in) (mm) (in) 500 Vdc (550 Vdc Surge) 600 PF601V500AJ2B PF801V500AD2B PF901V500EJ2B PF102V500AF2B PF122V500BJ2B PF132V500ED2B PF162V500BD2B PF172V500EF2B PF212V500BF2B Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com 2.179

251 Type ST, 55 C Strobe-Flash, Long-Life, 360 & 450 V, Aluminum Type ST Strobe-Flash Specifications High Energy, Long-Life Rugged Type ST capacitors can withstand more than 30 million full discharges in typical strobe-lamp applications that s more than ten years operation in emergency vehicles. This exceptional life capability is also available in screw-terminal and other case styles and other capacitance values. The ST s magic is its ability to handle the spectrum of currents caused by full discharge at 1 Hz and faster rates. Because discharge energy is at frequencies from less than a hertz to thousands of hertz, power loss and heating are not predicted by the ESR at 120 Hz, and the openstructure anode foil of Type ST excels at low loss over the full spectrum. Highlights Tested to More than 10 Million Flashes More than 30 Million Flashes Typical Life Snapmount or Solder-Lug Terminals Operating Temperature: 40 C to +55 C Rated Voltage: 360 or 450 Vdc Capacitance: 30 to 300 F 10% +20% Leakage Current: 0.01 CV +20 A at 25 C Cold Impedance: 20 C multiplier of 25 C Z 2 Dissipation Factor: 7% 25 C & 120 Hz Discharge Life: 10 million discharges at 1 s interval, xenon flash tube 0.7 to 1Ω capacitance 10%, ESR 150% of limit, DCL 150% of limit Shelf Life: C, capacitance 10% ESR 150% of limit, DCL 150% of limit Vibration: 10 to 55 Hz; 0.06 and 10 g max, 6 h vertical, 2 h each, 2 other planes Outline Drawings Photoflash Strobe-Flash Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com

252 Type ST, 55 C Strobe-Flash, Long-Life, 360 & 450 V, Aluminum Terminal Drawings Snap-In Terminals Solder-Lug Terminals S Case Dimensions Diam. (D) Length (L) Terminal Typical Case Max. Max. Spacing (S) Weight Code mm Inches mm Inches mm Inches H J J J J J K K K A A Photoflash Strobe-Flash 140 Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com 2.181

253 Type ST, 55 C Strobe-Flash, Long-Life, 360 & 450 V, Aluminum Part Numbering System ST 121 V 360 J05 2 L Type Capacitance Tolerance Rated Case Insulation Terminals 300 = 30 F % Voltage Code 2 = PVC blank = snap-in 121 = 120 F L = solder lugs Typical Performance Curves Ratings ESR Max. Ω Cap. Catalog +25 C Diameter Length F Number 120 Hz mm in mm in 360 Vdc (390 Vdc Surge) Photoflash Strobe-Flash 48 ST480V360J ST600V360J ST800V360J ST101V360J ST121V360K ST151V360J ST201V360K ST251V360A ST301V360A Vdc (500 Vdc Surge) 30 ST300V450J ST400V450H ST500V450J ST600V450J ST800V450J ST101V450K ST121V450K ST151V450A Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com

254 Application Guide, Aluminum Electrolytic This Application Guide This guide is a full handbook on aluminum electrolytic capacitors, of course with emphasis on Cornell Dubilier s types. It covers construction in depth and discloses the latest information on performance and application for the major aluminum electrolytic types made worldwide. We encourage you to tell us what more you d like to know, so we can improve this guide. Aluminum Electrolytic Capacitor Overview Except for a few surface-mount technology (SMT) aluminum electrolytic capacitor types with solid electrolyte systems an aluminum electrolytic capacitor consists of a wound capacitor element, impregnated with liquid electrolyte, connected to terminals and sealed in a can. The element is comprised of an anode foil, paper separators saturated with electrolyte and a cathode foil. The foils are high-purity aluminum and are etched with billions of microscopic tunnels to increase the surface area in contact with the electrolyte. While it may appear that the capacitance is between the two foils, actually the capacitance is between the anode foil and the electrolyte. The positive plate is the anode foil; the dielectric is the insulating aluminum oxide on the anode foil; the true negative plate is the conductive, liquid electrolyte, and the cathode foil merely connects to the electrolyte. This construction delivers colossal capacitance because etching the foils can increase surface area more than 100 times and the aluminum-oxide dielectric is less than a micrometer thick. Thus the resulting capacitor has very large plate area and the plates are awfully close together. These capacitors routinely offer capacitance values from 0.1 µf to 3 F and voltage ratings from 5 V to 500 V. They are polar devices, having distinct positive and negative terminals, and are offered in an enormous variety of styles which include molded and can-style SMT devices, axial- and radial-leaded can styles, snap-in terminals styles and large-can, screwterminal styles. Representative capacitance-voltage combinations include 330 µf at 100 V and 6800 µf at 10 V for SMT devices, 100 µf at 450 V, 6,800 µf at 50 V and 10,000 µf at 10 V for miniature-can styles, 1200 µf at 450 V and 39,000 µf at 50 V for snap-in can styles and 9000 µf at 450 V and 390,000 µf at 50 V for large-can, screw-terminal styles. If two, same-value, aluminum electrolytic capacitors are connected in series, back-to-back with the positive terminals or the negative terminals connected, the resulting single capacitor is a non-polar capacitor with half the capacitance. The two capacitors rectify the applied voltage and act as if they had been bypassed by diodes. When voltage is applied, the correct-polarity capacitor gets the full voltage. In non-polar aluminum electrolytic capacitors and motor-start aluminum electrolytic capacitors a second anode foil substitutes for the cathode foil to achieve a non-polar capacitor in a single case. Aluminum Application Guide 140 Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com 2.183

255 Application Guide, Aluminum Electrolytic Capacitor Construction aluminum and create a dense network of billions of microscopic tunnels penetrating through the foil. Etching involves pulling the aluminum foil on rollers through a chloride solution while applying an AC, DC or AC-and-DC voltage between the etch solution and the aluminum foil. Surface area can increase as much as 100 times for foil in low-voltage capacitors and 20 to 25 times for high-voltage capacitors. Miniature, Radial-Leaded Type Conventional Construction Snap-in Type Cornell Dubilier Thermal Pak Forming The anode foil carries the capacitor s dielectric. The dielectric is a thin layer of aluminum oxide, Al 2 O 3, that is chemically grown on the anode foil during a process called formation. Formation is accomplished by pulling the anode foil on rollers through an electrolyte bath and continuously applying a DC voltage between the bath and the foil. The voltage is 135% to 200% of the final capacitor s rated voltage. The thickness of the aluminum oxide is about 1.4 to 1.5 nm for each volt of the formation voltage, e.g., the anode foil in a 450 V capacitor may get a formation voltage in excess of 600 V and have an oxide thickness of about 900 nm. That s less than a hundredth the thickness of a human hair. Formation reduces the effective foil surface area because the microscopic tunnels are partially occluded by the oxide. The tunnel etch pattern is adjusted by choice of foil and etching process so that low-voltage anodes have dense tunnel patterns compatible with thin oxide and high-voltage anodes have coarse tunnel patterns compatible with thick oxide. The cathode foil is not formed and it retains its high surface area and dense etch pattern. Aluminum Application Guide Large-Can, Screw-Terminal Type These figures show typical constructions of the non-surface-mount aluminum electrolytic capacitors. All Cornell Dubilier capacitors use compression-fit construction so there is no thermoplastic potting compound to interfere with safety-vent operation. Thermal Pak is Cornell Dubilier s unique construction for computergrade, screw terminal capacitors. Compared to conventional, potted construction, Thermal Pak operates cooler, provides longer life, withstands higher shock and vibration, delivers more reliable safety vent operation and is lighter weight. Etching The anode and cathode foils are made of high purity, thin aluminum foil, 0.02 to 0.1 mm thick. To increase the plate area and the capacitance, the surface area in contact with the electrolyte is increased by etching the foils to dissolve Slitting Foil is etched and formed in jumbo rolls of 40 to 50 cm wide and then slit into various widths according to the lengths of the final capacitors. Winding The capacitor element is wound on a winding machine with spindles for one-to-four separator papers, the anode foil, another set of one-to-four separator papers and the cathode foil. These are wound into a cylinder and wrapped with a strip of pressure-sensitive tape to prevent unwinding. The separators prevent the foils from touching and shorting, and the separators later hold the reservoir of electrolyte. Before or during winding aluminum tabs are attached to the foils for later connection to the capacitor terminals. The best method is by cold-welding of the tabs to the foils with tab locations microprocessor controlled during winding so that the capacitor element s inductance can be less Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com

256 Application Guide, Aluminum Electrolytic than 2 nh. The older method of attachment is by staking, a process of punching the tab through the foil and folding down the punched metal. Cold welding reduces short-circuit failures and performs better in high-ripple current and discharge applications in which the individual stakes may fail from high current like buttons popping off one at a time from a fat-man s vest. solvent and a conductive salt a solute to produce electrical conduction. Common solvents are ethylene glycol (EG), dimethylformamide (DMF) and gammabutyrolactone (GBL). Common solutes are ammonium borate and other ammonium salts. EG is typically used for capacitors rated 20 C or 40 C. DMF and GBL are often used for capacitors rated 55 C. Wound Capacitor Elements Connecting Terminals In SMT capacitors and miniature capacitors with rubberbungs, extensions of the tabs are the capacitor terminals. But in large-can capacitors like snap-ins and screw-terminal styles, the tabs are riveted or welded on the underside of the capacitor tops to terminal inserts. Welding produces the lowest contact resistance and highest current handling. Both resistive welding and ultrasonic welding are used. The up to 12 tab pairs that may be used in large screw-terminal capacitors often require more mechanical support during assembly so the tabs in such capacitors may be both riveted to post extensions on the terminals and then welded. In an axial-leaded capacitor the cathode tab is welded to the can before sealing. Impregnation The capacitor element is impregnated with electrolyte to saturate the paper separators and penetrate the etch tunnels. The method of impregnation may involve immersion of the elements and application of vacuum-pressure cycles with or without heat or, in the case of small units, just simple absorption. The electrolyte is a complex blend of ingredients with different formulations according to voltage and operating temperature range. The principal ingredients are a Capacitor-Element Materials Water in the electrolyte plays a big role. It increases conductivity thereby reducing the capacitor s resistance, but it reduces the boiling point so it interferes with high temperature performance, and it reduces shelf life. A few percent of water is necessary because the electrolyte maintains the integrity of the aluminum oxide dielectric. When leakage current flows, water is broken into hydrogen and oxygen by hydrolysis, and the oxygen is bonded to the anode foil to heal leakage sites by growing more oxide. The hydrogen escapes by passing through the capacitor s rubber seal. Sealing The capacitor element is sealed into a can. While most cans are aluminum, phenolic cans are often used for motorstart capacitors. In order to release the hydrogen the seal is not hermetic and it is usually a pressure closure made by rolling the can edge into a rubber gasket, a rubber end-plug or into rubber laminated to a phenolic board. In small capacitors molded phenolic resin or polyphenylene sulfide may replace the rubber. Too tight a seal causes pressure build up, and too loose a seal shortens the life by permitting drying out, loss of electrolyte. Aluminum Application Guide 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 2.185

257 Application Guide, Aluminum Electrolytic Aging Here the capacitor assembly comes full circle. The last manufacturing step is aging during which a DC voltage greater than the rated voltage but less than the formation voltage is applied to the capacitor. Usually the voltage is applied at the capacitor s rated temperature, but other tem- peratures and even room temperature may be used. This step reforms the cut edges and any damaged spots on the anode foil and covers any bare aluminum with aluminum oxide dielectric. Aging acts as burn-in and reduces or eliminates early life failures (infant mortals). Low, initial DC leakage current is a sign of effective aging. Comparison to Other Types of Aluminum Application Guide Ceramic Ceramic capacitors have become the preeminent, generalpurpose capacitor, especially in SMT chip devices where their low cost makes them especially attractive. With the emergence of thinner-dielectric, multilayer units with rated voltages of less than 10 V capacitance values in the hundreds of microfarads have become available. This intrudes on the traditional, high-capacitance province of aluminum electrolytic capacitors. Ceramic capacitors are available in three classes according to dielectric constant and temperature performance. Class 1 (NPO, COG) is suitable for low capacitance, tight tolerance applications in the range of 1 pf to a few mf. Class 2 (X7R) has 20 to 70 times as much capacitance per case size, but capacitance typically varies about ± 10% over its 55 to 125 C temperature range. The maximum change is +15 % to 25%. Class 3 (Z5U) with about 5 times the capacitance of Class 2 has wild swings of capacitance with voltage and temperature. The temperature range is 25 C to 85 C, and capacitance varies about +20% 65% over the range. Ceramic chip capacitors are brittle and sensitive to thermal shock, so precautions need to be taken to avoid cracking during mounting, especially for high-capacitance large sizes. The typical temperature range for aluminum electrolytic capacitors is 40 C to 85 C or 105 C. Capacitance varies about +5% 40% over the range with the capacitance loss all at cold temperatures. rated 55 C generally only have 10 % to 20 % capacitance loss at 40 C. Cold temperature performance for rated voltages of 300 V and higher is often worse, and temperature performance varies by manufacturer. Thus Class 1 and 2 ceramic capacitors perform better than aluminum electrolytic capacitors at cold temperatures, and Class 3 ceramic capacitors perform worse at all temperatures. Aluminum electrolytic capacitors readily deliver much more capacitance. Aluminum electrolytic capacitors give more capacitance and energy storage per unit volume than ceramic capacitors for all types except for low-voltage, Class 3 ceramic SMT chip capacitors. While tolerances of ±5% and ±10% are routine for ceramic capacitors, ± 20% and 10% +50% are the norms for aluminum electrolytic. This makes aluminum electrolytics the choice for highcapacitance applications like rectification filters and power hold up where more capacitance is a bonus. Ceramic capacitors are not polarized and therefore can be used in AC applications. The low DF and high capacitance stability of Class 1 and 2 are especially suited to AC and RF applications. By comparison, aluminum electrolytic capacitors are polarized and cannot withstand voltage reversal in excess of 1.5 V. While non-polar aluminum electrolytics are available for momentary-duty AC applications like motor starting and voltage-reversing applications, the high DF of aluminum electrolytic capacitors from 2% to 150% causes excess heating and short life in most AC applications. Ceramic capacitors are generally no more reliable than aluminum electrolytic capacitors because aluminum electrolytics self heal. Since high-capacitance ceramic capacitors may develop micro-cracks, aluminum electrolytic capacitors are preferred for high capacitance values. However, small sizes of aluminum electrolytic capacitors may have limited life due to dry out, and so consider reliability in your choice for applications operating at high temperatures, over 65 C. Film Film capacitors offer tight capacitance tolerances, very low leakage currents and small capacitance change with temperature. They are especially suited to AC applications through their combination of high capacitance and low DF that permits high AC currents. However, they have relatively large sizes and weights. The popular polymers used for plastic-film dielectric capacitors are polyester and polypropylene. The popular polymer for SMT devices is polyphenylene sulfide (PPS). While film/foil construction is often used for small capacitance values less than 0.01 µf and for high-current applications, metallized-film is usually preferred because it gives smaller size, lower cost and is self healing. Film capacitors are general-purpose capacitors for through-hole applications and have special uses for tight-tolerance, AC voltage, high voltage and snubbing Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com

258 Application Guide, Aluminum Electrolytic Polyester film capacitors operate from is 55 C to 85 C at rated voltage; +85 C to 125 C with linear voltage derating to 50% rated voltage. The typical capacitance change over the entire range is less than 5% +15% with ±1% from 0 C to 50 C. Capacitance values are readily available up to 10 µf with special large sections to 100 µf. Generally available voltages are 50 to 1000 Vdc and 35 to 600 Vac. AC current handling is limited by polyester s hightemperature DF of about 1%. Polypropylene film capacitors operate from 55 C to 85 C at rated voltage; 85 C to 105 C with linear voltage derating to 50% rated voltage. The typical capacitance change over the entire range is less than +2% 4% with ±1% from 20 C to 60 C. Capacitance values are readily available up to 65 µf with special large sections to 1000 µf. Generally available voltages are 100 to 3000 Vdc and 70 to 500 Vac. AC current handling permits use in motor-run and other continuous duty AC applications. Compared to aluminum electrolytic capacitors, film capacitors take the lead in high voltage, AC voltage and tight tolerance applications. Aluminum electrolytics excel in capacitance and energy storage. Solid Tantalum Like aluminum electrolytic capacitors solid tantalum capacitors are polar devices (1 V maximum reverse voltage), having distinct positive and negative terminals and are offered in a variety of styles. Case styles include both molded and conformal-coated versions of radial, axial and surface mount configurations. Typical capacitance values are from 0.1 µf to 1000 µf in voltage ratings from 2 V to 50 V. Typical maximum capacitance-voltage combinations are approximately 22 µf at 50 V for leaded styles and 22 µf at 35 V for surface mount. Strengths are temperature stability, volumetric efficiency and compatibility with all automated assembly systems. Weaknesses are the limited voltage and capacitance ranges and a short-circuit failure mode accompanied by catching fire. The operating temperature range is 55 C to 85 C at rated voltage; +85 C to 125 C with linear voltage derating to 2/3 rated voltage. The typical capacitance change over the entire range is less than ±5%. Thus aluminum electrolytic capacitors have a much broader voltage and capacitance ranges than solid tantalum capacitors but perform worse at cold temperature. Solid tantalum capacitors are generally considered more reliable than aluminum electrolytic capacitors because solid tantalum capacitors do not wear out. Their failure rate decreases with time, while aluminum electrolytic capacitors wear out by drying out. As a practical matter, dry-out only affects the smallest capacitors operating in high-temperature environments. Larger aluminum electrolytics do not dry out in the 10 to 20 years expected of most applications, and the open-circuit, dry-out failure is benign compared to solid-tantalum s short circuit failure mode. Characterization CIRCUIT MODEL Capacitance occurs when two electrical conductors are separated by an insulator. A capacitor is an electronic component optimized to deliver capacitance. The capacitance in µf is C = 8.855(n-1) A/d Where n is the number of plates or electrodes, is the dielectric constant, A is the plate surface area in cm 2 and d is the thickness of the dielectric between the plates in cm. Dielectric constant is the multiplier increase in capacitance that the dielectric delivers compared to a vacuum. The dielectric constant for aluminum oxide is about 8. The circuit at the right models the aluminum electrolytic capacitor s normal operation as well as overvoltage and reverse-voltage behavior. Capacitance C is the equivalent capacitance and it decreases with increasing frequency. Common values range from 1 µf to 1 F, a six-decade range. Resistance Rs is the equivalent series resistance, and it decreases with increasing frequency and temperature. It Equivalent Circuit increases with rated voltage. Typical values range from 10 m to 1, and Rs is inversely proportional to capacitance for a given rated voltage. Inductance Ls is the equivalent series inductance, and it is relatively independent of both frequency and temperature. Typical values range from 10 nh to 30 nh for radial-leaded types, 20 to 50 nh for screw-terminal types, and up to 200 nh Aluminum Application Guide 140 Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com 2.187

259 Application Guide, Aluminum Electrolytic for axial-leaded types. It increases with terminal spacing. Resistance Rp is the equivalent parallel resistance and accounts for leakage current in the capacitor. It decreases with increasing capacitance, temperature and voltage, and it increases with time. Typical values are on the order of 100/C M with C in µf. Zener diode D models overvoltage and reverse voltage behavior. Application of overvoltage on the order of 50 V beyond the capacitor s surge voltage rating causes high leakage current and a constant-voltage operating mode quite like the reverse conduction of a zener diode. Application of reverse voltage much beyond 1.5 V causes high leakage current quite like the forward conduction of a diode. Neither of these operating modes can be maintained for long because hydrogen gas is produced by the capacitor, and the pressure build up will cause failure. In terms of parameters in the next section, Rated Capacitance is C, Dissipation Factor is 2πfCRs, Equivalent Series Resistance is Rs, Impedance is [(Rs) 2 + (1/(2πfC) 2πfLs) 2 ] 1 2 and Inductance is Ls. The table below expresses these and other parameters in terms of the equivalent-circuit model. Parameter Unit Symbol Formula Approximately Capacitance farads (F) C Capacitive Reactance ohms ( ) Xc 1/(2πfC) Z Current amperes (A) I C(dV/dt), Vz/Z Dissipation Factor none DF Rs/Xc, 2πfCRs, tan( ), cot ( ) PF Energy Joules (J) E 1 2CV 2 Equivalent Series Resistance ohms ( ) Rs DF/(2πfC) Frequency hertz (Hz) f Impedance ohms ( ) Z [Rs 2 +(Xc 2 X L2 )] 1 2 Xc Inductance henries (H) Ls Inductive Reactance ohms ( ) X L 2πfL Loss Angle degrees ( ) tan -1 (DF) Phase Angle degrees ( ) cot -1 (DF) Power watts (W) P I 2 Rs Power Factor none PF Rs/Z, sin( ), cos( ) DF Quality Factor none Q Xc/Rs, 1/DF, cot( ), tan( ) 1/PF Self-Resonant Frequency hertz (Hz) 0 1/[2π(LC) 1 2] Voltage volts (V) V Vc=IXc, Vz=IZ Volt-Amperes V-A VA IVz, I 2 Z Parameters Aluminum Application Guide Temperature Range Operating Temperature Range The Operating Temperature Range is the temperature range over which the part will function, when electrified, within the limits given in the specification. It is the range of ambient temperatures for which the capacitor has been designed to operate continuously. Largely the formation voltage sets the high-temperature limit. Higher formation voltages permit higher operating temperatures but reduce the capacitance. The low-temperature limit is set largely by the cold resistivity of the electrolyte. The higher cold resistivity increases the capacitor s ESR 10 to 100 fold and reduces the available capacitance. Typical temperature ranges are 20 C to 55 C, 25 C to 85 C, 40 C to 85 C, 55 C to 85 C, 40 C to 105 C, 55 C to 105 C and 55 C to 125 C. Storage Temperature Range The Storage Temperature Range is the temperature range to which the part can be subjected unbiased, and retain conformance to specified electrical limits. It is the range of ambient temperatures over which the capacitor may be stored without damage for short periods. For long periods of storage keep capacitors at cool room temperatures and in an atmosphere free of halogen gases like chlorine and fluorine that can corrode aluminum Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com

260 Application Guide, Aluminum Electrolytic Storage temperature ranges are from 55 C to the upper limit of the operating-temperature ranges. Rated Capacitance The rated capacitance is the nominal capacitance and it is specified at 120 Hz and a temperature of 25 C. The rated capacitance is also the capacitance marked on the unit. Capacitance Tolerances Capacitance tolerance is the permitted minimum and maximum capacitance values expressed as the percentage decrease and increase from the rated capacitance, C/C. Typical capacitance tolerances are ±20%, 10% +50%, and 10% +75%. Tighter tolerances are more readily available in high voltage capacitors, e.g., above 150 V, but tolerances tighter than ±10% are generally not available. Note that tighter tolerance parts may meet other tolerance requirements and are readily substitutable. The capacitance varies with temperature and frequency. This variation itself is also dependent on the rated voltage and capacitor size. Capacitance measurement For aluminum electrolytic capacitors, capacitance is measured as the capacitance of the equivalent series circuit at 25 C in a measuring bridge supplied by a 120 Hz source free of harmonics with maximum AC signal voltage of 1 V rms and no forward-bias voltage. Capacitance Temperature characteristics The capacitance varies with temperature. This variation itself is dependent to a small extent on the rated voltage and capacitor size. Capacitance increases less than 5% from 25 C to the high-temperature limit. For devices rated 40 C capacitance typically declines 20% at 40 C for low-voltage units and up to 40% for high-voltage units. Most of the decline is between 20 C and 40 C. For devices rated 55 C capacitance typically declines less than 10% at 40 C and less than 20% at 55 C. Capacitance Frequency characteristics The effective capacitance decreases as frequency increases. Self-resonance is typically below 100 khz depending on capacitance. At self-resonance the device is resistive and beyond it is inductive. The termination style (i.e., axial, radial, screw-terminal) will influence the inductive characteristics. Small radial-leaded capacitors have inductance of less than 20 nh. Larger capacitors have more inductance according to terminal spacing. Dissipation Factor (DF) Dissipation factor is the measurement of the tangent of the loss angle (tan ) expressed as a percentage. It is also the ratio of the ESR to the capacitive reactance and is thus related to ESR by this equation: DF = 2πfC(ESR)/10,000 Where DF is a unit-less number express in percent, test frequency f is in Hz, capacitance C is in µf and ESR is in. DF measurement The measurement of DF is carried out at +25 C, 120 Hz, and no voltage bias, with a maximum 1 Vac rms signal voltage free of harmonics. The value of DF is temperature and frequency dependent. DF Temperature characteristics The dissipation factor decreases with increasing temperature. DF declines about 50% from 25 C to the high-temperature limit, but increases more than 10 fold at the lowtemperature limit. The DF of the better devices rated 55 C increase less than 5 times at 40 C. DF lf, defined in the next paragraph, varies little with temperature and ESR hf, also in the next paragraph, increases 10 to 100 times from 25 C to the low-temperature limit. The increase in DF at cold temperatures is set by the ESR hf. DF Frequency characteristics The dissipation factor varies with frequency at high frequencies. DF can be modeled as below: DF = DF lf + 2πfC(ESR hf)/10,000 Where DF is the total dissipation factor in percent, DF lf is the low-frequency dissipation factor in percent, ESR hf is the high-frequency ESR in, f is the test frequency in Hz and C is the capacitance in µf at the test frequency. DF lf results from the power lost by the applied electric field in orienting the molecules of the aluminum oxide dielectric. ESR hf results from the resistive losses in the foils, connections and the electrolyte/separator pad. The electrolyte/ separator pad resistance usually dominates and its resistance varies little with frequency. DF lf ranges from about 1.5% to 3%. ESR hf ranges from to 10 and decreases with temperature. The DF equation above shows that DF is constant for low frequencies and crosses over to declining-df, constant- ESR, at a crossover frequency inversely proportional to capacitance. Since high-capacitance capacitors have low crossover frequencies, DF decreases more with increasing frequency than for lower-capacitance capacitors. Equivalent Series Resistance (ESR) The equivalent series resistance (ESR) is a single resistance representing all of the ohmic losses of the capacitor and connected in series with the capacitance. Aluminum Application Guide 140 Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com 2.189

261 Application Guide, Aluminum Electrolytic ESR measurement For aluminum electrolytic capacitors, ESR is measured as the resistance of the equivalent series circuit at 25 C in a measuring bridge supplied by a 120 Hz source free of harmonics with maximum AC signal voltage of 1 V rms and no forward-bias voltage. ESR Temperature characteristics The ESR declines with increasing temperature. ESR declines about 35% to 50% from 25 C to the high-temperature limit, but increases more than 10 fold at the low-temperature limit. The ESR of devices rated 20 C or 40 C can increase more than 100 times at 40 C. DF lf varies little with temperature and ESR hf increases 10 to 100 times from 25 C to the low-temperature limit. The increase in ESR at cold temperatures is set by the ESR hf. ESR Frequency characteristics Like DF, the ESR varies with frequency. Rewriting the DF equation above, ESR can be modeled as below: ESR = 10,000(DF lf)/(2πfc) + ESR hf Expressing the ideas in ESR terms, at low frequencies the ESR declines steadily with increasing frequency and crosses over to constant ESR at a frequency inversely proportional to capacitance. This crossover is typically below 10 khz. The ESR of high-capacitance capacitors changes little with increasing frequency because high-capacitance causes them to have low crossover frequencies. The ESR hf ranges from for large, screw-terminal capacitors to 10 for miniature devices. Impedance (Z) For aluminum electrolytic capacitors impedance is actually impedance magnitude. It is the ratio of voltage to current at a given frequency and is related to the capacitor s capacitance, ESR and series inductance as follows: Z = [(ESR) 2 + (1/(2πfC) 2πfL) 2 ] 1 2 For low-temperature impedance measurement, place the capacitors in a chamber set to the low-temperature limit ±2 C. Measure impedance at 120 ±5 Hz using any suitable method providing an accuracy of ±2 1 2%. After temperature stabilization, make the measurements quickly using as small as practical an AC measuring voltage in order that it will not cause heating of the capacitors. Assure that the capacitors have reached thermal stability by demonstrating that two successive measurements taken at 15 minute intervals show no change. Z Temperature characteristics Impedance typically decreases less than 5% from 25 C to the high-temperature limit but increases up to 10 times to the low-temperature limit. Z Frequency characteristics The frequency characteristics of impedance are dictated by the contributions from capacitive reactance (1/(2πfC)), inductive reactance (2πfL) and from resistive losses in the electrolyte. A typical impedance-versus-frequency curve is shown below. The low point is at the self-resonant frequency, and the impedance is equal to the ESR at that fre- Impedance versus Frequency Aluminum Application Guide Where Z is impedance in, ESR is equivalent series resistance in, f is frequency in Hz, C is capacitance in F and L is equivalent series inductance in H. Z measurement For aluminum electrolytic capacitors, Z is measured as the impedance magnitude of the equivalent series circuit at 25 C in a measuring bridge supplied by a variable frequency source capable of delivering an AC signal voltage of 1 V rms free of harmonics from 10 Hz to 100 khz. Impedance measurements are mostly for typical performance curves and for low-temperature limit measurements. DC Leakage Current (DCL) DC Leakage Current is the DC current flowing through the capacitor with the rated voltage applied. The value of leakage current depends on the voltage applied, the charging period and capacitor temperature. DCL Method of measurement Measure leakage current at 25 C with the rated voltage applied through a protective resistance of 1000 in series with the capacitor in the measuring circuit. Five minutes after the application of voltage, the leakage current is not to exceed the maximum value indicated in the specification Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com

262 Application Guide, Aluminum Electrolytic DCL Temperature characteristics Typical characteristic curves are shown below: DC Leakage versus Temperature, 8600 µf 100 V DCL Voltage characteristics The leakage current value drops rapidly as the applied voltage decreases below the capacitor s rated voltage. The effect of voltage derating on the leakage current is shown below. DC Leakage versus Voltage, 8600 µf 100 V DC Leakage versus Temperature, 4700 µf 450 V DC Leakage versus Voltage, 4700 µf 450 V Voltage Rated DC voltage Rated DC voltage is the voltage marked on the capacitor, and it is the maximum peak voltage including ripple voltage that may be applied continuously between the terminals and over the rated temperature range. Higher rated voltage capacitors may be substituted for lower rated voltage capacitors as long as case size, DF, and ESR ratings are also compatible. Rated surge voltage Rated surge voltage is the maximum DC overvoltage to which the capacitor may be subjected at 25 C for short periods not exceeding approximately 30 s at infrequent intervals of not less than 5 min. Surge voltage measurement Subject the capacitors to their rated surge voltage at normal room temperature and through a 1000 ±10% resistor (except for capacitances of 2500 µf and up, use a 2,500,000/C ±10% resistor where C is the capacitance in µf). Cycle the voltage 1 2 minute on followed by minutes off during which each capacitor is discharged through the charging resistor or equal resistor. Repeat the cycles for 120 h. Post test requirements are for DCL, ESR and DF to meet initial requirements and for there to be no evidence of mechanical damage or electrolyte leakage. Electrolyte residue with no droplets or visible flow is permitted. Aluminum Application Guide 140 Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com 2.191

263 Application Guide, Aluminum Electrolytic Reverse voltage Aluminum electrolytic capacitors are polarized and must be connected in the correct polarity. They can withstand reverse voltages up to 1.5 V. Higher reverse voltage can cause failure by pressure build up and rupture of the capacitor s safety vent structure. Non-polar and semi-polar devices are available that can withstand reverse voltage. Transient overvoltage Aluminum electrolytic capacitors can generally withstand extreme overvoltage transients of limited energy. Application of overvoltage more than about 50 V beyond the capacitor s surge voltage rating causes high leakage current and a constant-voltage operating mode quite like the reverse conduction of a zener diode. The capacitor may fail short if the electrolyte cannot take the voltage stress, but even if it can, this operating mode cannot be maintained for long because hydrogen gas is produced by the capacitor, and the pressure build up will cause failure. However, special designs are available that use the overvoltage, zenerclamping affect to successfully protect equipment from overvoltage transients such as lightning strikes. Ripple Current Aluminum Application Guide Ripple Current Ripple current is the AC current flowing in the capacitor. It s called ripple current because the associated AC voltage rides like ripple on water on the capacitor s DC bias voltage. The ripple current heats the capacitor and the maximum permitted ripple current is set by how much can be permitted and still meet the capacitor s load life specification. Too much temperature rise will cause the capacitor to exceed its maximum permitted core temperature and fail quickly, but operation close to the maximum permitted core temperature dramatically shortens expected life. The load life specifications for aluminum electrolytic capacitors operating at maximum permitted core temperature are typically 1000 to 10,000 hours. That s six weeks to a year and a seventh and not long enough for most applications. Ripple current specification Ripple current ratings are specified for an expected temperature rise at rated temperature. Commonly capacitor types rated 85 C permit a temperature rise of 10 C and have a maximum permitted core temperature of 95 C. Often types rated 105 C permit a temperature rise of 5 C and have a maximum core temperature of 110 C. Actual maximum permitted core temperatures vary by type and manufacturer. Ripple current ratings usually assume that the capacitor is convection cooled and that the entire can is in contact with air. A convection coefficient of W/ C/in 2 predicts the temperature rise from air to the case, and the core temperature is assumed to be the same as the case temperature. The power dissipated is the ripple current squared times the ESR. Often the 25 C, 120 Hz maximum ESR is used, but since ESR decreases at elevated temperatures, less than maximum ESR may be used to calculate power dissipated. Here s an example. Suppose you wanted the ripple-current rating for a 4700 µf, 450 V capacitor in a 3 inch (76 mm) diameter and 5 5 /8 inches (143 mm) long can and the maximum ESR at 25 C and 120 Hz is 30 m. The can area not including the terminal end is 60.1 in 2 (388 cm 2 ). The thermal conductance is (0.006)(60.1) = 0.36 W/ C. For a 10 C temperature rise the case may dissipate 3.6 W. So the permitted ripple current with an ESR of 30 m is 11 A. If you assume that the ESR would decrease 35% by 85 C, then the maximum ripple current can be 13.6 A. With large-can capacitors like the one in this example neglecting the temperature rise from the case to the core can seriously overstate the ripple current capability. With some constructions the core is 3 to 5 C per watt of ripple power hotter than the case. So the total temperature rise would be more than double the intended 10 C with rated ripple current and maximum ESR. It is generally safe to assume that the core temperature is the same as the case temperature for capacitors smaller than 25 mm diameter. For larger cases with high ripple current, verify the temperature rise by requesting samples with thermocouples imbedded in the cores. Cornell Dubilier Thermal Pak, computergrade capacitors have controlled, low thermal resistance from core to case. You can predict temperature rise using the thermal resistance table later in this section or by using the thermal-resistance/expected-life model available on the Web site, Ripple current temperature characteristics Rated ripple current can be increased for operating temperatures less than rated temperature. Multipliers are shown in the specifications. Generally the multipliers are derived based on maximum core temperature (T c), rated temperature (T r) and ambient temperature (T a) as Ripple Temperature Multiplier = [(T c T a)/(t c T r)] 1 2 Counting on multipliers for temperatures below 60 C and Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com

264 Application Guide, Aluminum Electrolytic for more than 1 1 /2 times rated ripple current is risky. High ripple currents can cause shorter operating lives than expected because as the capacitor ages its ESR increases and causes more heating for the same ripple current. This accelerates wearout. Ripple current frequency characteristics Rated ripple current can be adjusted for operation at frequencies other than 120 Hz. Multipliers are shown in the specifications. Generally the multipliers are derived based on expected ESR change with frequency; however, as discussed above, ESR is a complex function of temperature, capacitance and rated voltage as well as frequency. So it is difficult to create ripple-frequency multiplier tables that accurately model the frequency dependence. For high-ripple current applications verify ESR at frequencies of interest and calculate total power dissipated. Inductance Inductance is the equivalent series inductance, and it is relatively independent of both frequency and temperature. Typical values range from 2 to 8 nh for SMT types, 10 nh to 30 nh for radial-leaded types, 20 to 50 nh for screw-terminal types, and up to 200 nh for axial-leaded types. These low values are achieved by tab location and intrinsic, low inductance of the dielectric contact geometry. The capacitor element has typical inductance of less than 2 nh. Low-Temperature Impedance Low-temperature impedance is the capacitor s 120 Hz impedance measured at the low-temperature limit. It is usually expressed as a multiple of the device s 25 C impedance. For low-temperature impedance measurement, place the capacitors in a chamber set to the low-temperature limit ±2 C. Measure impedance at 120 ±5 Hz using any suitable method providing an accuracy of ±2 1 /2%. After temperature stabilization, make the measurements quickly using as small as practical an AC measuring voltage in order that it will not cause heating of the capacitors. Assure that the capacitors have reached thermal stability by demonstrating that two successive measurements taken at 15 minute intervals show no change. Self-resonant Frequency The self-resonant frequency is the frequency at which the capacitive reactance (1/(2πfC)) equals the inductive reactance (2πfL). Because the capacitive reactance is 180 degrees out of phase with the inductive reactance, the two reactances subtract out, and the remaining impedance is purely resistive and is equal to the ESR at that frequency. Above self resonance the device is inductive. In aluminum electrolytic capacitors the self-resonant frequency typically occurs at less than 100 khz. The self-resonant frequency is equal to 1/[2π(LC) 1 2 ]. It occurs at a frequency higher than expected based on 120 Hz capacitance because capacitance decreases with increasing frequency, and it can decrease with increasing temperature from capacitance increase. Dielectric Absorption Dielectric absorption may be observed as the reappearance of a voltage across a capacitor after the terminals have been shorted for a brief period and the short removed. This characteristic is important in RC timing circuits, triggering systems and phase shift networks. For aluminum electrolytic capacitors dielectric absorption will allow up to 10% recovery of the charging voltage between 100 s and 1000 s at 25 C, and is more pronounced at higher temperatures. Maximum dielectric absorption can be obtained by charging capacitors for 1 hour at rated voltage and discharging through a dead short for 1 minute. Subsequent measurements over time can be made with a high impedance micrometer. With high-voltage aluminum electrolytic capacitors rebound voltages of 40 to 50 V are possible. While such voltages are not a safety hazard, they can certainly create a frightening distraction if the terminals are shorted by a tool during installation. Conductive tape and wire shorting straps can be supplied for the faint of heart. The tradeoff is extra cost and the labor to remove them. Insulation and Grounding With non-solid electrolyte aluminum electrolytic capacitors the aluminum cases connect to the negative terminals by contact with electrolyte. The resulting isolation resistance may vary from a few ohms to a few thousand ohms. For axial-leaded capacitors and flatpacks the case is connected to the negative lead. If objects contacting the cases are to be at a potential other than the negative terminals, use capacitors with insulating sleeves. The plastic insulation can withstand 3000 Vdc or 2500 Vac, 60 Hz for 1 minute applied between the case and a 1 4 inch wide metal foil placed around the sleeve. For stud-mounting, apply the voltage between the chassis and the case, and mount the capacitor with an approved nylon nut and clearance hole. Insulation resistance is no less than 100 MΩ after 2 minutes electrification with 100 volts applied between the foil and the capacitor case. Aluminum Application Guide 140 Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com 2.193

265 Application Guide, Aluminum Electrolytic Aluminum Application Guide External Pressure Not relevant for capacitors with solid electrolyte. Aluminum electrolytic capacitors can operate to 80,000 feet and pressures as low as 3 kpa. Maximum air pressure depends on the size and style of the capacitor. Exceeding the maximum value can damage the capacitor by crushing the case, opening the pressure-relief vent or causing a short circuit. Vibration Aluminum electrolytic capacitors can generally withstand 10 g vibration forces. Limits are shown in the specifications. Adjust the procedure below as required by the individual type specifications. To test vibration resistance, clamp the capacitors to a vibrating platform and subject them to a simple harmonic motion having a maximum peak-to-peak amplitude of 0.06 inches and a maximum acceleration of 10 g or 15 g as specified. Vary the frequency of vibration linearly between 10 and 55 Hz. Traverse the entire frequency range in 1 minute. Unless specified otherwise, vibrate the capacitors for 1 1 /2 hours with the direction of motion being parallel to the axis of the capacitor, then place the capacitors so that the direction of motion is perpendicular to the axis and continue vibration for 1 1 /2 hours. During the last 1 /2 hour of test connect the capacitor to a bridge and observe for a 3-minute period. There will be no evidence of loosening of the capacitor element within the container when shaken by hand following the test. Also there will be no indication of intermittent contact, open or shorting during the 3-minute observation period. Pressure-Relief Vent During operation of an aluminum electrolytic capacitor with non-solid electrolyte, gas pressure normally increases. This gas is mostly hydrogen and excess pressure is avoided by permeation of the gas through the capacitor s seal. But in cases like application of overvoltage, reverse voltage, AC voltage or capacitor failure, excess pressure can cause the capacitor to explode. To avoid the risk of explosion aluminum electrolytic capacitors are usually equipped with pressure-relief vent structures. These safety vents are intended to rupture and release the gas pressure. After rupture the capacitor has limited life because it loses electrolyte and dries out. Be careful not to interfere with the operation of the vent, for instance by mounting measures such as clamps, glue or potting compounds. In the case of large capacitors with the capacitor elements secured by thermoplastic potting, don t mount them with the safety vents down as the potting may flow when the capacitors overheat and block the vents. In rare cases for capacitors mounted alone and more often for capacitors in multiple-unit parallel capacitor banks a fully functioning pressure relief device may not react in time. This could be from extreme overload or ignition of gas inside the capacitor through sparking caused by breakdown. Protect personnel from possible rupture of highenergy capacitors with shielding, and be sure to use substantial shielding when testing the pressure-relief vent. Examples of appropriate shielding for testing are 1 /4-inch thick steel or 1 /2-inch thick polycarbonate enclosures with one end open to redirect the explosion rather than contain it. Test the capacitor s pressure-relief capability by applying voltage or current using one of the following three methods. A. Subject the capacitor to AC current according to the rated capacitance as below: Rated Capacitance Test Current µf A rms, 60 Hz up to to 100 3,000 to 20, to 150 above 20, to 175 B. For a capacitor rated 150 Vdc and above, apply 110 to 125 Vac, 60 Hz through a 5 ±10% series, current-limiting resistor. C. Subject the capacitor to reverse polarity, DC voltage sufficient to allow a current from 1 to 10 A to flow. The excess internal pressure will be relieved without violent expulsion of the capacitor element or cover or ignition of surrounding material. To demonstrate non-ignition, wrap the case loosely with two layers of cheese cloth which must not ignite during test. A short or open circuit is not a failure of the test. Contact with Electrolyte The electrolyte in non-solid electrolyte capacitors is a biodegradable liquid based on a stable solvent with a high boiling point as the main ingredient. Common solvents are ethylene glycol (EG), dimethylformamide (DMF) and gammabutyrolactone (GBL). The electrolyte includes an acid base system and other chemicals. The electrolyte is chemically neutral and contains no PCBs or halogenated compounds. It has low toxicity but avoid contact with the skin or eyes and avoid prolonged inhalation. A Material Safety Data Sheet is available upon request. Immediately treat contact with electrolyte by rinsing exposed area with water. If electrolyte contacts eyes, flush for 10 minutes with running water. Seek medical attention if any symptoms persist. Avoid inhalation of electrolyte vapors or Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com

266 Application Guide, Aluminum Electrolytic dust particles. If vapors are present, ventilate the room. Smoke from burning electrolyte is irritating but does not contain dioxins or similar toxic substances. If electrolyte gets on clothing, wash it off with water. Charge-Discharge Frequent, rapid charge and discharge of aluminum electrolytic capacitors not designed for such service can damage the capacitors by overheating and overpressure or breakdown with consequent failure by open or short circuit. For chargedischarge applications use capacitors designed for that use, and don t exceed the manufacturer s recommended discharge rate. Polarity Reverse Voltage Check the polarity of each capacitor both in circuit design and in mounting. Polarity is marked on the capacitor. While the capacitors can withstand continuous application of 1.5 V reverse voltage, exceeding that can damage the capacitor by overheating, overpressure, and dielectric breakdown. This can result in associated open-circuit or short-circuit failures and rupture of the capacitor s pressure-relief vent. Flammability Aluminum electrolytic capacitors contain materials which can catch fire and support combustion when contacted by flames. Flammable parts include plastic parts, insulating sleeves, paper, and the electrolytes. Most capacitors will pass the needle-flame test requirements of UL 94V-O and not support combustion to the requirements of Category B or C. In rare cases the capacitor may self-ignite from heavy overload or capacitor defect. Hydrogen in the capacitor can ignite if sparking occurs during capacitor failure. In critical applications such as mining applications consider providing fire-resistant shields. Circuit Configurations PARALLEL may be connected in parallel for increased capacitance and ripple-current capability. Bus Structure When connecting capacitors in parallel, design the connecting bus with these features in mind. Minimum series inductance requires a laminated bus or strip-line structure. For example, have one plane of the circuit board as the plus connection and another plane as the minus connection to all capacitors. Path resistance to each capacitor should be equal to assure equal current sharing. While ripple current divides among the capacitors in proportion to capacitance values for low-frequency ripple, high-frequency ripple current divides in proportion to ESR values and path resistance. Fusing In order to fuse the individual capacitors, include a slowstart circuit at equipment turn-on, and fuse each capacitor at twice its expected, maximum ripple current. The slowstart circuit can be a resistor in series with the capacitors that is shorted after initial charging. SERIES may be connected in series for increased voltage withstanding. Voltage Sharing During charging the voltage on each of the capacitors connected in series is proportional to the inverse of the actual capacitance, but upon reaching final voltage, the voltage on each capacitor is proportional to the inverse of the capacitor s leakage current. Of course in a series string all leakage currents are the same, and the capacitors with a propensity for higher leakage current will get less voltage. Since leakage current increases with applied voltage, less voltage results in higher leakage resistance, and the voltages tend to equalize. Tests of high voltage bus capacitors in series pairs connected to supply voltages 10% above two-times the rated voltage showed good voltage sharing over the full temperature range, and no capacitor s voltage was ever higher than its rated voltage. When only two capacitors are in series, balancing resistors are seldom needed for voltage sharing. Before including them anyway for voltage bleed-down, consider that not using balancing resistors often increases system reliability by reducing the temperature near the capacitors and by eliminating components less reliable than the capacitors they are meant to protect. As an alternative, use capacitors from the same manufacturing lot to assure equal leakage currents or use a higher rated voltage to permit voltage imbalance with different manufacturers. And assure that capacitors in series have the same thermal environment. Balancing Resistors The difference in leakage currents for two capacitors in series at rated temperature can be estimated as CVb in µa where C is rated capacitance in µf and Vb is the voltage across the two capacitors in Vdc. Using this approximation, select a value of balancing resistance for each capacitor using this formula: R = (2Vr Vb)/(0.0015CVb) Where R is the balancing resistance in M, Vr is the maximum voltage you want on either capacitor and Vb is the maximum bus voltage across the two capacitors. For three or more capacitors in series use the following equation where n is the number of capacitors in series: R = (Vr Vb/n)/( CVb) Aluminum Application Guide 140 Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com 2.195

267 Application Guide, Aluminum Electrolytic PARALLEL/SERIES connected as shown below with a common connection between multiple series combinations have these considerations. Advantages: If one capacitor fails short then the capacitor in series with it also fails, but other capacitors in the bank are unaffected. If balancing resistors are not used, high leakage current of one capacitor affects only a single pair of capacitors. The independent, series pairs permit fusing. Disadvantages: With balancing resistors the construction is more complex; many resistors need to be fitted, and the additional resistors cost more. NON-POLAR Parallel-series array with common center connection Advantages: As the number of capacitors in parallel increases the capacitance at the top tends to equal the capacitance at the bottom. This improves voltage balance during transients. Also the leakage current at the top tends to equal the leakage current at the bottom, so voltage balance improves during steady-state conditions. Finally, only two balancing resistors need be considered, and the top and bottom may be so well matched as to eliminate the need for balancing resistors. Disadvantage: If one capacitor fails short, the other half of the bank gets the entire bus voltage, so other capacitors will fail too. Thus one capacitor failure can cause failure of the entire bank unless the shorted capacitor is blown open. SERIES/PARALLEL connected as shown below with multiple series combinations in parallel have these considerations. This configuration is the clear choice when balancing resistors are not used. If two, same-value, aluminum electrolytic capacitors are connected in series, back-to-back with the positive terminals or the negative terminals connected, the resulting single capacitor is a non-polar capacitor with half the capacitance to either of the original pair. The two capacitors rectify the applied voltage and act as if they had been bypassed by diodes. When voltage is applied, the correct-polarity capacitor gets the full voltage. In non-polar aluminum electrolytic capacitors and motorstart aluminum electrolytic capacitors a second anode foil substitutes for the cathode foil to achieve a non-polar capacitor in a single case. While non-polar aluminum electrolytics are available for momentary-duty AC applications like motor starting and voltage-reversing applications, the high DF of aluminum electrolytic capacitors from 2% to 150% causes excess heating and short life in most AC applications. MOTOR START Aluminum electrolytic, motor-start capacitors are non-polar and designed for intermittent operation in starting singlephase induction motors or for other brief AC applications such as motor-run capacitors in electric door openers. Aluminum Application Guide Series-parallel array, no center connection Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com

268 Application Guide, Aluminum Electrolytic Reliability Aluminum electrolytic capacitors are quite reliable largely because of their effective, self-healing mechanism. While wearout is the most common failure mode, most such failures are gradual conversions to open circuits as the units become more and more resistive. FAILURE MODES Early-Life Failures Early-life failures, infant mortals, are mostly short-circuit failures from weaknesses in the aluminum oxide dielectric. Incidence can be reduced with extended aging or burn-in. minimum. Often Tm is 95 C when rated temperature is 85 C and is 108 to 110 C when it s 105 C. Mv based on life tests for Cornell Dubilier, capacitor types is Mv = Va/Vr where Va is applied voltage and Vr is rated voltage. Types 400C, 401C, 420C, 450C and 4CMC are tightly sealed and behave differently when full rated voltage and temperature are applied. For these types when both Va/Vr > 0.9 and Ta/Tm > 0.9, the voltage multiplier is Wear-Out Wear-out failures are mostly open-circuit failures from loss of electrolyte or ESR increase from other causes. In the case of large capacitors enduring high levels of ripple current, the increasing ESR can cause overheating and shortcircuit failures as wear-out failures. Operating Life Onset of wear-out is determined mainly by the capacitor s size and average operating temperature. Operating voltage has some effect. For capacitors operating at moderate temperatures the operating life doubles for each 10 C that operating temperature is reduced. Operating life can be expressed as [(Tm - Ta)/10] Lop = MvLb2 Where Lop is the expected operating life in h, Mv is a unitless voltage multiplier for voltage derating, Lb is the expected operating life in h for full rated voltage and temperature, Tm is the maximum permitted internal operating temperature in C, and Ta is the actual capacitor internal operating temperture in C. Most manufacturers use this model to predict operating life; however, values for Mv, Lb, and Tm vary both by capacitor type and by manufacturer. For case diameters larger than 25 mm with significant ripple current, take into account the temperature rise of the capacitor element over its case. Often Mv is neglected, and values for the other variables change by case size. Typical values for Lb are 1000 to 2000 h for miniature types, 2000 to 10,000 h for snap-in types and 2000 to 20,000 h for large-can screw terminal types. Lb can be greater than the rated load life because no ripple is applied and because it s typical life rather than Mv = Va/Vr 1000(Ta/Tm 0.9) 1.65 (Va/Vr 0.9) 1.65 Values for expected operating life Lb and maximum permitted core temperature Τm are Type Lb Tm 101C 8000 h 108 C 300/ h 108 C h 128 C h 108 C 380L/LX 5000 h 95 C 380LQ 4000 h 95 C 381EL h 110 C 381L/LX 5000 h 110 C 381LQ 4000 h 110 C 381LR 5000 h 115 C 400C 7500 h 98 C 401C 8000 h 108 C 420C h 103 C 450C h 108 C 4CMC 5000 h 95 C 500C 7500 h 98 C 520C h 103 C 550C h 108 C DCMC 5000 h 95 C MLP up to 250V h 88 C MLP 300V & up 5000 h 88 C MLS 4000 h 125 C Determining Operating Life Determine expected operating life from the capacitor s expected operating temperature and voltage using the operating-life formula. The operating temperature is the expected average ambient temperature plus temperature rise from ripple current and leakage current. Leakage-current power is small compared Aluminum Application Guide 140 Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com 2.197

269 Application Guide, Aluminum Electrolytic to ripple-current power and can be neglected. Measure temperature rise from ripple current using sample capacitors with thermocouples installed at the core hotspot, or calculate temperature rise from dissipated power. If you calculate the power, do so at each significant ripple frequency and add the powers together for total power. Use the Thermal Resistance Chart on page to determine temperature rise. It s equal to power multiplied by thermal resistance. Calculating power at a frequency other that 120 Hz requires knowing the ESR at the new frequency. You may infer the ESR value from the ripple current frequency multipliers for each type. ESR f = ESR 120/M f 2 Where ESR f = ESR at a frequency f, ESR 120 = ESR at 120 Hz and M f = Frequency multiplier for frequency f. Or you may calculate the new ESR using the equation in ESR Frequency Characteristics. Using that equation to solve for ESR hf and including 3% for DF lf, ESR f = ESR (f 120)/fC Where ESR is in mω, f is in Hz and C is in µf. Although 3% is at the high end for DF lf, it fits with ESR 120 which is a maximum limit for the ESR at 120 Hz. Besides knowing ESR at the new frequency you also need to know the ESR at a new temperature, the expected operating temperature. For Cornell Dubilier capacitors with electrolytes rated to 40 ºC this table shows representative ratios of ESR at elevated temperatures to ESR at 25 ºC. Rated Capacitor Temperature Voltage 45 C 65 C 85 C Vdc Ratio to ESR at 25 C Up to % 77% 77% 200 to % 70% 70% 350 to % 60% 60% % 49% 45% would use one or the other of the methods above to calculate ESR, here we ll use both to illustrate. If the capacitor is a Type DCMC, the frequency multiplier from page 5 for 360 Hz is Thus the 360 Hz ESR is 30/ or 23.5 mω. Or using the ESR Frequency Characteristics equation, the 360 Hz ESR is [ ( )/360/4700] or 24.4 mω. Similarly at 8000 Hz the ESRs calculate to be 19.5 and 21.6 mω. Next calculate the total power. At 360 Hz it s (11 2 )(0.0244) or 2.9 W. At 8000 Hz it s (6.5 2 )(0.0216) or 0.9 W. That s a total power of 3.8 W. Then calculate the core hot-spot temperature. From the Thermal Resistance Chart the thermal resistance for free convection cooling is 3.07 C/W. So the temperature rise is (3.8)(3.07) or 14 C. If the ambient temperature were 50 C, the core temperature would be 64 C. Now predict operating life capability using the Operating Life equation. The voltage multiplier, Mv is [ (390/450)] or Operating life is [(95 64)/10] Lop = (1.44)(5000)2 = 61,700 h But if the core temperature is 64 C, the ESR would have decreased about 40%. The new total power would be 0.6(3.8) or 2.3 W. The new temperature rise would be (3.07) (2.3) or 7 C, and the core temperature would be 57 C. Recalculating operating life with the lower core temperature gives [(95 59)/10] Lop = (1.44)(5000)2 = 100,300 h And actual ESRs are typical 70% of limit so you could argue that the total power is 1.6 W. Thus the temperature rise would be 5 C, the core temperature, 55 C, and the operating life, 115,000 h. However, it is more accurate to use the maximum limit because that takes into account the ESR increase over life. The above example shows the iterative approach. If a higher core temperature gives the operating life you require, you are done. Aluminum Application Guide Here s an illustration to unify this information. Consider the earlier example, a 4700 µf, 450 V capacitor in a 3 inch (76 mm) diameter and inches (143 mm) long can with a maximum ESR at 25 C and 120 Hz of 30 mω. Suppose that the capacitor is used as a bus capacitor in a motordrive inverter, and the ripple current consists of 11 A at 360 Hz and 6.5 A at 8000 Hz. And the average applied voltage, the bus voltage, is 390 Vdc. First, calculate the ESRs at the two frequencies. While you If all of the math needed to calculate operating life seems burdensome, take cheer. You can shortcut the calculations and consider more mounting and cooling options by visiting our Web site, There you will find Java applets that calculate core temperature and expected life for computergrade screw-terminal capacitors, for snap-in capacitors and for plug-in capacitors. Plug-in capacitor types start with the number 4, like Type 4CMC Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com

270 Application Guide, Aluminum Electrolytic Transient over-temperature As said, life of aluminum electrolytic capacitors generally doubles for each 10 C that the core temperature is reduced. The core is the hottest spot at about the center of the capacitor. However, as a capacitor heats up toward its maximum permitted core temperature, the rules change. At temperatures above the maximum core temperature and by 125 C for most types the electrolyte can be driven from capacitor element and the ESR can increase as much as 10 times. By this mechanism transient over-temperature or over-current can permanently increase the ESR and make the capacitor unusable. Be alert to this possibility in hightemperature and high-ripple applications, and pay extra attention to system cooling. Load Life Test Place the capacitors in a circulating air oven set to the upper temperature limit, 85 C, 105 C or 125 C, ± 3 C. Apply a DC voltage and an AC ripple voltage. Adjust the AC voltage to cause current equal to the rated ripple current to flow and adjust the DC voltage such that the peak voltage equals the capacitors rated voltage. Apply the voltage for the rated load-life period 0 +6 h. Upon completion allow the capacitors to stabilize at 25 C for 24 h or more. The capacitors will meet the specified post-test limits for capacitance, ESR and DCL. EIA Ripple Life Test, EIA IS-479 Conduct the wear-out lifetime test per EIA Interim Standard 479. The highlights of that test are as follows: Apply ripple current at 120 Hz or adjust to maintain the same power dissipation if performed at another frequency. Set DC bias voltage equal to rated voltage minus peak applied AC voltage. Set ambient temperature to 85 ± 2 C with airflow less than 0.5 m/s. Periodic test interval 1000 h. Sample size is 10 or more. Mount capacitors horizontally and spaced 25 mm or more. Choose any temperature 85 C for measurements, and make all measurements at that temperature. End of lifetime is the time when 10% or more of the sample have capacitance < 80% initial value or ESR > 200% initial requirement or DCL > initial value or evidence mechanical damage or leakage of electrolyte. 10% of sample may fail short or open and not be counted. Voltage Derating Voltage derating is expressed as the percentage that the applied voltage is less than rated voltage, e.g., a 450 V capacitor operating at 400 V would have 11% voltage derating. Aluminum electrolytic capacitors made with formation voltages at least 35% higher than rated voltage and with rated temperatures of 85 C or higher, don t require much voltage derating. In applications operating at less than 45 C no derating is needed, and with up to 75 C, 10% is sufficient. For higher temperatures and with high ripple current, 15% or 20% is appropriate. Since operating life continues to increase for further derating, military and space applications use 50% voltage derating. Photoflash capacitors may be used at full rated voltage at normal room temperatures because they are designed for such duty. Strobe capacitors benefit from at least 10% voltage derating because their continuous operation makes them run hot. Cooling Cooling Strategies Cornell Dubilier computergrade capacitors conduct heat from the core to the bottom much more effectively than out the sides. You can take advantage of this heat path by mounting the capacitors directly to metal chassis. In many case sizes this can double the permitted ripple current for the same temperature rise. Mounting can be by using capacitors with mounting studs and screwing the capacitors directly to the plate or it can be by pressing the capacitors against a plate using the interconnecting bus structure. Cornell Dubilier furnishes silpad inserts at the bottom of the capacitors for this application. The silpads create smooth bottoms by eliminating the steps at the sleeve rollovers. The thermal resistance between the can and the underlying plate for capacitors merely sitting on the plate is about 2.5 C/W. This decreases to less than 1 C/W if the capacitors are pressed in place. An Operating Life and Temperature Calculator is available on the Cornell Dubilier Web site which permits you to explore cooling options and directly see the affect on operating life. Go to. Thermal Resistance In large-can capacitors, especially ones with potting, there is significant temperature rise from the case to the core, the hottest spot at the center of the capacitor. For Cornell Dubilier Thermal Pak computergrade capacitors use the following thermal resistance data to determine temperature rise from power dissipated. As an illustration, consider 20 amps of ripple current at 120 Hz in a 3 x 5 5 /8 case with a maximum ESR of 20 m. The hot, typical ESR would be about half that or 10 m, and the power dissipated would be I 2 Rs, 20 2 x0.01 or 4 W. Aluminum Application Guide 140 Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com 2.199

271 Application Guide, Aluminum Electrolytic The Free-Convection cooling column shows a total thermal resistance of 3.07 C/W for air on all sides and 1.02 C/W for the capacitor pressed against a large metal plate or chassis. With 4 W the 3.07 C/W predicts a temperature rise of 12.3 C, and 1.02 C/W predicts 4.1 C. The 1.02 C assumes that there is no temperature rise in the metal plate. So, consider it the best you can do. Increase the Air & Metal Chassis thermal resistance by 0.3 C/W if you do not use a thermal pad. Thermal Resistance Chart C/W Computergrade Free Convection 200 lfm Airflow 500 lfm Airflow 1000 lfm Airflow Air on Side & End Air & Metal Chassis Air on Side & End Air & Metal Chassis Air on Side & End Air & Metal Chassis Air on Side & End Air & Metal Chassis Case Case Size Core to Case to Total Core to Case to Total Core to Case to Total Core to Case to Total Core to Case to Total Core to Case to Total Core to Case to Total Core to Case to Total bottom air bottom air bottom air bottom air bottom air bottom air bottom air bottom air Code D x L (in) AK 1 3/8 X 1 5/ AA 1 3/8 X 2 1/ AH 1 3/8 X 2 5/ AB 1 3/8 X 3 1/ AJ 1 3/8 X 3 5/ AC 1 3/8 X 4 1/ AD 1 3/8 X 4 5/ AE 1 3/8 X 5 1/ AF 1 3/8 X 5 5/ EA 1 3/4 X 2 1/ EH 1 3/4 X 2 5/ EB 1 3/4 X 3 1/ EJ 1 3/4 X 3 5/ EC 1 3/4 X 4 1/ ED 1 3/4 X 4 5/ EE 1 3/4 X 5 1/ EF 1 3/4 X 5 5/ BA 2 X 2 1/ BH 2 X 2 5/ BB 2 X 3 1/ BJ 2 X 3 5/ BC 2 X 4 1/ BD 2 X 4 5/ BE 2 X 5 1/ BF 2 X 5 5/ CH 2 1/2 X 2 5/ CB 2 1/2 X 3 1/ CJ 2 1/2 X 3 5/ CC 2 1/2 X 4 1/ CD 2 1/2 X 4 5/ CD 2 1/2 X 5 1/ CF 2 1/2 X 5 5/ DB 3 X 3 1/ DJ 3 X 3 5/ DC 3 X 4 1/ DC 3 X 4 5/ DE 3 X 5 1/ DF 3 X 5 5/ DP 3 X 5 7/ DG 3 X 8 5/ FC 3 1/2 X 4 1/ FD 3 1/2 X 4 5/ FE 3 1/2 X 5 1/ FF 3 1/2 X 5 5/ FP 3 1/2 X 5 7/ FG 3 1/2 X 8 5/ Aluminum Application Guide Shelf Life Aluminum electrolytic capacitors stored for more than 5 to 10 years may have increased levels of DC leakage current. Check if DCL meets application requirements before placing in service. Recondition high DCL units by applying rated voltage through 1,000 resistor for 30 minutes. Shelf life is a measure of how the capacitors will withstand storage for long times especially at high temperature. To test shelf life place the capacitors in an oven set to the shelf-life test temperature 0 +3 C for the shelf-life test period. Upon completion of the test stabilize the capacitors at 25 C for 24 h or more. Apply the rated voltage for 30 minutes, then verify the post test limits. Unless otherwise specified the capacitance, DCL and ESR will meet initial requirements Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com

272 Application Guide, Aluminum Electrolytic Process Considerations Soldering Preheat Don t exceed the maximum storage temperature during preheating of the capacitors. If this cannot be avoided, contact the supplier first. Temperature and Duration Strictly adhere to soldering conditions for temperature, duration and minimum distance of solder from body. Don t contact the insulating sleeve or other plastic parts with a soldering iron or molten solder. Reflow solder only SMT types, and then only one reflow cycle. Contact the supplier if more than one reflow is necessary. Care after Soldering Do not exert any mechanical force like bending, straightening, twisting or tilting of capacitors after soldering into a printed circuit board. Handling Assembled Devices During transport and handling of assembled devices do not misuse capacitors as a handle. Ensure that capacitors are protected from physical damage during mounting of printed circuit boards into assemblies or during stacking. Halogenated-Solvent Cleaning Halogenated hydrocarbon solvents (CFC) are ozone depleting chemicals harmful to the environment. Such solvents can penetrate the capacitors seals and cause corrosion and failure when voltage is applied, and so use them to clean aluminum electrolytic capacitors only to the limited conditions given by the component supplier and then only as a last resort. Solvent-proof miniature capacitors and capacitors with epoxy endseals are available for limited use with halogenated solvents. Aqueous Cleaning Water with a mild detergent may be used to clean aluminum electrolytic capacitors. However, immediately dry the capacitors in hot air at about 85 C for 5 or more minutes but not hotter than the capacitors maximum storage temperature. Water can become trapped beneath the sleeve which may not be dispelled by evaporation at room temperature. Water can be trapped under the sleeve and cause hydration and discoloration of the aluminum cases, although this does not affect capacitor operation. Alcohol Cleaning Alcohol solvents like isopropanol, methanol, ethanol and propanol have no harmful affects on aluminum electrolytic capacitors. While they are fine for cleaning, they are not very effective in removal of commercial soldering fluxes. Cleaning Precautions The capacitor s insulating sleeve may re-shrink or crack if rapidly heated to above 100 C just after cleaning. If the solder flux contains chlorine as many active flux types do, frequently regenerate or replace the cleaning solvent to avoid damaging the capacitors. Cleaning solvents may swell the insulating sleeves and affect the legibility of marking if applied too long or with too high mechanical forces or temperatures. Potting and gluing Be certain that varnishing, coating, lacquering, embedding or gluing near the capacitors seals are halogen free. And be sure all constituent parts including base material, thinners, binders, reacting agents, propellants and additives are halogen free. If the printed circuit board has been cleaned with halogenated solvent, be sure it s fully dry before installation of capacitors. When gluing, don t apply glue to the full capacitor circumference, and don t cover the capacitor s pressure-relief vent with potting or glue. Mounting Mounting position At lower ambient temperatures aluminum electrolytic capacitors have longer operating lives; so, put the capacitors at the coolest place on the board. Ensure that aluminum electrolytic capacitors are away from hot components like power resistors, power transistors or diodes and transformers. Adequately space components apart for cooling air to circulate. This is especially important when high ripple current or charge/discharge loads are applied. Polarity indication Aluminum electrolytic capacitors are normally polarized and require correct-polarity installation in the circuitry. To ensure correct mounting and identification of the polarity, put a clear + and/or on the board layout marking. If the circuit voltage can reverse polarity or is unknown, consider using non-polar capacitors. Disadvantages are that nonpolar capacitors are larger and more expensive. Aluminum Application Guide 140 Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com 2.201

273 Application Guide, Aluminum Electrolytic Position of the pressure-relief device Provide adequate clearance for proper operation of the pressure-relief devise. The following distances are a guide. Nominal Case Diameter Space around pressure relief device 16 mm > 2 mm > 16 mm to < 40 mm > 3 mm 40 mm > 5 mm Mount the capacitors with the vent uppermost or in the upper part of the capacitor. This assures that the least amount of electrolyte will be expelled if the vent operates. Mount capacitors that include thermal-plastic potting such that the potting cannot block the vent should the potting melt during capacitor failure. No Cornell Dubilier aluminum electrolytic capacitors contain potting. Printed-circuit board precautions Avoid positioning holes in places where parts of a capacitor could be on the other side and be touched by molten solder. Because the can and sometimes extra terminals of an aluminum electrolytic capacitor have resistive connections to the negative terminal through the electrolyte, Screw-terminal mounting torque Excess torque during tightening screw terminals may affect the performance of the capacitor or damage the terminal. The following torque settings are recommended. Be certain that at least six threads are engaged. Terminal Recommended Torque 10 32, Low Post 25 in-lb 10 32, High Post 25 in-lb , Low Post 50 in-lb , High Post 60 in-lb M5 Post 30 in-lb Screw-terminal current rating For normal operation the maximum recommended continuous AC currents for screw terminals are as tabulated below. Terminal Maximum Current 10 32, Low Post 30 A rms 10 32, High Post 30 A rms , Low Post 50 A rms , High Post 50 A rms M5 Post 35 A rms Aluminum Application Guide don t locate tracks or lands under upright capacitors, don t permit metal capacitor parts other than active terminals to contact conductive tracks or other components, and leave dummy pins potential free. Handling terminals Before handling a capacitor be sure it is sufficiently discharged. To avoid damaging the capacitor, don t bend rigid terminals, and be sure to clamp the terminals during cutting or bending to avoid excess stress on terminations, welds and capacitor seals. Don t use extra force to insert capacitors. If they cannot be inserted easily, correct the problem. Discard capacitors showing signs of mechanical damage. Disposal of Aluminum electrolytic capacitors with non-solid electrolyte principally include high-purity aluminum foils, capacitor paper, electrolyte, aluminum case, cover and sealing parts (phenolic, thermoplastic, rubber and phenolic board), insulating sleeve (polypropylene, polyester or polyvinylchloride) The ripple current ratings may exceed the currents listed here. Terminals can withstand these higher continuous currents if you assure gas-tight connections to avoid formation of aluminum oxide. Use Belleville washers and a commercial electrical joint compound, and tighten the terminals to their recommended torque. Mounting-stud mounting torque Computergrade, screw-terminal capacitors are available with threaded mounting studs on the can bottoms, and nylon nuts are available for insulated mounting. The following torque settings are recommended. Nylon Nut Thread M8 M12 Recommended Torque 25 in-lb 75 in-lb and, perhaps, safety-vent plugs made of synthetic rubber. If incinerated, be certain that the temperature is more than 1200 C. Disposal is permitted in appropriate landfills. For more details contact the manufacturer Technology Place Liberty, SC Phone (864) , Fax (864) cde@cornell-dubilier.com

274 Film Film

275 Selector Guide, Film Film Dielectric Form Factor Construction Type Capacitance Capacitance Voltage Temperature Dissipation Range µf Tolerance Range Range Factor Polyester Axial Film/Foil WMF ±5%,±10% Vdc -55 C to 125 C*.75% Max. Round ( Vac) Axial Film/Foil WMC ±5%,±10% Vdc -55 C to 125 C*.75% Max. Round ( Vac) Axial Metallized MMA.01-5 ±5%,±10% Vac -55 C to 125 C*.60% Max. Oval ( Vdc) Axial Metallized MMP ±5%,±10% Vdc -55 C to 125 C* 1% Max. Oval ( Vac) Axial Metallized MMWA ±5%,±10% Vdc -55 C to 125 C*.75% Max. Round ( Vac) Radial Film/Foil DLR ±5%,±10% 100 Vdc -55 C to 125 C* 1% Max. Oval (63 Vac) Radial Film/Foil DMT ±5%,±10% Vdc -55 C to 125 C* 1% Max. Oval ( Vac) Radial Stacked DSF ±5%,±10% Vdc -40 C to 125 C* 1% Max. Oval Metallized Radial Metallized DME ±5%,±10% Vdc -55 C to 125 C* 1% Max. Oval ( Vac) Radial Metallized DMM ±5%,±10% Vdc -55 C to 125 C* 1% Max. Oval ( Vac) Radial Metallized DMMA.01-5 ±5%,±10% Vac -55 C to 125 C*.60% Max. Oval Polypropylene Axial Film/Foil WPP ±5%,±10% Vdc -55 C to 105 C.10% Max. Round ( Vac) Axial Metallized ±5%,±10%,±20% Vdc -55 C to 105 C*.10% Max. Round ( Vac) Axial Metallized ±5%,±10% Vdc -55 C to 105 C.10% Max. Round ( Vac) Axial Metallized 940C ±10% Vdc -55 C to 105 C Round ( Vac) 1kHz, 25 C Axial Metallized 941C ±10% Vdc -55 C to 105 C Oval ( Vac) 1kHz, 25 C Axial Film/Foil 942C ±10% Vdc -55 C to 105 C Round Hybrid ( Vac) 1kHz, 25 C Axial Film/Foil 943C ±10% Vdc -55 C to 105 C Oval Hybrid ( Vac) 1kHz, 25 C Axial Metallized ±6%,±10% 250 Vac -55 C to 90 C.15% Max. Round Radial Film/Foil DPP ±5%,±10% Vdc -55 C to 105 C*.10% Max. Oval ( Vac) Radial Film/Foil DPFF ±5% Vdc -55 C to 105 C*.10% Max. Round ( Vac) Radial Film/Foil DPPM ±5%,±10% Vdc -55 C to 105 C*.10% Max. Oval ( Vac) Radial Metallized DPM ±5%,±10% Vdc -55 C to 105 C*.10% Max. Oval ( Vac) Radial Metallized MPX ±5%,±10% 250 Vac -40 C to 85 C.10% Max. Box PPS Film Chip Stacked FCP ±2%,±5% 16 & 50 Vdc -55 C to 125 C 0.6% *Full rated voltage at 85 C Derate linearly to 50% rated voltage at max. operating temperature shown East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

276 Selector Guide, Film Insulation Dieletric Life Test Product Strengths Applications Page Number Resistance Strength 30,000 M x µf 250% 500 hours at 85 C Wide Range of Commercial ,000 M Min. at 125% Rated Voltage Capacitance and Voltage Industrial 30,000 M x µf 250% 250 hours at 85 C Miniature Size Modules ,000 M Min. at 125% Rated Voltage General Purpose 10,000 M x µf 200% 500 hours at 85 C High Vac Capability AC Applications ,000 M Min. at 115% Rated Voltage Self Healing 5,000 M x µf 175% 1,000 hours at 85 C Low Profile Circuit Cards ,000 M Min. at 125% Rated Voltage Self Healing General Purpose 10,000 M x µf 200% 500 hours at 85 C Wide Range of C and V General Purpose ,000 M Min. at 125% Rated Voltage Self Healing 30,000 M Min. 160% 1,000 hours at 85 C Compact Size General Purpose at 125% Rated Voltage Auto Insertable Inductive Style 30,000 M x µf 250% 500 hours at 85 C Wide Range of General Purpose ,000 M Min. at 125% Rated Voltage Cap. and Voltage 1,000 M x µf 150% 1,000 hours at 85 C Subminiature Size General Purpose at 125% Rated Voltage 3,000 M x µf 150% 1,000 hours at 85 C Compact Size DC Applications ,000 M Min. at 125% Rated Voltage Auto Insertable General Purpose 5,000 M x µf 150% 1,000 hours at 85 C Optional Lead Spacing DC Applications ,000 M Min. at 125% Rated Voltage Self Healing General Purpose 10,000 M x µf 200% 500 hours at 85 C High Vac Capability AC Applications ,000 M Min. at 115% Rated Voltage Self Healing Film 100,000 M x µf 160% 500 hours at 85 C Close Tolerances High Frequency ,000 M Min. at 125% Rated Voltage High Stability Precise Values 200,000 M x µf 200% 1,000 hours at 85 C Wide Range of Cap. High Voltage/Frequency ,000 M Min. at 125% Rated Voltage High Stability Switching Power Supplies 200,000 M x µf 200% 1,000 hours at 85 C Low ESR Power Supplies at 125% Rated Voltage U.L. Approved High Current Circuits >100,000 M x µf 160% 2,000 hours at 85 C Low ESR Snubber at 100 Vdc, 2 Min. at 125% Rated Voltage High dv/dt >100,000 M x µf 160% 2,000 hours at 85 C Low ESR Snubber at 100 Vdc, 2 Min. at 125% Rated Voltage High dv/dt >100,000 M x µf 160% 2,000 hours at 85 C High Peak High Current at 100 Vdc, 2 Min. at 125% Rated Voltage Current Snubbers >100,000 M x µf 160% 2,000 hours at 85 C Low Profile Snubbers at 100 Vdc, 2 Min. at 125% Rated Voltage High Current 100,000 M x µf 200% 1,000 hours at 90 C Low ESR Motor Run at 125% Rated Voltage Discharge Lighting 50,000 M x µf 200% 1,000 hours at 85 C High Peak Current High Frequency ,000 M Min. at 125% Rated Voltage Precise Values 200,000 M x µf 250% (800 Vdc & less) 500 hours at 85 C High Voltage High Current ,000 M Min. 200% (1,200 & 1,600 Vdc) at 125% Rated Voltage High Peak Current Resonant Circuits 400,000 M Min. 175% 500 hours at 85 C High Voltage High Capacitance at 125% Rated Voltage Self-Healing Snubbers 10,000 M x µf 175% 1,000 hours at 85 C Low ESR High Current ,000 M Min. at 125% Rated Voltage Optional Lead Spacing General Purpose 10,000 M x µf 2100 Vdc 1,008 hours at 85 C X2 Agency Vac Across ,000 M Min. per UL 1414 Approvals the-line 3,000 M Min. 175% 1,000 hours at 125 C As stable General Purpose at 125% Rated Voltage as COG ceramic & Precision 1605 East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 3.001

277 Type WMF, Polyester Film Film/Foil Axial Leads Commercial, Industrial Applications Type WMF axial-leaded, polyester film/foil capacitors, available in a wide range of capacitance and voltage ratings, offer excellent moisture resistance capability with extended foil, non-inductive wound sections, epoxy sealed ends and a sealed outer wrapper. Like the Type DMT, Type WMF is an ideal choice for most applications especially those with high peak currents. Film Specifications Voltage Range: Vdc ( Vac) Capacitance Range: µf Capacitance Tolerance: ±10% (K) standard ±5% (J) optional Pulse Capability Body Length Rated Volts dv/dt volts per microsecond, maximum Ratings and Dimensions Cap. Catalog D L d µf Number Inches (mm) Inches (mm) Inches (mm) 50 Vdc (35 Vac).0820 WMF05S82K.280 (7.1).812 (20.6).020 (.5).1000 WMF05P1K.280 (7.1).812 (20.6).020 (.5).1500 WMF05P15K.315 (8.0).812 (20.6).024 (.6).2200 WMF05P22K.360 (9.1).812 (20.6).024 (.6).2700 WMF05P27K.422 (10.7).812 (20.6).024 (.6).3300 WMF05P33K.430 (10.9).812 (20.6).024 (.6).3900 WMF05P39K.405 (10.3) (27.0).024 (.6).4700 WMFO5P47K.407 (10.3) (27.0).024 (.6).5000 WMF05P5K.427 (10.8) (27.0).024 (.6).5600 WMF05P56K.482 (12.2) (27.0).024 (.6).6800 WMF05P68K.522 (13.3) (27.0).024 (.6).8200 WMF05P82K.567 (14.4) (27.0).032 (.8) WMF05W1K.562 (14.3) (34.9).024 (.6) WMF05W1P25K.575 (14.6) (34.9).032 (.8) WMF05W1P5K.645 (16.4) (34.9).032 (.8) WMF05W2K.662 (16.8) (41.3).032 (.8) WMF05W3K.792 (20.1) (41.3).040 (1.0) WMF05W4K.822 (20.9) (46.3).040 (1.0) WMF05W5K.912 (23.2) (46.3).040 (1.0) 100 Vdc (65 Vac).0010 WMF1D1K.188 (4.8).562 (14.3).020 (.5).0015 WMF1D15K.188 (4.8).562 (14.3).020 (.5) Operating Temperature Range: -55 C to 125 C* Dielectric Strength: 250% (1 minute) Dissipation Factor:.75% Max. (25 C, 1 khz) Insulation Resistance: 30,000 M x µf 100,000 M Min. Life Test: 500 Hours at 85 C at 125% Rated Voltage *Full-rated voltage at 85 C Derate linearly to 50%-rated voltage at 125 C 1.50 (38.1mm) L MAX (38.1mm) d TINNED COPPER-CLAD STEEL LEADS NOTE: Other capacitance values, sizes and performance specifications are available. Contact us. Cap. Catalog D L d µf Number Inches (mm) Inches (mm) Inches (mm) 100 Vdc (65 Vac) (cont d).0022 WMF1D22K.188 (4.8).562 (14.3).020 (.5).0027 WMF1D27K.188 (4.8).562 (14.3).020 (.5).0033 WMF1D33K.188 (4.8).562 (14.3).020 (.5).0039 WMF1D39K.188 (4.8).562 (14.3).020 (.5).0047 WMF1D47K.197 (5.0).562 (14.3).020 (.5).0050 WMF1D5K.188 (4.8).562 (14.3).020 (.5).0056 WMF1D56K.188 (4.8).562 (14.3).020 (.5).0068 WMF1D68K.200 (5.1).562 (14.3).020 (.5).0082 WMF1D82K.200 (5.1).562 (14.3).020 (.5).0100 WMF1S1K.200 (5.1).562 (14.3).020 (.5).0150 WMF1S15K.245 (6.2).562 (14.3).020 (.5).0220 WMF1S22K.236 (6.0).687 (17.4).024 (.6).0270 WMF1S27K.235 (6.0).687 (17.4).024 (.6).0330 WMF1S33K.256 (6.5).687 (17.4).024 (.6).0390 WMF1S39K.240 (6.1).812 (20.6).024 (.6).0470 WMF1S47K.255 (6.5).812 (20.6).024 (.6).0500 WMF1S5K.260 (6.6).812 (20.6).024 (.6).0560 WMF1S56K.265 (6.7).812 (20.6).024 (.6).0680 WMF1S68K.295 (7.5).812 (20.6).024 (.6).0820 WMF1S82K.275 (7.0).937 (23.8).024 (.6).1000 WMF1P1K.335 (8.5).937 (23.8).024 (.6).1500 WMF1P15K.340 (8.6).937 (23.8).024 (.6).2200 WMF1P22K.374 (9.5) (27.0).024 (.6) MAX. D Normally Stocked East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

278 Type WMF, Polyester Film Ratings and Dimensions Cap. Catalog D L d µf Number Inches (mm) Inches (mm) Inches (mm) 100 Vdc (65 Vac) (cont d).2700 WMF1P27K.375 (9.5) (30.1).024 (.6).3300 WMF1P33K.413 (10.5) (30.1).024 (.6).3900 WMF1P39K.430 (10.9) (30.1).024 (.6).4700 WMF1P47K.492 (12.5) (31.7).024 (.6).5000 WMF1P5K.460 (11.7) (31.7).024 (.6).5600 WMF1P56K.485 (12.3) (31.7).032 (.8).6800 WMF1P68K.570 (14.5) (31.7).032 (.8).8200 WMF1P82K.540 (13.7) (35.9).032 (.8) WMF1W1K.669 (17.0) (38.1).040 (1.0) WMF1W1P25K.645 (16.4) (38.1).040 (1.0) WMF1W1P5K.735 (18.7) (41.3).040 (1.0) WMF1W2K.835 (21.2) (41.3).040 (1.0) 200/250 Vdc (125 Vac).0010 WMF2D1K.188 (4.8).562 (14.3).020 (.5).0015 WMF2D15K.188 (4.8).562 (14.3).020 (.5).0022 WMF2D22K.188 (4.8).562 (14.3).020 (.5).0027 WMF2D27K.188 (4.8).562 (14.3).020 (.5).0033 WMF2D33K.188 (4.8).562 (14.3).020 (.5).0039 WMF2D39K.188 (4.8).562 (14.3).020 (.5).0047 WMF2D47K.202 (5.1).562 (14.3).020 (.5).0050 WMF2D5K.202 (5.1).562 (14.3).020 (.5).0056 WMF2D56K.202 (5.1).562 (14.3).020 (.5).0068 WMF2D68K.202 (5.1).562 (14.3).020 (.5).0082 WMF2D82K.215 (5.5).562 (14.3).020 (.5).0100 WMF2S1K.230 (5.8).562 (14.3).020 (.5).0150 WMF2S15K.265 (6.7).562 (14.3).024 (.6).0220 WMF2S22K.260 (6.6).687 (17.4).024 (.6).0270 WMF2S27K.260 (6.6).687 (17.4).024 (.6).0330 WMF2S33K.275 (7.0).812 (20.6).024 (.6).0390 WMF2S39K.295 (7.5).812 (20.6).024 (.6).0470 WMF2S47K.295 (7.5).812 (20.6).024 (.6).0560 WMF2S56K.295 (7.5).812 (20.6).024 (.6).0680 WMF2S68K.315 (8.0).812 (20.6).024 (.6).0820 WMF2S82K.300 (7.6).937 (23.8).024 (.6).1000 WMF2P1K.320 (8.1).937 (23.8).024 (.6).1500 WMF2P15K.375 (9.5).937 (23.8).024 (.6).2200 WMF2P22K.413 (10.5) (30.1).024 (.6).2700 WMF2P27K.500 (12.7) (30.1).024 (.6).3300 WMF2P33K.545 (13.8) (32.0).024 (.6).3900 WMF2P39K.565 (14.3) (33.3).032 (.8).4700 WMF2P47K.610 (15.5) (33.3).032 (.8).5600 WMF2P56K.660 (16.8) (33.3).040 (1.0).6800 WMF2P68K.660 (16.8) (41.3).040 (1.0).8200 WMF2P82K.715 (18.2) (41.3).040 (1.0) WMF2W1K.740 (18.8) (44.4).040 (1.0) WMF2W1P25K.815 (20.7) (44.4).040 (1.0) WMF2W1P5K.809 (20.5) (46.0).040 (1.0) WMF2W2K.965 (24.5) (47.6).040 (1.0) 400 Vdc (200 Vac).0010 WMF4D1K.188 (4.8).687 (17.4).020 (.5).0015 WMF4D15K.188 (4.8).687 (17.4).020 (.5).0022 WMF4D22K.188 (4.8).687 (17.4).020 (.5).0027 WMF4D27K.210 (5.3).687 (17.4).020 (.5).0033 WMF4D33K.222 (5.6).687 (17.4).020 (.5).0039 WMF4D39K.232 (5.9).687 (17.4).020 (.5).0047 WMF4D47K.236 (6.0).687 (17.4).020 (.5).0056 WMF4D56K.265 (6.7).687 (17.4).024 (.6) Normally Stocked Cap. Catalog D L d µf Number Inches (mm) Inches (mm) Inches (mm) 400 Vdc (200 Vac) (cont d).0068 WMF4D68K.282 (7.2).687 (17.4).024 (.6).0082 WMF4D82K.305 (7.7).687 (17.4).024 (.6).0100 WMF4S1K.330 (8.4).687 (17.4).024 (.6).0150 WMF4S15K.390 (9.9).687 (17.4).024 (.6).0220 WMF4S22K.350 (8.9).812 (20.6).024 (.6).0270 WMF4S27K.380 (9.6).812 (20.6).024 (.6).0330 WMF4S33K.375 (9.5).875 (22.2).024 (.6).0390 WMF4S39K.400 (10.2).875 (22.2).024 (.6).0470 WMF4S47K.432 (11.0).875 (22.2).024 (.6).0560 WMF4S56K.385 (9.8) (27.0).024 (.6).0680 WMF4S68K.405 (10.3) (27.0).024 (.6).0820 WMF4S82K.405 (10.3) (27.0).024 (.6).1000 WMF4P1K.490 (12.4) (27.0).024 (.6).1500 WMF4P15K.535 (13.6) (31.7).024 (.6).2200 WMF4P22K.595 (15.1) (34.9).032 (.8).2700 WMF4P27K.610 (15.5) (38.1).032 (.8).3300 WMF4P33K.625 (15.9) (41.3).032 (.8).3900 WMF4P39K.625 (15.9) (41.3).032 (.8).4700 WMF4P47K.730 (18.5) (41.3).040 (1.0).5600 WMF4P56K.755 (19.2) (44.4).040 (1.0).6800 WMF4P68K.820 (20.8) (44.4).040 (1.0).8200 WMF4P82K.895 (22.7) (44.4).040 (1.0) WMF4W1K.895 (22.7) (50.8).040 (1.0) WMF4W1P25K.990 (25.1) (50.8).040 (1.0) WMF4W1P5K.995 (25.3) (58.7).040 (1.0) 600/630 Vdc (250 Vac).0010 WMF6D1K.195 (5.0).812 (20.6).020 (.5).0015 WMF6D15K.202 (5.1).812 (20.6).020 (.5).0022 WMF6D22K.216 (5.5).812 (20.6).020 (.5).0027 WMF6D27K.215 (5.5).812 (20.6).020 (.5).0033 WMF6D33K.230 (5.8).812 (20.6).020 (.5).0039 WMF6D39K.240 (6.1).812 (20.6).020 (.5).0047 WMF6D47K.260 (6.6).812 (20.6).020 (.5).0056 WMF6D56K.270 (6.9).812 (20.6).024 (.6).0068 WMF6D68K.290 (7.4).812 (20.6).024 (.6).0082 WMF6D82K.290 (7.4).812 (20.6).024 (.6).0100 WMF6S1K.290 (7.4).812 (20.6).024 (.6).0150 WMF6S15K.295 (7.5).937 (23.8).024 (.6).0220 WMF6S22K.335 (8.5).937 (23.8).024 (.6).0270 WMF6S27K.365 (9.3).937 (23.8).024 (.6).0330 WMF6S33K.394 (10.0) (25.4).024 (.6).0390 WMF6S39K.395 (10.0) (25.4).024 (.6).0470 WMF6S47K.430 (10.9) (25.4).024 (.6).0560 WMF6S56K.460 (11.7) (25.4).024 (.6).0680 WMF6S68K.500 (12.7) (25.4).032 (.8).0820 WMF6S82K.507 (12.9) (34.9).032 (.8).1000 WMF6P1K.580 (14.7) (34.9).032 (.8).1500 WMF6P15K.687 (17.4) (34.9).040 (1.0).2200 WMF6P22K.722 (18.3) (41.3).040 (1.0).2700 WMF6P27K.792 (20.1) (41.3).040 (1.0).3300 WMF6P33K.749 (19.0) (50.8).040 (1.0).3900 WMF6P39K.815 (20.7) (50.8).040 (1.0).4700 WMF6P47K.885 (22.5) (50.8).040 (1.0).5600 WMF6P56K.952 (24.2) (50.8).040 (1.0).6800 WMF6P68K (26.2) (50.8).040 (1.0).8200 WMF6P82K (29.5) (50.8).040 (1.0) WMF6W1K (30.1) (65.1).040 (1.0) Film 1605 East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 3.003

279 Type WMC, Polyester Film Film/Foil Axial Leads Miniature Size Automatic Insertion Type WMC axial-leaded, polyester film/foil capacitors are ideal for automatic insertion in printed circuit boards. An ultraminiature version of Type WMF, the sections of this capacitor are extended foil, polyester film, non-inductive design with tinned, copper-clad steel leads. Film Specifications Voltage Range: Vdc ( Vac) Capacitance Range: µf Capacitance Tolerance: ±10% (K) standard ±5% (J) optional Operating Temperature Range: -55 C to 125 C* *Full-rated voltage at 85 C Derate linearly to 50%-rated voltage at 125 C Pulse Capability Body Length Rated Volts dv/dt volts per microsecond, maximum Ratings and Dimensions Cap. Catalog D L d µf Number Inches (mm) Inches (mm) Inches (mm) 80 Vdc (50 Vac).0010 WMC08D1K.185 (4.7).406 (10.3).020 (.5).0012 WMC08D12K.185 (4.7).406 (10.3).020 (.5).0015 WMC08D15K.185 (4.7).406 (10.3).020 (.5).0018 WMC08D18K.185 (4.7).406 (10.3).020 (.5).0022 WMC08D22K.185 (4.7).406 (10.3).020 (.5).0027 WMC08D27K.185 (4.7).406 (10.3).020 (.5).0033 WMC08D33K.185 (4.7).406 (10.3).020 (.5).0039 WMC08D39K.185 (4.7).406 (10.3).020 (.5).0047 WMC08D47K.185 (4.7).406 (10.3).020 (.5).0056 WMC08D56K.185 (4.7).406 (10.3).020 (.5).0068 WMC08D68K.185 (4.7).406 (10.3).020 (.5).0082 WMC08D82K.185 (4.7).406 (10.3).020 (.5).0100 WMC08S1K.185 (4.7).406 (10.3).020 (.5).0120 WMC08S12K.185 (4.7).468 (11.9).020 (.5).0150 WMC08S15K.185 (4.7).468 (11.9).020 (.5).0180 WMC08S18K.185 (4.7).531 (13.5).020 (.5).0220 WMC08S22K.185 (4.7).531 (13.5).020 (.5).0270 WMC08S27K.229 (5.8).468 (11.9).020 (.5) Dielectric Strength: 250% (1 minute) Dissipation Factor:.75% Max. (25 C, 1kHz) Insulation Resistance: 30,000 M x µf 100,000 M Min. Life Test: 250 Hours at 85 C at 125% Rated Voltage LEAD DIAMETERS: No. 24 AWG to.282 (6.35mm) diameter No. 22 AWG.283 (6.38mm) diameter and up d NOTE: 1.50 MIN. (38.1mm) L MAX. TINNED COPPER-CLAD STEEL LEADS 1.50 MIN. (38.1mm) D MAX. Other capacitance values, sizes and performance specifications are available. Contact us. Normally Stocked Cap. Catalog D L d µf Number Inches (mm) Inches (mm) Inches (mm) 80 Vdc (50 Vac) (cont d) WMC08S33K.229 (5.8).468 (11.9).020 (.5) WMC08S39K.229 (5.8).593 (15.1).020 (.5) WMC08S47K.229 (5.8).593 (15.1).020 (.5) WMC08S56K.250 (6.3).593 (15.1).020 (.5) WMC08S68K.250 (6.3).593 (15.1).020 (.5) WMC08S82K.343 (8.7).531 (13.5).024 (.6) WMC08P1K.343 (8.7).531 (13.5).024 (.6) WMC08P12K.343 (8.7).656 (16.7).024 (.6) WMC08P15K.343 (8.7).656 (16.7).024 (.6) WMC08P18K.382 (9.7).656 (16.7).024 (.6) WMC08P22K.382 (9.7).656 (16.7).024 (.6) WMC08P27K.382 (9.7).905 (23.0).024 (.6) WMC08P33K.382 (9.7).905 (23.0).024 (.6) WMC08P39K.382 (9.7) (30.9).024 (.6) WMC08P47K.382 (9.7) (30.9).024 (.6) 200/250 Vdc (125 Vac) WMC2D1K.185 (4.7).406 (10.3).020 (.5) WMC2D12K.185 (4.7).406 (10.3).020 (.5) East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

280 Type WMC, Polyester Film Ratings and Dimensions Normally Stocked Cap. Catalog D L d µf Number Inches (mm) Inches (mm) Inches (mm) 200/250 Vdc (125 Vac) WMC2D15K.185 (4.7).406 (10.3).020 (.5) WMC2D18K.185 (4.7).406 (10.3).020 (.5) WMC2D22K.185 (4.7).406 (10.3).020 (.5) WMC2D27K.185 (4.7).406 (10.3).020 (.5) WMC2D33K.185 (4.7).468 (11.9).020 (.5) WMC2D39K.185 (4.7).468 (11.9).020 (.5) WMC2D47K.185 (4.7).468 (11.9).020 (.5) WMC2D56K.185 (4.7).468 (11.9).020 (.5) WMC2D68K.185 (4.7).468 (11.9).020 (.5) WMC2D82K.185 (4.7).531 (13.5).020 (.5) WMC2S1K.185 (4.7).531 (13.5).020 (.5) WMC2S12K.229 (5.8).468 (11.9).020 (.5) WMC2S15K.229 (5.8).468 (11.9).020 (.5) WMC2S18K.229 (5.8).656 (16.7).020 (.5) WMC2S22K.229 (5.8).656 (16.7).020 (.5) WMC2S27K.250 (6.3).656 (16.7).020 (.5) WMC2S33K.250 (6.3).656 (16.7).020 (.5) WMC2S39K.343 (8.7).531 (13.5).024 (.6) WMC2S47K.343 (8.7).531 (13.5).024 (.6) WMC2S56K.343 (8.7).656 (16.7).024 (.6) WMC2S68K.343 (8.7).656 (16.7).024 (.6) WMC2S82K.382 (9.7).656 (16.7).024 (.6) WMC2P1K.382 (9.7).656 (16.7).024 (.6) WMC2P12K.382 (9.7).906 (23.0).024 (.6) WMC2P15K.382 (9.7).906 (23.0).024 (.6) WMC2P18K.382 (9.7) (30.9).024 (.6) WMC2P22K.382 (9.7) (30.9).024 (.6) Cap. Catalog D L d µf Number Inches (mm) Inches (mm) Inches (mm) 400 Vdc (200 Vac) WMC4D1K.185 (4.7).468 (11.9).020 (.5) WMC4D12K.185 (4.7).468 (11.9).020 (.5) WMC4D15K.185 (4.7).468 (11.9).020 (.5) WMC4D18K.185 (4.7).531 (13.5).020 (.5) WMC4D22K.185 (4.7).531 (13.5).020 (.5) WMC4D27K.229 (5.8).531 (13.5).020 (.5) WMC4D33K.229 (5.8).531 (13.5).020 (.5) WMC4D39K.229 (5.8).531 (13.5).020 (.5) WMC4D47K.229 (5.8).531 (13.5).020 (.5) WMC4D56K.250 (6.3).656 (16.7).020 (.5) WMC4D68K.250 (6.3).656 (16.7).020 (.5) WMC4D82K.250 (6.3).656 (16.7).020 (.5) WMC4S1K.250 (6.3).656 (16.7).020 (.5) WMC4S12K.343 (8.7).593 (15.1).024 (.6) WMC4S15K.343 (8.7).593 (15.1).024 (.6) WMC4S18K.343 (8.7).718 (18.2).024 (.6) WMC4S22K.343 (8.7).718 (18.2).024 (.6) WMC4S27K.382 (9.7).718 (18.2).024 (.6) WMC4S33K.382 (9.7).718 (18.2).024 (.6) WMC4S39K.382 (9.7).906 (23.0).024 (.6) WMC4S47K.382 (9.7).906 (23.0).024 (.6) WMC4S56K.382 (9.7) (30.9).024 (.6) WMC4S68K.382 (9.7) (30.9).024 (.6) Film 1605 East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 3.005

281 Type MMA, Polyester Film Metallized Oval, Axial Leads AC Applications Low ESR Film Specifications Voltage Range: Vac ( Vdc) Capacitance Range: µf Capacitance Tolerance: ±10% (K) standard ±5% (J) optional Operating Temperature Range: -55 C to 125 C* *Full-rated voltage at 85 C Derate linearly to 50%-rated voltage at 125 C Type MMA axial-leaded, metallized polyester capacitors are designed for AC applications. Sections feature epoxy end seals to resist moisture and UL 94 V- O rated flame-retardant outer film wrapper. Self healing, low DF, and corona free at high AC voltages, Type MMA is the axial leaded alternative to Type DMMA for medium current, AC applications. This non-protected film capacitor has Underwriters Laboratories, Inc. recognition for construction only. U.L. File Number assigned is E128034(N). Dielectric Strength: 200% (1 minute) Dissipation Factor:.60% Max. (25 C, 1 khz) Insulation Resistance: 10,000 M x µf 30,000 M Min. Life Test: 500 Hours at 85 C at 115% Rated Voltage Pulse Capability Body Length Rated Volts dv/dt volts per microsecond, maximum Ratings and Dimensions Cap. Catalog T W L d µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) 125 Vac (250 Vdc).047 MMAAS47K.177 (4.5).275 (7.0).562 (14.3).020 (.5).068 MMAAS68K.166 (4.2).264 (6.7).687 (17.4).020 (.5).100 MMAAP1K.186 (4.7).311 (7.9).687 (17.4).024 (.6).150 MMAAP15K.228 (5.8).353 (9.0).687 (17.4).024 (.6).220 MMAAP22K.276 (7.0).401 (10.2).687 (17.4).024 (.6).330 MMAAP33K.339 (8.6).464 (11.8).687 (17.4).024 (.6).470 MMAAP47K.285 (7.2).410 (10.4) (25.4).024 (.6).680 MMAAP68K.344 (8.7).469 (11.9) (25.4).032 (.8) MMAAW1K.407 (10.3).572 (14.5) (27.0).032 (.8) MMAAW1P5K.431 (10.9).611 (15.5) (31.7).032 (.8) MMAAW2K.502 (12.7).682 (17.3) (31.7).032 (.8) MMAAW3K.540 (13.7).720 (18.3) (38.1).032 (.8) MMAAW4K.638 (16.2).834 (21.2) (38.1).040 (1.0) MMAAW5K.712 (18.1).908 (23.1) (38.1).040 (1.0) 240 Vac (400 Vdc).022 MMABS22K.184 (4.7).282 (7.2).687 (17.4).020 (.5).033 MMABS33K.144 (3.7).269 (6.8).687 (17.4).020 (.5).047 MMABS47K.170 (4.3).295 (7.5).687 (17.4).020 (.5) d NOTE: MIN. (35mm) L MAX. Cap. Catalog T W L d µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) 240 Vac (400 Vdc) (cont d) T MAX. W MAX. Other capacitance values, sizes and performance specifications are available. Contact us..068 MMABS68K.203 (5.2).328 (8.3).687 (17.4).020 (.5).100 MMABP1K.175 (4.4).300 (7.6) (25.4).020 (.5).150 MMABP15K.213 (5.4).338 (8.6) (25.4).020 (.5).220 MMABP22K.253 (6.4).378 (9.6) (25.4).024 (.6).330 MMABP33K.302 (7.7).453 (11.5) (25.4).024 (.6).470 MMABP47K.316 (8.0).468 (11.9) (30.1).024 (.6).680 MMABP68K.385 (9.8).536 (13.6) (30.1).032 (.8) MMABW1K.453 (11.5).663 (16.8) (31.7).032 (.8) MMABW1P5K.488 (12.4).698 (17.7) (38.1).032 (.8) MMABW2K.584 (14.8).780 (19.8) (38.1).040 (1.0) MMABW3K.732 (18.6).928 (23.6) (38.1).040 (1.0) 360 Vac (800 Vdc).015 MMACS15K.153 (3.9).278 (7.1).875 (22.2).020 (.5).022 MMACS22K.182 (4.6).307 (7.8).875 (22.2).020 (.5).033 MMACS33K.223 (5.7).348 (8.8).875 (22.2).024 (.6).047 MMACS47K.264 (6.7).389 (9.9).875 (22.2).024 (.6).068 MMACS68K.264 (6.7).444 (11.3).875 (22.2).024 (.6).100 MMACP1K.303 (7.7).428 (10.9) (27.0).024 (.6) East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

282 Type MMA, Polyester Film Ratings and Dimensions Cap. Catalog T W L d µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) 360 Vac (800 Vdc) (cont d).150 MMACP15K.373 (9.5).498 (12.6) (27.0).032 (.8).220 MMACP22K.454 (11.5).593 (15.1) (28.6).032 (.8).330 MMACP33K.544 (13.8).710 (18.0) (28.6).032 (.8).470 MMACP47K.605 (15.4).756 (19.2) (31.7).040 (1.0).680 MMACP68K.730 (18.5).881 (22.4) (38.1).040 (1.0) MMACW1K.727 (18.5).893 (22.7) (38.1).040 (1.0) MMACW1P5K.716 (18.2).936 (23.8) (49.2).040 (1.0) MMACW2K.834 (21.2) (26.8) (49.2).040 (1.0) 480 Vac (1000 Vdc).010 MMADS1K.185 (4.7).310 (7.9).875 (22.2).020 (.5).015 MMADS15K.226 (5.7).351 (8.9).875 (22.2).024 (.6).022 MMADS22K.273 (6.9).398 (10.1).875 (22.2).024 (.6).033 MMADS33K.336 (8.5).461 (11.7).875 (22.2).024 (.6).047 MMADS47K.295 (7.5).420 (10.7) (27.0).024 (.6).068 MMADS68K.357 (9.1).482 (12.2) (27.0).032 (.8).100 MMADP1K.393 (10.0).603 (15.3) (27.0).032 (.8).150 MMADP15K.493 (12.5).703 (17.8) (28.6).032 (.8).220 MMADP22K.495 (12.6).705 (17.9) (33.3).032 (.8).330 MMADP33K.533 (13.5).743 (18.9) (38.1).032 (.8).470 MMADP47K.663 (16.8).859 (21.8) (38.1).040 (1.0).680 MMADP68K.722 (18.3).918 (23.3) (44.4).040 (1.0) MMADW1K.794 (20.2) (25.7) (49.2).040 (1.0) MMADW1P5K.909 (23.1) (28.7) (54.0).040 (1.0) Film 1605 East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 3.007

283 Type MMP, Polyester Film Metallized Oval, Axial Leads Low Profile Circuit Cards Type MMP axial-leaded, metallized polyester capacitors are ideal when height is at a premium. Non-inductive winding and self-healing capabilities provide stability and long life. Film Specifications Voltage Range: Vdc ( Vac) Capacitance Range: µf Capacitance Tolerance: ±10% (K) standard ±5% (J) optional Operating Temperature Range: -55 C to 125 C* *Full-rated voltage at 85 C Derate linearly to 50%-rated voltage at 125 C Pulse Capability Body Length Rated Volts dv/dt volts per microsecond, maximum Dielectric Strength: 175% (1 minute) Dissipation Factor: 1% Max. (25 C, 1 khz) Insulation Resistance: 5,000 M x µf 10,000 M Min. Life Test: 1,000 Hours at 85 C at 125% Rated Voltage d NOTE: 1.50 MIN. (38.1mm) L MAX. T MAX. W MAX. Other capacitance values, sizes and performance specifications are available. Contact us. Ratings and Dimensions Cap. Catalog T W L d µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) 100 Vdc (65 Vac).15 MMP1P15K.197 (5.0).354 (9.0).670 (17.0).024 (.6).20 MMP1P22K.236 (6.0).394 (10.0).670 (17.0).024 (.6).33 MMP1P33K.236 (6.0).433 (11.0).670 (17.0).024 (.6).47 MMP1P47K.236 (6.0).394 (10.0).906 (23.0).024 (.6).68 MMP1P68K.256 (6.5).433 (11.0).906 (23.0).024 (.6) 1.00 MMP1W1K.276 (7.0).492 (12.5).906 (23.0).032 (.8) 1.50 MMP1W1P5K.276 (7.0).492 (12.5) (27.0).032 (.8) 2.20 MMP1W2P2K.354 (9.0).630 (16.0) (27.0).032 (.8) 3.30 MMP1W3P3K.433 (11.0).729 (18.5) (27.0).032 (.8) 4.70 MMP1W4P7K.354 (9.0).729 (18.5) (35.0).032 (.8) 6.80 MMP1W6P8K.512 (13.0).906 (23.0) (35.0).032 (.8) MMP1W10K.630 (16.0) (26.5) (35.0).032 (.8) 250 Vdc (160 Vac).10 MMP2P1K.217 (5.5).335 (8.5).670 (17.0).024 (.6).15 MMP2P15K.217 (5.5).374 (9.5).670 (17.0).024 (.6).22 MMP2P22K.197 (5.0).354 (9.0).906 (23.0).024 (.6).33 MMP2P33K.217 (5.5).414 (10.5).906 (23.0).024 (.6).47 MMP2P47K.276 (7.0).433 (11.0).985 (25.0).032 (.8) Normally Stocked Cap. Catalog T W L d µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) 250 Vdc (160 Vac) (cont d).680 MMP2P68K.256 (6.5).492 (12.5) (28.0).032 (.8) MMP2W1K.295 (7.5).532 (13.5) (28.0).032 (.8) MMP2W1P5K.335 (8.5).591 (15.0) (32.0).032 (.8) MMP2W2P2K.394 (10.0).709 (18.0) (35.0).032 (.8) MMP2W3P3K.492 (12.5).866 (22.0) (37.0).032 (.8) MMP2W4P7K.630 (16.0).985 (25.0) (43.0).032 (.8) MMP2W6P8K.748 (19.0) (27.0) (40.0).032 (.8) MMP2W10K.630 (16.0) (27.0) (49.0).032 (.8) 400 Vdc (200 Vac).022 MMP4S22K.197 (5.0).354 (9.0).670 (17.0).024 (.6).033 MMP4S33K.236 (6.0).394 (10.0).670 (17.0).024 (.6).047 MMP4S47K.236 (6.0).394 (10.0).670 (17.0).024 (.6).068 MMP4S68K.256 (6.5).394 (10.0).670 (17.0).024 (.6).100 MMP4P1K.256 (6.5).433 (11.0).748 (19.0).024 (.6).150 MMP4P15K.256 (6.5).453 (11.5).866 (22.0).024 (.6).220 MMP4P22K.295 (7.5).532 (13.5).985 (25.0).024 (.6).330 MMP4P33K.315 (8.0).571 (14.5) (27.0).032 (.8).470 MMP4P47K.354 (9.0).610 (15.5) (27.0).032 (.8).680 MMP4P68K.354 (9.0).630 (16.0) (35.0).032 (.8) East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

284 Type MMP, Polyester Film Ratings and Dimensions Normally Stocked Cap. Catalog T W L d µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) 400 Vdc (200 Vac) (cont d) MMP4W1K.414 (10.5).729 (18.5) (35.0).032 (.8) MMP4W1P5K.492 (12.5).827 (21.0) (35.0).032 (.8) MMP4W2P2K.551 (14.0).906 (23.0) (40.0).032 (.8) MMP4W3P3K.670 (17.0) (26.0) (40.0).032 (.8) MMP4W4P7K.827 (21.0) (30.0) (40.0).032 (.8) 630 Vdc (250 Vac).010 MMP6S1K.197 (5.0).354 (9.0).670 (17.0).024 (.6).015 MMP6S15K.236 (6.0).394 (10.0).670 (17.0).024 (.6).022 MMP6S22K.236 (6.0).394 (10.0).670 (17.0).024 (.6).033 MMP6S33K.236 (6.0).394 (10.0).670 (17.0).024 (.6).047 MMP6S47K.236 (6.0).394 (10.0).906 (23.0).024 (.6).068 MMP6S68K.276 (7.0).433 (11.0).906 (23.0).024 (.6).100 MMP6P1K.315 (8.0).512 (13.0).906 (23.0).032 (.8).150 MMP6P15K.394 (10.0).591 (15.0).906 (23.0).032 (.8).220 MMP6P22K.354 (9.0).591 (15.0) (27.0).032 (.8).330 MMP6P33K.394 (10.0).670 (17.0) (27.0).032 (.8).470 MMP6P47K.473 (12.0).689 (17.5) (35.0).032 (.8).680 MMP6P68K.433 (11.0).748 (19.0) (35.0).032 (.8) MMP6W1K.512 (13.0).866 (22.0) (39.0).032 (.8) MMP6W1P5K.670 (17.0) (27.0) (39.0).032 (.8) MMP6W2P2K.748 (19.0) (28.0) (49.0).032 (.8) Film 1605 East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 3.009

285 Type MMWA, Polyester Film Metallized Axial Leads High Capacitance High Voltage Film Specifications Voltage Range: 50-1,000 Vdc ( Vac) Capacitance Range: µf Capacitance Tolerance: ±10% (K) standard ±5% (J) optional *Full-rated voltage at 85 C Derate linearly to 50%-rated voltage at 125 C Pulse Capability Body Length Rated Volts dv/dt volts per microsecond, maximum 50/ Type MMWA axial-leaded, metallized polyester film capacitors incorporate compact, non-inductive extended foil windings with epoxy end seals to offer excellent moisture resistance and capacitance stability over the operating temperature range. Metallized polyester provides self-healing characteristics that help prevent permanent shorting due to high voltage transient. Operating Temperature Range: -55 C to 125 C* Dielectric Strength: 200% (1 minute) Dissipation Factor:.75% Max. (25 C, 1 khz) Insulation Resistance: 10,000 M x µf 30,000 M Min. Life Test: 500 Hours at 85 C at 125% Rated Voltage NOTE: 1.50 MIN. (38.1mm) L MAX MIN. (38.1mm) d TINNED COPPER-CLAD STEEL LEADS MAX. D Other capacitance values, sizes and performance specifications are available. Contact us. Ratings and Dimensions Cap. Catalog D L d µf Number Inches (mm) Inches (mm) Inches (mm) 50 Vdc (35 Vac).100 MMWA05P1K.220 (5.6).562 (14.3).020 (.5).150 MMWA05P15K.210 (5.3).687 (17.4).020 (.5).220 MMWA05P22K.240 (6.1).687 (17.4).020 (.5).330 MMWA05P33K.280 (7.1).687 (17.4).024 (.6).470 MMWA05P47K.320 (8.1).687 (17.4).024 (.6).680 MMWA05P68K.290 (7.4) (25.4).024 (.6) MMWA05W1K.335 (8.5) (25.4).024 (.6) MMWA05W1P5K.355 (9.0) (31.7).024 (.6) MMWA05W2K.400 (10.2) (31.7).024 (.6) MMWA05W3K.475 (12.1) (31.7).024 (.6) MMWA05W4K.505 (12.8) (34.9).024 (.6) MMWA05W5K.525 (13.3) (38.1).024 (.6) MMWA05W6K.585 (14.9) (38.1).032 (.8) MMWA05W7K.625 (15.9) (38.1).032 (.8) MMWA05W8K.669 (17.0) (38.1).040 (1.0) MMWA05W9K.700 (17.8) (38.1).040 (1.0) MMWA05W10K.670 (17.0) (44.4).040 (1.0) Normally Stocked Cap. Catalog D L d µf Number Inches (mm) Inches (mm) Inches (mm) 100 Vdc (65 Vac).010 MMWA1S1K.197 (5.0).562 (14.3).020 (.5).015 MMWA1S15K.197 (5.0).562 (14.3).020 (.5).022 MMWA1S22K.197 (5.0).562 (14.3).020 (.5).033 MMWA1S33K.197 (5.0).562 (14.3).020 (.5).047 MMWA1S47K.217 (5.5).562 (14.3).020 (.5).068 MMWA1S68K.217 (5.5).562 (14.3).020 (.5).100 MMWA1P1K.236 (6.0).562 (14.3).020 (.5).150 MMWA1P15K.236 (6.0).687 (17.4).020 (.5).220 MMWA1P22K.256 (6.5).687 (17.4).020 (.5).330 MMWA1P33K.295 (7.5).687 (17.4).024 (.6).470 MMWA1P47K.320 (8.1).687 (17.4).024 (.6).680 MMWA1P68K.320 (8.1) (25.4).024 (.6) MMWA1W1K.374 (9.5) (25.4).024 (.6) MMWA1W1P5K.374 (9.5) (31.7).024 (.6) MMWA1W2K.400 (10.2) (31.7).024 (.6) MMWA1W3K.475 (12.1) (31.7).024 (.6) MMWA1W4K.505 (12.8) (34.9).032 (.8) East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

286 Type MMWA, Polyester Film Ratings and Dimensions Normally Stocked Cap. Catalog D L d µf Number Inches (mm) Inches (mm) Inches (mm) 100 Vdc (65 Vac) (cont d) MMWA1W5K.525 (13.3) (38.1).032 (.8) MMWA1W6K.585 (14.9) (38.1).032 (.8) MMWA1W7K.625 (15.9) (38.1).032 (.8) MMWA1W8K.669 (17.0) (38.1).040 (1.0) MMWA1W9K.700 (17.8) (38.1).040 (1.0) MMWA1W10K.768 (19.5) (44.4).040 (1.0) 200/250 Vdc (125 Vac).010 MMWA2S1K.197 (5.0).562 (14.3).020 (.5).015 MMWA2S15K.197 (5.0).562 (14.3).020 (.5).022 MMWA2S22K.197 (5.0).562 (14.3).020 (.5).033 MMWA2S33K.197 (5.0).562 (14.3).020 (.5).047 MMWA2S47K.217 (5.5).562 (14.3).020 (.5).068 MMWA2S68K.200 (5.1).687 (17.4).020 (.5).100 MMWA2P1K.240 (6.1).687 (17.4).020 (.5).150 MMWA2P15K.276 (7.0).687 (17.4).024 (.6).220 MMWA2P22K.310 (7.9).687 (17.4).024 (.6).330 MMWA2P33K.365 (9.3).728 (18.5).024 (.6).470 MMWA2P47K.374 (9.5) (25.4).024 (.6).680 MMWA2P68K.365 (9.3) (25.4).024 (.6) MMWA2W1K.430 (10.9) (27.0).024 (.6) MMWA2W1P5K.465 (11.8) (31.7).024 (.6) MMWA2W2K.525 (13.3) (31.7).032 (.8) MMWA2W3K.555 (14.1) (38.1).032 (.8) MMWA2W3P5K.610 (15.5) (38.1).032 (.8) MMWA2W4K.590 (15.0) (44.4).032 (.8) MMWA2W5K.669 (17.0) (44.4).040 (1.0) MMWA2W6K.705 (17.9) (44.4).040 (1.0) 400 Vdc (200 Vac).010 MMWA4S1K.217 (5.5).562 (14.3).020 (.5).015 MMWA4S15K.217 (5.5).562 (14.3).020 (.5).022 MMWA4S22K.236 (6.0).562 (14.3).020 (.5).033 MMWA4S33K.220 (5.6).687 (17.4).020 (.5).047 MMWA4S47K.276 (7.0).687 (17.4).020 (.5).068 MMWA4S68K.280 (7.1).687 (17.4).024 (.6).100 MMWA4P1K.320 (8.1).687 (17.4).024 (.6).150 MMWA4P15K.290 (7.4) (25.4).024 (.6).220 MMWA4P22K.335 (8.5) (25.4).024 (.6).330 MMWA4P33K.394 (10.0) (30.1).024 (.0) Cap. Catalog D L d µf Number Inches (mm) Inches (mm) Inches (mm) 400 Vdc (200 Vac) (cont d).470 MMWA4P47K.433 (11.0) (30.1).024 (.6).680 MMWA4P68K.433 (11.0) (38.1).024 (.6) MMWA4W1K.470 (11.9) (44.4).024 (.6) MMWA4W1P5K.570 (14.5) (44.4).032 (.8) MMWA4W2K.669 (17.0) (44.4).040 (1.0) MMWA4W3K.695 (17.6) (54.0).040 (1.0) MMWA4W3P5K.745 (18.9) (54.0).040 (1.0) MMWA4W4K.790 (20.1) (54.0).040 (1.0) MMWA4W5K.870 (22.1) (54.0).040 (1.0) 600/630 Vdc (250 Vac).010 MMWA6S1K.217 (5.5).687 (17.4).020 (.5).015 MMWA6S15K.236 (6.0).687 (17.4).020 (.5).022 MMWA6S22K.276 (7.0).750 (19.0).020 (.5).033 MMWA6S33K.270 (6.9).750 (19.0).024 (.6).047 MMWA6S47K.305 (7.7).750 (19.0).024 (.6).068 MMWA6S68K.335 (8.5) (25.4).024 (.6).100 MMWA6P1K.374 (9.5) (25.4).024 (.6).150 MMWA6P15K.413 (10.5) (30.1).024 (.6).220 MMWA6P22K.430 (10.9) (31.7).024 (.6).330 MMWA6P33K.480 (12.2) (31.7).024 (.6).470 MMWA6P47K.470 (11.9) (44.4).024 (.6).680 MMWA6P68K.570 (14.5) (44.4).032 (.8) MMWA6W1K.685 (17.4) (44.4).040 (1.0) MMWA6W2K.805 (20.4) (57.1).040 (1.0) MMWA6W3K.945 (24.0) (57.1).040 (1.0) 1,000 Vdc (480 Vac).010 MMWA10S1K.240 (6.1).875 (22.2).020 (.5).015 MMWA10S15K.275 (7.0).875 (22.2).024 (.6).022 MMWA10S22K.320 (8.1).875 (22.2).024 (.6).033 MMWA10S33K.380 (9.6).875 (22.2).024 (.6).047 MMWA10S47K.335 (8.5) (27.0).024 (.6).068 MMWA10S68K.410 (10.4) (28.6).024 (.6).100 MMWA10P1K.485 (12.3) (28.6).024 (.6).150 MMWA10P15K.595 (15.1) (28.6).032 (.8).220 MMWA10P22K.605 (15.4) (33.3).032 (.8).330 MMWA10P33K.640 (16.3) (38.1).032 (.8).470 MMWA10P47K.750 (19.0) (38.1).040 (1.0).680 MMWA10P68K.810 (20.6) (44.4).040 (1.0) MMWA10W1K.880 (22.3) (49.2).040 (1.0) Film 1605 East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 3.011

287 Type DLR, Polyester Film Film/Foil Radial Leads Compact Size High Value, Inductive Radial leaded, polyester film/foil, multiple dipped with epoxy resin, Type DLR boasts superior heat and humidity resistance, stable capacitance, exceptionally high value, and low cost from automated, single-point attachment of leads. But the resulting inductance makes Type DLR best in DC and low-frequency applications. Film Specifications Voltage Range: 100 Vdc (63 Vac) Capacitance Range: µf Capacitance Tolerance: ±10% (K) standard ±5% (J) optional Operating Temperature Range: -55 C to 125 C* Pulse Capability: 500 V/µs Max. Dielectric Strength: 250% (1 minute) Dissipation Factor: 1% Max. (25 C, 1kHz) *Full-rated voltage at 85 C Derate linearly to 50%-rated voltage at 125 C Insulation Resistance: 30,000 M Min. Life Test: 1000 Hours at 85 C at 125% Rated Voltage MAX. L S H MIN. MAXIMUM T d Ratings and Dimensions NOTE: Other capacitance values, sizes and performance specifications are available. Contact us. Normally Stocked T H L S d Cap. Catalog Maximum Maximum Maximum ±.04 (±1.0) ±.002 (±.05) µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 100 Vdc.0010 DLR1D1K.138 (3.5).414 (10.5).236 (6.0).138 (3.5).020 (.5).0015 DLR1D15K.138 (3.5).414 (10.5).236 (6.0).138 (3.5).020 (.5).0022 DLR1D22K.138 (3.5).414 (10.5).236 (6.0).158 (4.0).020 (.5).0033 DLR1D33K.138 (3.5).414 (10.5).236 (6.0).158 (4.0).020 (.5).0047 DLR1D47K.138 (3.5).414 (10.5).256 (6.5).158 (4.0).020 (.5).0068 DLR1D68K.138 (3.5).414 (10.5).256 (6.5).158 (4.0).020 (.5).0100 DLR1S1K.158 (4.0).414 (10.5).256 (6.5).177 (4.5).020 (.5).0150 DLR1S15K.158 (4.0).414 (10.5).256 (6.5).177 (4.5).020 (.5).0220 DLR1S22K.158 (4.0).414 (10.5).276 (7.0).197 (5.0).020 (.5).0330 DLR1S33K.177 (4.5).453 (11.5).315 (8.0).236 (6.0).020 (.5).0470 DLR1S47K.197 (5.0).453 (11.5).374 (9.5).236 (6.0).020 (.5).0680 DLR1S68K.236 (6.0).453 (11.5).414 (10.5).236 (6.0).020 (.5).1000 DLR1P1K.256 (6.5).453 (11.5).473 (12.0).256 (6.5).020 (.5).1500 DLR1P15K.315 (8.0).551 (14.0).591 (15.0).276 (7.0).020 (.5).2200 DLR1P22K.335 (8.5).551 (14.0).618 (15.7).295 (7.5).020 (.5).3300 DLR1P33K.374 (9.5).768 (19.5).650 (16.5).335 (8.5).020 (.5).4700 DLR1P47K.414 (10.5).807 (20.5).768 (19.5).335 (8.5).020 (.5) East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

288 Type DMT, Polyester Film Film/Foil Radial Leads General Purpose, High Peak Currents, High Insulation Resistance Type DMT radial-leaded, polyester film/foil noninductively wound film capacitors feature compact size and moisture-resistive epoxy coating. High insulation resistance and low dissipation factor, Type DMT is an ideal choice for most applications, especially with high peak currents. Specifications Voltage Range: Vdc ( Vac) Capacitance Range: µf Capacitance Tolerance: ±10% (K) standard ±5% (J) optional Operating Temperature Range: -55 C to 125 C* *Full-rated voltage at 85 C Derate linearly to 50%-rated voltage at 125 C Pulse Capability Body Length Rated Volts dv/dt volts per microsecond, maximum Dielectric Strength: 250% (1 minute) Dissipation Factor: 1% Max. (25 C, 1kHz) Insulation Resistance: 30,000 M x µf 100,000 M Min. Life Test: 500 Hours at 85 C at 125% Rated Voltage NOTE: L MAX. S ± MIN. (25) T MAX. H MAX MAX. d TINNED COPPER-CLAD STEEL LEADS Other capacitance values, sizes and performance specifications are available. Contact us. Film Ratings and Dimensions Cap. Catalog T H L S d µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 100 Vdc (65 Vac).0010 DMT1D1K.197 (5.0).354 (9.0).512 (13.0).394 (10.0).024 (.6).0015 DMT1D15K.200 (5.1).354 (9.0).512 (13.0).394 (10.0).024 (.6).0022 DMT1D22K.210 (5.3).354 (9.0).512 (13.0).394 (10.0).024 (.6).0033 DMT1D33K.210 (5.3).354 (9.0).512 (13.0).394 (10.0).024 (.6).0047 DMT1D47K.210 (5.3).354 (9.0).512 (13.0).394 (10.0).024 (.6).0068 DMT1D68K.210 (5.3).354 (9.0).512 (13.0).394 (10.0).024 (.6).0100 DMT1S1K.220 (5.6).354 (9.0).512 (13.0).394 (10.0).024 (.6).0150 DMT1S15K.220 (5.6).370 (9.4).512 (13.0).394 (10.0).024 (.6).0220 DMT1S22K.256 (6.5).390 (9.9).512 (13.0).394 (10.0).024 (.6).0330 DMT1S33K.250 (6.3).350 (8.9).560 (14.2).400 (10.2).032 (.8) Normally Stocked Cap. Catalog T H L S d µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 100 Vdc (65 Vac) (cont d).0470 DMT1S47K.260 (6.6).433 (11.0).560 (14.2).420 (10.7).032 (.8).0680 DMT1S68K.275 (7.0).460 (11.7).560 (14.2).420 (10.7).032 (.8).1000 DMT1P1K.290 (7.4).445 (11.3).682 (17.3).545 (13.8).032 (.8).1500 DMT1P15K.350 (8.9).490 (12.4).682 (17.3).545 (13.8).032 (.8).2200 DMT1P22K.360 (9.1).520 (13.2).820 (20.8).670 (17.0).032 (.8).3300 DMT1P33K.390 (9.9).560 (14.2).942 (23.9).795 (20.2).032 (.8).4700 DMT1P47K.420 (10.7).600 (15.2) (27.4).920 (23.4).032 (.8).5000 DMT1P5K.530 (13.5).690 (17.5) (28.0).920 (23.4).032 (.8).6800 DMT1P68K.480 (12.2).690 (17.5) (28.9).985 (25.0).032 (.8) DMT1W1K.520 (13.2).730 (18.5) (33.8) (29.7).032 (.8) 1605 East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 3.013

289 Type DMT, Polyester Film Ratings and Dimensions Normally Stocked Film Cap. Catalog T H L S d µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 200/250 Vdc (125 Vac).0010 DMT2D1K.217 (5.5).374 (9.5).512 (13.0).394 (10.0).024 (.6).0015 DMT2D15K.217 (5.5).374 (9.5).512 (13.0).394 (10.0).024 (.6).0022 DMT2D22K.217 (5.5).374 (9.5).512 (13.0).394 (10.0).024 (.6).0033 DMT2D33K.217 (5.5).374 (9.5).512 (13.0).394 (10.0).024 (.6).0047 DMT2D47K.236 (6.0).394 (10.0).512 (13.0).394 (10.0).024 (.6).0068 DMT2D68K.236 (6.0).394 (10.0).512 (13.0).394 (10.0).024 (.6).0100 DMT2S1K.236 (6.0).394 (10.0).512 (13.0).394 (10.0).024 (.6).0150 DMT2S15K.236 (6.0).395 (10.0).512 (13.0).400 (10.2).024 (.6).0220 DMT2S22K.275 (7.0).433 (11.0).512 (13.0).420 (10.7).024 (.6).0330 DMT2S33K.295 (7.5).453 (11.0).694 (17.6).545 (13.8).024 (.6).0470 DMT2S47K.295 (7.5).472 (12.0).694 (17.6).545 (13.8).024 (.6).0680 DMT2S68K.335 (8.5).512 (13.0).694 (17.6).545 (13.8).032 (.8).1000 DMT2P1K.354 (9.0).512 (13.0).820 (20.8).670 (17.0).032 (.8).1500 DMT2P15K.394 (10.0).571 (14.5).820 (20.8).670 (17.0).032 (.8).2200 DMT2P22K.413 (10.5).630 (16.0).945 (24.0).795 (20.2).032 (.8).3300 DMT2P33K.492 (12.5).689 (17.5).945 (24.0).795 (20.2).032 (.8).4700 DMT2P47K.531 (13.5).728 (18.5) (28.2).920 (23.4).032 (.8).6800 DMT2P68K.630 (16.0).827 (21.0) (28.7).984 (25.0).032 (.8) 400 Vdc (200 Vac).0010 DMT4D1K.197 (5.0).354 (9.0).569 (14.4).400 (10.2).024 (.6).0015 DMT4D15K.221 (5.6).356 (9.0).569 (14.4).400 (10.2).024 (.6).0022 DMT4D22K.221 (5.6).356 (9.0).569 (14.4).400 (10.2).024 (.6).0033 DMT4D33K.221 (5.6).374 (9.5).569 (14.4).400 (10.2).024 (.6).0047 DMT4D47K.241 (6.1).394 (10.0).569 (14.4).400 (10.2).024 (.6).0068 DMT4D68K.286 (7.3).411 (10.4).569 (14.4).400 (10.2).024 (.6).0100 DMT4S1K.331 (8.4).456 (11.6).569 (14.4).400 (10.2).032 (.8).0150 DMT4S15K.368 (9.3).534 (13.6).569 (14.4).400 (10.2).032 (.8) Cap. Catalog T H L S d µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 400 Vdc (200 Vac) (cont d).0220 DMT4S22K.328 (8.3).479 (12.2).694 (17.6).545 (13.8).032 (.8).0330 DMT4S33K.388 (9.9).539 (13.7).694 (17.6).545 (13.8).032 (.8).0470 DMT4S47K.338 (8.6).534 (13.6).882 (22.4).733 (18.6).032 (.8).0680 DMT4S68K.397 (10.1).593 (15.1).882 (22.4).733 (18.6).032 (.8).1000 DMT4P1K.472 (12.0).668 (17.0).882 (22.4).733 (18.6).032 (.8).1500 DMT4P15K.408 (10.4).810 (20.6) (27.1).920 (23.4).032 (.8).2200 DMT4P22K.418 (10.6).811 (20.6) (33.5) (29.7).032 (.8).3300 DMT4P33K.415 (10.5).844 (21.4) (39.8) (36.1).032 (.8).4700 DMT4P47K.541 (13.7).934 (23.7) (39.8) (36.1).032 (.8) 600/630 Vdc (250 Vac).0010 DMT6D1K.218 (5.5).326 (8.3).694 (17.6).545 (13.8).024 (.6).0015 DMT6D15K.221 (5.6).329 (8.4).694 (17.6).545 (13.8).024 (.6).0022 DMT6D22K.251 (6.4).359 (9.1).694 (17.6).545 (13.8).024 (.6).0033 DMT6D33K.251 (6.4).376 (9.5).694 (17.6).545 (13.8).032 (.8).0047 DMT6D47K.284 (7.2).409 (10.4).694 (17.6).545 (13.8).032 (.8).0068 DMT6D68K.313 (7.9).464 (11.8).694 (17.6).545 (13.8).032 (.8).0100 DMT6S1K.364 (9.2).515 (13.1).694 (17.6).545 (13.8).032 (.8).0150 DMT6S15K.342 (8.7).508 (12.9).820 (20.8).670 (17.0).032 (.8).0220 DMT6S22K.402 (10.2).568 (14.4).820 (20.8).670 (17.0).032 (.8).0330 DMT6S33K.443 (11.2).609 (15.5).882 (22.4).733 (18.6).032 (.8).0470 DMT6S47K.519 (13.2).685 (17.4).882 (22.4).733 (18.6).032 (.8).0680 DMT6S68K.453 (11.5).649 (16.5) (30.3) (26.5).032 (.8).1000 DMTP61K.541 (13.7).737 (18.7) (30.3) (26.5).032 (.8).1500 DMT6P15K.656 (16.7).926 (23.5) (30.3) (26.5).032 (.8).2200 DMT6P22K.630 (16.0) (26.0) (36.7) (32.9).032 (.8).3300 DMT6P33K.650 (16.5) (25.6) (46.2) (42.4).032 (.8).4700 DMT6P47K.739 (18.8) (28.7) (46.2) (42.4).032 (.8) East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

290 Type DSF Polyester Stacked Metallized Radial Leads Subminiature Size Type DSF film capacitors are made with stacked metallized polyester, resulting in high volumetric efficiency and a very economical solution for general purpose DC applications. Ideally suited for blocking, by-pass, coupling, decoupling, and filtering circuits. Specifically designed for applications where high density insertion of components is required. Ammo box style or reel taping available. Specifications Voltage Range: Vdc (63 Vdc Optional) Capacitance Range: µf Capacitance Tolerance: ± 5% (J) standard Operating Temperature Range: -40 to + 85 C Full rated voltage at at 85 C-Derate linearly to to 50% 50% - rated - rated voltage voltage at 105 C at 125 C Pulse Capability Body Length (mm) Rated Volts 7.3, dv/dt volts per microsecond, max Ratings and Dimensions Dielectric Strength: Rated Vdc x 150 %, 60 sec. Dissipation factor: 1% max (25 C, 1 khz) Insulation resistance: C 0.33µF : 3000MΩ min. C>0.33µF : 1000MΩµF min. Life Test: C, 125% rated voltage Lead Spacing L S < Cap. Catalog T H L S Cap. Catalog T H L S µf Number Inches(mm) Inches(mm) Inches(mm) Inches(mm) µf Number Inches(mm) Inches(mm) Inches(mm) Inches(mm) 50 Vdc (40 Vac) 50 Vdc (40 Vac) (cont d) DSF050J (3.2) (5.0) (7.3) (5.0) DSF050J (7.2) (10.0) (10.2) (7.5) DSF050J (3.2) (5.0) (7.3) (5.0) DSF050J (7.2) (12.0) (10.2) (7.5) DSF050J (3.2) (5.0) (7.3) (5.0) DSF050J (7.9) (12.0) (10.2) (7.5) DSF050J (3.2) (5.0) (7.3) (5.0) 100 Vdc (63 Vac) DSF050J (3.2) (5.0) (7.3) (5.0) DSF100J (3.2) (7.0) (7.5) (5.0) DSF050J (3.2) (5.0) (7.3) (5.0) DSF100J (3.2) (7.0) (7.5) (5.0) DSF050J (3.2) (5.0) (7.3) (5.0) DSF100J (3.2) (7.0) (7.5) (5.0) DSF050J (3.2) (5.0) (7.3) (5.0) DSF100J (3.2) (7.0) (7.5) (5.0) DSF050J (3.2) (5.0) (7.3) (5.0) DSF100J (3.2) (7.0) (7.5) (5.0) DSF050J (3.2) (5.0) (7.3) (5.0) DSF100J (3.2) (7.0) (7.5) (5.0) DSF050J (3.2) (5.0) (7.3) (5.0) DSF100J (3.2) (7.0) (7.5) (5.0) DSF050J (3.6) (5.0) (7.3) (5.0) DSF100J (3.2) (7.0) (7.5) (5.0) DSF050J (4.0) (5.0) (7.3) (5.0) DSF100J (3.2) (7.0) (7.5) (5.0) DSF050J (4.0) (5.0) (7.3) (5.0) DSF100J (3.2) (7.0) (7.5) (5.0) DSF050J (4.4) (5.5) (7.3) (5.0) DSF100J (4.0) (7.0) (7.5) (5.0) DSF050J (4.5) (5.5) (7.3) (5.0) DSF100J (4.1) (7.0) (7.5) (5.0) DSF050J (4.8) (5.5) (7.3) (5.0) DSF100J (4.5) (7.0) (7.5) (5.0) DSF050J (4.6) (7.0) (7.3) (5.0) DSF100J (3.3) (9.0) (10.2) (7.5) DSF050J (5.2) (7.0) (7.3) (5.0) DSF100J (3.3) (9.0) (10.2) (7.5) DSF050J (5.7) (7.3) (7.3) (5.0) DSF100J (3.6) (9.0) (10.2) (7.5) DSF050J (6.0) (7.3) (7.3) (5.0) DSF100J (4.0) (9.0) (10.2) (7.5) DSF050J (5.8) (10.0) (7.3) (5.0) DSF100J (4.2) (9.0) (10.2) (7.5) DSF050J (6.5) (10.0) (7.3) (5.0) DSF100J (4.8) (10.0) (10.2) (7.5) DSF050J (6.8) (10.0) (7.3) (5.0) DSF100J (5.5) (10.0) (10.2) (7.5) DSF050J (8.0) (11.0) (7.3) (5.0) DSF100J (6.8) (10.5) (10.2) (7.5) DSF050J (6.5) (10.0) (10.2) (7.5) 1.0 L max S±0.8 H max 20 min T max 0.5 ±.05mm Normally Stocked Film 1605 East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 3.015

291 Type DSF Polyester Part Number System for DSF Series DSF 050 J 223 C Film Dipped Stacked Film Type Voltage Code 050 = 50 Vdc 100 = 100 Vdc Ammo Pack Options Capacitance Tolerance J = ±5% Nominal Capacitance (First two digits are significant figures. Last digit is multiplier to give cap in pf) e.g. 223 = 22 X 10 3 pf =.022 µf 104 = 10 X 10 4 pf =.100 µf 155 = 15 X 10 5 pf = 1.50 µf Bulk and Ammo Packaging Options Blank = Straight lead, Bulk C = Crimped, Bulk CA = Crimped Lead, Ammo Pack TA = Straight Lead, Ammo Pack Tape & Reel packaging available. Contact us for detailed specs. Crimped Lead Ammo Pack Option (CA) Straight Lead Ammo Pack Option (TA) PACKAGE QUANTITY FOR AMMO PACK CRIMPED LEAD OPTION (CA) & (CR) WVDC Capacitance Range Quantity PACKAGE QUANTITY FOR AMMO PACK STRAIGHT LEAD OPTION (TA) & (TR) WVDC Capacitance Range Quantity to Bulk Cut & Crimp Styles Crimp style depends on capacitor length. L 10.0 mm WVDC H3 max. (mm) 50 H H+5.0 L >10.0 mm AMMO PACK TAPING SPECIFICATIONS Dimensions Dimensions Tol. for Crimped for Straight (mm) Option (CA) Lead Option (TA) Lead Spacing (F) /-.2 Capacitor Pitch (P) ±.1 Feed Hole Pitch(Po) ±.2 Carrier Width (W) ±.5 Feed Hole Position (W1) ±.5 Height of Seating Plane(H1) ±.5 Lead Wire Clinch Height (Ho) ±.5 Feed Hole Diameter (Do) ±.2 Case Top to Feed Hole (H2) Max Hmax Hmax Max East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

292 Type DME, Polyester Film Metallized Radial Leads DC Applications Miniature Size Specifications Voltage Range: Vdc ( Vac) Capacitance Range: µf Capacitance Tolerance: ±10% (K) standard ±5% (J) optional Operating Temperature Range: -55 C to 125 C* *Full-rated voltage at 85 C Derate linearly to 50%-rated voltage at 125 C Type DME radial-leaded, mini-dipped capacitors deliver virtually the performance of other capacitors which have cases that are twice as big. Improvements in film technology permit the use of thinner dielectric and make Type DME the choice for all but higher current AC applications where the larger size may be an advantage. Type DME self heals shorts caused by overvoltage transients. For small size and low cost, Type DME is tops. Dielectric Strength: 150% (1 minute) Dissipation Factor: 1% Max. (25 C, 1kHz) Insulation Resistance: 3,000 M x µf 9,000 M Min. Life Test: 1,000 Hours at 85 C at 125% Rated Voltage Film Pulse Capability Body Length Rated Volts dv/dt volts per microsecond, maximum Ratings and Dimensions NOTE:.06 (1.5) MAX. L S H.984 (25) MIN. Other capacitance values, sizes and performance specifications are available. Contact us. Normally Stocked T d Cap. Catalog T Max. H Max. L Max. S ±.04 (±1.0) d µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 100 Vdc (65 Vac).56 DME1P56K.217 (5.5).429 (10.9).492 (12.5).394 (10.0).024 (.6).68 DME1P68K.236 (6.0).469 (11.9).492 (12.5).394 (10.0).024 (.6).82 DME1P82K.256 (6.5).531 (13.5).492 (12.5).394 (10.0).024 (.6) 1.00 DME1W1K.276 (7.0).551 (14.0).492 (12.5).394 (10.0).024 (.6) 1.20 DME1W1P2K.217 (5.5).504 (12.8).728 (18.5).591 (15.0).024 (.6) 1.50 DME1W1P5K.256 (6.5).528 (13.4).728 (18.5).591 (15.0).032 (.8) 1.80 DME1W1P8K.256 (6.5).571 (14.5).728 (18.5).591 (15.0).032 (.8) 2.20 DME1W2P2K.295 (7.5).610 (15.5).728 (18.5).591 (15.0).032 (.8) 2.70 DME1W2P7K.315 (8.0).630 (16.0).728 (18.5).591 (15.0).032 (.8) 3.30 DME1W3P3K.354 (9.0).650 (16.5).728 (18.5).591 (15.0).032 (.8) 3.90 DME1W3P9K.276 (7.0).646 (16.4) (26.0).886 (22.5).032 (.8) 4.70 DME1W4P7K.315 (8.0).669 (17.0) (26.0).886 (22.5).032 (.8) 5.60 DME1W5P6K.354 (9.0).689 (17.5) (26.0).886 (22.5).032 (.8) 6.80 DME1W6P8K.374 (9.5).728 (18.5) (26.0).886 (22.5).032 (.8) 8.20 DME1W8P2K.394 (10.0).787 (20.0) (26.0).886 (22.5).032 (.8) DME1W10K.453 (11.5).827 (21.0) (26.0).886 (22.5).032 (.8) 1605 East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 3.017

293 Type DME, Polyester Film Ratings and Dimensions Normally Stocked Film Cap. Catalog T Max. H Max. L Max. S ±.04 (±1.0) d µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 250 Vdc (160 Vac).010 DME2S1K.177 (4.5).295 (7.5).406 (10.3).295 (7.5).024 (.6).012 DME2S12K.177 (4.5).295 (7.5).406 (10.3).295 (7.5).024 (.6).015 DME2S15K.177 (4.5).295 (7.5).406 (10.3).295 (7.5).024 (.6).018 DME2S18K.177 (4.5).295 (7.5).406 (10.3).295 (7.5).024 (.6).022 DME2S22K.177 (4.5).295 (7.5).406 (10.3).295 (7.5).024 (.6).027 DME2S27K.177 (4.5).295 (7.5).406 (10.3).295 (7.5).024 (.6).033 DME2S33K.177 (4.5).295 (7.5).406 (10.3).295 (7.5).024 (.6).039 DME2S39K.173 (4.4).295 (7.5).406 (10.3).295 (7.5).024 (.6).047 DME2S47K.177 (4.5).295 (7.5).406 (10.3).295 (7.5).024 (.6).056 DME2S56K.189 (4.8).311 (7.9).406 (10.3).295 (7.5).024 (.6).068 DME2S68K.189 (4.8).311 (7.9).406 (10.3).295 (7.5).024 (.6).082 DME2S82K.197 (5.0).315 (8.0).406 (10.3).295 (7.5).024 (.6).100 DME2P1K.228 (5.8).346 (8.8).406 (10.3).295 (7.5).024 (.6).120 DME2P12K.236 (6.0).354 (9.0).406 (10.3).295 (7.5).024 (.6).150 DME2P15K.236 (6.0).425 (10.8).406 (10.3).295 (7.5).024 (.6).180 DME2P18K.197 (5.0).413 (10.5).492 (12.5).394 (10.0).024 (.6).220 DME2P22K.236 (6.0).413 (10.5).492 (12.5).394 (10.0).024 (.6).270 DME2P27K.236 (6.0).453 (11.5).492 (12.5).394 (10.0).024 (.6).330 DME2P33K.276 (7.0).472 (12.0).492 (12.5).394 (10.0).024 (.6).390 DME2P39K.193 (4.9).472 (12.0).728 (18.5).591 (15.0).024 (.6).470 DME2P47K.236 (6.0).492 (12.5).728 (18.5).591 (15.0).024 (.6).560 DME2P56K.236 (6.0).512 (13.0).728 (18.5).591 (15.0).024 (.6).680 DME2P68K.256 (6.5).531 (13.5).728 (18.5).591 (15.0).032 (.8).820 DME2P82K.276 (7.0).590 (15.0).728 (18.5).591 (15.0).032 (.8) DME2W1K.315 (8.0).610 (15.5).728 (18.5).591 (15.0).032 (.8) DME2W1P2K.315 (8.0).626 (15.9).728 (18.5).591 (15.0).032 (.8) DME2W1P5K.374 (9.5).689 (17.5).728 (18.5).591 (15.0).032 (.8) DME2W1P8K.295 (7.5).610 (15.5) (26.0).886 (22.5).032 (.8) DME2W2P2K.354 (9.0).669 (17.0) (26.0).886 (22.5).032 (.8) DME2W2P7K.394 (10.0).689 (17.5) (26.0).886 (22.5).032 (.8) DME2W3P3K.413 (10.5).748 (19.0) (26.0).886 (22.5).032 (.8) DME2W3P9K.443 (11.2).807 (20.5) (26.0).886 (22.5).032 (.8) DME2W4P7K.492 (12.5).886 (22.5) (26.0).886 (22.5).032 (.8) DME2W5P6K.492 (12.5).846 (21.5) (31.0) (27.5).032 (.8) DME2W6P8K.531 (13.5).886 (22.5) (31.0) (27.5).032 (.8) DME2W8P2K.590 (15.0).945 (24.0) (31.0) (27.5).032 (.8) DME2W10K.630 (16.0) (26.0) (31.0) (27.5).032 (.8) 400 Vdc (200 Vac).010 DME4S1K.169 (4.3).291 (7.4).406 (10.3).295 (7.5).024 (.6).012 DME4S12K.173 (4.4).295 (7.5).406 (10.3).295 (7.5).024 (.6).015 DME4S15K.173 (4.4).295 (7.5).406 (10.3).295 (7.5).024 (.6).018 DME4S18K.173 (4.4).295 (7.5).406 (10.3).295 (7.5).024 (.6).022 DME4S22K.189 (4.8).311 (7.9).406 (10.3).295 (7.5).024 (.6).027 DME4S27K.217 (5.5).315 (8.0).406 (10.3).295 (7.5).024 (.6).033 DME4S33K.236 (6.0).354 (9.0).406 (10.3).295 (7.5).024 (.6).039 DME4S39K.193 (4.9).315 (8.0).492 (12.5).394 (10.0).024 (.6).047 DME4S47K.217 (5.5).335 (8.5).492 (12.5).394 (10.0).024 (.6).056 DME4S56K.217 (5.5).394 (10.0).492 (12.5).394 (10.0).024 (.6).068 DME4S68K.236 (6.0).413 (10.5).492 (12.5).394 (10.0).024 (.6).082 DME4S82K.248 (6.3).433 (11.0).492 (12.5).394 (10.0).024 (.6).100 DME4P1K.256 (6.5).472 (12.0).492 (12.5).394 (10.0).024 (.6).120 DME4P12K.217 (5.5).394 (10.0).728 (18.5).591 (15.0).024 (.6).150 DME4P15K.217 (5.5).488 (12.4).728 (18.5).591 (15.0).024 (.6).180 DME4P18K.217 (5.5).492 (12.5).728 (18.5).591 (15.0).024 (.6).220 DME4P22K.256 (6.5).512 (13.0).728 (18.5).591 (15.0).024 (.6).270 DME4P27K.256 (6.5).563 (14.3).728 (18.5).591 (15.0).032 (.8).330 DME4P33K.295 (7.5).587 (14.9).728 (18.5).591 (15.0).032 (.8).390 DME4P39K.295 (7.5).606 (15.4).728 (18.5).591 (15.0).032 (.8) East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

294 Type DME, Polyester Film Ratings and Dimensions Normally Stocked Cap. Catalog T Max. H Max. L Max. S ±.04 (±1.0) d µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 400 Vdc (200 Vac).470 DME4P47K.327 (8.3).669 (17.0).728 (18.5).591 (15.0).032 (.8).560 DME4P56K.276 (7.0).630 (16.0) (26.0).886 (22.5).032 (.8).680 DME4P68K.295 (7.5).650 (16.5) (26.0).886 (22.5).032 (.8).820 DME4P82K.315 (8.0).689 (17.5) (26.0).886 (22.5).032 (.8) DME4W1K.335 (8.5).728 (18.5) (26.0).886 (22.5).032 (.8) DME4W1P2K.374 (9.5).744 (18.9) (26.0).886 (22.5).032 (.8) DME4W1P5K.374 (9.5).748 (19.0) (31.0) (27.5).032 (.8) DME4W1P8K.433 (11.0).807 (20.5) (31.0) (27.5).032 (.8) DME4W2P2K.453 (11.5).866 (22.0) (31.0) (27.5).032 (.8) 630 Vdc (250 Vac).010 DME6S1K.197 (5.0).315 (8.0).492 (12.5).394 (10.0).024 (.6).012 DME6S12K.197 (5.0).315 (8.0).492 (12.5).394 (10.0).024 (.6).015 DME6S15K.217 (5.5).335 (8.5).492 (12.5).394 (10.0).024 (.6).018 DME6S18K.217 (5.5).394 (10.0).492 (12.5).394 (10.0).024 (.6).022 DME6S22K.217 (5.5).413 (10.5).492 (12.5).394 (10.0).024 (.6).027 DME6S27K.217 (5.5).429 (10.9).492 (12.5).394 (10.0).024 (.6).033 DME6S33K.256 (6.5).469 (11.9).492 (12.5).394 (10.0).024 (.6).039 DME6S39K.236 (6.0).528 (13.4).492 (12.5).394 (10.0).024 (.6).047 DME6S47K.276 (7.0).531 (13.5).492 (12.5).394 (10.0).024 (.6).056 DME6S56K.236 (6.0).413 (10.5).728 (18.5).591 (15.0).024 (.6).068 DME6S68K.236 (6.0).453 (11.5).728 (18.5).591 (15.0).024 (.6).082 DME6S82K.276 (7.0).472 (12.0).728 (18.5).591 (15.0).024 (.6).100 DME6P1K.256 (6.5).551 (14.0).728 (18.5).591 (15.0).024 (.6).120 DME6P12K.256 (6.5).571 (14.5).728 (18.5).591 (15.0).032 (.8).150 DME6P15K.315 (8.0).630 (16.0).728 (18.5).591 (15.0).032 (.8).180 DME6P18K.315 (8.0).630 (16.0).728 (18.5).591 (15.0).032 (.8).220 DME6P22K.374 (9.5).669 (17.0).728 (18.5).591 (15.0).032 (.8).270 DME6P27K.276 (7.0).650 (16.5) (26.0).886 (22.5).032 (.8).330 DME6P33K.315 (8.0).689 (17.5) (26.0).886 (22.5).032 (.8).390 DME6P39K.335 (8.5).705 (17.9) (26.0).886 (22.5).032 (.8).470 DME6P47K.394 (10.0).728 (18.5) (26.0).886 (22.5).032 (.8).560 DME6P56K.413 (10.5).787 (20.0) (26.0).886 (22.5).032 (.8).680 DME6P68K.472 (12.0).827 (21.0) (26.0).886 (22.5).032 (.8).820 DME6P82K.453 (11.5).807 (20.5) (31.0) (27.5).032 (.8) DME6W1K.512 (13.0).866 (22.0) (31.0) (27.5).032 (.8) DME6W1P2K.531 (13.5).906 (23.0) (31.0) (27.5).032 (.8) DME6W1P5K.630 (16.0).985 (25.0) (31.0) (27.5).032 (.8) DME6W1P8K.669 (17.0) (27.0) (31.0) (27.5).032 (.8) DME6W2P2K.787 (20.0) (29.0) (31.0) (27.5).032 (.8) 1000 Vdc (250 Vac).010 DME10S1K.236 (6.0).433 (11.0).610 (15.5).492 (12.5).024 (.6).012 DME10S12K.236 (6.0).472 (12.0).610 (15.5).492 (12.5).024 (.6).015 DME10S15K.276 (7.0).492 (12.5).610 (15.5).492 (12.5).024 (.6).018 DME10S18K.295 (7.5).512 (13.0).610 (15.5).492 (12.5).032 (.8).022 DME10S22K.295 (7.5).610 (15.5).610 (15.5).492 (12.5).032 (.8).027 DME10S27K.236 (6.0).512 (13.0).827 (21.0).689 (17.5).032 (.8).033 DME10S33K.256 (6.5).551 (14.0).827 (21.0).689 (17.5).032 (.8).039 DME10S39K.276 (7.0).571 (14.5).827 (21.0).689 (17.5).032 (.8).047 DME10S47K.295 (7.5).610 (15.5).827 (21.0).689 (17.5).032 (.8).056 DME10S56K.295 (7.5).669 (17.0).827 (21.0).689 (17.5).032 (.8).068 DME10S68K.335 (8.5).709 (18.0).827 (21.0).689 (17.5).032 (.8).082 DME10S82K.354 (9.0).728 (18.5).827 (21.0).689 (17.5).032 (.8).100 DME10P1K.394 (10.0).787 (20.0).827 (21.0).689 (17.5).032 (.8).120 DME10P12K.354 (9.0).728 (18.5) (26.0).886 (22.5).032 (.8).150 DME10P15K.394 (10.0).787 (20.0) (26.0).886 (22.5).032 (.8).180 DME10P18K.413 (10.5).866 (22.0) (26.0).886 (22.5).032 (.8).220 DME10P22K.472 (12.0).906 (23.0) (26.0).886 (22.5).032 (.8) Film 1605 East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 3.019

295 Type DMM, Polyester Film Metallized Radial Leads DC Applications Self Healing Type DMM radial-leaded, metallized polyester capacitors have non-inductive windings and multilayered epoxy resin enhancing performance characteristics and humidity resistance. Self healing characteristics prevent permanent shorting due to high-voltage transients. When long life and performance stability are critical, Type DMM is the ideal solution. Film Specifications Voltage Range: Vdc ( Vac) Capacitance Range: µf Capacitance Tolerance: ±10% (K) standard ±5% (J) optional Operating Temperature Range: -55 C to 125 C* *Full-rated voltage at 85 C Derate linearly to 50%-rated voltage at 125 C Dielectric Strength: 150% (1 minute) Dissipation Factor: 1% Max. (25 C, 1kHz) Insulation Resistance: 5,000 M x µf 10,000 M Min. Life Test: 1,000 Hours at 85 C at 125% Rated Voltage Pulse Capability Body Length Rated Volts dv/dt volts per microsecond, maximum Ratings and Dimensions NOTE:.06 (1.5) MAX. L S H.787 (20) MIN. Other capacitance values, sizes and performance specifications are available. Contact us. Normally Stocked T d Cap. Catalog T Max. H Max. L Max. S ±.06 (±1.5) d µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 100 Vdc (65 Vac).150 DMM1P15K.236 (6.0).394 (10.0).551 (14.0).394 (10.0).024 (.6).220 DMM1P22K.236 (6.0).414 (10.5).551 (14.0).394 (10.0).024 (.6).330 DMM1P33K.236 (6.0).414 (10.5).709 (18.0).591 (15.0).024 (.6).470 DMM1P47K.236 (6.0).473 (12.0).709 (18.0).591 (15.0).024 (.6).680 DMM1P68K.276 (7.0).551 (14.0).709 (18.0).591 (15.0).024 (.6) DMM1W1K.354 (9.0).591 (15.0).709 (18.0).591 (15.0).032 (.8) DMM1W1P5K.354 (9.0).670 (17.0) (26.0).886 (22.5).032 (.8) DMM1W2P2K.433 (11.0).788 (20.0) (26.0).886 (22.5).032 (.8) DMM1W3P3K.453 (11.5).788 (20.0) (26.0).886 (22.5).032 (.8) DMM1W4P7K.512 (13.0).906 (23.0) (31.0) (27.5).032 (.8) DMM1W6P8K.630 (16.0) (26.0) (31.0) (27.5).032 (.8) DMM1W10K.709 (18.0) (31.0) (31.0) (27.5).032 (.8) 250 Vdc (160 Vac).068 DMM2S68K.236 (6.0).394 (10.0).551 (14.0).390 (10.0).024 (.6).100 DMM2P1K.276 (7.0).394 (10.0).551 (14.0).390 (10.0).024 (.6).150 DMM2P15K.276 (7.0).433 (11.0).709 (18.0).590 (15.0).024 (.6).220 DMM2P22K.276 (7.0).473 (12.0).709 (18.0).590 (15.0).024 (.6).330 DMM2P33K.276 (7.0).512 (13.0).709 (18.0).590 (15.0).024 (.6).470 DMM2P47K.315 (8.0).591 (15.0) (26.0).886 (22.5).032 (.8).680 DMM2P68K.354 (9.0).610 (15.5) (26.0).886 (22.5).032 (.8) East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

296 Type DMM, Polyester Film Ratings and Dimensions Normally Stocked Cap. Catalog T Max. H Max. L Max. S ±.06 (±1.5) d µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 250 Vdc (160 Vac) DMM2W1K.394 (10.0).670 (17.0) (26.0).886 (22.5).032 (.8) DMM2W1P5K.394 (10.0).768 (19.5) (31.0) (27.5).032 (.8) DMM2W2P2K.512 (13.0).866 (22.0) (31.0) (27.5).032 (.8) DMM2W3P3K.630 (16.0) (26.0) (31.0) (27.5).032 (.8) DMM2W4P7K.630 (16.0) (26.0) (31.0) (27.5).032 (.8) 400 Vdc (200 Vac).033 DMM4S33K.236 (6.0).414 (10.5).551 (14.0).394 (10.0).024 (.6).047 DMM4S47K.315 (8.0).433 (11.0).551 (14.0).394 (10.0).024 (.6).068 DMM4S68K.236 (6.0).512 (13.0).709 (18.0).591 (15.0).024 (.6).100 DMM4P1K.256 (6.5).512 (13.0).709 (18.0).591 (15.0).024 (.6).150 DMM4P15K.276 (7.0).551 (14.0).709 (18.0).591 (15.0).032 (.8).220 DMM4P22K.354 (9.0).630 (16.0) (26.0).886 (22.5).032 (.8).330 DMM4P33K.354 (9.0).630 (16.0) (26.0).886 (22.5).032 (.8).470 DMM4P47K.394 (10.0).709 (18.0) (26.0).886 (22.5).032 (.8).680 DMM4P68K.414 (10.5).709 (18.0) (31.0) (27.5).032 (.8) DMM4W1K.473 (12.0).866 (22.0) (31.0) (27.5).032 (.8) 630 Vdc (250 Vac).010 DMM6S1K.236 (6.0).394 (10.0).551 (14.0).394 (10.0).024 (.6).015 DMM6S15K.256 (6.5).453 (11.5).551 (14.0).394 (10.0).024 (.6).022 DMM6S22K.276 (7.0).492 (12.5).551 (14.0).394 (10.0).024 (.6).033 DMM6S33K.315 (8.0).532 (13.5).709 (18.0).591 (15.0).024 (.6).047 DMM6S47K.295 (7.5).492 (12.5).709 (18.0).591 (15.0).024 (.6).068 DMM6S68K.335 (8.5).571 (14.5).709 (18.0).591 (15.0).032 (.8).100 DMM6P1K.374 (9.5).630 (16.0).709 (18.0).591 (15.0).032 (.8).150 DMM6P15K.394 (10.0).670 (17.0) (26.0).886 (22.5).032 (.8).220 DMM6P22K.433 (11.0).788 (20.0) (26.0).886 (22.5).032 (.8).330 DMM6P33K.512 (13.0).866 (22.0) (31.0) (27.5).032 (.8).470 DMM6P47K.512 (13.0).866 (22.0) (31.0) (27.5).032 (.8).680 DMM6P68K.591 (15.0) (26.0) (31.0) (27.5).032 (.8) DMM6W1K.689 (17.5) (30.0) (31.0) (27.5).032 (.8) Film 1605 East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 3.021

297 Type DMMA, Polyester Film Metallized Radial Leads AC Applications Low ESR Type DMMA radial-leaded, metallized polyester capacitors are designed for AC rated applications. Self healing, low DF, and corona-free at high AC voltages, Type DMMA is the preferred value for medium current, AC applications. Film Specifications Voltage Range: Vac ( Vdc) Capacitance Range:.01-5 µf Capacitance Tolerance: ±10% (K) standard ±5% (J) optional Operating Temperature Range: -55 C to 125 C* *Full-rated voltage at 85 C Derate linearly to 50%-rated voltage at 125 C Dielectric Strength: 160% (1minute) Dissipation Factor:.60% Max. (25 C, 1kHz) Insulation Resistance: 10,000 M x µf 30,000 M Min. Life Test: 500 Hours at 85 C at 115% Rated Voltage Pulse Capability Body Length Rated Volts dv/dt volts per microsecond, maximum NOTE: MAX. T TINNED COPPERWELD WIRE LEADS.032(.8) L MAX. S ±.062 (1.6mm) H MAX MIN. (30mm) 1.5mm MAX. Other capacitance values, sizes and performance specifications are available. Contact us. Ratings and Dimensions T H L S Cap. Catalog Maximum Maximum Maximum ±.062 (1.6) µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) 125 Vac (250 Vdc).047 DMMAAS47K.325 (8.3).450 (11.4).625 (15.9).375 (9.5).068 DMMAAS68K.325 (8.3).450 (11.4).750 (19.0).500 (12.7).100 DMMAAP1K.325 (8.3).480 (12.2).750 (19.0).500 (12.7).150 DMMAAP15K.375 (9.5).530 (13.5).750 (19.0).500 (12.7).220 DMMAAP22K.420 (10.7).590 (15.0).750 (19.0).500 (12.7).330 DMMAAP33K.485 (12.3).650 (16.5).750 (19.0).500 (12.7).470 DMMAAP47K.440 (11.2).610 (15.5) (27.0).812 (20.6).680 DMMAAP68K.480 (12.2).670 (17.0) (27.0).812 (20.6) DMMAAW1K.545 (13.8).750 (19.0) (27.0).812 (20.6) DMMAAW1P5K.575 (14.6).800 (20.3) (31.7) (25.4) DMMAAW2K.655 (16.6).860 (21.8) (31.7) (25.4) DMMAAW3K.685 (17.4).905 (23.0) (38.1) (31.7) DMMAAW4K.710 (18.0).925 (23.5) (38.1) (31.7) DMMAAW5K.775 (19.7) (26.7) (38.1) (31.7) T H L S Cap. Catalog Maximum Maximum Maximum ±.062 (1.6) µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) 240 Vac (400 Vdc).022 DMMABS22K.325 (8.3).455 (11.6).750 (19.0).500 (12.7).033 DMMABS33K.325 (8.3).455 (11.6).750 (19.0).500 (12.7).047 DMMABS47K.325 (8.3).470 (11.9).750 (19.0).500 (12.7).068 DMMABS68K.325 (8.3).515 (13.1).750 (19.0).500 (12.7).100 DMMABP1K.325 (8.3).485 (12.3) (27.0).812 (20.6).150 DMMABP15K.355 (9.0).515 (13.1) (27.0).812 (20.6).220 DMMABP22K.405 (10.3).565 (14.3) (27.0).812 (20.6).330 DMMABP33K.450 (11.4).640 (16.3) (27.0).812 (20.6).470 DMMABP47K.465 (11.8).655 (16.6) (31.7) (25.4).680 DMMABP68K.530 (13.5).735 (18.7) (31.7) (25.4) DMMABW1K.590 (15.0).845 (21.5) (31.7) (25.4) DMMABW1P5K.640 (16.3).875 (22.2) (38.1) (31.7) DMMABW2K.720 (18.3).955 (24.2) (38.1) (31.7) DMMABW3K.780 (19.8) (25.9) (38.1) (31.7) East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

298 Type DMMA, Polyester Film Ratings and Dimensions T H L S Cap. Catalog Maximum Maximum Maximum ±.062 (1.6) µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) 360 Vac (800 Vdc).015 DMMACS15K.295 (7.5).460 (11.7).937 (23.8).687 (17.4).022 DMMACS22K.343 (8.7).500 (12.7).937 (23.8).687 (17.4).033 DMMACS33K.375 (9.5).530 (13.5).937 (23.8).687 (17.4).047 DMMACS47K.405 (10.3).565 (14.3).937 (23.8).687 (17.4).068 DMMACS68K.465 (11.8).640 (16.3).937 (23.8).687 (17.4).100 DMMACP1K.450 (11.4).610 (15.5) (28.6).875 (22.2).150 DMMACP15K.515 (13.1).690 (17.5) (28.6).875 (22.2).220 DMMACP22K.590 (15.0).765 (19.4) (28.6).875 (22.2).330 DMMACP33K.685 (17.4).890 (22.6) (28.6).875 (22.2).470 DMMACP47K.685 (17.4).890 (22.6) (33.3) (25.4).680 DMMACP68K.810 (20.6) (25.8) (33.3) (25.4) DMMACW1K.860 (21.8) (27.2) (38.1) (31.7) DMMACW1P5K.860 (21.8) (28.9) (49.2) (42.0) DMMACW2K.965 (24.5) (32.1) (49.2) (42.0) 480 Vac (1,000 Vdc).010 DMMADS1K.325 (8.3).485 (12.3).937 (23.8).687 (17.4).015 DMMADS15K.375 (9.5).530 (13.5).937 (23.8).687 (17.4).022 DMMADS22K.440 (11.2).595 (15.1).937 (23.8).687 (17.4).033 DMMADS33K.480 (12.2).655 (16.6).937 (23.8).687 (17.4).047 DMMADS47K.440 (11.2).610 (15.5) (28.6).875 (22.2).068 DMMADS68K.500 (12.7).675 (17.1) (28.6).875 (22.2).100 DMMADP1K.580 (14.7).765 (19.4) (28.6).875 (22.2).150 DMMADP15K.670 (17.0).875 (22.2) (28.6).875 (22.2).220 DMMADP22K.685 (17.4).875 (22.2) (33.3) (25.4).330 DMMADP33K.700 (17.8).905 (23.0) (33.3) (25.4).470 DMMADP47K.810 (20.6) (26.2) (38.1) (31.7).680 DMMADP68K.875 (22.2) (28.2) (42.8) (37.3) DMMADW1K.950 (24.1) (31.0) (49.2) (42.0) DMMADW1P5K (27.0) (34.2) (54.0) (47.6) Film 1605 East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 3.023

299 Type WPP, Polypropylene Film Film/Foil Axial Leads High Frequency Precise Values Type WPP axial-leaded, polypropylene film/foil capacitors incorporate non-inductive extended foil construction with epoxy end seals. Type WPP is rated for continuous-duty operation over the temperature range of -55 C to 105 C without voltage derating. Low ESR, low dissipation factor and the inherent stability make Type WPP ideal for tight tolerance, pulse and high-frequency applications. Film Specifications Voltage Range: Vdc ( Vac) Capacitance Range: µf Capacitance Tolerance: ±10% (K) standard ±5% (J) optional Operating Temperature Range: -55 C to 105 C* *Full-rated voltage at 85 C Derate linearly to 50%-rated voltage at 105 C Dielectric Strength: 160% (1 minute) Dissipation Factor:.10% Max. (25 C, 1kHz) Insulation Resistance: 100,000 M x µf 200,000 M Min. Life Test: 500 Hours at 85 C at 125% Rated Voltage Pulse Capability Body Length Rated Volts dv/dt volts per microsecond, maximum Ratings and Dimensions Cap. Catalog D L d µf Number Inches (mm) Inches (mm) Inches (mm) 100 Vdc (70 Vac).0010 WPP1D1K.220 (5.6).625 (15.9).020 (.5).0015 WPP1D15K.220 (5.6).625 (15.9).020 (.5).0022 WPP1D22K.220 (5.6).625 (15.9).020 (.5).0033 WPP1D33K.228 (5.8).625 (15.9).020 (.5).0047 WPP1D47K.240 (6.1).625 (15.9).020 (.5).0068 WPP1D68K.250 (6.3).625 (15.9).020 (.5).0100 WPP1S1K.250 (6.3).625 (15.9).020 (.5).0150 WPP1S15K.250 (6.3).625 (15.9).020 (.5).0220 WPP1S22K.270 (6.9).625 (15.9).020 (.5).0330 WPP1S33K.319 (8.1).625 (15.9).024 (.6).0470 WPP1S47K.298 (7.6).875 (22.2).024 (.6).0680 WPP1S68K.350 (8.9).875 (22.2).024 (.6).1000 WPP1P1K.403 (10.2).906 (23.0).024 (.6).1500 WPP1P15K.515 (13.1) (27.0).024 (.6).2200 WPP1P22K.529 (13.4) (32.0).024 (.6).3300 WPP1P33K.551 (14.0) (31.7).024 (.6).4700 WPP1P47K.622 (15.8) (31.7).032 (.8).6800 WPP1P68K.684 (17.4) (34.9).032 (.8) WPP1W1K.810 (20.6) (34.9).040 (1.0) WPP1W1P5K.828 (21.0) (44.4).040 (1.0) WPP1W2K.934 (23.7) (44.4).040 (1.0) WPP1W2P5K.948 (24.1) (50.8).040 (1.0) NOTE: 1.50 MIN. (38.1mm) L MAX MIN. (38.1mm) Cap. Catalog D L d µf Number Inches (mm) Inches (mm) Inches (mm) 100 Vdc (70 Vac) (cont d) WPP1W3K (26.2) (50.8).040 (1.0) WPP1W3P3K.925 (23.5) (64.0).040 (1.0) WPP1W3P5K.965 (24.5) (64.0).040 (1.0) WPP1W4K (25.5) (64.0).040 (1.0) WPP1W4P5K (27.0) (64.0).040 (1.0) WPP1W5K (28.0) (64.0).040 (1.0) 200/250 Vdc (140 Vac).0010 WPP2D1K.220 (5.6).625 (15.9).020 (.5).0015 WPP2D15K.220 (5.6).625 (15.9).020 (.5).0022 WPP2D22K.220 (5.6).625 (15.9).020 (.5).0033 WPP2D33K.228 (5.8).625 (15.9).020 (.5).0047 WPP2D47K.240 (6.1).625 (15.9).020 (.5).0068 WPP2D68K.250 (6.3).625 (15.9).020 (.5).0100 WPP2S1K.250 (6.3).625 (15.9).020 (.5).0150 WPP2S15K.276 (7.0).625 (15.9).020 (.5).0220 WPP2S22K.295 (7.5).625 (15.9).020 (.5).0330 WPP2S33K.319 (8.1).625 (15.9).024 (.6).0470 WPP2S47K.335 (8.5).875 (22.2).024 (.6).0680 WPP2S68K.350 (8.9).906 (23.0).024 (.6).1000 WPP2P1K.413 (10.5) (28.6).024 (.6).1500 WPP2P15K.492 (12.5) (33.3).024 (.6) d D MAX. Other capacitance values, sizes and performance specifications are available. Contact us East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

300 Type WPP, Polypropylene Film Ratings and Dimensions Cap. Catalog D L d µf Number Inches (mm) Inches (mm) Inches (mm) 200/250 Vdc (140 Vac) (cont d).2200 WPP2P22K.531 (13.5) (33.3).024 (.6).3300 WPP2P33K.591 (15.0) (44.4).024 (.6).4700 WPP2P47K.581 (14.8) (44.4).032 (.8).6800 WPP2P68K.684 (17.4) (44.4).032 (.8) WPP2W1K.820 (20.8) (44.4).040 (1.0) WPP2W1P5K.922 (23.4) (50.8).040 (1.0) WPP2W2K (26.7) (50.8).040 (1.0) WPP2W2P5K.965 (24.5) (64.0).040 (1.0) WPP2W3K (26.5) (64.0).040 (1.0) WPP2W3P5K (28.0) (64.0).040 (1.0) 400 Vdc (250 Vac).0010 WPP4D1K.220 (5.6).625 (15.9).020 (.5).0015 WPP4D15K.220 (5.6).625 (15.9).020 (.5).0022 WPP4D22K.220 (5.6).625 (15.9).020 (.5).0033 WPP4D33K.228 (5.8).625 (15.9).020 (.5).0047 WPP4D47K.256 (6.5).750 (19.0).020 (.5).0068 WPP4D68K.276 (7.0).750 (19.0).020 (.5).0100 WPP4S1K.290 (7.4).750 (19.0).024 (.6).0150 WPP4S15K.352 (8.9).750 (19.0).024 (.6).0220 WPP4S22K.374 (9.5).875 (22.2).024 (.6).0330 WPP4S33K.374 (9.5) (27.0).024 (.6).0470 WPP4S47K.394 (10.0) (31.7).024 (.6).0680 WPP4S68K.415 (10.5) (31.7).024 (.6).1000 WPP4P1K.512 (13.0) (31.7).024 (.6).1500 WPP4P15K.615 (15.6) (31.7).032 (.8).2200 WPP4P22K.595 (15.1) (39.7).032 (.8).3300 WPP4P33K.673 (17.1) (44.4).032 (.8).4700 WPP4P47K.787 (20.0) (44.4).040 (1.0).6800 WPP4P68K.852 (21.6) (50.8).040 (1.0) WPP4W1K (25.8) (50.8).040 (1.0) WPP4W1P5K (26.5) (64.0).040 (1.0) 600/630 Vdc (250 Vac).0010 WPP6D1K.253 (6.4).625 (15.9).020 (.5).0015 WPP6D15K.220 (5.6).750 (19.0).020 (.5).0022 WPP6D22K.226 (5.7).750 (19.0).020 (.5).0033 WPP6D33K.264 (6.7).750 (19.0).020 (.5).0047 WPP6D47K.295 (7.5).812 (20.6).020 (.5).0068 WPP6D68K.311 (7.9).812 (20.6).024 (.6).0100 WPP6S1K.338 (8.6).937 (23.8).024 (.6).0150 WPP6S15K.390 (9.9).937 (23.8).024 (.6).0220 WPP6S22K.424 (10.8) (27.0).024 (.6).0330 WPP6S33K.472 (12.0) (32.0).024 (.6).0470 WPP6S47K.512 (13.0) (32.0).024 (.6).0680 WPP6S68K.605 (15.4) (32.0).032 (.8).1000 WPP6P1K.690 (17.5) (28.6).040 (1.0).1500 WPP6P15K.605 (15.4) (44.4).040 (1.0).2200 WPP6P22K.715 (18.2) (44.4).040 (1.0).3300 WPP6P33K.857 (21.8) (44.4).040 (1.0).4700 WPP6P47K.922 (23.4) (50.8).040 (1.0).6800 WPP6P68K (25.5) (64.0).040 (1.0).8200 WPP6P82K (28.0) (64.0).040 (1.0) Cap. Catalog D L d µf Number Inches (mm) Inches (mm) Inches (mm) 1000 Vdc (250 Vac).0010 WPP10D1K.295 (7.5).812 (20.6).020 (.5).0015 WPP10D15K.315 (8.0).812 (20.6).020 (.5).0022 WPP10D22K.346 (8.8).812 (20.6).024 (.6).0033 WPP10D33K.374 (9.5).812 (20.6).024 (.6).0047 WPP10D47K.420 (10.7).812 (20.6).024 (.6).0068 WPP10D68K.453 (11.5) (25.4).024 (.6).0100 WPP10S1K.453 (11.5) (28.6).024 (.6).0150 WPP10S15K.492 (12.5) (28.6).024 (.6).0220 WPP10S22K.551 (14.0) (28.6).024 (.6).0330 WPP10S33K.575 (14.6) (37.0).032 (.8).0470 WPP10S47K.669 (17.0) (37.0).032 (.8).0680 WPP10S68K.717 (18.2) (34.9).040 (1.0).1000 WPP10P1K.850 (21.6) (34.9).040 (1.0).1500 WPP10P15K (26.0) (34.9).040 (1.0).2200 WPP10P22K.854 (21.7) (54.0).040 (1.0).3300 WPP10P33K (26.0) (54.0).040 (1.0).4700 WPP10P47K (27.0) (64.0).040 (1.0).5000 WPP10P50K (27.5) (64.0).040 (1.0) Film 1605 East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 3.025

301 Type 930, Polypropylene Film Metallized Axial Leads High Voltage/High Frequency Switching Power Supplies Film Specifications Voltage Range: Vdc ( Vac) Capacitance Range: µf Capacitance Tolerance: ±10% (K) standard ±5% (J) optional Operating Temperature Range: -55 C to 105 C* *Full-rated voltage at 85 C Derate linearly to 50%-rated voltage at 105 C Pulse Capability Body Length Rated Volts dv/dt volts per microsecond, maximum Ratings and Dimensions Type 930 axial-leaded, metallized polypropylene capacitors are available in a wide range of capacitance values in reduced sizes. Flame-retardant tape wrap and epoxy end seals provide moisture resistance. Used most frequently in high-voltage/high-frequency switching power supplies where superior stability and AC performance characteristics are important. This non-protected film capacitor has Underwriters Laboratories, Inc. recognition for construction only. U.L. File Number assigned is E128034(N). Dielectric Strength: 200% (1 minute) Dissipation Factor:.10% Max. (25 C, 1kHz) Insulation Resistance: 200,000 M x µf 400,000 M Min. Life Test: 1,000 Hours at 85 C at 125% Rated Voltage NOTE: MIN (41.28mm) #20 AWG (.032 dia) TINNED SOLID COPPER LEADS L (1.5mm) MIN (41.28mm) Other capacitance values, sizes and performance specifications are available. Contact us. Normally Stocked D D L ESR Maximum Ripple Current (Amps rms) at 20 khz Cap. Catalog Maximum (1.5) (milliohms) Case Temperature µf Number Inches (mm) Inches (mm) khz +25C +35C +45C +55C +65C +75C +85C 100 Vdc (70 Vac) C1P22K.275 (7.0).750 (19.0) C1P27K.298 (7.6).750 (19.0) C1P33K.324 (8.2).750 (19.0) C1P39K.347 (8.8).750 (19.0) C1P47K.376 (9.5).750 (19.0) C1P56K.321 (8.2) (25.4) C1P68K.348 (8.8) (25.4) C1P82K.377 (9.6) (25.4) C1W1K.421 (10.7) (25.4) C1W1P2K.454 (11.5) (25.4) C1W1P5K.500 (12.7) (25.4) C1W1P8K.541 (13.7) (25.4) C1W2K.486 (12.3) (31.7) C1W2P2K.507 (12.9) (31.7) C1W2P7K.554 (14.1) (31.7) C1W3K.581 (14.8) (31.7) C1W3P3K.606 (15.4) (31.7) C1W3P9K.654 (16.6) (31.7) C1W4K.537 (13.6) (44.4) C1W4P7K.577 (14.7) (44.4) C1W5K.593 (15.1) (44.4) C1W5P6K.624 (15.8) (44.4) C1W6K.644 (16.4) (44.4) C1W6P8K.682 (17.3) (44.4) C1W8K.735 (18.7) (44.4) C1W8P2K.743 (18.9) (44.4) C1W10K.815 (20.7) (44.4) East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

302 Type 930, Polypropylene Film Ratings and Dimensions Normally Stocked D L ESR Maximum Ripple Current (Amps rms) at 20 khz Cap. Catalog Maximum (1.5) (milliohms) Case Temperature µf Number Inches (mm) Inches (mm) khz +25C +35C +45C +55C +65C +75C +85C 250 Vdc (175 Vac) C2P1K.315 (8.0).750 (19.0) C2P12K.315 (8.0).750 (19.0) C2P15K.335 (8.5).750 (19.0) C2P18K.353 (9.0).750 (19.0) C2P22K.335 (8.5) (25.4) C2P27K.333 (8.5) (25.4) C2P33K.362 (9.2) (25.4) C2P39K.389 (9.9) (25.4) C2P47K.422 (10.7) (25.4) C2P56K.464 (11.8) (25.4) C2P68K.472 (12.0) (31.7) C2P82K.471 (12.0) (31.7) C2W1K.513 (13.0) (32.0) C2W1P2K.554 (14.1) (32.0) C2W1P5K.613 (15.6) (32.0) C2W1P8K.667 (16.9) (31.7) C2W2K.700 (17.8) (31.7) C2W2P2K.650 (16.5) (44.4) C2W2P7K.669 (17.0) (44.4) C2W3K.703 (17.8) (44.4) C2W3P3K.734 (18.6) (44.4) C2W3P9K.794 (20.2) (44.4) C2W4K.803 (20.4) (44.4) C2W4P7K.866 (22.0) (44.4) C2W5K.892 (22.6) (44.4) C2W5P6K.941 (23.9) (44.4) C2W6K.972 (24.7) (44.4) C2W6P8K.882 (22.4) (57.1) C2W8K.953 (24.2) (57.1) C2W8P2K.964 (24.5) (57.1) C2W10K (26.9) (57.1) Vdc (275 Vac) C4S47K.315 (8.0).750 (19.0) C4S56K.315 (8.0).750 (19.0) C4S68K.315 (8.0).750 (19.0) C4S82K.320 (8.1).750 (19.0) C4P1K.348 (8.8).750 (19.0) C4P12K.299 (7.6) (25.4) C4P15K.335 (8.5) (25.4) C4P18K.353 (9.0) (25.4) C4P22K.385 (9.8) (25.4) C4P27K.421 (10.7) (25.4) C4P33K.469 (11.9) (25.4) C4P39K.503 (12.8) (25.4) C4P47K.545 (13.8) (32.0) C4P56K.503 (12.8) (32.0) C4P68K.551 (14.0) (32.0) C4P82K.599 (15.2) (32.0) C4W1K.655 (16.6) (32.0) C4W1P2K.712 (18.1) (32.0) C4W1P5K.709 (18.0) (44.4) C4W1P8K.716 (18.2) (44.4) C4W2K.752 (19.1) (44.4) C4W2P2K.827 (21.0) (44.4) C4W2P7K.865 (22.0) (44.4) C4W3K.909 (23.1) (44.4) C4W3P3K.951 (24.1) (44.4) C4W3P9K (26.2) (44.4) Film 1605 East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 3.027

303 Type 930, Polypropylene Film Ratings and Dimensions Normally Stocked Film D L ESR Maximum Ripple Current (Amps rms) at 20 khz Cap. Catalog Maximum (1.5) (milliohms) Case Temperature µf Number Inches (mm) Inches (mm) khz +25C +35C +45C +55C +65C +75C +85C 630 Vdc (275 Vac) C6S22K.315 (8.0).750 (19.0) C6S27K.315 (8.0).750 (19.0) C6S33K.334 (8.5).750 (19.0) C6S39K.358 (9.1).750 (19.0) C6S47K.388 (9.9).750 (19.0) C6S56K.418 (10.6).750 (19.0) C6S68K.354 (9.0) (25.4) C6S82K.374 (9.5) (25.4) C6P1K.433 (11.0) (25.4) C6P12K.443 (11.2) (25.4) C6P15K.512 (13.0) (32.0) C6P18K.538 (13.7) (32.0) C6P22K.496 (12.6) (32.0) C6P27K.542 (13.8) (32.0) C6P33K.593 (15.1) (32.0) C6P39K.639 (16.2) (32.0) C6P47K.696 (17.7) (37.0) C6P56K.608 (15.4) (44.4) C6P68K.709 (18.0) (44.4) C6P82K.724 (18.4) (44.4) C6W1K.794 (20.2) (47.0) East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

304 Type 935, Polypropylene Film Metallized Axial Leads Specifications Voltage Range: Vdc ( Vac) Capacitance Range: 1-30 µf Capacitance Tolerance: ±10% (K) standard ±5% (J) optional Operating Temperature Range: -55 C to 105 C* *Full-rated voltage at 85 C Derate linearly to 50%-rated voltage at 105 C Pulse Capability Body Length Rated Volts dv/dt volts per microsecond, maximum Ratings and Dimensions Power Supplies High Current Circuits Type 935 axial-leaded, metallized polypropylene capacitors are designed for khz switching power supply input filtering, DC blocking and output filter applications where high current, high capacitance and low ESR values are important. Dry sections are sealed with flame-retardant outer wrap and epoxy end seals for moisture resistance. This non-protected film capacitor has Underwriters Laboratories, Inc. recognition for construction only. U.L. File Number assigned is E128034(N). Dielectric Strength: 200% (1 minute) Dissipation Factor:.10% Max. (25 C, 1kHz) Insulation Resistance: 200,000 M x µf Life Test: 1,000 Hours at 85 C at 125% Rated Voltage WIRE LEADS TINNED SOLID COPPER LEADS d MIN (41.28mm) NOTE: L ±0.062 D MIN (41.28mm) TINNED LUG LUG LEADS L ±0.062 L ± ± DIA ± ± MIN D Other capacitance values, sizes and performance specifications are available. Contact us. Normally Stocked Film Max ESR Maximum Ripple Current (Amps RMS) khz Cap. Catalog D D± L d (milliohms) Case Temperature µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) khz +25C +35C +45C +55C +65C +75C +85C With Wire Leads 100 Vdc (70 Vac) 1 935C1W1K.469 (11.9).062 (1.6).750 (19.0).032 (.8) C1W2K.534 (13.6).062 (1.6).938 (23.8).032 (.8) C1W3K.624 (15.8).093 (2.4).938 (23.8).040 (1.0) C1W5K.640 (16.3).093 (2.4) (31.7).040 (1.0) C1W10K.805 (20.4).093 (2.4) (38.1).040 (1.0) C1W20K.875 (22.2).125 (3.2) (57.1).040 (1.0) C1W30K (27.3).125 (3.2) (57.1).040 (1.0) With Wire Leads 200 Vdc (140 Vac) 1 935C2W1K.450 (11.4).062 (1.6) (31.7).032 (.8) C2W2K.605 (15.4).093 (2.4) (31.7).032 (.8) C2W3K.654 (16.6).093 (2.4) (38.1).040 (1.0) C2W5K.769 (19.5).093 (2.4) (44.4).040 (1.0) C2W10K.905 (23.0).125 (3.2) (57.1).040 (1.0) C2W20K (33.4).125 (3.2) (57.1).040 (1.0) With Wire Leads 400 Vdc (275 Vac) 1 935C4W1K.620 (15.7).093 (2.4) (38.1).032 (.8) C4W2K.802 (20.4).093 (2.4) (44.4).040 (1.0) C4W3K.961 (24.4).125 (3.2) (44.4).040 (1.0) C4W5K (27.1).125 (3.2) (57.1).040 (1.0) C4W10K (39.2).125 (3.2) (57.1).040 (1.0) East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 3.029

305 Type 935, Polypropylene Film Ratings and Dimensions Film Max ESR Maximum Ripple Current (Amps RMS) khz Cap. Catalog D D± L L1 (milliohms) Case Temperature µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) khz +25C +35C +45C +55C +65C +75C +85C With Lug Leads 100 Vdc (70 Vac) 1 935H1W1K.469 (11.9).062 (1.6).750 (19.0) (41.6) H1W2K.534 (13.6).062 (1.6).938 (23.8) (46.4) H1W3K.624 (15.8).093 (2.4).938 (23.8) (46.4) H1W5K.640 (16.3).093 (2.4) (31.7) (53.3) H1W10K.803 (20.4).093 (2.4) (38.1) (57.2) H1W20K.875 (22.2).125 (3.2) (57.1) (77.6) H1W30K (27.3).125 (3.2) (57.1) (77.6) With Lug Leads 200 Vdc (140 Vac) 1 935H2W1K.450 (11.4).062 (1.6) (31.7) (53.3) H2W2K.605 (15.4).093 (2.4) (31.7) (53.3) H2W3K.654 (16.6).093 (2.4) (38.1) (57.2) H2W5K.768 (19.5).093 (2.4) (44.4) (65.3) H2W10K.905 (23.0).125 (3.2) (57.1) (77.6) H2W20K (33.4).125 (3.2) (57.1) (77.6) With Lug Leads 400 Vdc (275 Vac) 1 935H4W1K.620 (15.7).093 (2.4) (38.1) (57.2) H4W2K.802 (20.4).093 (2.4) (44.4) (65.3) H4W3K.961 (24.4).125 (3.2) (44.4) (65.3) H4W5K (27.1).125 (3.2) (57.1) (77.6) H4W10K (39.2).125 (3.2) (57.1) (77.6) East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

306 Type 940C through 943C Power Film Electrical Characteristics Operating Temperature -55 C to +105 C * * Full rated voltage at 85 C-Derate linearly to 50% rated voltage at 105 C Capacitance Tolerance ±10% standard tolerance Dissipation Factor <0.1% at 1 khz, 25 C Dielectric Withstand Insulation Resistance 1.6 x rated voltage for 60 seconds >100,000 megohms x µf at 100 Vdc measured after 2 minutes Equivalent Series Resistance (ESR) Maximum value measured at 25 C, 100 KHz Equivalent Series Inductance (ESL) dv/dt See data tables for values See data tables for values See data tables for values Film Rated Current, Ipk, Irms Maximum allowable current in Amperes at 70 C Capacitance Temperature Coefficient See data tables for values -200 ppm/ C ±100 ppm Service Life 30,000 rated Vac, 70 C 60,000 rated Vdc, 70 C ACCELERATED TESTS Accelerated Life 1.25 x rated DC voltage at 85 C for 2,000 Hours Performance <3% capacitance change ESR <125% of initial reading IR >50% of initial limit Accelerated Pulse Testing Performance per IEC-384 <3% in capacitance change <.003 increase in df from initial value Typical Characteristics 1605 East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 3.031

307 Type 940C, High dv/dt, Round Polypropylene Film Double Metallized Axial Leads Type 940C round, axial film capacitors use polypropylene film and dual metallized electrodes for both self healing properties and high peak current carrying capability (dv/dt). This series features low ESR characteristics, excellent high frequency and high voltage capabilities. Film Specifications Voltage Range: Vdc Capacitance Range: µf Capacitance Tolerance: ±10% Operating Temperature Range: -55 C to 105 C* *Full-rated voltage at 85 C Derate linearly to 50%-rated voltage at 105 C d Double Metallized Polyester Construction 850 Vdc and Higher (41mm) MIN. L MAX (41mm) MIN. D MAX. Polypropylene Metallized polypropylene Ratings and Dimensions NOTE: Other capacitance values, sizes and performance specifications are available. Contact us. Normally Stocked Typical Typical Cap. Catalog D L d ESR ESL dv/dt I peak IRMS µf Number Inches (mm) Inches (mm) Inches (mm) milliohms nh V/µs A A 600 Vdc (275 Vac) C6P1K.354 (9.0) (34.0).032 (.8) C6P15K.413 (10.5) (34.0).040 (1.0) C6P22K.453 (11.5) (34.0).040 (1.0) C6P33K.531 (13.5) (34.0).040 (1.0) C6P47K.610 (15.5) (34.0).040 (1.0) C6P68K.709 (18.0) (34.0).040 (1.0) C6W1K.827 (21.0) (34.0).040 (1.0) C6W1P5K.984 (25.0) (34.0).047 (1.2) C6W2K.925 (23.5) (46.0).047 (1.2) C6W3P3K (27.0) (54.0).047 (1.2) C6W4P7K (31.5) (54.0).047 (1.2) Vdc (450 Vac) C8P15K.512 (13.0) (34.0).040 (1.0) C8P22K.610 (15.5) (34.0).040 (1.0) C8P33K.709 (18.0) (34.0).040 (1.0) C8P47K.827 (21.0) (34.0).040 (1.0) C8P68K.965 (24.5) (34.0).047 (1.2) C8W1K.886 (22.5) (46.0).047 (1.2) C8W1P5K (27.0) (46.0).047 (1.2) C8W2K (30.5) (46.0).047 (1.2) C8W2P2K (32.0) (46.0).047 (1.2) C8W2P5K (34.0) (46.0).047 (1.2) East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

308 Type 940C, High dv/dt, Round Polypropylene Film Ratings and Dimensions Normally Stocked Typical Typical Cap. Catalog D L d ESR ESL dv/dt I peak IRMS µf Number Inches (mm) Inches (mm) Inches (mm) milliohms nh V/µs A A 1000 Vdc (500 Vac) C10P15K.591 (15.0) (34.0).040 (1.0) C10P22K.689 (17.5) (34.0).040 (1.0) C10P33K.807 (20.5) (34.0).040 (1.0) C10P47K.945 (24.0) (34.0).047 (1.2) C10P68K (28.0) (34.0).047 (1.2) C10W1K (26.0) (46.0).047 (1.2) C10W1P5K (31.0) (46.0).047 (1.2) C10W2K (35.5) (46.0).047 (1.2) Vdc (500 Vac) C12P1K.610 (15.5) (34.0).040 (1.0) C12P15K.728 (18.5) (34.0).040 (1.0) C12P22K.846 (21.5) (34.0).040 (1.0) C12P33K.787 (20.0) (46.0).040 (1.0) C12P47K.906 (23.0) (46.0).047 (1.2) C12P68K (27.0) (46.0).047 (1.2) C12W1K (33.0) (46.0).047 (1.2) C12W1P5K (35.0) (54.0).047 (1.2) Vdc (630 Vac) C16P1K.709 (18.0) (34.0).040 (1.0) C16P15K.846 (21.5) (34.0).040 (1.0) C16P22K (25.5) (34.0).047 (1.2) C16P33K.925 (23.5) (46.0).047 (1.2) C16P47K (27.5) (46.0).047 (1.2) C16P68K (32.5) (46.0).047 (1.2) C16W1K (39.0) (46.0).047 (1.2) C16W1P5K (42.0) (54.0).047 (1.2) Vdc (630 Vac) C20S22K.453 (11.5) (34.0).040 (1.0) C20S33K.531 (13.5) (34.0).040 (1.0) C20S47K.591 (15.0) (34.0).040 (1.0) C20S68K.689 (17.5) (34.0).040 (1.0) C20P1K.827 (21.0) (34.0).040 (1.0) C20P15K.768 (19.5) (46.0).040 (1.0) C20P22K.866 (22.0) (46.0).040 (1.0) C20P33K (27.0) (46.0).047 (1.2) C20P47K (32.0) (46.0).047 (1.2) C20P56K (31.0) (54.0).047 (1.2) C20P68K (34.0) (54.0).047 (1.2) C20W1K (41.0) (54.0).047 (1.2) Vdc (750 Vac) C30S1K.453 (11.5) (34.0).040 (1.0) C30S15K.531 (13.5) (34.0).040 (1.0) C30S22K.610 (15.5) (34.0).040 (1.0) C30S33K.709 (18.0) (34.0).040 (1.0) C30S47K.650 (16.5) (46.0).040 (1.0) C30S68K.748 (19.0) (46.0).040 (1.0) C30P1K.886 (22.5) (46.0).047 (1.2) C30P15K (27.0) (46.0).047 (1.2) Film 1605 East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 3.033

309 Type 941C, High dv/dt, Oval Polypropylene Film Double Metallized Axial Leads Type 941C flat, oval film capacitors use polypropylene film and dual metallized electrodes for both self healing properties and high peak current carrying capability (dv/dt). This series features low ESR characteristics, excellent high frequency and high voltage capabilities. Film Specifications Voltage Range: Vdc Capacitance Range: µf Capacitance Tolerance: ±10% Operating Temperature Range: -55 C to 105 C* *Full-rated voltage at 85 C Derate linearly to 50%-rated voltage at 105 C d W MAX. Double Metallized Polyester Construction 850 Vdc and Higher (41mm) MIN. L MAX (41mm) MIN. T MAX. Polypropylene Metallized polypropylene NOTE: Other capacitance values, sizes and performance specifications are available. Contact us. Ratings and Dimensions Typical Typical Cap. Catalog T W L d ESR ESL dv/dt I peak IRMS µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) milliohms nh V/µs A A 600 Vdc (275 Vac) C6P1K.223 (5.7).470 (11.9) (34.0).032 (.8) C6P15K.266 (6.8).513 (13.0) (34.0).040 (1.0) C6P22K.318 (8.1).565 (14.3) (34.0).040 (1.0) C6P33K.387 (9.8).634 (16.1) (34.0).040 (1.0) C6P47K.462 (11.7).709 (18.0) (34.0).040 (1.0) C6P68K.558 (14.2).805 (20.4) (34.0).040 (1.0) C6W1K.680 (17.3).927 (23.5) (34.0).040 (1.0) C6W1P5K.837 (21.3) (27.5) (34.0).047 (1.2) C6W2K.717 (18.2) (27.6) (46.0).047 (1.2) C6W3P3K.886 (22.5) (31.8) (54.0).047 (1.2) C6W4P7K (28.6) (33.3) (54.0).047 (1.2) Vdc (450 Vac) C8P15K.378 (9.6).625 (15.9) (34.0).040 (1.0) C8P22K.458 (11.6).705 (17.9) (34.0).040 (1.0) C8P33K.562 (14.3).810 (20.6) (34.0).040 (1.0) C8P47K.674 (17.1).922 (23.4) (34.0).040 (1.0) C8P68K.815 (20.7) (27.0) (34.0).047 (1.2) C8W1K.679 (17.2) (26.7) (46.0).047 (1.2) C8W1P5K.847 (21.5) (30.9) (46.0).047 (1.2) C8W2K.990 (25.1) (34.6) (46.0).047 (1.2) C8W2P2K (26.5) (35.9) (46.0).047 (1.2) C8W2P5K (28.4) (37.8) (46.0).047 (1.2) East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

310 Type 941C, High dv/dt, Oval Polypropylene Film Ratings and Dimensions Typical Typical Cap. Catalog T W L d ESR ESL dv/dt I peak IRMS µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) milliohms nh V/µs A A 1000 Vdc (500 Vac) C10P15K.441 (11.2).688 (17.5) (34.0).040 (1.0) C10P22K.535 (13.6).782 (19.9) (34.0).040 (1.0) C10P33K.658 (16.7).906 (23.0) (34.0).040 (1.0) C10P47K.790 (20.1) (26.3) (34.0).047 (1.2) C10P68K.955 (24.2) (30.5) (34.0).047 (1.2) C10W1K.803 (20.4) (29.8) (46.0).047 (1.2) C10W1P5K (25.4) (34.8) (46.0).047 (1.2) C10W2K (29.7) (39.1) (46.0).047 (1.2) Vdc (500 Vac) C12P1K.462 (11.7).709 (18.0) (34.0).040 (1.0) C12P15K.568 (14.4).815 (20.7) (34.0).040 (1.0) C12P22K.691 (17.5).938 (23.8) (34.0).040 (1.0) C12P33K.575 (14.6).946 (24.0) (46.0).040 (1.0) C12P47K.698 (17.7) (27.1) (46.0).047 (1.2) C12P68K.854 (21.7) (31.1) (46.0).047 (1.2) C12W1K (26.7) (36.1) (46.0).047 (1.2) C12W1P5K (27.6) (40.2) (54.0).047 (1.2) Vdc (630 Vac) C16P1K.565 (14.3).813 (20.6) (34.0).040 (1.0) C16P15K.696 (17.7).943 (23.9) (34.0).040 (1.0) C16P22K.848 (21.5) (27.8) (34.0).047 (1.2) C16P33K.715 (18.2) (27.6) (46.0).047 (1.2) C16P47K.867 (22.0) (31.4) (46.0).047 (1.2) C16P68K (26.9) (36.3) (46.0).047 (1.2) C16W1K (33.1) (42.5) (46.0).047 (1.2) C16W1P5K (34.5) (47.0) (54.0).047 (1.2) Vdc (630 Vac) C20S22K.313 (7.9).561 (14.2) (34.0).040 (1.0) C20S33K.382 (9.7).629 (16.0) (34.0).040 (1.0) C20S47K.456 (11.6).703 (17.8) (34.0).040 (1.0) C20S68K.550 (14.0).797 (20.2) (34.0).040 (1.0) C20P1K.670 (17.0).917 (23.3) (34.0).040 (1.0) C20P15K.557 (14.1).928 (23.6) (46.0).040 (1.0) C20P22K.686 (17.4) (26.8) (46.0).040 (1.0) C20P33K.856 (21.7) (31.2) (46.0).047 (1.2) C20P47K (26.3) (35.8) (46.0).047 (1.2) C20P56K.941 (23.9) (36.5) (54.0).047 (1.2) C20P68K (26.7) (39.2) (54.0).047 (1.2) C20W1K (33.1) (45.6) (54.0).047 (1.2) Vdc (750 Vac) C30S1K.308 (7.8).555 (14.1) (34.0).040 (1.0) C30S15K.375 (9.5).622 (15.8) (34.0).040 (1.0) C30S22K.454 (11.5).701 (17.8) (34.0).040 (1.0) C30S33K.558 (14.2).805 (20.4) (34.0).040 (1.0) C30S47K.446 (11.3).817 (20.7) (46.0).040 (1.0) C30S68K.545 (13.8).916 (23.3) (46.0).040 (1.0) C30P1K.673 (17.1) (26.5) (46.0).047 (1.2) C30P15K.839 (21.3) (30.7) (46.0).047 (1.2) Film 1605 East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 3.035

311 Type 942C, Very High dv/dt, Round Polypropylene Film Foil/Metallized Hybrid Axial Leads Type 942C round, axial film capacitors utilize a hybrid section design of polypropylene film, metal foils and metallized polypropylene dielectric to achieve both high peak current as well as superior rms current ratings. This series is ideal for high pulse operation and high peak current circuits. Film Specifications Voltage Range: Vdc Capacitance Range: µf Capacitance Tolerance: ±10% Operating Temperature Range: -55 C to 105 C* *Full-rated voltage at 85 C Derate linearly to 50%-rated voltage at 105 C d (41mm) MIN. L MAX (41mm) MIN. D MAX. Foil Construction 600 Vdc and Higher Polypropylene Metallized polypropylene Ratings and Dimensions NOTE: Other capacitance values, sizes and performance specifications are available. Contact us. Normally Stocked Typical Typical Cap. Catalog D L d ESR ESL dv/dt I peak IRMS µf Number Inches (mm) Inches (mm) Inches (mm) milliohms nh V/µs A A 600 Vdc (300 Vac) C6P15K.551 (14.0) (34.0).040 (1.0) C6P22K.630 (16.0) (34.0).040 (1.0) C6P33K.748 (19.0) (34.0).040 (1.0) C6P47K.866 (22.0) (34.0).040 (1.0) C6P68K (25.6) (34.0).047 (1.2) C6W1K.925 (23.5) (46.0).047 (1.2) C6W1P5K (28.5) (46.0).047 (1.2) C6W2K (28.5) (54.0).047 (1.2) C6W2P2K (30.0) (54.0).047 (1.2) C6W2P5K (32.0) (54.0).047 (1.2) Vdc (360 Vac) C8P15K.610 (15.5) (34.0).040 (1.0) C8P22K.709 (18.0) (34.0).040 (1.0) C8P33K.846 (21.5) (34.0).040 (1.0) C8P47K.984 (25.0) (34.0).047 (1.2) C8P68K (29.5) (34.0).047 (1.2) C8W1K (28.0) (46.0).047 (1.2) C8W1P5K (29.0) (54.0).047 (1.2) C8W2K (29.5) (64.0).047 (1.2) East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

312 Type 942C, Very High dv/dt, Round Polypropylene Film Ratings and Dimensions Normally Stocked Typical Typical Cap. Catalog D L d ESR ESL dv/dt I peak IRMS µf Number Inches (mm) Inches (mm) Inches (mm) milliohms nh V/µs A A 1000 Vdc (400 Vac) C10P1K.630 (16.0) (34.0).040 (1.0) C10P15K.748 (19.0) (34.0).040 (1.0) C10P22K.887 (22.5) (34.0).040 (1.0) C10P33K.827 (21.0) (46.0).040 (1.0) C10P47K.945 (24.0) (46.0).047 (1.2) C10P68K (28.5) (46.0).047 (1.2) C10W1K (30.0) (54.0).047 (1.2) C10W1P4K (31.5) (64.0).047 (1.2) Vdc (430 Vac) C12P1K.748 (19.0) (34.0).040 (1.0) C12P15K.887 (22.5) (34.0).040 (1.0) C12P22K (26.5) (34.0).047 (1.2) C12P33K.965 (24.5) (46.0).047 (1.2) C12P47K (29.0) (46.0).047 (1.2) C12P68K (30.5) (54.0).047 (1.2) C12P9K (31.0) (64.0).047 (1.2) Vdc (460 Vac) C16S22K.472 (12.0) (34.0).040 (1.0) C16S33K.571 (14.5) (34.0).040 (1.0) C16S47K.650 (16.5) (34.0).040 (1.0) C16S68K.748 (19.0) (34.0).040 (1.0) C16P1K.887 (22.5) (34.0).040 (1.0) C16P15K.807 (20.5) (46.0).040 (1.0) C16P22K.925 (23.5) (46.0).040 (1.0) C16P33K (28.5) (46.0).047 (1.2) C16P47K (30.0) (54.0).047 (1.2) C16P56K (28.5) (64.0).047 (1.2) C16P68K (31.5) (64.0).047 (1.2) Vdc (500 Vac) C20S1K.472 (12.0) (34.0).040 (1.0) C20S15K.571 (14.5) (34.0).040 (1.0) C20S22K.650 (16.5) (34.0).040 (1.0) C20S33K.768 (19.5) (34.0).040 (1.0) C20S47K.709 (18.0) (46.0).040 (1.0) C20S68K.807 (20.5) (46.0).040 (1.0) C20P1K.965 (24.5) (46.0).047 (1.2) C20P15K (29.5) (46.0).047 (1.2) Film 1605 East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 3.037

313 Type 943C, Very High dv/dt, Oval Polypropylene Film Foil/Metallized Hybrid Axial Leads Type 943C oval, axial film capacitors utilize a hybrid section design of polypropylene film, metal foils and metallized polypropylene dielectric to achieve both high peak current as well as superior rms current ratings. This series is ideal for high pulse operation and high peak current circuits. Film Specifications Voltage Range: Vdc Capacitance Range: µf Capacitance Tolerance: ±10% Operating Temperature Range: -55 C to 105 C* *Full-rated voltage at 85 C Derate linearly to 50%-rated voltage at 105 C d W MAX. Foil Construction 600 Vdc and Higher (41mm) MIN. L MAX (41mm) MIN. T MAX. Polypropylene Metallized polypropylene NOTE: Other capacitance values, sizes and performance specifications are available. Contact us. Ratings and Dimensions Typical Typical Cap. Catalog T W L d ESR ESL dv/dt I peak IRMS µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) milliohms nh V/µs A A 600 Vdc (300 Vac) C6P15K.483 (12.3).669 (17.0) (34.0).040 (1.0) C6P22K.565 (14.3).750 (19.0) (34.0).040 (1.0) C6P33K.672 (17.1).857 (21.8) (34.0).040 (1.0) C6P47K.785 (19.9).970 (24.6) (34.0).040 (1.0) C6P68K.927 (23.5) (28.3) (34.0).047 (1.2) C6W1K.758 (19.2) (28.6) (46.0).047 (1.2) C6W1P5K.926 (23.5) (32.9) (46.0).047 (1.2) C6W2K.947 (24.0) (33.5) (54.0).047 (1.2) C6W2P2K.993 (25.2) (34.6) (54.0).047 (1.2) C6W2P5K (27.0) (36.5) (54.0).047 (1.2) Vdc (360 Vac) C8P15K.548 (13.9).733 (18.6) (34.0).040 (1.0) C8P22K.644 (16.4).829 (21.0) (34.0).040 (1.0) C8P33K.769 (19.5).954 (24.2) (34.0).040 (1.0) C8P47K.902 (22.9) (27.6) (34.0).047 (1.2) C8P68K (27.1) (31.8) (34.0).047 (1.2) C8W1K.882 (22.4) (31.8) (46.0).047 (1.2) C8W1P5K.956 (24.3) (33.7) (54.0).047 (1.2) C8W2K.972 (24.7) (34.2) (64.0).047 (1.2) East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

314 Type 943C, Very High dv/dt, Oval Polypropylene Film Ratings and Dimensions Typical Typical Cap. Catalog T W L d ESR ESL dv/dt I peak IRMS µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) milliohms nh V/µs A A 1000 Vdc (400 Vac) C10P1K.569 (14.4).755 (19.2) (34.0).040 (1.0) C10P15K.677 (17.2).862 (21.9) (34.0).040 (1.0) C10P22K.802 (20.4).987 (25.1) (34.0).040 (1.0) C10P33K.654 (16.6) (26.0) (46.0).040 (1.0) C10P47K.777 (19.7) (29.1) (46.0).047 (1.2) C10P68K.933 (23.7) (33.1) (46.0).047 (1.2) C10W1K (25.4) (34.9) (54.0).047 (1.2) C10W1P4K (26.3) (36.0) (64.0).047 (1.2) Vdc (430 Vac) C12P1K.675 (17.1).860 (21.8) (34.0).040 (1.0) C12P15K.807 (20.5).992 (25.2) (34.0).040 (1.0) C12P22K.960 (24.4) (29.1) (34.0).047 (1.2) C12P33K.794 (20.2) (29.6) (46.0).047 (1.2) C12P47K.946 (24.0) (33.4) (46.0).047 (1.2) C12P68K (25.6) (35.0) (54.0).047 (1.2) C12P9K (25.7) (35.1) (64.0).047 (1.2) Vdc (460 Vac) C16S22K.416 (10.6).602 (15.3) (34.0).040 (1.0) C16S33K.487 (12.4).673 (17.1) (34.0).040 (1.0) C16S47K.563 (14.3).748 (19.0) (34.0).040 (1.0) C16S68K.659 (16.7).844 (21.4) (34.0).040 (1.0) C16P1K.780 (19.8).966 (24.5) (34.0).040 (1.0) C16P15K.636 (16.1) (25.5) (46.0).040 (1.0) C16P22K.765 (19.4) (28.8) (46.0).040 (1.0) C16P33K.935 (23.7) (33.2) (46.0).047 (1.2) C16P47K.989 (25.1) (34.5) (54.0).047 (1.2) C16P56K.957 (24.3) (33.7) (64.0).047 (1.2) C16P68K (26.6) (36.0) (64.0).047 (1.2) Vdc (500 Vac) C20S1K.411 (10.4).596 (15.1) (34.0).040 (1.0) C20S15K.480 (12.2).666 (16.9) (34.0).040 (1.0) C20S22K.561 (14.2).747 (19.0) (34.0).040 (1.0) C20S33K.667 (16.9).852 (21.6) (34.0).040 (1.0) C20S47K.525 (13.3).896 (22.8) (46.0).040 (1.0) C20S68K.624 (15.8).995 (25.3) (46.0).040 (1.0) C20P1K.752 (19.1) (28.5) (46.0).047 (1.2) C20P15K.918 (23.3) (32.7) (46.0).047 (1.2) Film 1605 East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 3.039

315 Type 950, Polypropylene Film Metallized Axial Leads Motor Run HID Lighting Film Specifications Voltage Range: 250 Vac Capacitance Range: µf Capacitance Tolerance: ±10% (K) standard ±6% (H) optional Operating Temperature Range: -55 C to 90 C Type 950 axial-leaded, metallized polypropylene capacitors with high capacitance values are ideal for high intensity discharge lighting and motor run applications. Flame retardant outer wrap and epoxy end seals provide moisture resistance. Type 950 features operating temperatures to 90 C without derating and very low ESR characteristics. This non-protected film capacitor has Underwriters Laboratories, Inc. recognition for construction only. U.L. File Number assigned is E128034(N). Dielectric Strength: 160% (1 minute) Dissipation Factor:.15% 120 HZ Insulation Resistance: 100,000 M x µf Life Test: 1,000 Hours at 90 C at 125% Rated Voltage SOLID LEADS #18 AWG (.040 DIA.) 18 AWG Pulse Capability Body Length Rated Volts dv/dt volts per microsecond, maximum MIN. L MIN. FLEXIBLE LEADS #18 AWG (.040 DIA.) 18 AWG D MIN. L MIN. D NOTE: Other capacitance values, sizes and performance specifications are available. Contact us East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

316 Type 950, Polypropylene Film Ratings and Dimensions Catalog Catalog Cap. Number Number D L µf Solid Leads Flexible Leads Inches (mm) Inches (mm) 250 Vac CQW5K 950FQW5K.906 (23.0) (44.5) CQW7K 950FQW7K (26.3) (44.5) CQW8K 950FQW8K (27.8) (44.5) CQW10K 950FQW10K.996 (25.3) (63.5) CQW12K 950FQW12K (27.3) (63.5) CQW13K 950FQW13K (28.2) (63.5) CQW14K 950FQW14K (29.1) (63.5) CQW15K 950FQW15K (30.0) (63.5) CQW16K 950FQW16K (30.8) (63.5) CQW17K 950FQW17K (31.7) (63.5) CQW17P5K 950FQW17P5K (32.1) (63.5) CQW20K 950FQW20K (34.0) (63.5) CQW22P5K 950FQW22P5K (35.9) (63.5) CQW24K 950FQW24K (37.0) (63.5) CQW26K 950FQW26K (38.3) (63.5) CQW28K 950FQW28K (39.6) (63.5) CQW30K 950FQW30K (40.9) (63.5) CQW32K 950FQW32K (40.0) (73.5) CQW34K 950FQW34K (41.0) (73.5) CQW35K 950FQW35K (42.0) (73.5) CQW36K 950FQW36K (43.0) (73.5) CQW40K 950FQW40K (43.5) (73.5) CQW42K 950FQW42K (44.5) (73.5) CQW45K 950FQW45K (46.0) (73.5) CQW48K 950FQW48K (47.0) (73.5) Catalog Catalog Cap. Number Number D L µf Solid Leads Flexible Leads Inches (mm) Inches (mm) 250 Vac (cont d) CQW50K 950FQW50K (48.0) (73.5) CQW52K 950FQW52K (50.0) (73.5) CQW55K 950FQW55K (51.0) (73.5) CQW56K 950FQW56K (51.5) (73.5) CQW60K 950FQW60K (48.0) (86.0) CQW65K 950FQW65K (49.0) (86.0) CQW68K 950FQW68K (51.0) (86.0) CQW70K 950FQW70K (52.0) (86.0) CQW72K 950FQW72K (53.0) (86.0) CQW75K 950FQW75K (54.0) (86.0) CQW78K 950FQW78K (54.5) (86.0) CQW80K 950FQW80K (55.0) (86.0) CQW82K 950FQW82K (55.5) (86.0) CQW85K 950FQW85K (56.5) (86.0) CQW90K 950FQW90K (50.0) (112.0) CQW92K 950FQW92K (51.0) (112.0) CQW95K 950FQW95K (52.0) (112.0) CQW100K 950FQW100K (53.0) (112.0) CQW105K 950FQW105K (54.0) (112.0) CQW110K 950FQW110K (55.5) (112.0) CQW115K 950FQW115K (56.5) (112.0) CQW120K 950FQW120K (58.0) (112.0) CQW125K 950FQW125K (59.0) (112.0) CQW130K 950FQW130K (60.0) (112.0) CQW135K 950FQW135K (60.0) (112.0) CQW140K 950FQW140K (60.0) (112.0) CQW145K 950FQW145K (60.0) (112.0) CQW150K 950FQW150K (61.0) (112.0) Film 1605 East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 3.041

317 Type DPP, Polypropylene Film Film/Foil Radial Leads High Frequency Precise Values Type DPP radial-leaded, polypropylene film/foil capacitors are non-inductively wound. Very low dissipation factor and high insulation resistance contribute to excellent performance and long-term stability characteristics. Low ESR, DF and its inherent stability make Type DPP an ideal choice for tight tolerance, pulse and high-frequency applications. Film Specifications Voltage Range: Vdc ( Vac) Capacitance Range: µf Capacitance Tolerance: ±10% (K) standard ±5% (J) optional Operating Temperature Range: -55 C to 105 C* *Full-rated voltage at 85 C Derate linearly to 50%-rated voltage at 105 C Pulse Capability Body Length Rated Volts dv/dt volts per microsecond, maximum Ratings and Dimensions Dielectric Strength: 200% (1 minute) Dissipation Factor:.10% Max. (25 C, 1kHz) Insulation Resistance: 50,000 M x µf 100,000 M Min. Life Test: 1,000 Hours at 85 C at 125% Rated Voltage NOTE:.12 MAX. (3.0mm) L S H.79 MIN. (20mm) Other capacitance values, sizes and performance specifications are available. Contact us. T d Cap. Catalog T Max. H Max. L Max. S ±.06 (±1.5) d ±.05 µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 100 Vdc (70 Vac).033 DPP1S33K.315 (8.0).532 (13.5).768 (19.5).591 (15.0).024 (.6).047 DPP1S47K.335 (8.5).610 (15.5).768 (19.5).591 (15.0).024 (.6).068 DPP1S68K.374 (9.5).650 (16.5).788 (20.0).591 (15.0).024 (.6).100 DPP1P1K.394 (10.0).670 (17.0) (26.0).788 (20.0).024 (.6).150 DPP1P15K.433 (11.0).748 (19.0) (26.0).788 (20.0).032 (.8).220 DPP1P22K.512 (13.0).748 (19.0) (26.0).788 (20.0).032 (.8).330 DPP1P33K.551 (14.0).827 (21.0) (32.0) (27.5).032 (.8).470 DPP1P47K.630 (16.0).945 (24.0) (32.0) (27.5).032 (.8) 250 Vdc (140 Vac).010 DPP2S1K.276 (7.0).473 (12.0).591 (15.0).394 (10.0).024 (.6).015 DPP2S15K.295 (7.5).473 (12.0).591 (15.0).394 (10.0).024 (.6).022 DPP2S22K.315 (8.0).512 (13.0).591 (15.0).394 (10.0).024 (.6).033 DPP2S33K.335 (8.5).551 (14.0).788 (20.0).591 (15.0).024 (.6).047 DPP2S47K.354 (9.0).630 (16.0).788 (20.0).591 (15.0).024 (.6).068 DPP2S68K.433 (11.0).630 (16.0).788 (20.0).591 (15.0).024 (.6).100 DPP2P1K.394 (10.0).709 (18.0) (26.0).788 (20.0).032 (.8).150 DPP2P15K.473 (12.0).866 (22.0) (26.0).788 (20.0).032 (.8).220 DPP2P22K.551 (14.0).945 (24.0) (26.0).788 (20.0).032 (.8).330 DPP2P33K.591 (15.0).985 (25.0) (32.0) (27.5).032 (.8).470 DPP2P47K.630 (16.0) (27.0) (32.0) (27.5).032 (.8) East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

318 Type DPP, Polypropylene Film Ratings and Dimensions Cap. Catalog T Max. H Max. L Max. S ±.06 (±1.5) d ±.05 µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 400 Vdc (250 Vac).0100 DPP4S1K.335 (8.5).551 (14.0).591 (15.0).394 (10.0).024 (.6).0150 DPP4S15K.354 (9.0).591 (15.0).591 (15.0).394 (10.0).024 (.6).0220 DPP4S22K.394 (10.0).670 (17.0).768 (19.5).591 (15.0).024 (.6).0330 DPP4S33K.394 (10.0).670 (17.0).768 (19.5).591 (15.0).024 (.6).0470 DPP4S47K.354 (9.0).630 (16.0) (26.0).788 (20.0).032 (.8).0680 DPP4S68K.433 (11.0).709 (18.0) (26.0).788 (20.0).032 (.8).1000 DPP4P1K.473 (12.0).788 (20.0) (32.0) (27.5).032 (.8).1500 DPP4P15K.473 (12.0).906 (23.0) (32.0) (27.5).032 (.8) 630 Vdc (250 Vac).0010 DPP6D1K.256 (6.5).492 (12.5).591 (15.0).394 (10.0).024 (.6).0015 DPP6D15K.276 (7.0).492 (12.5).591 (15.0).394 (10.0).024 (.6).0022 DPP6D22K.276 (7.0).492 (12.5).591 (15.0).394 (10.0).024 (.6).0033 DPP6D33K.295 (7.5).473 (12.0).768 (19.5).591 (15.0).024 (.6).0047 DPP6D47K.315 (8.0).492 (12.5).768 (19.5).591 (15.0).024 (.6).0068 DPP6D68K.354 (9.0).551 (14.0).768 (19.5).591 (15.0).024 (.6).0100 DPP6S1K.354 (9.0).551 (14.0) (26.0).788 (20.0).024 (.6).0150 DPP6S15K.394 (10.0).630 (16.0) (26.0).788 (20.0).024 (.6).0220 DPP6S22K.433 (11.0).670 (17.0) (26.0).788 (20.0).024 (.6).0330 DPP6S33K.433 (11.0).670 (17.0) (32.0) (27.5).032 (.8).0470 DPP6S47K.492 (12.5).748 (19.0) (32.0) (27.5).032 (.8).0680 DPP6S68K.551 (14.0).866 (22.0) (32.0) (27.5).032 (.8).1000 DPP6P1K.512 (13.0).866 (22.0) (32.0) (27.5).032 (.8) Film 1605 East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 3.043

319 Type DPFF, Polypropylene Film Film/Foil Radial Leads High AC Current Pulse and Resonant Applications Type DPFF radial-leaded, polypropylene film/foil capacitors feature single-section extended foil construction for 200 Vdc through 600 Vdc and series wound extended foil with a floating common metallized film for 800 Vdc through 1600 Vdc. Excellent temperature stability to 105 C and low loss characteristics make Type DPFF ideal for high AC current and pulse applications. Film Specifications Voltage Range: Vdc ( Vac) Capacitance Range: µf Capacitance Tolerance: ±5% (J) standard ±10% (K) optional Operating Temperature Range: -55 C to 105 C* *Full-rated voltage at 85 C Derate linearly to 50%-rated voltage at 105 C Pulse Capability Body Length Rated Volts dv/dt volts per microsecond, maximum Ratings and Dimensions Cap. Catalog D H L S µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) 200/250 Vdc (155 Vac).0120 DPFF2S12J.26 (6.6).32 (8.1).70 (17.8).374 (9.5).0150 DPFF2S15J.37 (9.4).37 (9.4).75 (19.1).374 (9.5).0150 DPFF2S15JS.28 (7.1).34 (8.6).70 (17.8).374 (9.5).0180 DPFF2S18J.29 (7.4).35 (8.9).70 (17.8).374 (9.5).0220 DPFF2S22J.42 (10.7).42 (10.7).75 (19.1).374 (9.5).0220 DPFF2S22JS.31 (7.9).37 (9.4).70 (17.8).374 (9.5).0270 DPFF2S27J.33 (8.4).39 (9.9).70 (17.8).374 (9.5).0330 DPFF2S33J.42 (10.7).42 (10.7).75 (19.1).374 (9.5).0330 DPFF2S33JS.36 (9.1).42 (10.7).70 (17.8).374 (9.5).0390 DPFF2S39J.32 (8.1).38 (9.7).90 (22.9).374 (9.5).0470 DPFF2S47J.40 (10.2).40 (10.2).95 (24.1).374 (9.5).0470 DPFF2S47JS.34 (8.6).40 (10.2).90 (22.9).374 (9.5).0560 DPFF2S56J.37 (9.4).43 (10.9).90 (22.9).374 (9.5).0680 DPFF2S68J.45 (11.4).45 (11.4).95 (24.1).374 (9.5).0680 DPFF2S68JS.39 (9.9).45 (11.4).90 (22.9).374 (9.5).0820 DPFF2S82J.36 (9.1).42 (10.7) 1.25 (31.8).374 (9.5).1000 DPFF2P1J.45 (11.4).45 (11.4) 1.25 (31.8).720 (18.3).1000 DPFF2P1JS.38 (9.7).44 (11.2) 1.25 (31.8).720 (18.3).1200 DPFF2P12J.41 (10.4).47 (11.9) 1.25 (31.8).720 (18.3).1500 DPFF2P15J.55 (14.0).55 (14.0) 1.30 (33.0).720 (18.3).1500 DPFF2P15JS.44 (11.2).50 (12.7) 1.25 (31.8).720 (18.3).1800 DPFF2P18J.47 (11.9).53 (13.5) 1.25 (31.8).720 (18.3).2200 DPFF2P22J.62 (15.7).62 (15.7) 1.30 (33.0).720 (18.3) Dielectric Strength: 250% (800 Vdc and less) 200% (1200 and 1600 Vdc) Dissipation Factor:.10% Max. (25 C, 1kHz) Insulation Resistance: 200,000 M Min. Life Test: 500 Hours at 85 C at 125% Rated Voltage NOTE: 1.18 MIN. (30mm) L MAX. S ±.06 (±1.5) H MAX..250 MAX. D MAX..032 (.8) TINNED COPPER Other capacitance values, sizes and performance specifications are available. Contact us. Normally Stocked Cap. Catalog D H L S µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) 200/250 Vdc (155 Vac) (cont d).2200 DPFF2P22JS.51 (13.0).57 (14.5) 1.25 (31.8).720 (18.3).2700 DPFF2P27J.49 (12.4).55 (14.0) 1.65 (41.9) (27.8).3300 DPFF2P33J.65 (16.5).65 (16.5) 1.65 (41.9) (27.8).3300 DPFF2P33JS.53 (13.5).59 (15.0) 1.65 (41.9) (27.8).3900 DPFF2P39J.56 (14.2).62 (15.7) 1.65 (41.9) (27.8).4700 DPFF2P47J.75 (19.1).75 (19.1) 1.70 (43.2) (27.8).4700 DPFF2P47JS.60 (15.2).66 (16.8) 1.65 (41.9) (27.8) 400 Vdc (200 Vac).0039 DPFF4D39J.34 (8.6).38 (9.7).70 (17.8).374 (9.5).0047 DPFF4D47J.34 (8.6).38 (9.7).70 (17.8).374 (9.5).0056 DPFF4D56J.36 (9.1).40 (10.2).70 (17.8).374 (9.5).0068 DPFF4D68J.29 (7.4).35 (8.9).70 (17.8).374 (9.5).0082 DPFF4D82J.30 (7.6).36 (9.1).70 (17.8).374 (9.5).0100 DPFF4S1J.30 (7.6).36 (9.1).70 (17.8).374 (9.5).0120 DPFF4S12J.32 (8.1).38 (9.7).70 (17.8).374 (9.5).0150 DPFF4S15J.45 (11.4).45 (11.4).75 (19.1).374 (9.5).0150 DPFF4S15JS.34 (8.6).40 (10.2).70 (17.8).374 (9.5).0180 DPFF4S18J.31 (7.9).37 (9.4).90 (22.9).374 (9.5).0220 DPFF4S22J.33 (8.4).39 (9.9).90 (22.9).374 (9.5).0270 DPFF4S27J.36 (9.1).42 (10.7).90 (22.9).374 (9.5).0330 DPFF4S33J.50 (12.7).50 (12.7).95 (24.1).374 (9.5).0330 DPFF4S33JS.38 (9.7).44 (11.2).90 (22.9).374 (9.5).0390 DPFF4S39J.35 (8.9).41 (10.4) 1.25 (31.8).720 (18.3) East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

320 Type DPFF, Polypropylene Film Ratings and Dimensions Normally Stocked Cap. Catalog D H L S µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) 400 Vdc (200 Vac) (cont d).0470 DPFF4S47J.37 (9.4).43 (10.9) 1.25 (31.8).720 (18.3).0560 DPFF4S56J.39 (9.9).45 (11.4) 1.25 (31.8).720 (18.3).0680 DPFF4S68J.42 (10.7).48 (12.2) 1.25 (31.8).720 (18.3).0820 DPFF4S82J.45 (11.4).51 (13.0) 1.25 (31.8).720 (18.3).1000 DPFF4P1J.48 (12.2).54 (13.7) 1.25 (31.8).720 (18.3).1200 DPFF4P12J.52 (13.2).58 (14.7) 1.25 (31.8).720 (18.3).1500 DPFF4P15J.65 (16.5).65 (16.5) 1.30 (33.0).720 (18.3).1500 DPFF4P15JS.56 (14.2).62 (15.7) 1.25 (31.8).720 (18.3).1800 DPFF4P18J.54 (13.7).60 (15.2) 1.65 (41.9) (27.8).2200 DPFF4P22J.70 (17.8).70 (17.8) 1.70 (43.2) (27.8).2200 DPFF4P22JS.58 (14.7).64 (16.3) 1.65 (41.9) (27.8).2700 DPFF4P27J.63 (16.0).69 (17.5) 1.65 (41.9) (27.8).3300 DPFF4P33J.80 (20.3).80 (20.3) 1.70 (43.2) (27.8).3300 DPFF4P33JS.70 (17.8).76 (19.3) 1.65 (41.9) (27.8).3900 DPFF4P39J.75 (19.1).81 (20.6) 1.65 (41.9) (27.8).4700 DPFF4P47J.90 (22.9).90 (22.9) 1.70 (43.2) (27.8).4700 DPFF4P47JS.82 (20.8).88 (22.4) 1.65 (41.9) (27.8) 600/630 Vdc (200 Vac).0010 DPFF6D1J.35 (8.9).39 (9.9).70 (17.8).374 (9.5).0012 DPFF6D12J.36 (9.1).40 (10.2).70 (17.8).374 (9.5).0015 DPFF6D15J.40 (10.2).40 (10.2).75 (19.1).374 (9.5).0015 DPFF6D15JS.32 (8.1).36 (9.1).70 (17.8).374 (9.5).0018 DPFF6D18J.34 (8.6).38 (9.7).70 (17.8).374 (9.5).0022 DPFF6D22J.33 (8.4).37 (9.4).70 (17.8).374 (9.5).0027 DPFF6D27J.35 (8.9).39 (9.9).70 (17.8).374 (9.5).0033 DPFF6D33J.40 (10.2).40 (10.2).75 (19.1).374 (9.5).0033 DPFF6D33JS.32 (8.1).36 (9.1).70 (17.8).374 (9.5).0039 DPFF6D39J.34 (8.6).38 (9.7).70 (17.8).374 (9.5).0047 DPFF6D47J.45 (11.4).45 (11.4).75 (19.1).374 (9.5).0047 DPFF6D47JS.34 (8.6).38 (9.7).70 (17.8).374 (9.5).0056 DPFF6D56J.36 (9.1).40 (10.2).70 (17.8).374 (9.5).0068 DPFF6D68J.45 (11.4).45 (11.4).75 (19.1).374 (9.5).0068 DPFF6D68JS.38 (9.7).42 (10.7).70 (17.8).374 (9.5).0082 DPFF6D82J.34 (8.6).38 (9.7).90 (22.9).374 (9.5).0100 DPFF6S1J.45 (11.4).45 (11.4).95 (24.1).374 (9.5).0100 DPFF6S1JS.36 (9.1).40 (10.2).90 (22.9).374 (9.5).0120 DPFF6S12J.38 (9.7).42 (10.7).90 (22.9).374 (9.5).0150 DPFF6S15J.50 (12.7).50 (12.7).95 (24.1).374 (9.5).0150 DPFF6S15JS.42 (10.7).46 (11.7).90 (22.9).374 (9.5).0180 DPFF6S18J.44 (11.2).48 (12.2).90 (22.9).374 (9.5).0220 DPFF6S22J.55 (14.0).55 (14.0).95 (24.1).374 (9.5).0220 DPFF6S22JS.48 (12.2).52 (13.2).90 (22.9).374 (9.5).0270 DPFF6S27J.55 (14.0).55 (14.0) 1.30 (33.0).720 (18.3).0270 DPFF6S27JS.43 (10.9).47 (11.9) 1.25 (31.8).720 (18.3).0330 DPFF6S33J.46 (11.7).50 (12.7) 1.25 (31.8).720 (18.3).0390 DPFF6S39J.49 (12.4).53 (13.5) 1.25 (31.8).720 (18.3).0470 DPFF6S47J.52 (13.2).56 (14.2) 1.25 (31.8).720 (18.3).0560 DPFF6S56J.56 (14.2).60 (15.2) 1.25 (31.8).720 (18.3).0680 DPFF6S68J.65 (16.5).65 (16.5) 1.30 (33.0).720 (18.3).0680 DPFF6S68JS.60 (15.2).64 (16.3) 1.25 (31.8).720 (18.3).0820 DPFF6S82J.65 (16.5).69 (17.5) 1.25 (31.8).720 (18.3).1000 DPFF6P1J.75 (19.0).75 (19.1) 1.30 (33.0).720 (18.3).1000 DPFF6P1JS.71 (18.0).75 (19.1) 1.25 (31.8).720 (18.3).1200 DPFF6P12J.65 (16.5).69 (17.5) 1.65 (41.9) (27.8).1500 DPFF6P15J.75 (19.0).75 (19.1) 1.70 (43.2) (27.8).1500 DPFF6P15JS.71 (18.0).75 (19.1) 1.65 (41.9) (27.8).1800 DPFF6P18J.77 (19.6).81 (20.6) 1.65 (41.9) (27.8).2200 DPFF6P22J.85 (21.6).85 (21.6) 1.70 (43.2) (27.8).2200 DPFF6P22JS.83 (21.1).85 (21.6) 1.65 (41.9) (27.8) 800 Vdc (450 Vac).0056 DPFF8D56J.50 (12.7).50 (12.7) 1.30 (33.0).720 (18.3).0056 DPFF8D56JS.28 (7.1).34 (8.6) 1.25 (31.8).720 (18.3).0068 DPFF8D68J.29 (7.4).35 (8.9) 1.25 (31.8).720 (18.3).0082 DPFF8D82J.31 (7.9).37 (9.4) 1.25 (31.8).720 (18.3).0100 DPFF8S1J.50 (12.7).50 (12.7) 1.30 (33.0).720 (18.3) Cap. Catalog D H L S µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) 800 Vdc (450 Vac) (cont d).0100 DPFF8S1JS.33 (8.4).39 (9.9) 1.25 (31.8).720 (18.3).0120 DPFF8S12J.55 (14.0).55 (14.0) 1.30 (33.0).720 (18.3).0120 DPFF8S12JS.35 (8.9).41 (10.4) 1.25 (31.8).720 (18.3).0150 DPFF8S15J.55 (14.0).55 (14.0) 1.30 (33.0).720 (18.3).0150 DPFF8S15JS.38 (9.7).44 (11.2) 1.25 (31.8).720 (18.3).0180 DPFF8S18J.41 (10.4).47 (11.9) 1.25 (31.8).720 (18.3).0220 DPFF8S22J.60 (15.2).60 (15.2) 1.30 (33.0).720 (18.3).0220 DPFF8S22JS.44 (11.2).50 (12.7) 1.25 (31.8).720 (18.3).0270 DPFF8S27J.47 (11.9).53 (13.5) 1.25 (31.8).720 (18.3).0330 DPFF8S33J.51 (13.0).70 (17.8) 1.30 (33.0).720 (18.3).0330 DPFF8S33JS.51 (13.0).57 (14.5) 1.25 (31.8).720 (18.3).0390 DPFF8S39J.47 (11.9).53 (13.5) 1.65 (41.9) (27.8).0470 DPFF8S47J.50 (12.7).56 (14.2) 1.65 (41.9) (27.8).0560 DPFF8S56J.53 (13.5).59 (15.0) 1.65 (41.9) (27.8).0680 DPFF8S68J.80 (20.3).80 (20.3) 1.70 (43.2) (27.8).0680 DPFF8S68JS.58 (14.7).64 (16.3) 1.65 (41.9) (27.8).0820 DPFF8S82J.62 (15.7).68 (17.3) 1.65 (41.9) (27.8).1000 DPFF8P1J.90 (22.9).90 (22.9) 1.70 (43.2) (27.8).1000 DPFF8P1JS.67 (17.0).73 (18.5) 1.65 (41.9) (27.8) 1200 Vdc (475 Vac).0027 DPFF12D27J.38 (9.7).42 (10.7) 1.25 (31.8).720 (18.3).0033 DPFF12D33J.32 (8.1).38 (9.7) 1.25 (31.8).720 (18.3).0039 DPFF12D39J.34 (8.6).40 (10.2) 1.25 (31.8).720 (18.3).0047 DPFF12D47J.36 (9.1).42 (10.7) 1.25 (31.8).720 (18.3).0056 DPFF12D56J.38 (9.7).44 (11.2) 1.25 (31.8).720 (18.3).0068 DPFF12D68J.41 (10.4).47 (11.9) 1.25 (31.8).720 (18.3).0082 DPFF12D82J.44 (11.2).50 (12.7) 1.25 (31.8).720 (18.3).0100 DPFF12S1J.47 (11.9).53 (13.5) 1.25 (31.8).720 (18.3).0120 DPFF12S12J.51 (13.0).57 (14.5) 1.25 (31.8).720 (18.3).0150 DPFF12S15J.65 (16.5).65 (16.5) 1.30 (33.0).720 (18.3).0150 DPFF12S15JS.55 (14.0).61 (15.5) 1.25 (31.8).720 (18.3).0180 DPFF12S18J.50 (12.7).56 (14.2) 1.65 (41.9) (27.8).0220 DPFF12S22J.54 (13.7).60 (15.2) 1.65 (41.9) (27.8).0270 DPFF12S27J.59 (15.0).65 (16.5) 1.65 (41.9) (27.8).0330 DPFF12S33J.64 (16.3).70 (17.8) 1.65 (41.9) (27.8).0390 DPFF12S39J.85 (21.6).85 (21.6) 1.70 (43.2) (27.8).0390 DPFF12S39JS.68 (17.3).74 (18.8) 1.65 (41.9) (27.8).0470 DPFF12S47J.74 (18.8).80 (20.3) 1.65 (41.9) (27.8) 1600 Vdc (500 Vac).0010 DPFF16D1J.29 (7.4).33 (8.4) 1.25 (31.8).720 (18.3).0012 DPFF16D12J.30 (7.6).34 (8.6) 1.25 (31.8).720 (18.3).0015 DPFF16D15J.32 (8.1).36 (9.1) 1.25 (31.8).720 (18.3).0018 DPFF16D18J.34 (8.6).38 (9.7) 1.25 (31.8).720 (18.3).0022 DPFF16D22J.50 (12.7).50 (12.7) 1.30 (33.0).720 (18.3).0022 DPFF16D22JS.35 (8.9).39 (9.9) 1.25 (31.8).720 (18.3).0027 DPFF16D27J.38 (9.7).42 (10.7) 1.25 (31.8).720 (18.3).0033 DPFF16D33J.55 (14.0).55 (14.0) 1.30 (33.0).720 (18.3).0033 DPFF16D33JS.40 (10.2).44 (11.2) 1.25 (31.8).720 (18.3).0039 DPFF16D39J.43 (10.9).47 (11.9) 1.25 (31.8).720 (18.3).0047 DPFF16D47J.60 (15.2).60 (15.2) 1.30 (33.0).720 (18.3).0047 DPFF16D47JS.46 (11.7).50 (12.7) 1.25 (31.8).720 (18.3).0056 DPFF16D56J.49 (12.4).53 (13.5) 1.25 (31.8).720 (18.3).0068 DPFF16D68J.65 (16.5).65 (16.5) 1.30 (33.0).720 (18.3).0068 DPFF16D68JS.52 (13.2).56 (14.2) 1.25 (31.8).720 (18.3).0082 DPFF16D82J.56 (14.2).60 (15.2) 1.25 (31.8).720 (18.3).0100 DPFF16S1J.70 (17.8).70 (17.8) 1.30 (33.0).720 (18.3).0100 DPFF16S1JS.61 (15.5).65 (16.5) 1.25 (31.8).720 (18.3).0120 DPFF16S12J.54 (13.7).58 (14.7) 1.65 (41.9) (27.8).0150 DPFF16S15J.75 (19.1).75 (19.1) 1.70 (43.2) (27.8).0150 DPFF16S15JS.59 (15.0).63 (16.0) 1.65 (41.9) (27.8).0180 DPFF16S18J.63 (16.0).67 (17.0) 1.65 (41.9) (27.8).0220 DPFF16S22J.69 (17.5).73 (18.5) 1.65 (41.9) (27.8).0270 DPFF16S27J.74 (18.8).78 (19.8) 1.65 (41.9) (27.8).0330 DPFF16S33J.95 (24.1).95 (24.1) 1.70 (43.2) (27.8).0330 DPFF16S33JS.81 (20.6).85 (21.6) 1.65 (41.9) (27.8) Film 1605 East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 3.045

321 Type DPPM, Polypropylene Film Metallized Radial Leads Compact Snubber Applications Type DPPM radial-leaded, metallized polypropylene capacitors utilize series wound extended foil with floating metallized common foil construction. Type DPPM offers excellent high frequency and high current capabilities and self-healing characteristics. With low inductance and high dv/dt characteristics, Type DPPM is ideal for snubber applications. Film Specifications Voltage Range: Vdc ( Vac) Capacitance Range: µf Capacitance Tolerance: ±10% (K) standard ±5% (J), ±20% (M) optional Operating Temperature Range: -40 C to 105 C* *Full-rated voltage at 85 C Derate linearly to 50%-rated voltage at 105 C Pulse Capability Body Length Rated Volts dv/dt volts per microsecond, maximum Ratings and Dimensions Cap. Catalog T H L S d µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 1000 Vdc (450 Vac).0010 DPPM10D1K.256 (6.5).452 (11.5).984 (25.0).826 (21.0).032 (.8).0012 DPPM10D12K.256 (6.5).452 (11.5).984 (25.0).826 (21.0).032 (.8).0015 DPPM10D15K.256 (6.5).452 (11.5).984 (25.0).826 (21.0).032 (.8).0018 DPPM10D18K.256 (6.5).452 (11.5).984 (25.0).826 (21.0).032 (.8).0022 DPPM10D22K.256 (6.5).452 (11.5).984 (25.0).826 (21.0).032 (.8).0027 DPPM10D27K.275 (7.0).472 (12.0).984 (25.0).826 (21.0).032 (.8).0033 DPPM10D33K.275 (7.0).492 (12.5).984 (25.0).826 (21.0).032 (.8).0039 DPPM10D39K.275 (7.0).511 (13.0).984 (25.0).826 (21.0).032 (.8).0047 DPPM10D47K.295 (7.5).531 (13.5).984 (25.0).826 (21.0).032 (.8).0056 DPPM10D56K.314 (8.0).551 (14.0).984 (25.0).826 (21.0).032 (.8).0068 DPPM10D68K.334 (8.5).570 (14.5).984 (25.0).826 (21.0).032 (.8).0082 DPPM10D82K.334 (8.5).629 (16.0).984 (25.0).826 (21.0).032 (.8).0100 DPPM10S1K.374 (9.5).649 (16.5).984 (25.0).826 (21.0).032 (.8).0120 DPPM10S12K.393 (10.0).688 (17.5).984 (25.0).826 (21.0).032 (.8).0150 DPPM10S15K.374 (9.5).669 (17.0) (31.0) (26.5).032 (.8).0180 DPPM10S18K.393 (10.0).688 (17.5) (31.0) (26.5).032 (.8).0220 DPPM10S22K.433 (11.0).728 (18.5) (31.0) (26.5).032 (.8).0270 DPPM10S27K.472 (12.0).767 (19.5) (31.0) (26.5).032 (.8).0330 DPPM10S33K.511 (13.0).807 (20.5) (31.0) (26.5).032 (.8).0390 DPPM10S39K.551 (14.0).846 (21.5) (31.0) (26.5).032 (.8).0470 DPPM10S47K.590 (15.0).885 (22.5) (31.0) (26.5).032 (.8) Dielectric Strength: 175% (1 minute) Dissipation Factor:.10% Max. (25 C, 1kHz) Insulation Resistance: 400,000 M Min. Life Test: 500 Hours at 85 C at 125% Rated Voltage NOTE: L MAX..984 MIN. (25mm) d TINNED COPPER Cap. Catalog T H L S d µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 1200 Vdc (475 Vac) H MAX. 1.5mm MAX. S ±.06 (±1.5) Other capacitance values, sizes and performance specifications are available. Contact us DPPM12D1K.256 (6.5).452 (11.5).984 (25.0).826 (21.0).032 (.8).0012 DPPM12D12K.256 (6.5).452 (11.5).984 (25.0).826 (21.0).032 (.8).0015 DPPM12D15K.256 (6.5).452 (11.5).984 (25.0).826 (21.0).032 (.8).0018 DPPM12D18K.275 (7.0).472 (12.0).984 (25.0).826 (21.0).032 (.8).0022 DPPM12D22K.275 (7.0).492 (12.5).984 (25.0).826 (21.0).032 (.8).0027 DPPM12D27K.275 (7.0).492 (12.5).984 (25.0).826 (21.0).032 (.8).0033 DPPM12D33K.295 (7.5).511 (13.0).984 (25.0).826 (21.0).032 (.8).0039 DPPM12D39K.295 (7.5).531 (13.5).984 (25.0).826 (21.0).032 (.8).0047 DPPM12D47K.314 (8.0).551 (14.0).984 (25.0).826 (21.0).032 (.8).0056 DPPM12D56K.334 (8.5).570 (14.5).984 (25.0).826 (21.0).032 (.8).0068 DPPM12D68K.314 (8.0).590 (15.0) (31.0).826 (21.0).032 (.8).0082 DPPM12D82K.334 (8.5).610 (15.5) (31.0).826 (21.0).032 (.8).0100 DPPM12S1K.354 (9.0).629 (16.0) (31.0).826 (21.0).032 (.8).0120 DPPM12S12K.374 (9.5).669 (17.0) (31.0).826 (21.0).032 (.8).0150 DPPM12S15K.413 (10.5).708 (18.0) (31.0) (26.5).032 (.8).0180 DPPM12S18K.433 (11.0).748 (19.0) (31.0) (26.5).032 (.8).0220 DPPM12S22K.472 (12.0).787 (20.0) (31.0) (26.5).032 (.8).0270 DPPM12S27K.511 (13.0).826 (21.0) (31.0) (26.5).032 (.8).0330 DPPM12S33K.551 (14.0).866 (22.0) (31.0) (26.5).032 (.8) MAX. T Normally Stocked East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

322 Type DPPM, Polypropylene Film Ratings and Dimensions Normally Stocked Cap. Catalog T H L S d µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 1600 Vdc (500 Vac).0010 DPPM16D1K.256 (6.5).452 (11.5).984 (25.0).826 (21.0).032 (.8).0012 DPPM16D12K.256 (6.5).452 (11.5).984 (25.0).826 (21.0).032 (.8).0015 DPPM16D15K.275 (7.0).492 (12.5).984 (25.0).826 (21.0).032 (.8).0018 DPPM16D18K.295 (7.5).531 (13.5).984 (25.0).826 (21.0).032 (.8).0022 DPPM16D22K.314 (8.0).590 (15.0).984 (25.0).826 (21.0).032 (.8).0027 DPPM16D27K.334 (8.5).610 (15.5).984 (25.0).826 (21.0).032 (.8).0033 DPPM16D33K.374 (9.5).649 (16.5).984 (25.0).826 (21.0).032 (.8).0039 DPPM16D39K.393 (10.0).688 (17.5).984 (25.0).826 (21.0).032 (.8).0047 DPPM16D47K.413 (10.5).748 (19.0).984 (25.0).826 (21.0).032 (.8).0056 DPPM16D56K.393 (10.0).708 (18.0) (31.0) (26.5).032 (.8).0068 DPPM16D68K.413 (10.5).748 (19.0) (31.0) (26.5).032 (.8).0082 DPPM16D82K.433 (11.0).787 (20.0) (31.0) (26.5).032 (.8).0100 DPPM16S1K.472 (12.0).866 (22.0) (31.0) (26.5).032 (.8).0120 DPPM16S12K.531 (13.5).905 (23.0) (31.0) (26.5).032 (.8).0150 DPPM16S15K.590 (15.0).964 (24.5) (31.0) (26.5).032 (.8).0180 DPPM16S18K.649 (16.5) (26.0) (31.0) (26.5).032 (.8).0220 DPPM16S22K.708 (18.0) (27.5) (31.0) (26.5).032 (.8) 2000 Vdc (500 Vac).0010 DPPM20D1K.275 (7.0).492 (12.5).984 (25.0).826 (21.0).032 (.8).0012 DPPM20D12K.295 (7.5).511 (13.0).984 (25.0).826 (21.0).032 (.8).0015 DPPM20D15K.314 (8.0).551 (14.0).984 (25.0).826 (21.0).032 (.8).0018 DPPM20D18K.334 (8.5).610 (15.5).984 (25.0).826 (21.0).032 (.8).0022 DPPM20D22K.354 (9.0).629 (16.0).984 (25.0).826 (21.0).032 (.8).0027 DPPM20D27K.374 (9.5).649 (16.5).984 (25.0).826 (21.0).032 (.8).0033 DPPM20D33K.413 (10.5).688 (17.5).984 (25.0).826 (21.0).032 (.8).0039 DPPM20D39K.433 (11.0).748 (19.0).984 (25.0).826 (21.0).032 (.8).0047 DPPM20D47K.393 (10.0).748 (19.0) (31.0) (26.5).032 (.8).0056 DPPM20D56K.433 (11.0).767 (19.5) (31.0) (26.5).032 (.8).0068 DPPM20D68K.472 (12.0).807 (20.5) (31.0) (26.5).032 (.8).0082 DPPM20D82K.511 (13.0).846 (21.5) (31.0) (26.5).032 (.8).0100 DPPM20S1K.551 (14.0).866 (22.0) (31.0) (26.5).032 (.8).0120 DPPM20S12K.570 (14.5).925 (23.5) (31.0) (26.5).032 (.8).0150 DPPM20S15K.629 (16.0).964 (24.5) (31.0) (26.5).032 (.8) Film 1605 East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 3.047

323 Type DPM, Polypropylene Film Metallized Radial Leads High Frequency Switching Power Supplies Type DPM radial-leaded, metallized polypropylene capacitors boast non-inductive windings with welded lead terminations which handle high continuous currents. The low ESR and low ESL are a glove fit for high frequency and switching power supply applications. Film Specifications Voltage Range: Vdc ( Vac) Capacitance Range: µf Capacitance Tolerance: ±10% (K) standard ±5% (J) optional Operating Temperature Range: -55 C to 105 C* *Full-rated voltage at 85 C Derate linearly to 50%-rated voltage at 105 C Dielectric Strength: 175% (1 minute) Dissipation Factor:.10% Max. (25 C, 1kHz) Insulation Resistance: 10,000 M x µf 30,000 M Min. Life Test: 1,000 Hours at 85 C at 125% Rated Voltage Pulse Capability Body Length Rated Volts dv/dt volts per microsecond, maximum Ratings and Dimensions NOTE:.12 MAX. (3.0mm) L S H.79 MIN. (20mm) Other capacitance values, sizes and performance specifications are available. Contact us. Normally Stocked T d Cap. Catalog T Max. H Max. L Max. S ±.06 (±1.5) d µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 250 Vdc (160 Vac).010 DPM2S1K.276 (7.0).433 (11.0).512 (13.0).394 (10.0).024 (.6).015 DPM2S15K.276 (7.0).433 (11.0).512 (13.0).394 (10.0).024 (.6).022 DPM2S22K.276 (7.0).433 (11.0).512 (13.0).394 (10.0).024 (.6).033 DPM2S33K.276 (7.0).433 (11.0).512 (13.0).394 (10.0).024 (.6).047 DPM2S47K.276 (7.0).433 (11.0).512 (13.0).394 (10.0).024 (.6).068 DPM2S68K.276 (7.0).433 (11.0).512 (13.0).394 (10.0).024 (.6).100 DPM2P1K.315 (8.0).433 (11.0).512 (13.0).394 (10.0).024 (.6).150 DPM2P15K.315 (8.0).512 (13.0).709 (18.0).591 (15.0).032 (.8).220 DPM2P22K.315 (8.0).512 (13.0).709 (18.0).591 (15.0).032 (.8).330 DPM2P33K.354 (9.0).591 (15.0).709 (18.0).591 (15.0).032 (.8).470 DPM2P47K.394 (10.0).630 (16.0) (26.0).886 (22.5).032 (.8).680 DPM2P68K.394 (10.0).630 (16.0) (26.0).886 (22.5).032 (.8) DPM2W1K.473 (12.0).788 (20.0) (26.0).886 (22.5).032 (.8) DPM2W1P5K.551 (14.0).866 (22.0) (32.0) (27.5).032 (.8) DPM2W2P2K.591 (15.0).945 (24.0) (32.0) (27.5).032 (.8) East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

324 Type DPM, Polypropylene Film Ratings and Dimensions Normally Stocked Cap. Catalog T Max. H Max. L Max. S +.06 d µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 250 Vdc (160 Vac) (cont d) DPM2W3P3K.670 (17.0) (27.0) (47.0) (40.0).032 (.8) DPM2W4P7K.788 (20.0) (30.0) (47.0) (40.0).032 (.8) DPM2W6P8K.906 (23.0) (33.0) (47.0) (40.0).032 (.8) 400 Vdc (220 Vac).010 DPM4S1K.276 (7.0).433 (11.0).512 (13.0).394 (10.0).024 (.6).015 DPM4S15K.276 (7.0).433 (11.0).512 (13.0).394 (10.0).024 (.6).022 DPM4S22K.276 (7.0).433 (11.0).512 (13.0).394 (10.0).024 (.6).033 DPM4S33K.315 (8.0).473 (12.0).512 (13.0).394 (10.0).024 (.6).047 DPM4S47K.315 (8.0).473 (12.0).709 (18.0).591 (15.0).024 (.6).068 DPM4S68K.315 (8.0).512 (13.0).709 (18.0).591 (15.0).032 (.8).100 DPM4P1K.354 (9.0).551 (14.0).709 (18.0).591 (15.0).032 (.8).150 DPM4P15K.315 (8.0).591 (15.0) (26.0).886 (22.5).032 (.8).220 DPM4P22K.394 (10.0).630 (16.0) (26.0).886 (22.5).032 (.8).330 DPM4P33K.433 (11.0).709 (18.0) (26.0).886 (22.5).032 (.8).470 DPM4P47K.433 (11.0).709 (18.0) (32.0) (27.5).032 (.8).680 DPM4P68K.551 (14.0).866 (22.0) (32.0) (27.5).032 (.8) DPM4W1K.630 (16.0).985 (25.0) (32.0) (27.5).032 (.8) DPM4W1P5K.670 (17.0).985 (25.0) (47.0) (40.0).032 (.8) DPM4W2P2K.788 (20.0) (28.0) (47.0) (40.0).032 (.8) DPM4W3P3K.945 (24.0) (33.0) (47.0) (40.0).032 (.8) 630 Vdc (250 Vac).010 DPM6S1K.276 (7.0).433 (11.0).512 (13.0).394 (10.0).024 (.6).015 DPM6S15K.276 (7.0).473 (12.0).512 (13.0).394 (10.0).024 (.6).022 DPM6S22K.315 (8.0).512 (13.0).512 (13.0).394 (10.0).024 (.6).033 DPM6S33K.315 (8.0).512 (13.0).709 (18.0).591 (15.0).032 (.8).047 DPM6S47K.354 (9.0).591 (15.0).709 (18.0).591 (15.0).032 (.8).068 DPM6S68K.394 (10.0).630 (16.0).709 (18.0).591 (15.0).032 (.8).100 DPM6P1K.394 (10.0).610 (15.5) (26.0).886 (22.5).032 (.8).150 DPM6P15K.473 (12.0).709 (18.0) (26.0).886 (22.5).032 (.8).220 DPM6P22K.473 (12.0).866 (22.0) (32.0) (27.5).032 (.8).330 DPM6P33K.512 (13.0).866 (22.0) (32.0) (27.5).032 (.8).470 DPM6P47K.591 (15.0).965 (24.5) (32.0) (27.5).032 (.8).680 DPM6P68K.610 (15.5) (27.5) (32.0) (27.5).032 (.8) DPM6W1K.748 (19.0) (30.0) (47.0) (40.0).032 (.8) Film 1605 East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 3.049

325 Type MPX, Polypropylene Film Metallized Box Style, Vac Rated Interference Suppression and Across-the-Line VAC Applications The Type MPX metallized, polypropylene class X2 film capacitors are ideal for across-the-line and interference suppression circuit applications. This series features the self-healing capabilities associated with metallized polypropylene, compact design, and flame retardant construction. Tape and reel packaging are available for ratings with a pitch of 10mm and 15mm. Film Specifications Voltage Range: 250 Vac Capacitance Range: µf Capacitance Tolerance: ±10% (K) standard ±5% (J) Operating Temperature Range: -40 C to 85 C Pulse Capability Body Length Rated Volts dv/dt volts per microsecond, maximum Dielectric Strength: 2100 Vdc (1 minute) Dissipation Factor:.10% Max. (25 C, 1kHz) Insulation Resistance: 10,000 mohms x µf min., not to exceed 30,000 mohms min. L S H d T 20 MIN. Agency Approvals: UL E CSA LR VDE SEV SEMKO DEMKO NEMKO P FIMKO Ratings and Dimensions NOTE: Other capacitance values, sizes and performance specifications are available. Contact us. Normally Stocked Cap. Catalog T ±.020 (0.5) H ±.020 (0.5) L ±.020 (0.5) S ±.040 (1.0) d µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 250 Vac.0047 MPXQD47K.197 (5.0).433 (11.0).512 (13.0).394 (10.0).024 (.6).0068 MPXQD68K.197 (5.0).433 (11.0).512 (13.0).394 (10.0).024 (.6).0100 MPXQS1K.197 (5.0).433 (11.0).512 (13.0).394 (10.0).024 (.6).0150 MPXQS15K.197 (5.0).433 (11.0).512 (13.0).394 (10.0).024 (.6).0220 MPXQS22K.197 (5.0).433 (11.0).512 (13.0).394 (10.0).024 (.6).0330 MPXQS33K.236 (6.0).472 (12.0).512 (13.0).394 (10.0).024 (.6).0470 MPXQS47K.197 (5.0).433 (11.0).709 (18.0).591 (15.0).032 (.8).0680 MPXQS68K.236 (6.0).472 (12.0).709 (18.0).591 (15.0).032 (.8).1000 MPXQP1K.236 (6.0).531 (13.5).709 (18.0).591 (15.0).032 (.8).1500 MPXQP15K.335 (8.5).571 (14.5).709 (18.0).591 (15.0).032 (.8).2200 MPXQP22K.276 (7.0).650 (16.5) (26.5).886 (22.5).032 (.8).3300 MPXQP33K.335 (8.5).669 (17.0) (26.5).886 (22.5).032 (.8).4700 MPXQP47K.394 (10.0).748 (19.0) (26.5).886 (22.5).032 (.8).5600 MPXQP56K.433 (11.0).787 (20.0) (32.0) (27.5).032 (.8).6800 MPXQP68K.433 (11.0).787 (20.0) (32.0) (27.5).032 (.8) MPXQW1K.551 (14.0).984 (25.0) (32.0) (27.5).032 (.8) East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

326 Axial Lead Taping Specifications, Film TAPE & REEL OF AXIAL LEAD CAPACITORS FOR AUTOMATIC INSERTION EIA STANDARD EIA-296-E Film Capacitor Body Diameter Capacitor Pitch A ± 0.5mm (0.020 ) 5mm ( ) 5mm or mm ( ) 10mm or mm ( ) 15mm or Capacitor Body Length Inside Tape Spacing B ± 1.5mm (0.059 ) 16.50mm ( 0.65 ) 52.4mm or mm ( ) 63.5mm or mm ( ) 73.0mm or C D E F EIA Std mm mm mm mm ( ) ( ) ( ) ( ) CDE 16.0mm (0.63 ) 355.0mm (13.97 ) 50.0mm (1.97 ) 60.0mm (2.36 ) Capacitor Body Dia. Pitch Quantity pcs/reel 5.0mm 5mm 4,000 max mm 10mm 2,000 max mm 10mm 1,000 max East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 3.051

327 Radial Lead Taping Specifications, Film TAPE & REEL OF RADIAL LEAD CAPACITORS FOR AUTOMATIC INSERTION EIA STANDARD EIA-468-B Crimped Lead Taping: Straight Lead Taping: Film Ammo Box Packing: Reel Packing: dimensions A 56 MAX. (2.20 MAX.) B 372 MAX. (14.65 MAX.) C 372 MAX. (14.65 MAX.) East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

328 Ordering Information, Film When possible, specify the complete CDE part number on your order(s). CDE s part numbering system is described below. For options please indicate when making a quote request. In general, available options include: cut leads, formed leads, non-listed capacitance values, tape, reeling and ammo pack where individual capacitor sizes permit. Film Capacitor Part Number System (excludes Type 900 series) WMC 08 D 12 K Type Designation Voltage Code 05 = 50 Vdc 16 = 1600 Vdc 06 = 60 Vdc 20 = 2000 Vdc 08 = 80 Vdc 30 = 3000 Vdc 1 = 100 Vdc Z = 150 Vdc 2 = 200/250 Vdc A = 125 Vac 3 = 300 Vdc B = 240 Vac 4 = 400 Vdc Q = 250 Vac 6 = 600/630 Vdc C = 360 Vac 8 = 800 Vdc D = 480 Vac 10 = 1000 Vdc E = 160 Vdc 12 = 1200 Vdc F = 660 Vac G = 600 Vac Capacitance Decimal Point T = D = 0.00 S = 0.0 P = 0. W = No decimal point Capacitance Significant Figures (µf) Film Capacitor Part Number System (Types 930, 935, 940, 941, 942, 943 and 950) Tolerance Code W = ±2.5% I = ±3% J = ±5% H= ±6% K = ±10% M = ±20% 930 C 1 P 22 K Film Type Designation Termination Code Voltage Code Capacitance Decimal Point Capacitance Significant Figures (µf) Tolerance Code C = Bare Copper Wire F = Insulated, Stranded Wire H = Tinned Lugs Options Available Radial Leads Cut Leads Other Capacitance Values Formed Lead Spacings Tape and Reeling Custom Sizes 05 = 50 Vdc 16 = 1600 Vdc 06 = 60 Vdc 20 = 2000 Vdc 08 = 80 Vdc 30 = 3000 Vdc 1 = 100 Vdc Z = 150 Vdc 2 = 200/250 Vdc A = 125 Vac 4 = 400 Vdc B = 240 Vac 6 = 600/630 Vdc Q = 250 Vac 8 = 800 Vdc C = 360 Vac 10 = 1000 Vdc D = 480 Vac 12 = 1200 Vdc T = D = 0.00 S = 0.0 P = 0. W = No decimal point Axial Leads Cut Leads Other Capacitance Values Tape and Reeling Custom Sizes J = ±5% H= ±6% K = ±10% M = ±20% 1605 East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 3.053

329 Application Guide, Film Capacitance Change vs. Temperature Insulation Resistance vs. Temperature Polyester Typical Characteristics Film Polypropylene Typical Characteristics Polyphenylene Sulfide Typical Characteristics % Capacitance Change Megohms x MFD Degrees Centigrade Degrees Centigrade East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

330 Application Guide, Film Dissipation Factor vs. Temperature Dissipation Factor vs. Frequency Film % Dissipation Factor % Dissipation Factor Degrees Centigrade Frequency 1605 East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 3.055

331 Application Guide, Film Film Capacitance is within tolerance when measured at 1 khz ±20 Hz (120 Hz for polyester if C>1 µf) and 25 ±5 C. Standard tolerance is ±10%. Dissipation Factor or tan σ is the ratio of the capacitor s ESR to its reactance. It s no more than specified when measured at 1 khz ±20 Hz (120 Hz for polyester if C>1 µf) and 25 ±5 C. Insulation Resistance changes from a minimum resistancecapacitance product (M xµf) to a minimum resistance (M ) for rated capacitances above 0.25 to 0.5 µf, depending on the capacitor type. It is no less than the lesser of the RC product or the R specified, when measured at 100 Vdc after 2 minutes and at 25 ±5 C. Rated Voltage is the maximum continuous voltage for actual use up to the rated maximum operating temperature. Dielectric Strength is the maximum peak voltage that the capacitor is rated to withstand at room temperature. Test by applying the specified multiple of rated voltage for one minute through a currentlimiting resistance of 100 per volt. As an illustration, to test a Type DPM capacitor rated 250 Vdc and 175% dielectric strength, apply 438 Vdc through a 43.8 k or higher-value resistor. Life Test: Subject capacitors to rated maximum temperature ±3 C with the specified multiple of rated voltage applied for 500 or 1,000 (+72, -2) hours as specified. There will be no visual damage and the capacitance will not have changed more than ±5%. Insulation resistance will not decrease to less than 50% of initial limit. Dissipation factor will not increase to more than initial limit. Pulse Capability is peak-current capability. The ability of the capacitor to withstand current transients is set largely by the integrity of the lead connections and is indicated by the dv/dt rating, the maximum permitted rate of change of voltage in V/µs. The peak current rating in amps is the rated capacitance in µf times the dv/dt rating: I pk = C(dV/dt) Marking includes part number, capacitance in µf, tolerance in %, manufacturer and rated voltage in Vdc and Vac. Small units may include only Type, CD, capacitance in pf and a tolerance code. Example: DLMCD and 682K means Type DLM, 6800 pf ( 2 was the number of zeroes) and 10%. When used, tolerance codes are: F = ± 1% G=± 2% H=±6% I = ± 3% J = ± 5% K = ±10% M = ±20% Metallized vs. Film/Foil Construction. Here s how to choose. For a metallized film capacitor, the capacitor plates are aluminum sprayed onto the dielectric film by thin-film vacuum deposition. Compared to making the capacitor with separate foil and film sheets, metallizing enables smaller size, lighter weight, lower cost per microfarad and self-healing, but it also engenders lowercurrent capability. Smaller size and cost is especially striking in high capacitance ratings. Self healing refers to an internal short circuit from an overvoltage transient or a fault in the film which clears in microseconds by vaporizing the aluminum metalizing at the fault site. There is a glitch in the applied voltage, but the capacitor suffers no permanent damage save a negligible reduction in capacitance. The advantages make CDE metallized film capacitors the East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

332 Application Guide, Film correct high-value choice for all applications except four: low capacitance, less than.01 µf, where size difference is not significant and the film/foil material cost is less, high continuous current as in a resonant circuit, high-transient current as in a snubber circuit, and low noise where self clearing is a problem with its attendant, albeit rare, volts of noise. Polyester Dielectric: Just as metallized is usually the CDE construction of choice, so, too, polyester is usually the dielectric film material of choice. Of the three CDE dielectrics, polyester has the highest dielectric constant and delivers the lowest cost, smallest size capacitors with the bonus of being able to operate to 125 C at half rated voltage. How-ever, with a DF hovering at 1% at higher temperatures, power dissipation prevents its choice for high current or high-frequency AC voltage applications, and with about a 5% capacitance change from -55 C to 0 C and from 50 C to 125 C, polyester is not the choice for precision capacitance at temperature extremes. But notice that capacitance changes only ±1% from 0 C to 50 C. Polypropylene Dielectric with its low dissipation factor empowers CDE capacitors for high-current DC, high-voltage AC and high-frequency AC applications. And its high insulation resistance and low dielectric absorption are a fit for precision DC capacitors. It would displace polyester in many applications except its low dielectric constant and unavailability of thin-gauge films produces larger case sizes and prices. A slight handicap its maximum operating temperature is 105 C. Polypropylene fits many of the applications polyester misses. It even complements polyester in wide temperature applications: capacitance decreases with temperature at about the same rate as capacitance increases for polyester capacitors, so a polypropylene capacitor in parallel with a polyester spawns a temperature-compensated capacitor. Polyphenylene Sulfide is for precision capacitance and wide temperature applications. Able to operate from 55 C to 125 C and hold capacitance change to less than 1% over all but the extremes of the range, polyphenylene sulfide is the preferred precision-capacitor dielectric and is the dielectric film in FCP chip capacitors. AC Voltage Operation: You can use all CDE film capacitors with either AC or DC voltages or a combination of the two. The rules for successful application are: 1) don t exceed the dielectric s voltage capability; 2) keep the capacitor cool, and 3) don t operate with corona. As a practical matter, here s how you do those three rules. Limit the voltage peaks to the rated DC voltage. Limit the current peaks to the rated capacitance times the dv/dt rating. For high-frequency operation limit the power dissipated so that the case-temperature rise is no more than 15 C and at high temperatures the case temperature no greater than the maximum operating temperature. The maximum highfrequency sine wave voltage for a 15 C rise may be calculated using the following formulas: VRMS = 11(.5πD 2 + πdl) 2πf C DF(%) VRMS = 21(TH +TL + HL) 2πf C DF(%) for round cases for oval cases D, T, H, and L are dimensions taken from the ratings and Film 1605 East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 3.057

333 Application Guide, Film Film dimensions charts. DF is dissipation factor in percent at operating frequency taken from the DF vs. Frequency charts which appear on page 5. And for rule 3, limit the applied voltage to the maximum AC rating listed for each type to avoid corona. Corona is partial breakdown of the dielectric by sparking across air voids in the insulation system. It occurs with the application of AC voltage because the effective capacitance of the voids is lower than the surrounding dielectric material. Like low-value capacitors connected in series with high-value ones, the voids get higher voltage gradients and they break down. Corona is to be avoided because the sparking tends to carbonize the dielectric which converts it to conductive material and eventually a carbon track can short the capacitor. Comparison of Dielectrics Best Change Change/ Typical Typical Size Dielectric Tolerance -25>+85C Year DF DA* IR 1µF/100V Polyester ±5% +5% 0.4%.5%.4% 30G.09in 3 Metallized Polyprop. ±1% 3% 0.1%.1%.05% 100G.13in 3 Metallized Polyester ±5% +5% 0.4%.5%.35% 100G.40in 3 Film/Foil Polyprop. ±1% 3% 0.2%.05%.03% 200G.71in 3 Film/Foil Metallized ±2% ±0.5% <1% 0.2%.08% 3G N/A Polyphen. Sulfide Dielectric absorption a measure of energy stored in the dielectric. Needs to be low for sample-and-hold circuit applications East Rodney French Boulevard New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

334 Mica Mica

335

336 Selector Guide, Mica Form Lead Spacing Voltage Capacitance Page Factor Types Inches (mm) Range Range Number Standard Dipped CD ( 3.6) Vdc pf D ( 3.6) Vdc 251 1,500 pf CD ( 5.9) Vdc 1 1,500 pf CD ( 8.7) Vdc ,000 pf CD (11.1) Vdc 2,000 40,000 pf CD (27.0) Vdc 20,000 91,000 pf CDV ( 8.7) 1,000 Vdc 5 4,700 pf CDV (11.1) 1,000 2,500 Vdc 24 13,000 pf Miniature Dipped CD5.120 ( 3.0) Vdc pf CD6.172 ( 4.4) Vdc pf CD7.172 ( 4.4) Vdc 130 1,500 pf CDS5.120 ( 3.0) Vdc pf CDS ( 3.6) Vdc pf D7.141 ( 3.6) Vdc 251 1,500 pf CDS ( 5.9) Vdc 1 1,500 pf CDS ( 8.7) Vdc ,000 pf CDS (11.1) Vdc 2,000 40,000 pf High-Frequency Dipped CD4.100 ( 2.5) Vdc 1 1,500 pf CD ( 5.9) 500 Vdc 100 7,500 pf CDV ( 5.9) 1,000 Vdc 100 3,000 pf CD ( 5.9) Vdc 1 1,500 pf CD ( 8.7) 500 Vdc 270 5,100 pf CDV ( 8.7) 1,000 Vdc pf Reel-Packed Dipped CDA ( 5.0) Vdc 1 1,500 pf Mica High-Reliability Dipped CMR ( 3.0) Vdc pf CMR ( 3.8) Vdc pf CMR ( 5.7) 500 Vdc pf CMR ( 8.9) 500 Vdc 430 4,700 pf CMR (10.8) 500 Vdc 5,100 20,000 pf Rectangular Case 271 N/A 250 3,000 Peak Volts ,000 pf 272 N/A 250 5,000 Peak Volts ,000 pf N/A 400 8,000 Peak Volts 200 1,000,000 pf Cylindrical Case 291 N/A 1,000 6,000 Peak Volts ,000 pf 292 N/A 1,500 10,000 Peak Volts ,000 pf N/A 2,000 20,000 Peak Volts ,000 pf 294 N/A 3,000 30,000 Peak Volts ,000 pf Custom Case KV x N/A ,000 Peak Volts 100 pf 10 µf Chip MC08 N/A 100 Vdc.5-43 pf MC12 N/A 100 and 500 Vdc pf MC18 N/A 100 and 500 Vdc pf MC22 N/A 100, 500 and 1,000 Vdc 1-2,000 pf East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 4.001

337 Mica, Standard Dipped Types CD10, D10, CD15, CD19, CD30, CD42, CDV19, CDV30 Heralded for stability, CDE standard dipped silvered mica capacitors are the first choice for timing, close tolerance, and all applications where you need to count on the capacitance. These standard types are widely available through distribution. Radial Leaded Mica Voltage Range: 100 Vdc to 2,500 Vdc Capacitance Range: 1 pf to 91,000 pf Capacitance Tolerance: ± 1 2 pf (D), ±1 pf (C), ± 1 2% (E), ±1% (F), ±2% (G), ±5% (J) Temperature Range: 55 C to +125 C (O) 55 C to +150 C (P)* Dimensions meet EIA RS153B specification MIL-C-5 military styles available (See Ordering Information, p ) Reel packing available 100,000 V/µs dv/dt pulse capability minimum Units tested at 200% of rated voltage Non-flammable units which meet IEC available * P temperature range is available for Types CD10, CD15, CD19, CD30, CD42, CDA15 Measured at point where phenolic cone becomes a cylinder L Max. S ±.031 H Max..078 Max. no solder d T Max. 1 Min. Cap Catalog Volt L H T S d pf Number Rate Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 1 CD10CD010D ( 9.1).330 ( 8.4).190 (4.8).141 (3.6).016 (.4) 1 CD15CD010D (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) 2 CD10CD020D ( 9.1).330 ( 8.4).190 (4.8).141 (3.6).016 (.4) 2 CD15CD020D (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) 3 CD10CD030D ( 9.1).330 ( 8.4).190 (4.8).141 (3.6).016 (.4) 3 CD15CD030D (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) 4 CD15CD040D (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) 5 CD10CD050D ( 9.1).330 ( 8.4).190 (4.8).141 (3.6).016 (.4) 5 CD15CD050D (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) 5 CDV19CF050D03 1, (16.3).500 (12.7).190 (4.8).344 (8.7).032 (.8) 6 CD10CD060D ( 9.1).330 ( 8.4).190 (4.8).141 (3.6).016 (.4) 6 CD15CD060D (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) 6 CDV19CF060D03 1, (16.3).500 (12.7).190 (4.8).344 (8.7).032 (.8) 7 CD10CD070D ( 9.1).330 ( 8.4).190 (4.8).141 (3.6).016 (.4) 7 CD15CD070D (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) 7 CDV19CF070D03 1, (16.3).500 (12.7).190 (4.8).344 (8.7).032 (.8) 8 CD10CD080D ( 9.1).330 ( 8.4).190 (4.8).141 (3.6).016 (.4) 8 CD15CD080D (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) 8 CDV19CF080D03 1, (16.3).500 (12.7).190 (4.8).344 (8.7).032 (.8) 10 CD10CD100J ( 9.1).330 ( 8.4).190 (4.8).141 (3.6).016 (.4) 10 CD15CD100J (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) 10 CDV19CF100J03 1, (16.3).500 (12.7).190 (4.8).344 (8.7).032 (.8) 12 CD10CD120J ( 9.1).330 ( 8.4).190 (4.8).141 (3.6).016 (.4) 12 CD15CD120J (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) 12 CDV19CF120J03 1, (16.3).500 (12.7).190 (4.8).344 (8.7).032 (.8) 15 CD10CD150J ( 9.1).330 ( 8.4).190 (4.8).141 (3.6).016 (.4) 15 CD15CD150J (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) 15 CDV19CF150J03 1, (16.3).500 (12.7).190 (4.8).344 (8.7).032 (.8) 18 CD10CD180J ( 9.1).330 ( 8.4).190 (4.8).141 (3.6).016 (.4) 18 CD15CD180J (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) Cap Catalog Volt L H T S d pf Number Rate Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 18 CDV19CF180J03 1, (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 20 CD10ED200J ( 9.1).330 ( 8.4).190 (4.8).141 ( 3.6).016 (.4) 20 CD15ED200J (11.4).360 ( 9.1).170 (4.3).234 ( 5.9).025 (.6) 20 CDV19EF200J03 1, (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 22 CD10ED220J ( 9.1).330 ( 8.4).190 (4.8).141 ( 3.6).016 (.4) 22 CD15ED220J (11.4).360 ( 9.1).170 (4.3).234 ( 5.9).025 (.6) 22 CDV19EF220J03 1, (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 24 CD10ED240J ( 9.1).330 ( 8.4).190 (4.8).141 ( 3.6).016 (.4) 24 CD15ED240J (11.4).360 ( 9.1).170 (4.3).234 ( 5.9).025 (.6) 24 CDV19EF240J03 1, (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 24 CDV30EH240J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) 24 CDV30EJ240J03 2, (19.6).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 24 CDV30EK240J03 2, (19.8).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 27 CD10ED270J ( 9.4).330 ( 8.4).190 (4.8).141 ( 3.6).016 (.4) 27 CD15ED270J (11.4).360 ( 9.1).170 (4.3).234 ( 5.9).025 (.6) 27 CDV19EF270J03 1, (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 27 CDV30EH270J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) 27 CDV30EJ270J03 2, (19.6).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 27 CDV30EK270J03 2, (19.8).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 30 CD10ED300J ( 9.4).340 ( 8.6).190 (4.8).141 ( 3.6).016 (.4) 30 CD15ED300J (11.4).360 ( 9.1).170 (4.3).234 ( 5.9).025 (.6) 30 CDV19EF300J03 1, (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 30 CDV30EH300J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) 30 CDV30EJ300J03 2, (19.6).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 30 CDV30EK300J03 2, (19.8).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 33 CD10ED330J ( 9.4).340 ( 8.6).190 (4.8).141 ( 3.6).016 (.4) 33 CD15ED330J (11.4).360 ( 9.1).170 (4.3).234 ( 5.9).025 (.6) 33 CDV19EF330J03 1, (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 33 CDV30EH330J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) 33 CDV30EJ330J03 2, (19.6).860 (21.8).250 (6.4).438 (11.1).040 (1.0) East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

338 Mica, Standard Dipped Ratings and Dimensions Cap Catalog Volt L H T S d pf Number Rate Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 33 CDV30EK330J03 2, (19.8).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 36 CD10ED360J ( 9.4).340 ( 8.6).190 (4.8).141 ( 3.6).016 (.4) 36 CD15ED360J (11.4).360 ( 9.1).170 (4.3).234 ( 5.9).025 (.6) 36 CDV19EF360J03 1, (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 36 CDV30EH360J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) 36 CDV30EJ360J03 2, (19.6).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 36 CDV30EK360J03 2, (19.8).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 39 CD10ED390J ( 9.4).340 ( 8.6).190 (4.8).141 ( 3.6).016 (.4) 39 CD15ED390J (11.4).360 ( 9.1).170 (4.3).234 ( 5.9).025 (.6) 39 CDV19EF390J03 1, (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 39 CDV30EH390J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) 39 CDV30EJ390J03 2, (19.6).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 39 CDV30EK390J03 2, (19.8).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 43 CD10ED430J ( 9.4).340 ( 8.6).190 (4.8).141 ( 3.6).016 (.4) 43 CD15ED430J (11.4).360 ( 9.1).170 (4.3).234 ( 5.9).025 (.6) 43 CDV19EF430J03 1, (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 43 CDV30EH430J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) 43 CDV30EJ430J03 2, (19.6).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 43 CDV30EK430J03 2, (19.8).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 47 CD10ED470J ( 9.4).340 ( 8.6).190 (4.8).141 ( 3.6).016 (.4) 47 CD15ED470J (11.4).360 ( 9.1).170 (4.3).234 ( 5.9).025 (.6) 47 CDV19EF470J03 1, (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 47 CDV30EH470J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) 47 CDV30EJ470J03 2, (19.6).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 47 CDV30EK470J03 2, (19.8).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 50 CD10ED500J ( 9.4).340 ( 8.6).190 (4.8).141 ( 3.6).016 (.4) 50 CD15ED500J (11.4).360 ( 9.1).170 (4.3).234 ( 5.9).025 (.6) 50 CDV19EF500J03 1, (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 50 CDV30EH500J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) 50 CDV30EJ500J03 2, (19.6).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 50 CDV30EK500J03 2, (19.8).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 51 CD10ED510J ( 9.4).340 ( 8.6).190 (4.8).141 ( 3.6).016 (.4) 51 CD15ED510J (11.4).360 ( 9.1).170 (4.3).234 ( 5.9).025 (.6) 51 CDV19EF510J03 1, (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 51 CDV30EH510J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) 51 CDV30EJ510J03 2, (19.6).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 51 CDV30EK510J03 2, (19.8).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 56 CD10ED560J ( 9.4).340 ( 8.6).190 (4.8).141 ( 3.6).016 (.4) 56 CD15ED560J (11.4).360 ( 9.1).170 (4.3).234 ( 5.9).025 (.6) 56 CDV19EF560J03 1, (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 56 CDV30EH560J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) 56 CDV30EK560J03 2, (19.8).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 62 CD10ED620J ( 9.4).340 ( 8.6).190 (4.8).141 ( 3.6).016 (.4) 62 CD15ED620J (11.4).360 ( 9.1).170 (4.3).234 ( 5.9).025 (.6) 62 CDV19EF620J03 1, (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 62 CDV30EH620J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) 62 CDV30EJ620J03 2, (19.6).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 62 CDV30EK620J03 2, (19.8).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 68 CD10ED680J ( 9.4).340 ( 8.6).190 (4.8).141 ( 3.6).016 (.4) 68 CD15ED680J (11.4).360 ( 9.1).180 (4.6).234 ( 5.9).025 (.6) 68 CDV19EF680J03 1, (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 68 CDV30EH680J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) 68 CDV30EJ680J03 2, (19.6).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 68 CDV30EK680J03 2, (19.8).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 75 CD10ED750J ( 9.4).340 ( 8.6).200 (5.1).141 ( 3.6).016 (.4) 75 CD15ED750J (11.4).360 ( 9.1).180 (4.6).234 ( 5.9).025 (.6) 75 CDV19EF750J03 1, (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 75 CDV30EH750J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) 75 CDV30EJ750J03 2, (19.6).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 75 CDV30EK750J03 2, (19.8).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 82 CD10ED820J ( 9.4).350 ( 8.9).200 (5.1).141 ( 3.6).016 (.4) 82 CD15ED820J (11.4).360 ( 9.1).180 (4.6).234 ( 5.9).025 (.6) 82 CDV19EF820J03 1, (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 82 CDV30EH820J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) 82 CDV30EJ820J03 2, (19.6).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 82 CDV30EK820J03 2, (19.8).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 91 CD10FD910J ( 9.4).350 ( 8.9).200 (5.1).141 ( 3.6).016 (.4) 91 CD15FD910J (11.7).360 ( 9.1).180 (4.6).234 ( 5.9).025 (.6) 91 CDV19FF910J03 1, (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 91 CDV30FH910J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) Cap Catalog Volt L H T S d pf Number Rate Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 91 CDV30FJ910J03 2, (19.6).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 91 CDV30FK910J03 2, (19.8).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 100 CD10FD101J ( 9.4).350 ( 8.9).200 (5.1).141 ( 3.6).016 (.4) 100 CD15FD101J (11.7).360 ( 9.1).180 (4.6).234 ( 5.9).025 (.6) 100 CD19FD101J (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 100 CDV19FF101J03 1, (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 100 CDV30FH101J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) 100 CDV30FJ101J03 2, (19.6).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 100 CDV30FK101J03 2, (19.8).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 110 CD10FD111J ( 9.7).350 ( 8.9).200 (5.1).141 ( 3.6).016 (.4) 110 CD15FD111J (11.7).370 ( 9.4).180 (4.6).234 ( 5.9).025 (.6) 110 CDV19FF111J03 1, (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 110 CDV30FH111J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) 110 CDV30FJ111J03 2, (19.6).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 110 CDV30FK111J03 2, (19.8).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 120 CD10FD121J ( 9.7).350 ( 8.9).200 (5.1).141 ( 3.6).016 (.4) 120 CD15FD121J (11.7).370 ( 9.4).180 (4.6).234 ( 5.9).025 (.6) 120 CD19FD121J (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 120 CDV19FF121J03 1, (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 120 CDV30FH121J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) 120 CDV30FJ121J03 2, (19.6).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 120 CDV30FK121J03 2, (19.8).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 130 CD10FD131J ( 9.7).360 ( 9.1).200 (5.1).141 ( 3.6).016 (.4) 130 CD15FD131J (11.7).370 ( 9.4).180 (4.6).234 ( 5.9).025 (.6) 130 CDV19FF131J03 1, (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 130 CDV30FH131J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) 130 CDV30FJ131J03 2, (19.6).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 150 CD10FD151J ( 9.7).360 ( 9.1).210 (5.3).141 ( 3.6).016 (.4) 150 CD15FD151J (11.7).370 ( 9.4).190 (4.8).234 ( 5.9).025 (.6) 150 CD19FD151J (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 150 CDV19FF151J03 1, (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 150 CDV30FH151J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) 150 CDV30FJ151J03 2, (19.6).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 160 CD10FD161J ( 9.7).360 ( 9.1).210 (5.3).141 ( 3.6).016 (.4) 160 CD15FD161J (11.7).370 ( 9.4).190 (4.8).234 ( 5.9).025 (.6) 160 CDV19FF161J03 1, (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 160 CDV30FH161J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) 160 CDV30FJ161J03 2, (19.6).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 180 CD10FD181J ( 9.9).370 ( 9.4).210 (5.3).141 ( 3.6).016 (.4) 180 CD15FD181J (11.7).370 ( 9.4).190 (4.8).234 ( 5.9).025 (.6) 180 CD19FD181J (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 180 CDV19FF181J03 1, (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 180 CDV30FH181J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) 180 CDV30FJ181J03 2, (19.6).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 200 CD10FD201J ( 9.9).370 ( 9.4).210 (5.3).141 ( 3.6).016 (.4) 200 CD15FD201J (11.7).380 ( 9.7).190 (4.8).234 ( 5.9).025 (.6) 200 CDV19FF201J03 1, (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 200 CDV30FH201J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) 200 CDV30FJ201J03 2, (19.6).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 220 CD10FD221J ( 9.9).380 ( 9.7).220 (5.6).141 ( 3.6).016 (.4) 220 CD15FD221J (11.7).380 ( 9.7).200 (5.1).234 ( 5.9).025 (.6) 220 CD19FD221J (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 220 CDV19FF221J03 1, (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 220 CDV30FH221J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) 220 CDV30FJ221J03 2, (19.6).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 240 CD10FD241J ( 9.9).380 ( 9.7).220 (5.6).141 ( 3.6).016 (.4) 240 CD15FD241J (11.7).380 ( 9.7).200 (5.1).234 ( 5.9).025 (.6) 240 CD19FD241J (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 240 CDV19FF241J03 1, (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 240 CDV30FH241J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) 240 CDV30FJ241J03 2, (19.6).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 250 CD10FD251J ( 9.9).380 ( 9.7).220 (5.6).141 ( 3.6).016 (.4) 250 CD15FD251J (11.9).390 ( 9.9).210 (5.3).234 ( 5.9).025 (.6) 250 CD19FD251J (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 270 CD10FC271J ( 9.9).380 ( 9.7).220 (5.6).141 ( 3.6).016 (.4) 270 CD19FD271J (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 270 D105F271J ( 9.9).380 ( 9.7).220 (5.6).141 ( 3.6).016 (.4) 270 CD15FD271J (11.9).390 ( 9.9).210 (5.3).234 ( 5.9).025 (.6) 270 CDV19FF271J03 1, (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 270 CDV30FH271J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) Radial Leaded Mica 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 4.003

339 Mica, Standard Dipped Ratings and Dimensions Radial Leaded Mica Cap Catalog Volt L H T S d pf Number Rate Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 270 CDV30FJ271J03 2, (19.6).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 300 CD10FC301J ( 9.9).380 ( 9.7).220 (5.6).141 ( 3.6).016 (.4) 300 D105F301J ( 9.9).380 ( 9.7).220 (5.6).141 ( 3.6).016 (.4) 300 CD15FD301J (11.9).390 ( 9.9).210 (5.3).234 ( 5.9).025 (.6) 300 CD19FD301J (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 300 CDV30FJ301J03 2, (19.6).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 330 CD10FA331J ( 9.9).370 ( 9.4).220 (5.6).141 ( 3.6).016 (.4) 330 D105F331J ( 9.9).380 ( 9.7).220 (5.6).141 ( 3.6).016 (.4) 330 CD15FD331J (11.9).390 ( 9.9).210 (5.3).234 ( 5.9).025 (.6) 330 CD19FD331J (16.3).500 (12.7).190 (4.8).344 ( 8.7).032 (.8) 330 CDV30FJ331J03 2, (19.6).860 (21.8).250 (6.4).438 (11.1).040 (1.0) 330 CDV30FK331J03 2, (19.8).870 (22.1).250 (6.4).438 (11.1).040 (1.0) 360 CD10FA361J ( 9.9).380 ( 9.7).220 (5.6).141 ( 3.6).016 (.4) 360 D105F361J ( 9.9).380 ( 9.7).220 (5.6).141 ( 3.6).016 (.4) 360 CD15FD361J (11.9).390 ( 9.9).210 (5.3).234 ( 5.9).025 (.6) 360 CD19FD361J (16.3).510 (13.0).200 (5.1).344 ( 8.7).032 (.8) 390 CD10FA391J ( 9.9).380 ( 9.7).220 (5.6).141 ( 3.6).016 (.4) 390 D105F391J ( 9.9).380 ( 9.7).220 (5.6).141 ( 3.6).016 (.4) 390 CD15FD391J (11.9).390 ( 9.9).210 (5.3).234 ( 5.9).025 (.6) 390 CD19FD391J (16.3).510 (13.0).200 (5.1).344 ( 8.7).032 (.8) 390 CDV19FF391J03 1, (16.5).510 (13.0).200 (5.1).344 ( 8.7).032 (.8) 390 CDV30FH391J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) 400 CD10FA401J ( 9.9).380 ( 9.7).220 (5.6).141 ( 3.6).016 (.4) 430 D105F431J ( 9.9).380 ( 9.7).220 (5.6).141 ( 3.6).016 (.4) 430 CD15FD431J (11.9).390 ( 9.9).210 (5.3).234 ( 5.9).025 (.6) 430 CD19FD431J (16.3).510 (13.0).200 (5.1).344 ( 8.7).032 (.8) 430 CDV30FH431J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) 470 D105F471J ( 9.9).380 ( 9.7).220 (5.6).141 ( 3.6).016 (.4) 470 CD15FD471J (11.9).400 (10.2).220 (5.6).234 ( 5.9).025 (.6) 470 CD19FD471J (16.3).510 (13.0).200 (5.1).344 ( 8.7).032 (.8) 470 CDV30FH471J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) 470 CDV30FJ471J03 2, (19.6).870 (22.1).260 (6.6).438 (11.1).040 (1.0) 470 CDV30FK471J03 2, (19.8).870 (22.1).270 (6.9).438 (11.1).040 (1.0) 500 D105F501J ( 9.9).380 ( 9.7).220 (5.6).141 ( 3.6).016 (.4) 500 CD15FD501J (11.9).400 (10.2).220 (5.6).234 ( 5.9).025 (.6) 500 CD19FD501J (16.3).510 (13.0).200 (5.1).344 ( 8.7).032 (.8) 500 CDV30FH501J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) 500 CDV30FJ501J03 2, (19.6).870 (22.1).260 (6.6).438 (11.1).040 (1.0) 500 CDV30FK501J03 2, (19.8).870 (22.1).270 (6.9).438 (11.1).040 (1.0) 510 D105F511J ( 9.9).380 ( 9.7).220 (5.6).141 ( 3.6).016 (.4) 510 CD15FD511J (11.9).400 (10.2).220 (5.6).234 ( 5.9).025 (.6) 510 CD19FD511J (16.5).510 (13.0).200 (5.1).344 ( 8.7).032 (.8) 510 CDV30FH511J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) 510 CDV30FJ511J03 2, (19.6).870 (22.1).260 (6.6).438 (11.1).040 (1.0) 510 CDV30FK511J03 2, (19.8).870 (22.1).270 (6.9).438 (11.1).040 (1.0) 560 D103F561J ( 9.9).380 ( 9.7).220 (5.6).141 ( 3.6).016 (.4) 560 CD15FC561J (11.7).380 ( 9.7).210 (5.3).234 ( 5.9).025 (.6) 560 CD19FD561J (16.5).510 (13.0).200 (5.1).344 ( 8.7).032 (.8) 560 CDV19FF561J03 1, (16.5).510 (13.0).210 (5.3).344 ( 8.7).032 (.8) 560 CDV30FH561J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) 560 CDV30FJ561J03 2, (19.6).870 (22.1).260 (6.6).438 (11.1).040 (1.0) 560 CDV30FK561J03 2, (19.8).870 (22.1).270 (6.9).438 (11.1).040 (1.0) 620 D103F621J ( 9.9).380 ( 9.7).220 (5.6).141 ( 3.6).016 (.4) 620 CD15FC621J (11.7).380 ( 9.7).210 (5.3).234 ( 5.9).025 (.6) 620 CD19FD621J (16.5).510 (13.0).200 (5.1).344 ( 8.7).032 (.8) 620 CDV30FH621J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) 620 CDV30FJ621J03 2, (19.6).870 (22.1).260 (6.6).438 (11.1).040 (1.0) 620 CDV30FK621J03 2, (19.8).870 (22.1).270 (6.9).438 (11.1).040 (1.0) 680 D103F681J ( 9.9).380 ( 9.7).220 (5.6).141 ( 3.6).016 (.4) 680 CD15FC681J (11.9).390 ( 9.9).210 (5.3).234 ( 5.9).025 (.6) 680 CD19FD681J (16.5).510 (13.0).210 (5.3).344 ( 8.7).032 (.8) 680 CDV19FF681J03 1, (16.8).520 (13.2).220 (5.6).344 ( 8.7).032 (.8) 680 CDV30FH681J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) 680 CDV30FJ681J03 2, (19.6).870 (22.1).260 (6.6).438 (11.1).040 (1.0) 680 CDV30FK681J03 2, (19.8).870 (22.1).270 (6.9).438 (11.1).040 (1.0) Cap Catalog Volt L H T S d pf Number Rate Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 750 D103F751J ( 9.9).380 ( 9.7).220 (5.6).141 ( 3.6).016 (.4) 750 CD15FC751J (11.9).390 ( 9.9).210 (5.3).234 ( 5.9).025 (.6) 750 CD19FD751J (16.5).510 (13.0).210 (5.3).344 ( 8.7).032 (.8) 750 CDV30FH751J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) 750 CDV30FJ751J03 2, (19.6).870 (22.1).260 (6.6).438 (11.1).040 (1.0) 750 CDV30FK751J03 2, (19.8).870 (22.1).270 (6.9).438 (11.1).040 (1.0) 820 D103F821J ( 9.9).380 ( 9.7).220 (5.6).141 ( 3.6).016 (.4) 820 CD15FC821J (11.9).390 ( 9.9).210 (5.3).234 ( 5.9).025 (.6) 820 CD19FD821J (16.5).510 (13.0).210 (5.3).344 ( 8.7).032 (.8) 820 CDV19FF821J03 1, (16.8).530 (13.5).230 (5.8).344 ( 8.7).032 (.8) 820 CDV30FH821J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) 820 CDV30FJ821J03 2, (19.6).870 (22.1).260 (6.6).438 (11.1).040 (1.0) 820 CDV30FK821J03 2, (19.8).870 (22.1).270 (6.9).438 (11.1).040 (1.0) 910 D101F911J ( 9.9).380 ( 9.7).220 (5.6).141 ( 3.6).016 (.4) 910 CD15FA911J (11.9).400 (10.2).220 (5.6).234 ( 5.9).025 (.6) 910 CD19FD911J (16.5).510 (13.0).210 (5.3).344 ( 8.7).032 (.8) 910 CDV19FF911J03 1, (17.0).530 (13.5).240 (6.1).344 ( 8.7).032 (.8) 910 CDV30FH911J03 1, (19.6).850 (21.6).250 (6.4).438 (11.1).040 (1.0) 910 CDV30FJ911J03 2, (19.8).880 (22.4).280 (7.1).438 (11.1).040 (1.0) 910 CDV30FK911J03 2, (19.8).870 (22.1).290 (7.4).438 (11.1).040 (1.0) 1000 D101F102J ( 9.9).380 ( 9.7).220 (5.6).141 ( 3.6).016 (.4) 1000 CD15FA102J (12.2).400 (10.2).230 (5.8).234 ( 5.9).025 (.6) 1000 CD19FD102J (16.5).520 (13.2).220 (5.6).344 ( 8.7).032 (.8) 1000 CDV19FF102J03 1, (17.0).530 (13.5).250 (6.4).344 ( 97).032 (.8) 1000 CDV30FH102J03 1, (19.6).860 (21.8).260 (6.6).438 (11.1).040 (1.0) 1000 CDV30FJ102J03 2, (19.8).880 (22.4).280 (7.1).438 (11.1).040 (1.0) 1000 CDV30FK102J03 2, (20.1).880 (22.4).310 (7.9).438 (11.1).040 (1.0) 1100 D101F112J ( 9.9).380 ( 9.7).220 (5.6).141 ( 3.6).016 (.4) 1100 CD15FA112J (12.4).420 (10.7).240 (6.1).234 ( 5.9).025 (.6) 1100 CD19FD112J (16.5).520 (13.2).220 (5.6).344 ( 8.7).032 (.8) 1100 CDV19FF112J03 1, (17.0).530 (13.5).250 (6.4).344 ( 8.7).032 (.8) 1100 CDV30FH112J03 1, (19.6).860 (21.8).260 (6.6).438 (11.1).040 (1.0) 1200 D101F122J ( 9.9).380 ( 9.7).220 (5.6).141 ( 3.6).016 (.4) 1200 CD15FA122J (12.4).420 (10.7).240 (6.1).234 ( 5.9).025 (.6) 1200 CD19FD122J (16.8).520 (13.2).220 (5.6).344 ( 8.7).032 (.8) 1200 CDV30FH122J03 1, (19.6).860 (21.8).260 (6.6).438 (11.1).040 (1.0) 1200 CDV30FJ122J03 2, (19.8).880 (22.4).280 (7.1).438 (11.1).040 (1.0) 1200 CDV30FK122J03 2, (20.1).880 (22.4).310 (7.9).438 (11.1).040 (1.0) 1300 D101F132J ( 9.9).380 ( 9.7).220 (5.6).141 ( 3.6).016 (.4) 1300 CD19FD132J (16.8).520 (13.2).220 (5.6).344 ( 8.7).032 (.8) 1300 CDV19FF132J03 1, (17.0).540 (13.7).260 (6.6).344 ( 8.7).032 (.8) 1300 CDV30FH132J03 1, (19.8).870 (22.1).270 (6.9).438 (11.1).040 (1.0) 1300 CDV30FJ132J03 2, (19.8).880 (22.4).300 (7.6).438 (11.1).040 (1.0) 1300 CDV30FK132J03 2, (20.3).890 (22.6).330 (8.4).438 (11.1).040 (1.0) 1500 D101F152J ( 9.9).380 ( 9.7).220 (5.6).141 ( 3.6).016 (.4) 1500 CD15FA152J (12.7).430 (10.9).250 (6.4).234 ( 5.9).025 (.6) 1500 CD19FD152J (16.8).520 (13.2).230 (5.8).344 ( 8.7).032 (.8) 1500 CDV19FF152J03 1, (17.3).540 (13.7).270 (6.9).344 ( 8.7).032 (.8) 1500 CDV30FH152J03 1, (19.8).870 (22.1).280 (7.1).438 (11.1).040 (1.0) 1500 CDV30FJ152J03 2, (20.1).890 (22.6).320 (8.1).438 (11.1).040 (1.0) 1500 CDV30FK152J03 2, (20.3).890 (22.6).350 (8.9).438 (11.1).040 (1.0) 1600 CD19FD162J (16.8).530 (13.5).230 (5.8).344 ( 8.7).032 (.8) 1600 CDV19FF162J03 1, (17.3).550 (14.0).280 (7.1).344 ( 8.7).032 (.8) 1600 CDV30FH162J03 1, (19.8).870 (22.1).280 (7.1).438 (11.1).040 (1.0) 1600 CDV30FJ162J03 2, (20.1).890 (22.6).320 (8.1).438 (11.1).040 (1.0) 1600 CDV30FK162J03 2, (20.3).890 (22.6).350 (8.9).438 (11.1).040 (1.0) 1800 CD19FD182J (17.0).530 (13.5).240 (6.1).344 ( 8.7).032 (.8) 1800 CDV19FF182J03 1, (17.3).550 (14.0).290 (7.4).344 ( 8.7).032 (.8) 1800 CDV30FH182J03 1, (19.8).870 (22.1).290 (7.4).438 (11.1).040 (1.0) 1800 CDV30FJ182J03 2, (20.1).890 (22.6).340 (8.6).438 (11.1).040 (1.0) 1800 CDV30FK182J03 2, (20.6).900 (22.9).370 (9.4).438 (11.1).040 (1.0) 2000 CD19FD202J (17.0).530 (13.5).240 (6.1).344 ( 8.7).032 (.8) 2000 CD30FD202J (19.6).850 (21.6).240 (6.1).438 (11.1).040 (1.0) 2000 CDV19FF202J03 1, (17.3).560 (14.2).300 (7.6).344 ( 8.7).032 (.8) 2000 CDV30FH202J03 1, (19.8).870 (22.1).300 (7.6).438 (11.1).040 (1.0) East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

340 Mica, Standard Dipped Ratings and Dimensions Cap Catalog Volt L H T S d pf Number Rate Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 2100 CDV30FJ212J03 2, (20.3).900 (22.9).360 ( 9.1).438 (11.1).040 (1.0) 2100 CDV30FK212J03 2, (20.8).910 (23.1).390 ( 9.9).438 (11.1).040 (1.0) 2200 CD19FD222J (17.0).530 (13.5).250 ( 6.4).344 ( 8.7).032 (.8) 2200 CD30FD222J (19.6).850 (21.6).250 ( 6.4).438 (11.1).040 (1.0) 2200 CDV19FF222J03 1, (17.5).560 (14.2).310 ( 7.9).344 ( 8.7).032 (.8) 2200 CDV30FH222J03 1, (20.1).880 (22.4).310 ( 7.9).438 (11.1).040 (1.0) 2400 CD19FD242J (17.0).540 (13.7).260 ( 6.6).344 ( 8.7).032 (.8) 2400 CD30FD242J (19.6).850 (21.6).250 ( 6.4).438 (11.1).040 (1.0) 2400 CDV19FF242J03 1, (17.5).570 (14.5).320 ( 8.1).344 ( 8.7).032 (.8) 2400 CDV30FH242J03 1, (20.1).880 (22.4).320 ( 8.1).438 (11.1).040 (1.0) 2400 CDV30FJ242J03 2, (20.3).900 (22.9).380 ( 9.7).438 (11.1).040 (1.0) 2400 CDV30FK242J03 2, (20.8).910 (23.1).420 (10.7).438 (11.1).040 (1.0) 2500 CD19FD252J (17.3).540 (13.7).260 ( 6.6).344 ( 8.7).032 (.8) 2500 CD30FD252J (19.6).850 (21.6).250 ( 6.4).438 (11.1).040 (1.0) 2500 CDV30FH252J03 1, (20.1).880 (22.4).320 ( 8.1).438 (11.1).040 (1.0) 2500 CDV30FJ252J03 2, (20.3).900 (22.9).380 ( 9.7).438 (11.1).040 (1.0) 2500 CDV30FK252J03 2, (20.8).910 (23.1).420 (10.7).438 (11.1).040 (1.0) 2700 CD19FD272J (17.3).540 (13.7).270 ( 6.9).344 ( 8.7).032 (.8) 2700 CD30FD272J (19.6).850 (21.6).250 ( 6.4).438 (11.1).040 (1.0) 2700 CDV19FF272J03 1, (17.8).570 (14.5).340 ( 8.6).344 ( 8.7).032 (.8) 2700 CDV30FH272J03 1, (20.1).880 (22.4).330 ( 8.4).438 (11.1).040 (1.0) 2700 CDV30FJ272J03 2, (20.6).910 (23.1).400 (10.2).438 (11.1).040 (1.0) 2700 CDV30FK272J03 2, (21.1).920 (23.4).450 (11.4).438 (11.1).040 (1.0) 3000 CD19FD302J (17.3).550 (14.0).280 ( 7.1).344 ( 8.7).032 (.8) 3000 CD30FD302J (19.6).860 (21.8).250 ( 6.4).438 (11.1).040 (1.0) 3000 CDV19FF302J03 1, (18.0).580 (14.7).360 ( 9.1).344 ( 8.7).032 (.8) 3000 CDV30FH302J03 1, (20.3).890 (22.6).340 ( 8.6).438 (11.1).040 (1.0) 3000 CDV30FJ302J03 2, (20.6).910 (23.1).420 (10.7).438 (11.1).040 (1.0) 3000 CDV30FK302J03 2, (21.3).930 (23.6).480 (12.2).438 (11.1).040 (1.0) 3300 CD19FD332J (17.3).550 (14.0).290 ( 7.4).344 ( 8.7).032 (.8) 3300 CD30FD332J (19.6).860 (21.8).250 ( 6.4).438 (11.1).040 (1.0) 3300 CDV19FF332J03 1, (18.3).590 (15.0).380 ( 9.7).344 ( 8.7).032 (.8) 3300 CDV30FH332J03 1, (20.3).890 (22.6).350 ( 8.9).438 (11.1).040 (1.0) 3300 CDV30FJ332J03 2, (20.8).920 (23.4).440 (11.2).438 (11.1).040 (1.0) 3600 CD19FD362J (17.3).560 (14.2).300 ( 7.6).344 ( 8.7).032 (.8) 3600 CD30FD362J (19.6).860 (21.8).260 ( 6.6).438 (11.1).040 (1.0) 3600 CDV19FF362J03 1, (18.5).600 (15.2).400 (10.2).344 ( 8.7).032 (.8) 3600 CDV30FH362J03 1, (20.3).890 (22.6).350 ( 8.9).438 (11.1).040 (1.0) 3600 CDV30FJ362J03 2, (20.8).920 (23.4).440 (11.2).438 (11.1).040 (1.0) 3900 CD19FD392J (17.5).560 (14.2).310 ( 7.9).344 ( 8.7).032 (.8) 3900 CD30FD392J (19.6).860 (21.8).260 ( 6.6).438 (11.1).040 (1.0) 3900 CDV19FF392J03 1, (18.8).610 (15.5).420 (10.7).344 ( 8.7).032 (.8) 3900 CDV30FH392J03 1, (20.3).890 (22.6).360 ( 9.1).438 (11.1).040 (1.0) 3900 CDV30FJ392J03 2, (21.1).930 (23.6).460 (11.7).438 (11.1).040 (1.0) 4300 CD19FD432J (17.5).570 (14.5).330 ( 8.4).344 ( 8.7).032 (.8) 4300 CD30FD432J (19.8).860 (21.8).270 ( 6.9).438 (11.1).040 (1.0) 4300 CDV19FF432J03 1, (19.1).620 (15.7).440 (11.2).344 ( 8.7).032 (.8) 4300 CDV30FH432J03 1, (20.6).900 (22.9).370 ( 9.4).438 (11.1).040 (1.0) 4300 CDV30FJ432J03 2, (21.3).930 (23.6).480 (12.2).438 (11.1).040 (1.0) 4700 CD19FD472J (17.8).580 (14.7).350 ( 8.9).344 ( 8.7).032 (.8) 4700 CD30FD472J (19.8).860 (21.8).270 ( 6.9).438 (11.1).040 (1.0) 4700 CDV19FF472J03 1, (19.3).630 (16.0).460 (11.7).344 ( 8.7).032 (.8) 4700 CDV30FH472J03 1, (20.6).900 (22.9).380 ( 9.7).438 (11.1).040 (1.0) 5000 CD19FD502J (18.0).590 (15.0).370 ( 9.4).344 ( 8.7).032 (.8) 5000 CD30FD502J (19.8).860 (21.8).280 ( 7.1).438 (11.1).040 (1.0) 5000 CDV30FH502J03 1, (20.6).900 (22.9).380 ( 9.7).438 (11.1).040 (1.0) 5100 CD19FD512J (18.0).590 (15.0).370 ( 9.4).344 ( 8.7).032 (.8) 5100 CD30FD512J (19.8).860 (21.8).280 ( 7.1).438 (11.1).040 (1.0) 5100 CDV30FF512J03 1, (20.1).880 (22.4).330 ( 8.4).438 (11.1).040 (1.0) 5100 CDV30FH512J03 1, (20.6).900 (22.9).390 ( 9.9).438 (11.1).040 (1.0) 5600 CD19FC562J (17.3).560 (14.2).310 ( 7.9).344 ( 8.7).032 (.8) 5600 CD30FD562J (19.8).870 (22.1).290 ( 7.4).438 (11.1).040 (1.0) 5600 CDV30FF562J03 1, (20.3).890 (22.6).340 ( 8.6).438 (11.1).040 (1.0) 5600 CDV30FH562J03 1, (20.8).910 (23.1).400 (10.2).438 (11.1).040 (1.0) 6200 CD19FC622J (17.5).560 (14.2).320 ( 8.1).344 ( 8.7).032 (.8) Cap Catalog Volt L H T S d pf Number Rate Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 6800 CD19FC682J (17.5).570 (14.5).330 ( 8.4).344 ( 8.7).032 (.8) 6200 CD30FD622J (19.8).870 (22.1).290 ( 7.4).438 (11.1).040 (1.0) 6200 CDV30FF622J03 1, (20.3).890 (22.6).350 ( 8.9).438 (11.1).040 (1.0) 6200 CDV30FH622J03 1, (20.8).910 (23.1).410 (10.4).438 (11.1).040 (1.0) 6800 CD30FD682J (19.8).880 (22.4).300 ( 7.6).438 (11.1).040 (1.0) 6800 CDV30FF682J03 1, (20.3).890 (22.6).360 ( 9.1).438 (11.1).040 (1.0) 6800 CDV30FH682J03 1, (21.1).920 (23.4).420 (10.7).438 (11.1).040 (1.0) 7500 CD19FA752J (17.8).570 (14.5).340 ( 8.6).344 ( 8.7).032 (.8) 7500 CD30FD752J (20.1).880 (22.4).310 ( 7.9).438 (11.1).040 (1.0) 7500 CDV30FF752J03 1, (20.6).890 (22.6).370 ( 9.4).438 (11.1).040 (1.0) 7500 CDV30FH752J03 1, (21.1).920 (23.4).420 (10.7).438 (11.1).040 (1.0) 8200 CD19FA822J (17.8).580 (14.7).350 ( 8.9).344 ( 8.7).032 (.8) 8200 CD30FD822J (20.1).880 (22.4).320 ( 8.1).438 (11.1).040 (1.0) 8200 CDV30FF822J03 1, (20.6).900 (22.9).390 ( 9.9).438 (11.1).040 (1.0) 8200 CDV30FH822J03 1, (21.3).930 (23.6).460 (11.7).438 (11.1).040 (1.0) 9100 CD19FA912J (18.0).590 (15.0).360 ( 9.1).344 ( 8.7).032 (.8) 9100 CD30FD912J (20.1).880 (22.4).330 ( 8.4).438 (11.1).040 (1.0) 9100 CDV30FF912J03 1, (20.8).900 (22.9).410 (10.4).438 (11.1).040 (1.0) CD19FA103J (18.3).600 (15.2).370 ( 9.4).344 ( 8.7).032 (.8) CD30FD103J (20.3).890 (22.6).340 ( 8.6).438 (11.1).040 (1.0) CDV30FF103J03 1, (20.8).910 (23.1).420 (10.7).438 (11.1).040 (1.0) CD30FD113J (20.3).890 (22.6).350 ( 8.9).438 (11.1).040 (1.0) CDV30FF113J03 1, (21.1).910 (23.1).440 (11.2).438 (11.1).040 (1.0) CD30FD123J (20.3).890 (22.6).360 ( 9.1).438 (11.1).040 (1.0) CDV30FF123J03 1, (21.1).920 (23.4).460 (11.7).438 (11.1).040 (1.0) CD30FD133J (20.6).890 (22.6).370 ( 9.4).438 (11.1).040 (1.0) CDV30FF133J03 1, (21.3).930 (23.6).480 (12.2).438 (11.1).040 (1.0) CD30FD153J (20.6).900 (22.9).390 ( 9.9).438 (11.1).040 (1.0) CD30FD163J (20.8).900 (22.9).410 (10.4).438 (11.1).040 (1.0) CD30FD183J (20.8).910 (23.1).430 (10.9).438 (11.1).040 (1.0) CD30FD203J (21.1).920 (23.4).450 (11.4).438 (11.1).040 (1.0) CD42FD203J (36.1).870 (22.1).300 ( 7.6) (27.0).040 (1.0) CD30FD223J (21.1).930 (23.6).460 (11.7).438 (11.1).040 (1.0) CD42FD223J (36.1).880 (22.4).310 ( 7.9) (27.0).040 (1.0) CD30FC243J (20.8).900 (22.9).410 (10.4).438 (11.1).040 (1.0) CD42FD243J (36.3).880 (22.4).320 ( 8.1) (27.0).040 (1.0) CD30FC253J (20.8).910 (23.1).430 (10.9).438 (11.1).040 (1.0) CD42FD253J (36.3).880 (22.4).330 ( 8.4) (27.0).040 (1.0) CD30FC273J (20.8).910 (23.1).430 (10.9).438 (11.1).040 (1.0) CD42FD273J (36.3).880 (22.4).330 ( 8.4) (27.0).040 (1.0) CD30FC303J (21.1).920 (23.4).460 (11.7).438 (11.1).040 (1.0) CD42FD303J (36.6).890 (22.6).350 ( 8.9) (27.0).040 (1.0) CD30FA333J (21.1).910 (23.1).440 (11.2).438 (11.1).040 (1.0) CD42FD333J (36.6).890 (22.6).360 ( 9.1) (27.0).040 (1.0) CD30FA363J (21.1).920 (23.4).450 (11.4).438 (11.1).040 (1.0) CD42FD363J (36.8).900 (22.9).380 ( 9.7) (27.0).040 (1.0) CD42FD393J (36.8).900 (22.9).400 (10.2) (27.0).040 (1.0) CD30FA403J (21.3).920 (23.4).470 (11.9).438 (11.1).040 (1.0) CD42FD433J (37.1).910 (23.1).420 (10.7) (27.0).040 (1.0) CD42FD473J (37.3).910 (23.1).450 (11.4) (27.0).040 (1.0) CD42FD503J (37.6).920 (23.4).470 (11.9) (27.0).040 (1.0) CD42FD513J (37.6).920 (23.4).470 (11.9) (27.0).040 (1.0) CD42FC563J (37.1).910 (23.1).420 (10.7) (27.0).040 (1.0) CD42FC623J (37.3).920 (23.4).450 (11.4) (27.0).040 (1.0) CD42FC683J (37.6).920 (23.4).470 (11.9) (27.0).040 (1.0) CD42FA753J (37.3).910 (23.1).440 (11.2) (27.0).040 (1.0) CD42FA823J (37.6).920 (23.4).460 (11.7) (27.0).040 (1.0) CD42FA913J (38.1).940 (23.9).500 (12.7) (27.0).040 (1.0) Radial Leaded Mica 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 4.005

341 Miniature Dipped, Mica Types CD5, CD6, CD7, CDS5, CDS10, D7, CDS15, CDS19, CDS30 CDE miniature dipped silvered mica capacitors fit those tight spots in modules and high-density electronics. In low- and moderate-humidity applications, these small sizes deliver the same stability and rugged performance as the standard dipped units. L Max. T Max. Voltage Range: 50 Vdc to 500 Vdc Capacitance Range: 1 pf to 40,000 pf Capacitance Tolerance: ± 1 2 pf (D), ± 1 2% (E), ±1 pf (C),±1% (F), ±2% (G), ±5% (J) Temperature Range: 55 C to +125 C 20,000 V/µs dv/dt pulse capability minimum Measured at point where phenolic cone becomes a cylinder S ±.031 H Max..078 Max. no solder d 1 Min. Radial Leaded Mica Cap Catalog Volt L H T S d pf Number Rate Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 1 CD5CC010D ( 6.9).190 (4.8).110 (2.8).120 (3.0).016 (.4) 1 CDS5CC010D ( 6.4).160 (4.1).090 (2.3).120 (3.0).016 (.4) 1 CD6CD010D ( 7.0).175 (4.4).095 (2.4).172 (4.4).016 (.4) 1 CDS10CD010D ( 7.9).260 (6.6).120 (3.0).141 (3.6).016 (.4) 1 CDS15CD010D (10.9).280 (7.1).140 (3.6).234 (5.9).025 (.6) 2 CD5CC020D ( 6.9).190 (4.8).110 (2.8).120 (3.0).016 (.4) 2 CDS5CC020D ( 6.4).160 (4.1).090 (2.3).120 (3.0).016 (.4) 2 CD6CD020D ( 7.0).175 (4.4).095 (2.4).172 (4.4).016 (.4) 2 CDS10CD020D ( 7.9).260 (6.6).120 (3.0).141 (3.6).016 (.4) 2 CDS15CD020D (10.9).280 (7.1).140 (3.6).234 (5.9).025 (.6) 3 CD5CC030D ( 6.9).190 (4.8).110 (2.8).120 (3.0).016 (.4) 3 CDS5CC030D ( 6.4).160 (4.1).090 (2.3).120 (3.0).016 (.4) 3 CD6CD030D ( 7.0).175 (4.4).095 (2.4).172 (4.4).016 (.4) 3 CDS10CD030D ( 7.9).260 (6.6).120 (3.0).141 (3.6).016 (.4) 3 CDS15CD030D (10.9).280 (7.1).140 (3.6).234 (5.9).025 (.6) 4 CD5CC040D ( 6.9).190 (4.8).110 (2.8).120 (3.0).016 (.4) 4 CDS5CC040D ( 6.4).160 (4.1).090 (2.3).120 (3.0).016 (.4) 4 CD6CD040D ( 7.0).175 (4.4).095 (2.4).172 (4.4).016 (.4) 4 CDS10CD040D ( 7.9).260 (6.6).120 (3.0).141 (3.6).016 (.4) 4 CDS15CD040D (10.9).280 (7.1).140 (3.6).234 (5.9).025 (.6) 5 CD5CC050D ( 6.9).190 (4.8).110 (2.8).120 (3.0).016 (.4) 5 CDS5CC050D ( 6.4).160 (4.1).090 (2.3).120 (3.0).016 (.4) 5 CD6CD050D ( 7.0).175 (4.4).095 (2.4).172 (4.4).016 (.4) 5 CDS10CD050D ( 7.9).260 (6.6).120 (3.0).141 (3.6).016 (.4) 5 CDS15CD050D (10.9).280 (7.1).140 (3.6).234 (5.9).025 (.6) 6 CD5CC060D ( 6.9).190 (4.8).110 (2.8).120 (3.0).016 (.4) 6 CDS5CC060D ( 6.4).160 (4.1).090 (2.3).120 (3.0).016 (.4) 6 CD6CD060D ( 7.0).175 (4.4).095 (2.4).172 (4.4).016 (.4) 6 CDS10CD060D ( 7.9).260 (6.6).120 (3.0).141 (3.6).016 (.4) 6 CDS15CD060D (10.9).280 (7.1).140 (3.6).234 (5.9).025 (.6) 7 CD5CC070D ( 6.9).190 (4.8).110 (2.8).120 (3.0).016 (.4) 7 CDS5CC070D ( 6.4).160 (4.1).090 (2.3).120 (3.0).016 (.4) 7 CD6CD070D ( 7.0).175 (4.4).095 (2.4).172 (4.4).016 (.4) 7 CDS10CD070D ( 7.9).260 (6.6).120 (3.0).141 (3.6).016 (.4) 7 CDS15CD070D (10.9).280 (7.1).140 (3.6).234 (5.9).025 (.6) 8 CD5CC080D ( 6.9).190 (4.8).110 (2.8).120 (3.0).016 (.4) 8 CDS5CC080D ( 6.4).160 (4.1).090 (2.3).120 (3.0).016 (.4) 8 CD6CD080D ( 7.0).175 (4.4).095 (2.4).172 (4.4).016 (.4) 8 CDS10CD080D ( 7.9).260 (6.6).120 (3.0).141 (3.6).016 (.4) 8 CDS15CD080D (10.9).280 (7.1).140 (3.6).234 (5.9).025 (.6) 9 CD5CC090D ( 6.9).190 (4.8).110 (2.8).120 (3.0).016 (.4) 9 CDS5CC090D ( 6.4).160 (4.1).090 (2.3).120 (3.0).016 (.4) 9 CD6CD090D ( 7.0).175 (4.4).095 (2.4).172 (4.4).016 (.4) 9 CDS10CD090D ( 7.9).260 (6.6).120 (3.0).141 (3.6).016 (.4) 9 CDS15CD090D (10.9).280 (7.1).140 (3.6).234 (5.9).025 (.6) Cap Catalog Volt L H T S d pf Number Rate Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 10 CD5CC100J ( 6.9).190 (4.8).110 (2.8).120 (3.0).016 (.4) 10 CDS5CC100J ( 6.4).160 (4.1).090 (2.3).120 (3.0).016 (.4) 10 CD6CD100D ( 7.0).175 (4.4).095 (2.4).172 (4.4).016 (.4) 10 CDS10CD100J ( 7.9).260 (6.6).120 (3.0).141 (3.6).016 (.4) 10 CDS15CD100J (10.9).280 (7.1).140 (3.6).234 (5.9).025 (.6) 11 CD5CC110J ( 6.9).190 (4.8).110 (2.8).120 (3.0).016 (.4) 11 CDS5CC110J ( 6.4).160 (4.1).090 (2.3).120 (3.0).016 (.4) 11 CD6CD110D ( 7.0).175 (4.4).095 (2.4).172 (4.4).016 (.4) 11 CDS10CD110J ( 7.9).260 (6.6).120 (3.0).141 (3.6).016 (.4) 11 CDS15CD110J (10.9).280 (7.1).140 (3.6).234 (5.9).025 (.6) 12 CD5CC120J ( 6.9).190 (4.8).110 (2.8).120 (3.0).016 (.4) 12 CDS5CC120J ( 6.4).160 (4.1).090 (2.3).120 (3.0).016 (.4) 12 CD6CD120J ( 7.0).175 (4.4).095 (2.4).172 (4.4).016 (.4) 12 CDS10CD120J ( 7.9).260 (6.6).120 (3.0).141 (3.6).016 (.4) 12 CDS15CD120J (10.9).280 (7.1).140 (3.6).234 (5.9).025 (.6) 15 CD5CC150J ( 6.9).190 (4.8).120 (3.0).120 (3.0).016 (.4) 15 CDS5CC150J ( 6.4).170 (4.3).100 (2.5).120 (3.0).016 (.4) 15 CD6CD150J ( 7.0).175 (4.4).095 (2.4).172 (4.4).016 (.4) 15 CDS10CD150J ( 7.9).260 (6.6).120 (3.0).141 (3.6).016 (.4) 15 CDS15CD150J (10.9).280 (7.1).140 (3.6).234 (5.9).025 (.6) 18 CD5CC180J ( 6.9).200 (5.1).120 (3.0).120 (3.0).016 (.4) 18 CDS5CC180J ( 6.4).170 (4.3).100 (2.5).120 (3.0).016 (.4) 18 CD6CD180J ( 7.0).175 (4.4).095 (2.4).172 (4.4).016 (.4) 18 CDS10CD180J ( 7.9).260 (6.6).120 (3.0).141 (3.6).016 (.4) 18 CDS15CD180J (10.9).280 (7.1).140 (3.6).234 (5.9).025 (.6) 20 CD5EC200J ( 6.9).200 (5.1).120 (3.0).120 (3.0).016 (.4) 20 CDS5EC200J ( 6.4).170 (4.3).100 (2.5).120 (3.0).016 (.4) 20 CD6ED200J ( 7.0).175 (4.4).095 (2.4).172 (4.4).016 (.4) 20 CDS10ED200J ( 7.9).260 (6.6).120 (3.0).141 (3.6).016 (.4) 20 CDS15ED200J (10.9).280 (7.1).140 (3.6).234 (5.9).025 (.6) 22 CD5EC220J ( 6.9).200 (5.1).120 (3.0).120 (3.0).016 (.4) 22 CDS5EC220J ( 6.4).170 (4.3).100 (2.5).120 (3.0).016 (.4) 22 CD6ED220J ( 7.0).175 (4.4).095 (2.4).172 (4.4).016 (.4) 22 CDS10ED220J ( 7.9).260 (6.6).120 (3.0).141 (3.6).016 (.4) 22 CDS15ED220J (10.9).280 (7.1).140 (3.6).234 (5.9).025 (.6) 24 CD5EC240J ( 6.9).200 (5.1).120 (3.0).120 (3.0).016 (.4) 24 CDS5EC240J ( 6.4).170 (4.3).100 (2.5).120 (3.0).016 (.4) 24 CD6ED240J ( 7.0).175 (4.4).095 (2.4).172 (4.4).016 (.4) 24 CDS10ED240J ( 7.9).260 (6.6).120 (3.0).141 (3.6).016 (.4) 24 CDS15ED240J (10.9).280 (7.1).140 (3.6).234 (5.9).025 (.6) 27 CD5EC270J ( 6.9).200 (5.1).130 (3.3).120 (3.0).016 (.4) 27 CDS5EC270J ( 6.4).170 (4.3).110 (2.8).120 (3.0).016 (.4) 27 CD6ED270J ( 7.0).175 (4.4).095 (2.4).172 (4.4).016 (.4) 27 CDS10ED270J ( 7.9).260 (6.6).120 (3.0).141 (3.6).016 (.4) 27 CDS15ED270J (10.9).280 (7.1).140 (3.6).234 (5.9).025 (.6) East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

342 Miniature Dipped, Mica Ratings and Dimensions Cap Catalog Volt L H T S d pf Number Rate Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 30 CD5EC300J ( 6.9).200 (5.1).130 (3.3).120 (3.0).016 (.4) 30 CDS5EC300J ( 6.4).170 (4.3).110 (2.8).120 (3.0).016 (.4) 30 CD6ED300J ( 7.0).175 (4.4).095 (2.4).172 (4.4).016 (.4) 30 CDS10ED300J ( 7.9).260 (6.6).120 (3.0).141 (3.6).016 (.4) 30 CDS15ED300J (10.9).280 (7.1).140 (3.6).234 (5.9).025 (.6) 33 CD5EC330J ( 6.9).200 (5.1).130 (3.3).120 (3.0).016 (.4) 33 CDS5EC330J ( 6.4).170 (4.3).110 (2.8).120 (3.0).016 (.4) 33 CD6ED330J ( 7.0).175 (4.4).095 (2.4).172 (4.4).016 (.4) 33 CDS10ED330J ( 7.9).260 (6.6).120 (3.0).141 (3.6).016 (.4) 33 CDS15ED330J (10.9).280 (7.1).140 (3.6).234 (5.9).025 (.6) 36 CD5EC360J ( 6.9).210 (5.3).130 (3.3).120 (3.0).016 (.4) 36 CDS5EC360J ( 6.4).170 (4.3).110 (2.8).120 (3.0).016 (.4) 36 CD6ED360J ( 7.0).175 (4.4).095 (2.4).172 (4.4).016 (.4) 36 CDS10ED360J ( 7.9).260 (6.6).120 (3.0).141 (3.6).016 (.4) 36 CDS15ED360J (10.9).280 (7.1).140 (3.6).234 (5.9).025 (.6) 39 CD5EC390J ( 6.9).210 (5.3).130 (3.3).120 (3.0).016 (.4) 39 CDS5EC390J ( 6.4).170 (4.3).110 (2.8).120 (3.0).016 (.4) 39 CD6ED390J ( 7.0).175 (4.4).095 (2.4).172 (4.4).016 (.4) 39 CDS10ED390J ( 7.9).260 (6.6).120 (3.0).141 (3.6).016 (.4) 39 CDS15ED390J (10.9).280 (7.1).140 (3.6).234 (5.9).025 (.6) 43 CD5EC430J ( 6.9).210 (5.3).140 (3.6).120 (3.0).016 (.4) 43 CDS5EC430J ( 6.4).170 (4.3).120 (3.0).120 (3.0).016 (.4) 43 CD6ED430J ( 7.0).175 (4.4).095 (2.4).172 (4.4).016 (.4) 43 CDS10ED430J ( 7.9).260 (6.6).120 (3.0).141 (3.6).016 (.4) 43 CDS15ED430J (10.9).280 (7.1).140 (3.6).234 (5.9).025 (.6) 47 CD5EC470J ( 6.9).210 (5.3).140 (3.6).120 (3.0).016 (.4) 47 CDS5EC470J ( 6.4).170 (4.3).120 (3.0).120 (3.0).016 (.4) 47 CD6ED470J ( 7.0).175 (4.4).095 (2.4).172 (4.4).016 (.4) 47 CDS10ED470J ( 7.9).260 (6.6).120 (3.0).141 (3.6).016 (.4) 47 CDS15ED470J (10.9).280 (7.1).140 (3.6).234 (5.9).025 (.6) 50 CD6ED500J ( 7.0).175 (4.4).095 (2.4).172 (4.4).016 (.4) 50 CDS10ED500J ( 7.9).260 (6.6).120 (3.0).141 (3.6).016 (.4) 50 CDS15ED500J (10.9).280 (7.1).140 (3.6).234 (5.9).025 (.6) 51 CD5EC510J ( 6.9).210 (5.3).140 (3.6).120 (3.0).016 (.4) 51 CDS5EC510J ( 6.4).170 (4.3).120 (3.0).120 (3.0).016 (.4) 51 CD6ED510J ( 7.0).175 (4.4).095 (2.4).172 (4.4).016 (.4) 51 CDS10ED510J ( 7.9).260 (6.6).120 (3.0).141 (3.6).016 (.4) 51 CDS15ED510J (10.9).280 (7.1).140 (3.6).234 (5.9).025 (.6) 56 CD5EC560J ( 6.9).220 (5.6).150 (3.8).120 (3.0).016 (.4) 56 CDS5EC560J ( 6.4).180 (4.6).130 (3.3).120 (3.0).016 (.4) 56 CD6ED560J ( 7.0).175 (4.4).095 (2.4).172 (4.4).016 (.4) 56 CDS10ED560J ( 7.9).260 (6.6).130 (3.3).141 (3.6).016 (.4) 56 CDS15ED560J (10.9).280 (7.1).140 (3.6).234 (5.9).025 (.6) 62 CD5EC620J ( 6.9).220 (5.6).150 (3.8).120 (3.0).016 (.4) 62 CDS5EC620J ( 6.4).180 (4.6).130 (3.3).120 (3.0).016 (.4) 62 CD6ED620J ( 7.0).175 (4.4).095 (2.4).172 (4.4).016 (.4) 62 CDS10ED620J ( 7.9).260 (6.6).130 (3.3).141 (3.6).016 (.4) 62 CDS15ED620J (10.9).280 (7.1).140 (3.6).234 (5.9).025 (.6) 68 CD5EC680J ( 6.9).220 (5.6).150 (3.8).120 (3.0).016 (.4) 68 CDS5EC680J ( 6.4).180 (4.6).130 (3.3).120 (3.0).016 (.4) 68 CD6ED680J ( 7.0).175 (4.4).095 (2.4).172 (4.4).016 (.4) 68 CDS10ED680J ( 7.9).260 (6.6).130 (3.3).141 (3.6).016 (.4) 68 CDS15ED680J (10.9).280 (7.1).140 (3.6).234 (5.9).025 (.6) 75 CD5EC750J ( 6.9).230 (5.8).160 (4.1).120 (3.0).016 (.4) 75 CDS5EC750J ( 6.4).190 (4.8).140 (3.6).120 (3.0).016 (.4) 75 CD6ED750J ( 7.0).175 (4.4).095 (2.4).172 (4.4).016 (.4) 75 CDS10ED750J ( 7.9).260 (6.6).130 (3.3).141 (3.6).016 (.4) 75 CDS15ED750J (10.9).280 (7.1).140 (3.6).234 (5.9).025 (.6) 82 CD5EC820J ( 6.9).230 (5.8).160 (4.1).120 (3.0).016 (.4) 82 CD6EC820J ( 6.4).190 (4.8).095 (2.4).172 (4.4).016 (.4) 82 CDS5EC820J ( 7.0).175 (4.4).140 (3.6).120 (3.0).016 (.4) 82 CDS10ED820J ( 7.9).260 (6.6).130 (3.3).141 (3.6).016 (.4) 82 CDS15ED820J (10.9).280 (7.1).140 (3.6).234 (5.9).025 (.6) 91 CD5FC910J ( 6.9).230 (5.8).170 (4.3).120 (3.0).016 (.4) 91 CD6FC910J ( 7.0).190 (4.8).095 (2.4).172 (4.4).016 (.4) 91 CDS5FC910J ( 6.4).175 (4.4).150 (3.8).120 (3.0).016 (.4) 91 CDS10FD910J ( 7.9).260 (6.6).130 (3.3).141 (3.6).016 (.4) 91 CDS15FD910J (10.9).280 (7.1).150 (3.8).234 (5.9).025 (.6) 100 CD5FC101J ( 6.9).240 (6.1).180 (4.6).120 (3.0).016 (.4) 100 CD6FC101J ( 7.0).175 (4.4).095 (2.4).172 (4.4).016 (.4) Cap Catalog Volt L H T S d pf Number Rate Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 100 CDS5FC101J ( 6.4).200 ( 5.1).160 ( 4.1).120 ( 3.0).016 (.4) 100 CDS10FD101J ( 8.1).260 ( 6.6).130 ( 3.3).141 ( 3.6).016 (.4) 100 CDS15FD101J ( 10.9).280 ( 7.1).150 ( 3.8).234 ( 5.9).025 (.6) 110 CD5FC111J ( 6.9).240 ( 6.1).180 ( 4.6).120 ( 3.0).016 (.4) 110 CD6FC111J ( 7.0).175 ( 4.4).095 ( 2.4).172 ( 4.4).016 (.4) 110 CDS5FC111J ( 6.4).240 ( 6.1).180 ( 4.6).120 ( 3.0).016 (.4) 110 CDS10FD111J ( 8.1).260 ( 6.6).130 ( 3.3).141 ( 3.6).016 (.4) 110 CDS15FD111J ( 11.2).290 ( 7.4).150 ( 3.8).234 ( 5.9).025 (.6) 120 CD5FC121J ( 6.9).250 ( 6.4).190 ( 4.8).120 ( 3.0).016 (.4) 120 CD6FC121J ( 7.0).175 ( 4.4).095 ( 2.4).172 ( 4.4).016 (.4) 120 CDS5FC121J ( 6.4).250 ( 6.4).190 ( 4.8).120 ( 3.0).016 (.4) 120 CDS10FD121J ( 8.1).260 ( 6.6).140 ( 3.6).141 ( 3.6).016 (.4) 120 CDS15FD121J ( 11.2).290 ( 7.4).150 ( 3.8).234 ( 5.9).025 (.6) 130 CD5FA131J ( 6.9).230 ( 5.8).160 ( 4.1).120 ( 3.0).016 (.4) 130 CDS5FA131J ( 6.4).190 ( 4.8).140 ( 3.6).120 ( 3.0).016 (.4) 130 CD7FD131J ( 6.7).260 ( 6.6).110 ( 2.8).172 ( 4.4).016 (.4) 130 CDS10FD131J ( 8.1).260 ( 6.6).140 ( 3.6).141 ( 3.6).016 (.4) 130 CDS15FD131J ( 11.2).290 ( 7.4).150 ( 3.8).234 ( 5.9).025 (.6) 150 CD5FA151J ( 6.9).230 ( 5.8).170 ( 4.3).120 ( 3.0).016 (.4) 150 CDS5FA151J ( 6.4).190 ( 4.8).150 ( 3.8).120 ( 3.0).016 (.4) 150 CD7FD151J ( 6.7).260 ( 6.6).110 ( 2.8).172 ( 4.4).016 (.4) 150 CDS10FD151J ( 8.1).260 ( 6.6).140 ( 3.6).141 ( 3.6).016 (.4) 150 CDS15FD151J ( 11.2).290 ( 7.4).150 ( 3.8).234 ( 5.9).025 (.6) 160 CD5FA161J ( 6.9).240 ( 6.1).170 ( 4.3).120 ( 3.0).016 (.4) 160 CDS5FA161J ( 6.4).200 ( 5.1).150 ( 3.8).120 ( 3.0).016 (.4) 160 CD7FD161J ( 6.7).260 ( 6.6).110 ( 2.8).172 ( 4.4).016 (.4) 160 CDS10FD161J ( 8.1).260 ( 6.6).140 ( 3.6).141 ( 3.6).016 (.4) 160 CDS15FD161J ( 11.2).290 ( 7.4).150 ( 3.8).234 ( 5.9).025 (.6) 180 CD5FA181J ( 6.9).240 ( 6.1).180 ( 4.6).120 ( 3.0).016 (.4) 180 CDS5FA181J ( 6.4).200 ( 5.1).160 ( 4.1).120 ( 3.0).016 (.4) 180 CD7FD181J ( 6.7).260 ( 6.6).110 ( 2.8).172 ( 4.4).016 (.4) 180 CDS10FD181J ( 8.1).260 ( 6.6).140 ( 3.6).141 ( 3.6).016 (.4) 180 CDS15FD181J ( 11.2).290 ( 7.4).160 ( 4.1).234 ( 5.9).025 (.6) 200 CD5FA201J ( 6.9).250 ( 6.4).190 ( 4.8).120 ( 3.0).016 (.4) 200 CDS5FA201J ( 6.4).200 ( 5.1).170 ( 4.3).120 ( 3.0).016 (.4) 200 CD7FC201J ( 6.7).260 ( 6.6).110 ( 2.8).172 ( 4.4).016 (.4) 200 CDS10FD201J ( 8.4).270 ( 6.9).150 ( 3.8).141 ( 3.6).016 (.4) 200 CDS15FD201J ( 11.2).290 ( 7.4).160 ( 4.1).234 ( 5.9).025 (.6) 220 CD5FY221J ( 6.9).220 ( 5.6).150 ( 3.8).120 ( 3.0).016 (.4) 220 CDS5FY221J ( 6.4).190 ( 4.8).130 ( 3.3).120 ( 3.0).016 (.4) 220 CD7FC221J ( 6.7).260 ( 6.6).110 ( 2.8).172 ( 4.4).016 (.4) 220 CDS10FD221J ( 8.4).270 ( 6.9).150 ( 3.8).141 ( 3.6).016 (.4) 220 CDS15FD221J ( 11.2).290 ( 7.4).160 ( 4.1).234 ( 5.9).025 (.6) 240 CD5FY241J ( 6.9).220 ( 5.6).160 ( 4.1).120 ( 3.0).016 (.4) 240 CDS5FY241J ( 6.4).190 ( 4.8).140 ( 3.6).120 ( 3.0).016 (.4) 240 CD7FC241J ( 6.7).260 ( 6.6).110 ( 2.8).172 ( 4.4).016 (.4) 240 CDS10FD241J ( 8.6).270 ( 6.9).160 ( 4.1).141 ( 3.6).016 (.4) 240 CDS15FD241J ( 11.2).290 ( 7.4).160 ( 4.1).234 ( 5.9).025 (.6) 250 CD5FY251J ( 6.9).220 ( 5.6).160 ( 4.1).120 ( 3.0).016 (.4) 250 CDS5FY251J ( 6.4).190 ( 4.8).140 ( 3.6).120 ( 3.0).016 (.4) 250 CDS10FD251J ( 8.6).270 ( 6.9).160 ( 4.1).141 ( 3.6).016 (.4) 250 CDS15FD251J ( 11.2).290 ( 7.4).160 ( 4.1).234 ( 5.9).025 (.6) 270 CD5FY271J ( 6.9).230 ( 5.8).160 ( 4.1).120 ( 3.0).016 (.4) 270 CDS5FY271J ( 6.4).190 ( 4.8).140 ( 3.6).120 ( 3.0).016 (.4) 270 CD7FC271J ( 6.7).260 ( 6.6).110 ( 2.8).172 ( 4.4).016 (.4) 270 CDS10FC271J ( 8.6).270 ( 6.9).160 ( 4.1).141 ( 3.6).016 (.4) 270 D75F271J ( 8.6).270 ( 6.9).160 ( 4.1).141 ( 3.6).016 (.4) 270 CDS15FD271J ( 11.2).290 ( 7.4).160 ( 4.1).234 ( 5.9).025 (.6) 270 CDS19FD271J ( 15.5).450 ( 11.4).130 ( 3.3).344 ( 8.7).032 (.8) 300 CD5FY301J ( 6.9).230 ( 5.8).170 ( 4.3).120 ( 3.0).016 (.4) 300 CDS5FY301J ( 6.4).190 ( 4.8).150 ( 3.8).120 ( 3.0).016 (.4) 300 CD7FC301J ( 6.7).260 ( 6.6).110 ( 2.8).172 ( 4.4).016 (.4) 300 CDS10FC301J ( 8.6).270 ( 6.9).160 ( 4.1).141 ( 3.6).016 (.4) 300 D75F301J ( 8.6).270 ( 6.9).160 ( 4.1).141 ( 3.6).016 (.4) 300 CDS15FD301J ( 11.2).290 ( 7.4).160 ( 4.1).234 ( 5.9).025 (.6) 300 CDS19FD301J ( 15.5).450 ( 11.4).130 ( 3.3).344 ( 8.7).032 (.8) 330 CD5FY331J ( 6.9).240 ( 6.1).180 ( 4.6).120 ( 3.0).016 (.4) 330 CDS5FY331J ( 6.4).190 ( 4.8).160 ( 4.1).120 ( 3.0).016 (.4) 330 CD7FA331J ( 7.0).260 ( 6.6).125 ( 3.2).172 ( 4.4).016 (.4) 330 CDS10FA331J ( 8.6).270 ( 6.9).160 ( 4.1).141 ( 3.6).016 (.4) Radial Leaded Mica 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 4.007

343 Miniature Dipped, Mica Ratings and Dimensions Radial Leaded Mica Cap Catalog Volt L H T S d pf Number Rate Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 330 D75F331J ( 8.6).270 ( 6.9).160 ( 4.1).141 ( 3.6).016 (.4) 330 CDS15FD331J ( 11.2).290 ( 7.4).160 ( 4.1).234 ( 5.9).025 (.6) 330 CDS19FD331J ( 15.5).450 ( 11.4).130 ( 3.3).334 ( 8.7).032 (.8) 360 CD5FY361J ( 6.9).240 ( 6.1).190 ( 4.8).120 ( 3.0).016 (.4) 360 CDS5FY361J ( 6.4).190 ( 4.8).160 ( 4.1).120 ( 3.0).016 (.4) 360 CD7FA361J ( 7.0).260 ( 6.6).125 ( 3.2).172 ( 4.4).016 (.4) 360 CDS10FA361J ( 8.6).270 ( 6.9).160 ( 4.1).141 ( 3.6).016 (.4) 360 D75F361J ( 8.6).270 ( 6.9).160 ( 4.1).141 ( 3.6).016 (.4) 360 CDS15FD361J ( 11.2).290 ( 7.4).160 ( 4.1).234 ( 5.9).025 (.6) 360 CDS19FD361J ( 15.5).450 ( 11.4).140 ( 3.6).344 ( 8.7).032 (.8) 390 CD5FY391J ( 6.9).250 ( 6.4).190 ( 4.8).120 ( 3.0).016 (.4) 390 CDS5FY391J ( 6.4).190 ( 4.8).170 ( 4.3).120 ( 3.0).016 (.4) 390 CD7FA391J ( 7.0).260 ( 6.6).125 ( 3.2).172 ( 4.4).016 (.4) 390 CDS10FA391J ( 8.6).270 ( 6.9).160 ( 4.1).141 ( 3.6).016 (.4) 390 D75F391J ( 8.6).270 ( 6.9).160 ( 4.1).141 ( 3.6).016 (.4) 390 CDS15FD391J ( 11.2).290 ( 7.4).160 ( 4.1).234 ( 5.9).025 (.6) 390 CDS19FD391J ( 15.5).450 ( 11.4).140 ( 3.6).344 ( 8.7).032 (.8) 400 CD5FY401J ( 6.9).250 ( 6.4).190 ( 4.8).120 ( 3.0).016 (.4) 400 CDS5FY401J ( 6.4).190 ( 4.8).170 ( 4.3).120 ( 3.0).016 (.4) 400 CDS10FA401J ( 8.6).270 ( 6.9).160 ( 4.1).141 ( 3.6).016 (.4) 430 CD7FA431J ( 7.0).260 ( 6.6).125 ( 3.2).172 ( 4.4).016 (.4) 430 D75F431J ( 8.6).310 ( 7.9).160 ( 4.1).141 ( 3.6).016 (.4) 430 CDS15FD431J ( 11.2).290 ( 7.4).160 ( 4.1).234 ( 5.9).025 (.6) 430 CDS19FD431J ( 15.5).450 ( 11.4).140 ( 3.6).344 ( 8.7).032 (.8) 470 CD7FA471J ( 7.0).260 ( 6.6).125 ( 3.2).172 ( 4.4).016 (.4) 470 D75F471J ( 8.6).310 ( 7.9).160 ( 4.1).141 ( 3.6).016 (.4) 470 CDS15FD471J ( 11.2).300 ( 7.6).160 ( 4.1).234 ( 5.9).025 (.6) 470 CDS19FD471J ( 15.5).450 ( 11.4).140 ( 3.6).344 ( 8.7).032 (.8) 470 CDS30FD471J ( 18.3).790 ( 20.1).180 ( 4.6).438 ( 11.1).040 ( 1.0) 500 D75F501J ( 8.6).310 ( 7.9).160 ( 4.1).141 ( 3.6).016 (.4) 500 CDS15FD501J ( 11.2).300 ( 7.6).160 ( 4.1).234 ( 5.9).025 (.6) 500 CDS19FD501J ( 15.5).450 ( 11.4).140 ( 3.6).344 ( 8.7).032 (.8) 510 CD7FA511J ( 7.0).260 ( 6.6).125 ( 3.2).172 ( 4.4).016 (.4) 510 D75F511J ( 8.6).310 ( 7.9).160 ( 4.1).141 ( 3.6).016 (.4) 510 CDS15FD511J ( 11.2).300 ( 7.6).160 ( 4.1).234 ( 5.9).025 (.6) 510 CDS19FD511J ( 15.5).450 ( 11.4).140 ( 3.6).344 ( 8.7).032 (.8) 560 CD7FA561J ( 7.0).260 ( 6.6).125 ( 3.2).172 ( 4.4).016 (.4) 560 D73F561J ( 8.6).310 ( 7.9).160 ( 4.1).141 ( 3.6).016 (.4) 560 CDS15FC561J ( 11.4).310 ( 7.9).160 ( 4.1).234 ( 5.9).025 (.6) 560 CDS19FD561J ( 15.5).450 ( 11.4).150 ( 3.8).344 ( 8.7).032 (.8) 620 CD7FA621J ( 7.0).260 ( 6.6).125 ( 3.2).172 ( 4.4).016 (.4) 620 D73F621J ( 8.6).310 ( 7.9).160 ( 4.1).141 ( 3.6).016 (.4) 620 CDS15FC621J ( 11.4).310 ( 7.9).160 ( 4.1).234 ( 5.9).025 (.6) 620 CDS19FD621J ( 15.5).460 ( 11.7).150 ( 3.8).344 ( 8.7).032 (.8) 680 CD7FA681J ( 7.6).290 ( 7.4).135 ( 3.4).172 ( 4.4).016 (.4) 680 D73F681J ( 8.6).310 ( 7.9).160 ( 4.1).141 ( 3.6).016 (.4) 680 CDS15FC681J ( 11.4).310 ( 7.9).160 ( 4.1).234 ( 5.9).025 (.6) 680 CDS19FD681J ( 15.5).460 ( 11.7).150 ( 3.8).344 ( 8.7).032 (.8) 750 CD7FA751J ( 7.6).290 ( 7.4).135 ( 3.4).172 ( 4.4).016 (.4) 750 D73F751J ( 8.6).310 ( 7.9).160 ( 4.1).141 ( 3.6).016 (.4) 750 CDS15FC751J ( 11.4).310 ( 7.9).170 ( 4.3).234 ( 5.9).025 (.6) 750 CDS19FD751J ( 15.5).460 ( 11.7).150 ( 3.8).344 ( 8.7).032 (.8) 820 D73F821J ( 8.6).310 ( 7.9).160 ( 4.1).141 ( 3.6).016 (.4) 820 CDS15FC821J ( 11.4).310 ( 7.9).170 ( 4.3).234 ( 5.9).025 (.6) 820 CD7FA821J ( 7.6).290 ( 7.4).135 ( 3.4).172 ( 4.4).016 (.4) 820 CDS19FD821J ( 15.5).460 ( 11.7).150 ( 3.8).344 ( 8.7).032 (.8) 910 CD7FA911J ( 7.6).290 ( 7.4).135 ( 3.4).172 ( 4.4).016 (.4) 910 D71F911J ( 8.6).310 ( 7.9).170 ( 4.3).141 ( 3.6).016 (.4) 910 CDS15FA911J ( 11.4).310 ( 7.9).170 ( 4.3).234 ( 5.9).025 (.6) 910 CDS19FD911J ( 15.7).460 ( 11.7).160 ( 4.1).344 ( 8.7).032 (.8) 1000 CD7FA102J ( 8.1).300 ( 7.6).155 ( 3.9).172 ( 4.4).016 (.4) 1000 D71F102J ( 8.6).310 ( 7.9).170 ( 4.3).141 ( 3.6).016 (.4) 1000 CDS15FA102J ( 11.4).310 ( 7.9).170 ( 4.3).234 ( 5.9).025 (.6) 1000 CDS19FD102J ( 15.7).460 ( 11.7).160 ( 4.1).344 ( 8.7).032 (.8) 1100 CD7FA112J ( 8.1).300 ( 7.6).155 ( 3.9).172 ( 4.4).016 (.4) 1100 D71F112J ( 8.6).310 ( 7.9).170 ( 4.3).141 ( 3.6).016 (.4) 1100 CDS15FA112J ( 11.7).310 ( 7.9).180 ( 4.6).234 ( 5.9).025 (.6) 1100 CDS19FD112J ( 15.7).460 ( 11.7).160 ( 4.1).344 ( 8.7).032 (.8) 1200 CD7FA122J ( 8.1).300 ( 7.6).155 ( 3.9).172 ( 4.4).016 (.4) 1200 D71F122J ( 8.6).310 ( 7.9).170 (4.3).141 ( 3.6).016 (.4) Cap Catalog Volt L H T S d pf Number Rate Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 1200 CDS15FA122J (11.7).310 ( 7.9).180 ( 4.6).234 ( 5.9).025 (.6) 1200 CDS19FD122J (15.7).460 (11.7).170 ( 4.3).344 ( 8.7).032 (.8) 1300 CD7FA132J ( 8.4).310 ( 7.9).175 ( 4.4).172 ( 4.4).016 (.4) 1300 D71F132J ( 8.6).310 ( 7.9).170 ( 4.3).141 ( 3.6).016 (.4) 1300 CDS19FD132J (15.7).460 (11.7).170 ( 4.3).344 ( 8.7).032 (.8) 1500 CD7FA152J ( 8.4).310 ( 7.9).175 ( 4.4).172 ( 4.4).016 (.4) 1500 D71F152J ( 8.6).310 ( 7.9).170 ( 4.3).141 ( 3.6).016 (.4) 1500 CDS15FA152J (11.7).310 ( 7.9).180 ( 4.6).234 ( 5.9).025 (.6) 1500 CDS19FD152J (15.7).460 (11.7).170 ( 4.3).344 ( 8.7).032 (.8) 1600 CDS19FD162J (15.7).460 (11.7).180 ( 4.6).344 ( 8.7).032 (.8) 1800 CDS19FD182J (15.7).460 (11.7).180 ( 4.6).344 ( 8.7).032 (.8) 2000 CDS19FD202J (16.0).460 (11.7).190 ( 4.8).344 ( 8.7).032 (.8) 2000 CDS30FD202J (18.3).790 (20.1).180 ( 4.6).438 (11.1).040 (1.0) 2200 CDS19FD222J (16.0).460 (11.7).190 ( 4.8).344 ( 8.7).032 (.8) 2200 CDS30FD222J (18.3).790 (20.1).180 ( 4.6).438 (11.1).040 (1.0) 2400 CDS19FD242J (16.0).470 (11.9).210 ( 5.3).344 ( 8.7).032 (.8) 2400 CDS30FD242J (18.3).790 (20.1).180 ( 4.6).438 (11.1).040 (1.0) 2500 CDS19FD252J (16.0).470 (11.9).210 ( 5.3).344 ( 8.7).032 (.8) 2500 CDS30FD252J (18.3).790 (20.1).190 ( 4.8).438 (11.1).040 (1.0) 2700 CDS19FD272J (16.0).470 (11.9).210 ( 5.3).344 ( 8.7).032 (.8) 2700 CDS30FD272J (18.3).790 (20.1).190 ( 4.8).438 (11.1).040 (1.0) 3000 CDS19FD302J (16.0).470 (11.9).210 ( 5.3).344 ( 8.7).032 (.8) 3000 CDS30FD302J (18.3).790 (20.1).190 ( 4.8).438 (11.1).040 (1.0) 3300 CDS19FD332J (16.0).470 (11.9).210 ( 5.3).344 ( 8.7).032 (.8) 3300 CDS30FD332J (18.3).790 (20.1).190 ( 4.8).438 (11.1).040 (1.0) 3600 CDS19FD362J (16.0).470 (11.9).210 ( 5.3).344 ( 8.7).032 (.8) 3600 CDS30FD362J (18.3).790 (20.1).200 ( 5.1).438 (11.1).040 (1.0) 3900 CDS19FD392J (16.0).470 (11.9).210 ( 5.3).344 ( 8.7).032 (.8) 3900 CDS30FD392J (18.3).790 (20.1).200 ( 5.1).438 (11.1).040 (1.0) 4300 CDS19FD432J (16.0).470 (11.9).220 ( 5.6).344 ( 8.7).032 (.8) 4300 CDS30FD432J (18.3).790 (20.1).200 ( 5.1).438 (11.1).040 (1.0) 4700 CDS19FD472J (16.0).470 (11.9).230 ( 5.8).344 ( 8.7).032 (.8) 4700 CDS30FD472J (18.3).790 (20.1).210 ( 5.3).438 (11.1).040 (1.0) 5000 CDS19FD502J (16.0).480 (12.2).240 ( 6.1).344 ( 8.7).032 (.8) 5000 CDS30FD502J (18.3).790 (20.1).210 ( 5.3).438 (11.1).040 (1.0) 5100 CDS19FD512J (16.0).480 (12.2).240 ( 6.1).344 ( 8.7).032 (.8) 5100 CDS30FD512J (18.3).790 (20.1).210 ( 5.3).438 (11.1).040 (1.0) 5600 CDS19FC562J (16.3).480 (12.2).250 ( 6.4).344 ( 8.7).032 (.8) 5600 CDS30FD562J (18.3).790 (20.1).220 ( 5.6).438 (11.1).040 (1.0) 6200 CDS19FC622J (16.3).480 (12.2).260 ( 6.6).344 ( 8.7).032 (.8) 6200 CDS30FD622J (18.5).800 (20.3).220 ( 5.6).438 (11.1).040 (1.0) 6800 CDS19FC682J (16.3).490 (12.4).270 ( 6.9).344 ( 8.7).032 (.8) 6800 CDS30FD682J (18.5).800 (20.3).230 ( 5.8).438 (11.1).040 (1.0) 7500 CDS19FA752J (16.5).490 (12.4).280 ( 7.1).344 ( 8.7).032 (.8) 7500 CDS30FD752J (18.5).800 (20.3).240 ( 6.1).438 (11.1).040 (1.0) 8200 CDS19FA822J (16.5).490 (12.4).300 ( 7.6).344 ( 8.7).032 (.8) 8200 CDS30FD822J (18.5).800 (20.3).250 ( 6.4).438 (11.1).040 (1.0) 9100 CDS19FA912J (16.8).500 (12.7).310 ( 7.9).344 ( 8.7).032 (.8) 9100 CDS30FD912J (18.5).800 (20.3).260 (6.6).438 (11.1).040 (1.0) CDS19FA103J (17.0).510 (13.0).320 ( 8.1).344 ( 8.7).032 (.8) CDS30FD103J (18.5).800 (20.3).270 ( 6.9).438 (11.1).040 (1.0) CDS30FD113J (18.8).810 (20.6).280 ( 7.1).438 (11.1).040 (1.0) CDS30FD123J (18.8).810 (20.6).290 ( 7.4).438 (11.1).040 (1.0) CDS30FD132J (18.8).810 (20.6).300 ( 7.6).438 (11.1).040 (1.0) CDS30FD153J (18.8).820 (20.8).330 ( 8.4).438 (11.1).040 (1.0) CDS30FD163J (18.8).820 (20.8).340 ( 8.6).438 (11.1).040 (1.0) CDS30FD183J (19.1).820 (20.8).360 ( 9.1).438 (11.1).040 (1.0) CDS30FD203J (19.1).830 (21.1).380 ( 9.7).438 (11.1).040 (1.0) CDS30FD223J (19.3).840 (21.4).400 (10.2).438 (11.1).040 (1.0) CDS30FC243J (18.8).820 (20.8).340 (8.6).438 (11.1).040 (1.0) CDS30FC253J (19.1).820 (20.8).360 ( 9.1).438 (11.1).040 (1.0) CDS30FC273J (19.1).820 (20.8).360 ( 9.1).438 (11.1).040 (1.0) CDS30FC303J (19.3).830 (21.1).390 ( 9.9).438 (11.1).040 (1.0) CDS30FA333J (19.1).830 (21.1).380 ( 9.7).438 (11.1).040 (1.0) CDS30FA363J (19.3).830 (21.1).390 ( 9.9).438 (11.1).040 (1.0) CDS30FA403J (19.3).830 (21.1).410 (10.4).438 (11.1).040 (1.0) East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

344 Type CD16 & CDV16, Snubber and RF Application, Mica Type CD16 & CDV16 Mica L Max. T Max. 470 ± 5% 1000V CDM H Max. Ideal for snubber and RF applications, CDV16 mica capacitors now handle dv/dts up to 275,000 V/µs and they assure controlled, resonance-free performance through 1 GHz ± Max. No Solder.032 (#20 A.W.G.) 1" Min. Higher dv/dt Capability and Flatter Insertion Loss New CDV16/CD16 mica capacitors excel in both snubber applications and high-frequency applications like RF and CATV. Type CDV16 s high pulse current capability make them ideal for pulse and snubber applications. CDV16 capacitors withstand an unlimited number of pulses with a dv/dt of 275,000 V/µs. This is a 20% increase in dv/dt capability when compared to our CDV19 mica capacitors and CDV16s are smaller too. CDV16 capacitors handle higher peak currents up to 825 amps. They also handle high continuous RMS current at 5 MHz and up to 30 MHz. For example, a 470 pf CDV16 capacitor handles 6.2 A rms continuously at MHz and it is 1/4 the cost of a comparable porcelain ceramic capacitor. In addition to being great for snubbers, CDV16 is a fit for your FR applications. Their compact size and closer lead spacing improves insertion loss performance insertion loss data is flat within +0.2 db, typically to beyond a gigahertz. Radial Leaded Mica Performance Highlights Capacitance Range: 100 pf to 7,500 pf Capacitance Tolerance: ±5% (J) standard; ±1% (F) and ±2% (G) available Voltage: 500 Vdc & 1,000 Vdc Temperature Range: 55 C to +125 C dv/dt capability up to 275,000 V/µs 1,500 amps peak current capability Handles up to 9.0 amps rms continuous current Very low ESR from 10 to 100 MHz Low, notch-free impedance to 1GHz Stable: no capacitance change with voltage, temperature and frequency Tape and reeling available 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 4.009

345 Type CD16 & CDV16, Snubber and RF Application, Mica Ratings and Dimensions Cap. Catalog L H T Ipk Maximum Continuous 85 C, Amps pf Number Inches (mm) Inches (mm) Inches (mm) Amps 100kHz 250 khz 500 khz 1MHz 2.5MHz 5MHz 500 Vdc (300 Vac) 100 CD16FD101J03.43 (10.9).46 (11.7).15 (3.8) CD16FD121J03.43 (10.9).46 (11.7).15 (3.8) CD16FD151J03.43 (10.9).46 (11.7).15 (3.8) CD16FD181J03.43 (10.9).46 (11.7).15 (3.8) CD16FD221J03.43 (10.9).46 (11.7).15 (3.8) CD16FD271J03.45 (11.4).47 (11.9) ) CD16FD331J03.45 (11.4).47 (11.9).16 (4.1) CD16FD391J03.45 (11.4).47 (11.9).16 (4.1) CD16FD471J03.45 (11.4).47 (11.9).16 (4.1) CD16FD561J03.46 (11.7).50 (12.7).18 (4.6) CD16FD681J03.46 (11.7).50 (12.7).18 (4.6) CD16FD821J03.46 (11.7).50 (12.7).18 (4.6) CD16FD102J03.46 (11.7).50 (12.7).18 (4.6) CD16FD122J03.46 (11.7).50 (12.7).18 (4.6) CD16FD152J03.46 (11.7).50 (12.7).18 (4.6) CD16FD182J03.47 (11.9).52 (13.2).25 (6.4) CD16FD222J03.47 (11.9).52 (13.2).25 (6.4) CD16FD272J03.47 (11.9).52 (13.2).25 (6.4) CD16FD302J03.47 (11.9).52 (13.2).25 (6.4) CD16FD332J03.48 (12.2).53 (13.7).28 (7.1) CD16FD362J03.48 (12.2).53 (13.7).28 (7.1) CD16FD392J03.48 (12.2).54 (13.7).28 (7.1) CD16FD432J03.48 (12.2).54 (13.7).28 (7.1) CD16FD472J03.49 (12.5).56 (14.2).31 (7.9) CD16FD562J03.49 (12.5).56 (14.2).33 (8.4) CD16FD682J03.50 (12.7).57 (14.7).38 (9.7) CD16FD752J03.50 (12.7).58 (14.7).40 (10.2) Radial Leaded Mica Cap. Catalog L H T Ipk Maximum Continuous 85 C, Amps pf Number Inches (mm) Inches (mm) Inches (mm) Amps 100kHz 250 khz 500 khz 1MHz 2.5MHz 5MHz 1,000 Vdc (350 Vac) 100 CDV16FF101J03.43 (10.9).46 (11.7).15 (3.8) CDV16FF121J03.43 (10.9).46 (11.7).15 (3.8) CDV16FF131J03.43 (10.9).46 (11.7).15 (3.8) CDV16FF151J03.43 (10.9).46 (11.7).15 (3.8) CDV16FF181J03.43 (10.9).46 (11.7).15 (3.8) CDV16FF201J03.43 (10.9).46 (11.7).15 (3.8) CDV16FF221J03.43 (10.9).46 (11.7).15 (3.8) CDV16FF241J03.43 (10.9).46 (11.7).15 (3.8) CDV16FF271J03.45 (11.4).47 (11.9).16 (4.1) CDV16FF301J03.45 (11.4).47 (11.9).16 (4.1) CDV16FF331J03.45 (11.4).47 (11.9).16 (4.1) CDV16FF361J03.45 (11.4).47 (11.9).16 (4.1) CDV16FF391J03.45 (11.4).47 (11.9).16 (4.1) CDV16FF421J03.45 (11.4).47 (11.9).16 (4.1) CDV16FF431J03.45 (11.4).47 (11.9).16 (4.1) CDV16FF471J03.45 (11.4).47 (11.9).16 (4.1) CDV16FF501J03.45 (11.4).47 (11.9).16 (4.1) CDV16FF511J03.45 (11.4).47 (11.9).16 (4.1) CDV16FF561J03.46 (11.7).50 (12.7).17 (4.4) CDV16FF621J03.46 (11.7).50 (12.7).17 (4.4) CDV16FF681J03.46 (11.7).50 (12.7).17 (4.4) CDV16FF751J03.46 (11.7).50 (12.7).17 (4.4) CDV16FF821J03.46 (11.7).50 (12.7).17 (4.4) CDV16FF911J03.46 (11.7).50 (12.7).17 (4.4) CDV16FF102J03.46 (11.7).50 (12.7).17 (4.4) CDV16FF122J03.46 (11.7).50 (12.7).17 (4.4) CDV16FF132J03.46 (11.7).50 (12.7).17 (4.4) CDV16FF152J03.46 (11.7).50 (12.7).18 (4.6) CDV16FF182J03.47 (11.9).52 (13.2).25 (6.4) CDV16FF202J03.47 (11.9).52 (13.2).25 (6.4) CDV16FF222J03.47 (11.9).52 (13.2).25 (6.4) CDV16FF242J03.47 (11.9).52 (13.2).25 (6.4) CDV16FF272J03.47 (11.9).52 (13.2).25 (6.4) CDV16FF302J03.47 (11.9).52 (13.2).25 (6.4) East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

346 Types CD17, CD18 & CDV18, High-Frequency, Mica High-Frequency for CATV and RF Applications Voltage Range: 100 Vdc to 1,000 Vdc Capacitance Range: 1 pf to 5,100 pf Capacitance Tolerance: ± 1 2 pf (D), ±1 pf (C), ± 1 2% (E) ±1% (F), ±2% (G), ±5% (J) Temperature Range: 55 C to +125 C Low, notch-free impedance to beyond 1 GHz Cool operation typical Q > 2000 Shockproof and delamination free Near zero capacitance change with frequency and temperature Zero capacitance change with voltage typical dissipation factor 100,000 V/µs dv/dt capability minimum Types CD17 and CD18 assure controlled, reasonance-free performance through 1 GHz. Insertion loss data is typically flat within ±0.1 db over the entire frequency range, and is specified to be flat within ±0.2 db. Interchangeable with the most popular, common mica capacitors, Type CD17 is available in the same case sizes and lead spacing as CD15; CD18, in the same case sizes and lead spacing as CD19, and CDV18, in the same as CDV19. Measured at point where phenolic cone becomes a cylinder L Max. S ±.031 H Max..078 Max. no solder d T Max. 1 Min. Radial Leaded Mica Cap Catalog Volt L H T S d pf Number Rate Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 1 CD17CD010D (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) 2 CD17CD020D (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) 3 CD17CD030D (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) 4 CD17CD040D (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) 5 CD17CD050D (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) 6 CD17CD060D (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) 7 CD17CD070D (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) 8 CD17CD080D (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) 9 CD17CD090D (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) 10 CD17CD100J (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) 12 CD17CD120J (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) 15 CD17CD150J (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) 18 CD17CD180J (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) 20 CD17ED200J (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) 22 CD17ED220J (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) 24 CD17ED240J (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) 27 CD17ED270J (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) 27 CDV18EF270J (16.3).500 (12.7).190 (4.8).344 (8.7).032 (.8) 30 CD17ED300J (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) 30 CDV18EF300J (16.3).500 (12.7).190 (4.8).344 (8.7).032 (.8) 33 CD17ED330J (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) 33 CDV18EF330J (16.3).500 (12.7).190 (4.8).344 (8.7).032 (.8) 36 CD17ED360J (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) 36 CDV18EF360J (16.3).500 (12.7).190 (4.8).344 (8.7).032 (.8) 39 CD17ED390J (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) Cap Catalog Volt L H T S d pf Number Rate Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 39 CDV18EF390J (16.3).500 (12.7).190 (4.8).344 (8.7).032 (.8) 43 CD17ED430J (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) 43 CDV18EF430J (16.3).500 (12.7).190 (4.8).344 (8.7).032 (.8) 47 CD17ED470J (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) 47 CDV18EF470J (16.3).500 (12.7).190 (4.8).344 (8.7).032 (.8) 50 CD17ED500J (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) 50 CDV18EF500J (16.3).500 (12.7).190 (4.8).344 (8.7).032 (.8) 51 CD17ED510J (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) 51 CDV18EF510J (16.3).500 (12.7).190 (4.8).344 (8.7).032 (.8) 56 CD17ED560J (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) 56 CDV18EF560J (16.3).500 (12.7).190 (4.8).344 (8.7).032 (.8) 62 CD17ED620J (11.4).360 ( 9.1).170 (4.3).234 (5.9).025 (.6) 62 CDV18EF620J (16.3).500 (12.7).190 (4.8).344 (8.7).032 (.8) 68 CD17ED680J (11.4).360 ( 9.1).180 (4.6).234 (5.9).025 (.6) 68 CDV18EF680J (16.3).500 (12.7).190 (4.8).344 (8.7).032 (.8) 75 CD17ED750J (11.4).360 ( 9.1).180 (4.6).234 (5.9).025 (.6) 75 CDV18EF750J (16.3).500 (12.7).190 (4.8).344 (8.7).032 (.8) 82 CD17ED820J (11.4).360 ( 9.1).180 (4.6).234 (5.9).025 (.6) 82 CDV18EF820J (16.3).500 (12.7).190 (4.8).344 (8.7).032 (.8) 91 CD17FD910J (11.4).360 ( 9.1).180 (4.6).234 (5.9).025 (.6) 91 CDV18FF910J (16.3).500 (12.7).190 (4.8).344 (8.7).032 (.8) 100 CD17FD101J (11.4).360 ( 9.1).180 (4.6).234 (5.9).025 (.6) 100 CDV18FF101J (16.3).500 (12.7).190 (4.8).344 (8.7).032 (.8) 110 CD17FD111J (11.4).370 ( 9.4).180 (4.6).234 (5.9).025 (.6) 110 CDV18FF111J (16.3).500 (12.7).190 (4.8).344 (8.7).032 (.8) 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 4.011

347 Types CD17, CD18 & CDV18, High-Frequency, Mica Ratings and Dimensions Radial Leaded Mica Cap Catalog Volt L H T S d pf Number Rate Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 120 CD17FD121J (11.7).370 ( 9.4).180 (4.6).234 (5.9).025 (.6) 120 CDV18FF121J (16.3).500 (12.7).190 (4.8).344 (8.7).032 (.8) 130 CD17FD131J (11.7).370 ( 9.4).180 (4.6).234 (5.9).025 (.6) 130 CDV18FF131J (16.3).500 (12.7).190 (4.8).344 (8.7).032 (.8) 150 CD17FD151J (11.7).370 ( 9.4).190 (4.8).234 (5.9).025 (.6) 150 CDV18FF151J (16.3).500 (12.7).190 (4.8).344 (8.7).032 (.8) 160 CD17FD161J (11.7).370 ( 9.4).190 (4.8).234 (5.9).025 (.6) 160 CDV18FF161J (16.3).500 (12.7).190 (4.8).344 (8.7).032 (.8) 180 CD17FD181J (11.7).370 ( 9.4).190 (4.8).234 (5.9).025 (.6) 180 CDV18FF181J (16.3).500 (12.7).190 (4.8).344 (8.7).032 (.8) 200 CD17FD201J (11.7).380 ( 9.7).190 (4.8).234 (5.9).025 (.6) 200 CDV18FF201J (16.3).500 (12.7).190 (4.8).344 (8.7).032 (.8) 220 CD17FD221J (11.7).380 ( 9.7).200 (5.1).234 (5.9).025 (.6) 220 CDV18FF221J (16.3).500 (12.7).190 (4.8).344 (8.7).032 (.8) 240 CD17FD241J (11.7).380 ( 9.7).200 (5.1).234 (5.9).025 (.6) 240 CDV18FF241J (16.3).500 (12.7).190 (4.8).344 (8.7).032 (.8) 250 CD17FD251J (11.9).390 ( 9.9).210 (5.3).234 (5.9).025 (.6) 270 CD17FD271J (11.9).390 ( 9.9).210 (5.3).234 (5.9).025 (.6) 270 CD18FD271J (16.3).500 (12.7).190 (4.8).344 (8.7).032 (.8) 270 CDV18FF271J (16.3).500 (12.7).190 (4.8).344 (8.7).032 (.8) 300 CD17FD301J (11.9).390 ( 9.9).210 (5.3).234 (5.9).025 (.6) 300 CD18FD301J (16.3).500 (12.7).190 (4.8).344 (8.7).032 (.8) 300 CDV18FF301J (16.5).510 (13.0).200 (5.1).344 (8.7).032 (.8) 330 CD17FD331J (11.9).390 ( 9.9).210 (5.3).234 (5.9).025 (.6) 330 CD18FD331J (16.3).500 (12.7).190 (4.8).344 (8.7).032 (.8) 330 CDV18FF331J (16.5).510 (13.0).200 (5.1).344 (8.7).032 (.8) 360 CD17FD361J (11.9).390 ( 9.9).210 (5.3).234 (5.9).025 (.6) 360 CD18FD361J (16.3).510 (13.0).200 (5.1).344 (8.7).032 (.8) 360 CDV18FF361J (16.5).510 (13.0).200 (5.1).344 (8.7).032 (.8) 390 CD17FD391J (11.9).390 ( 9.9).210 (5.3).234 (5.9).025 (.6) 390 CD18FD391J (16.3).510 (13.0).200 (5.1).344 (8.7).032 (.8) 390 CDV18FF391J (16.5).510 (13.0).210 (5.3).344 (8.7).032 (.8) 430 CD17FD431J (11.9).400 (10.2).220 (5.6).234 (5.9).025 (.6) 430 CD18FD431J (16.3).510 (13.0).200 (5.1).344 (8.7).032 (.8) 430 CDV18FF431J (16.5).510 (13.0).210 (5.3).344 (8.7).032 (.8) 470 CD17FD471J (11.9).400 (10.2).220 (5.6).234 (5.9).025 (.6) 470 CD18FD471J (16.3).510 (13.0).200 (5.1).344 (8.7).032 (.8) 470 CDV18FF471J (16.5).510 (13.0).210 (5.3).344 (8.7).032 (.8) 500 CD17FD501J (11.9).400 (10.2).220 (5.6).234 (5.9).025 (.6) 500 CD18FD501J (16.3).510 (13.0).200 (5.1).344 (8.7).032 (.8) 510 CD17FD511J (11.9).400 (10.2).220 (5.6).234 (5.9).025 (.6) 510 CD18FD511J (16.3).510 (13.0).200 (5.1).344 (8.7).032 (.8) 510 CDV18FF511J (16.5).510 (13.0).210 (5.3).344 (8.7).032 (.8) 560 CD17FC561J (11.7).380 ( 9.7).210 (5.3).234 (5.9).025 (.6) 560 CD18FD561J (16.5).510 (13.0).200 (5.1).344 (8.7).032 (.8) Cap Catalog Volt L H T S d pf Number Rate Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 560 CDV18FF561J (16.5).510 (13.0).210 (5.3).344 (8.7).032 (.8) 620 CD17FC621J (11.7).380 ( 9.7).210 (5.3).234 (5.9).025 (.6) 620 CD18FD621J (16.5).510 (13.0).200 (5.1).344 (8.7).032 (.8) 620 CDV18FF621J (16.8).520 (13.2).220 (5.6).344 (8.7).032 (.8) 680 CD17FC681J (11.9).390 ( 9.9).210 (5.3).234 (5.9).025 (.6) 680 CD18FD681J (16.5).510 (13.0).210 (5.3).344 (8.7).032 (.8) 680 CDV18FF681J (16.8).520 (13.2).220 (5.6).344 (8.7).032 (.8) 750 CD17FC751J (11.9).390 ( 9.9).210 (5.3).234 (5.9).025 (.6) 750 CD18FD751J (16.5).510 (13.0).210 (5.3).344 (8.7).032 (.8) 750 CDV18FF751J (16.8).530 (13.5).230 (5.8).344 (8.7).032 (.8) 820 CD17FC821J (11.9).390 ( 9.9).210 (5.3).234 (5.9).025 (.6) 820 CD18FD821J (16.5).510 (13.0).210 (5.3).344 (8.7).032 (.8) 820 CDV18FF821J (16.8).530 (13.5).230 (5.8).344 (8.7).032 (.8) 910 CD17FA911J (11.9).390 ( 9.9).220 (5.6).234 (5.9).025 (.6) 910 CD18FD911J (16.5).510 (13.0).210 (5.3).344 (8.7).032 (.8) 1000 CD17FA102J (12.2).400 (10.2).230 (5.8).234 (5.9).025 (.6) 1000 CD18FD102J (16.5).520 (13.2).220 (5.6).344 (8.7).032 (.8) 1100 CD17FA112J (12.4).420 (10.7).240 (6.1).234 (5.9).025 (.6) 1100 CD18FD112J (16.5).520 (13.2).220 (5.6).344 (8.7).032 (.8) 1200 CD17FA122J (12.4).420 (10.7).240 (6.1).234 (5.9).025 (.6) 1200 CD18FD122J (16.8).520 (13.2).220 (5.6).344 (8.7).032 (.8) 1300 CD18FD132J (16.8).520 (13.2).220 (5.6).344 (8.7).032 (.8) 1500 CD17FA152J (12.7).430 (10.9).250 (6.4).234 (5.9).025 (.6) 1500 CD18FD152J (16.8).520 (13.2).230 (5.8).344 (8.7).032 (.8) 1600 CD18FD162J (16.8).530 (13.5).230 (5.8).344 (8.7).032 (.8) 1800 CD18FD182J (17.0).530 (13.5).240 (6.1).344 (8.7).032 (.8) 2000 CD18FD202J (17.0).530 (13.5).240 (6.1).344 (8.7).032 (.8) 2200 CD18FD222J (17.0).530 (13.5).250 (6.4).344 (8.7).032 (.8) 2400 CD18FD242J (17.0).540 (13.7).260 (6.6).344 (8.7).032 (.8) 2500 CD18FD252J (17.3).540 (13.7).260 (6.6).344 (8.7).032 (.8) 2700 CD18FD272J (17.3).540 (13.7).270 (6.9).344 (8.7).032 (.8) 3000 CD18FD302J (17.3).550 (14.0).280 (7.1).344 (8.7).032 (.8) 3300 CD18FD332J (17.3).550 (14.0).290 (7.4).344 (8.7).032 (.8) 3600 CD18FD362J (17.3).560 (14.2).300 (7.6).344 (8.7).032 (.8) 3900 CD18FD392J (17.5).560 (14.2).310 (7.9).344 (8.7).032 (.8) 4300 CD18FD432J (17.5).570 (14.5).330 (8.4).344 (8.7).032 (.8) 4700 CD18FD472J (17.8).580 (14.7).350 (8.9).344 (8.7).032 (.8) 5000 CD18FD502J (18.0).590 (15.0).370 (9.4).344 (8.7).032 (.8) 5100 CD18FD512J (18.0).590 (15.0).370 (9.4).344 (8.7).032 (.8) East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

348 Type CD4, High-Frequency, Mica Ultra-High-Frequency Capacitor for CATV and RF Applications 0.1 Lead Spacing Voltage Range: 100 Vdc to 500 Vdc Capacitance Range: 1 pf to 1,500 pf Capacitance Tolerance: ± 1 2 pf (D), ±1 pf (C), ± 1 2% (E) ±1% (F), ±2% (G), ±5% (J) Temperature Range: 55 C to +125 C Higher self-resonant frequency and lower equivalent series inductance than CD17 and CD18 Low impedance to beyond 1 GHz Replaces other 0.1 lead-spacing capacitors Cool operation Typical Qs > 2000 Shockproof and delamination free Near zero capacitance change with frequency and temperature MEASURED AT POINT WHERE PHENOLIC CONE BECOMES A CYLINDER L MAX S± MAX no solder 1 MIN Zero capacitance change with voltage typical dissipation factor 100,000 V/µs dv/dt capability minimum d H MAX T MAX Radial Leaded Mica Cap Catalog L H T S d pf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 100 Vdc 910 CD4FA911J (8.6).310 (7.9).160 (4.1).100 (2.5).020 (.5) 1000 CD4FA102J (8.6).310 (7.9).160 (4.1).100 (2.5).020 (.5) 1100 CD4FA112J (8.6).310 (7.9).160 (4.1).100 (2.5).020 (.5) 1200 CD4FA122J (8.6).310 (7.9).170 (4.3).100 (2.5).020 (.5) 1500 CD4FA152J (8.6).310 (7.9).180 (4.6).100 (2.5).020 (.5) 300 Vdc 560 CD4FC561J (8.6).310 (7.9).160 (4.1).100 (2.5).020 (.5) 620 CD4FC621J (8.6).310 (7.9).160 (4.1).100 (2.5).020 (.5) 680 CD4FC681J (8.6).310 (7.9).160 (4.1).100 (2.5).020 (.5) 750 CD4FC751J (8.6).310 (7.9).160 (4.1).100 (2.5).020 (.5) 820 CD4FC821J (8.6).310 (7.9).160 (4.1).100 (2.5).020 (.5) 500 Vdc 1 CD4CD010D (7.4).220 (5.6).110 (2.8).100 (2.5).020 (.5) 2 CD4CD020D (7.4).220 (5.6).110 (2.8).100 (2.5).020 (.5) 3 CD4CD030D (7.4).220 (5.6).110 (2.8).100 (2.5).020 (.5) 4 CD4CD040D (7.4).220 (5.6).110 (2.8).100 (2.5).020 (.5) 5 CD4CD050D (7.4).220 (5.6).110 (2.8).100 (2.5).020 (.5) 6 CD4CD060D (7.4).220 (5.6).110 (2.8).100 (2.5).020 (.5) 7 CD4CD070D (7.4).220 (5.6).110 (2.8).100 (2.5).020 (.5) 8 CD4CD080D (7.4).220 (5.6).110 (2.8).100 (2.5).020 (.5) 10 CD4CD100J (7.4).220 (5.6).110 (2.8).100 (2.5).020 (.5) 12 CD4CD120J (7.4).220 (5.6).110 (2.8).100 (2.5).020 (.5) 15 CD4CD150J (7.4).220 (5.6).110 (2.8).100 (2.5).020 (.5) 18 CD4CD180J (7.4).220 (5.6).110 (2.8).100 (2.5).020 (.5) 20 CD4ED200J (7.4).220 (5.6).110 (2.8).100 (2.5).020 (.5) 22 CD4ED220J (7.4).220 (5.6).110 (2.8).100 (2.5).020 (.5) 24 CD4ED240J (7.4).220 (5.6).110 (2.8).100 (2.5).020 (.5) 27 CD4ED270J (7.4).220 (5.6).110 (2.8).100 (2.5).020 (.5) 30 CD4ED300J (7.4).220 (5.6).110 (2.8).100 (2.5).020 (.5) 33 CD4ED330J (7.4).220 (5.6).110 (2.8).100 (2.5).020 (.5) 36 CD4ED360J (7.4).220 (5.6).110 (2.8).100 (2.5).020 (.5) Cap Catalog L H T S d pf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 500 Vdc (cont d) 39 CD4ED390J (7.4).220 (5.6).110 (2.8).100 (2.5).020 (.5) 43 CD4ED430J (7.4).220 (5.6).110 (2.8).100 (2.5).020 (.5) 47 CD4ED470J (7.4).220 (5.6).110 (2.8).100 (2.5).020 (.5) 50 CD4ED500J (7.4).220 (5.6).110 (2.8).100 (2.5).020 (.5) 51 CD4ED510J (7.4).220 (5.6).110 (2.8).100 (2.5).020 (.5) 56 CD4ED560J (7.4).220 (5.6).110 (2.8).100 (2.5).020 (.5) 62 CD4ED620J (7.4).220 (5.6).110 (2.8).100 (2.5).020 (.5) 68 CD4ED680J (7.4).220 (5.6).110 (2.8).100 (2.5).020 (.5) 75 CD4ED750J (7.4).230 (5.8).110 (2.8).100 (2.5).020 (.5) 82 CD4ED820J (7.4).230 (5.8).110 (2.8).100 (2.5).020 (.5) 91 CD4FD910J (7.4).230 (5.8).110 (2.8).100 (2.5).020 (.5) 100 CD4FD101J (7.4).240 (6.1).110 (2.8).100 (2.5).020 (.5) 110 CD4FD111J (7.4).240 (6.1).110 (2.8).100 (2.5).020 (.5) 120 CD4FD121J (7.4).240 (6.1).110 (2.8).100 (2.5).020 (.5) 130 CD4FD131J (8.6).310 (7.9).160 (4.1).100 (2.5).020 (.5) 150 CD4FD151J (8.6).310 (7.9).160 (4.1).100 (2.5).020 (.5) 160 CD4FD161J (8.6).310 (7.9).160 (4.1).100 (2.5).020 (.5) 180 CD4FD181J (8.6).310 (7.9).160 (4.1).100 (2.5).020 (.5) 200 CD4FD201J (8.6).310 (7.9).160 (4.1).100 (2.5).020 (.5) 220 CD4FD221J (8.6).310 (7.9).160 (4.1).100 (2.5).020 (.5) 240 CD4FD241J (8.6).310 (7.9).160 (4.1).100 (2.5).020 (.5) 250 CD4FD251J (8.6).310 (7.9).160 (4.1).100 (2.5).020 (.5) 270 CD4FD271J (8.6).310 (7.9).160 (4.1).100 (2.5).020 (.5) 300 CD4FD301J (8.6).310 (7.9).160 (4.1).100 (2.5).020 (.5) 330 CD4FD331J (8.6).310 (7.9).160 (4.1).100 (2.5).020 (.5) 360 CD4FD361J (8.6).310 (7.9).160 (4.1).100 (2.5).020 (.5) 390 CD4FD391J (8.6).310 (7.9).160 (4.1).100 (2.5).020 (.5) 430 CD4FD431J (8.6).310 (7.9).160 (4.1).100 (2.5).020 (.5) 470 CD4FD471J (8.6).310 (7.9).160 (4.1).100 (2.5).020 (.5) 500 CD4FD501J (8.6).310 (7.9).160 (4.1).100 (2.5).020 (.5) 510 CD4FD511J (8.6).310 (7.9).160 (4.1).100 (2.5).020 (.5) 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 4.013

349 High-Frequency, Mica Type CD4 Typical Characteristics Radial Leaded Mica Insertion Loss Choosing CD4, CD16, CDV16, CD18 or CDV East Rodney French Blvd. New Bedford, MA (508) , Fax (508)

350 Type CDA15, Especially for Reel-Packed, Mica Best Value Choice for Auto Insertion Applications Voltage Range: 100 Vdc to 500 Vdc Capacitance Range: 1 pf to 1,500 pf Capacitance Tolerance: ± 1 2 pf (D), ±1pF (C), ± 1 2% (E), ±1% (F), ±2% (G), ±5% (J) Temperature Range: 55 C to +125 C (O) 55 C to +150 C (P) 100,000 V/µs dv/dt capability minimum.200 lead spacing Straight or Crimp Leads Available Lead Material: Copper Available only in tape/reel or ammo pack Cap Catalog L H T S pf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) 100 Vdc 910 CDA15FA911J (11.4).400 (10.2).170 (4.3).200 (5.1) 1000 CDA15FA102J (11.4).400 (10.2).170 (4.3).200 (5.1) 1100 CDA15FA112J (11.7).400 (10.2).180 (4.6).200 (5.1) 1200 CDA15FA122J (11.7).420 (10.7).180 (4.6).200 (5.1) 1500 CDA15FA152J (11.7).430 (10.9).180 (4.6).200 (5.1) 300 Vdc 560 CDA15FC561J (11.4).380 ( 9.7).160 (4.1).200 (5.1) 620 CDA15FC621J (11.4).380 ( 9.7).160 (4.1).200 (5.1) 680 CDA15FC681J (11.4).390 ( 9.9).160 (4.1).200 (5.1) 750 CDA15FC751J (11.4).390 ( 9.9).170 (4.3).200 (5.1) 820 CDA15FC821J (11.4).390 ( 9.9).170 (4.3).200 (5.1) 500 Vdc 1 CDA15CD010D (10.9).360 ( 9.1).140 (3.6).200 (5.1) 2 CDA15CD020D (10.9).360 ( 9.1).140 (3.6).200 (5.1) 3 CDA15CD030D (10.9).360 ( 9.1).140 (3.6).200 (5.1) 4 CDA15CD040D (10.9).360 ( 9.1).140 (3.6).200 (5.1) 5 CDA15CD050D (10.9).360 ( 9.1).140 (3.6).200 (5.1) 6 CDA15CD060D (10.9).360 ( 9.1).140 (3.6).200 (5.1) 7 CDA15CD070D (10.9).360 ( 9.1).140 (3.6).200 (5.1) 8 CDA15CD080D (10.9).360 ( 9.1).140 (3.6).200 (5.1) 10 CDA15CD100J (10.9).360 ( 9.1).140 (3.6).200 (5.1) 12 CDA15CD120J (10.9).360 ( 9.1).140 (3.6).200 (5.1) 15 CDA15CD150J (10.9).360 ( 9.1).140 (3.6).200 (5.1) 18 CDA15CD180J (10.9).360 ( 9.1).140 (3.6).200 (5.1) 20 CDA15ED200J (10.9).360 ( 9.1).140 (3.6).200 (5.1) 22 CDA15ED220J (10.9).360 ( 9.1).140 (3.6).200 (5.1) 24 CDA15ED240J (10.9).360 ( 9.1).140 (3.6).200 (5.1) 27 CDA15ED270J (10.9).360 ( 9.1).140 (3.6).200 (5.1) 30 CDA15ED300J (10.9).360 ( 9.1).140 (3.6).200 (5.1) 33 CDA15ED330J (10.9).360 ( 9.1).140 (3.6).200 (5.1) 36 CDA15ED360J (10.9).360 ( 9.1).140 (3.6).200 (5.1) 39 CDA15ED390J (10.9).360 ( 9.1).140 (3.6).200 (5.1) 43 CDA15ED430J (10.9).360 ( 9.1).140 (3.6).200 (5.1) 47 CDA15ED470J (10.9).360 ( 9.1).140 (3.6).200 (5.1) 50 CDA15ED500J (10.9).360 ( 9.1).140 (3.6).200 (5.1) 51 CDA15ED510J (10.9).360 ( 9.1).140 (3.6).200 (5.1) Designed especially for auto-insertion, Type CDA15 capacitors are the best value choice for tape and reel and ammo-pack feed systems. CDA15 is used in commercial and industrial applications requiring high stability, high Q, and close capacitance tolerances. Type CDA15 is ideal for tuned circuits, delay lines, and filter circuits..050 H max..250 ± ± max. L max..500 ±.012 S ± ±.012 See Ordering Information on page h ±.020 T max. Cap Catalog L H T S pf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) 500 Vdc (cont d) 56 CDA15ED560J (10.9).360 (9.1).140 (3.6).200 (5.1) 62 CDA15ED620J (10.9).360 (9.1).140 (3.6).200 (5.1) 68 CDA15ED680J (10.9).360 (9.1).140 (3.6).200 (5.1) 75 CDA15ED750J (10.9).360 (9.1).140 (3.6).200 (5.1) 82 CDA15ED820J (10.9).360 (9.1).140 (3.6).200 (5.1) 91 CDA15FD910J (10.9).360 (9.1).140 (3.6).200 (5.1) 100 CDA15FD101J (10.9).360 (9.1).140 (3.6).200 (5.1) 110 CDA15FD111J (11.2).360 (9.1).150 (3.8).200 (5.1) 120 CDA15FD121J (11.2).360 (9.1).150 (3.8).200 (5.1) 130 CDA15FD131J (11.2).360 (9.1).150 (3.8).200 (5.1) 150 CDA15FD151J (11.2).360 (9.1).150 (3.8).200 (5.1) 160 CDA15FD161J (11.2).360 (9.1).150 (3.8).200 (5.1) 180 CDA15FD181J (11.2).360 (9.1).160 (4.1).200 (5.1) 200 CDA15FD201J (11.2).360 (9.1).160 (4.1).200 (5.1) 220 CDA15FD221J (11.2).360 (9.1).160 (4.1).200 (5.1) 240 CDA15FD241J (11.2).360 (9.1).160 (4.1).200 (5.1) 250 CDA15FD251J (11.2).360 (9.1).160 (4.1).200 (5.1) 270 CDA15FD271J (11.2).360 (9.1).160 (4.1).200 (5.1) 300 CDA15FD301J (11.2).360 (9.1).160 (4.1).200 (5.1) 330 CDA15FD331J (11.2).360 (9.1).160 (4.1).200 (5.1) 360 CDA15FD361J (11.2).370 (9.4).160 (4.1).200 (5.1) 390 CDA15FD391J (11.2).370 (9.4).160 (4.1).200 (5.1) 430 CDA15FD431J (11.2).380 (9.7).160 (4.1).200 (5.1) 470 CDA15FD471J (11.2).380 (9.7).160 (4.1).200 (5.1) 500 CDA15FD501J (11.2).380 (9.7).160 (4.1).200 (5.1) 510 CDA15FD511J (11.2).380 (9.7).160 (4.1).200 (5.1) Radial Leaded Mica 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 4.015

351 Specifications, Radial-Leaded, Mica Radial Leaded Mica Specifications Capacitance is within tolerance when measured at these frequencies: MHz > khz Dissipation Factor limits are below. Dissipation factor is equal to DF=2πfRC, where f is the test frequency, R is the equivalent series resistance, and C is the capacitance. For other capacitance values, see Figure 1. Capacitance Dissipation Factor 75 1,000 pf max at 1 MHz 1,100 3,300 pf max at 1 khz 3,600 9,100 pf max at 1 khz 10,000 pf max at 1 khz Quality Factor (Q) is the reciprocal of dissipation factor. Insulation Resistance for capacitances up to 10,000 pf is greater than 100 GΩ at 25 C and greater than 10 GΩ at 125 C. For other capacitance values and temperatures, see Figure 2. Withstanding Voltage is 2 times the rated voltage, and can be applied up to 5 seconds without damage. DISSIPATION FACTOR Maximum dissipation factor at 1 MHz for capacitance values of 1,000 pf or less Temperature Coefficient and Capacitance Drift: Measure the capacitors capacitance at 25 C, 55 C, 25 C, 125 C (or 150 C) and at 25 C after stabilizing at each temperature. The capacitance will meet the limits of the Characteristic table shown in Ordering Information. Solderability: After an eighthour steam aging, coat leads with rosin flux (R) and immerse in molten 245 C ± 5 C 60/40 tin/lead solder. Solder coverage will be no less than 95% when examined at 10X magnification. Surge Voltage: Standard dipped capacitors will withstand 500 Vdc max peak transients above rated voltage. For example, in flyback regulators with less than 500 Vdc bias, you may use 500 Vdc-rated capacitors provided that the switching transient peaks are less than 1,000 V. Maximum dissipation factor at 1 khz for capacitance values greater than 1,000 pf ,000 10, ,000 Voltage Coefficient: The change in capacitance from 0 volts to rated voltage is less than 0.1%. INSULATION RESISTANCE (MEGOHMS) 100,000 10,000 1, Pulse Handling: Standard dipped capacitors will withstand an unlimited number of pulses with a dv/dt of 100,000 V/µs tested per IEC Smaller capacitance ratings can withstand even faster dv/dt ratings have been tested one million discharges at rated voltage into a 4.7Ω resistor with no change in capacitance. For a 100 pf, 500 Vdc unit, that s a peak dv/ dt in excess of 1,000,000 V/µs. The dv/dt is expressed by this relationship: dv/dt = V R d C RV =rated voltage, Vdc R d =minimum discharge resistor, Ω dc = rated capacitance, µf This is the initial rate of discharge into R d. Marking is in accordance with EIA RS153B and includes CD as our manufacturer s symbol, nominal capacitance in pf, capacitance tolerance, and dc working voltage followed by V, if other than 500 Vdc. Miniature dipped units (CD6 and CD7) are marked with capacitance in pf and tolerance letter designation. MIL-C-5 units (Type CM) are in accordance with MIL-C C +85 C +125 C +150 C ,000 10,000 62,000 CAPITANCE (pf) Figure 1. DF vs. Capacitance CAPACITANCE (pf) Figure 2. IR vs. Capacitance East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

352 Specifications, Radial-Leaded, Mica Specifications Moisture Resistance: will meet the requirements of MIL-STD-202, Method 106F as outlined here and diagrammed on the right. Refer to MIL-STD-202 for details. For miniature Types CD6 and CD7, use one 24-hour cycle rather than Dry capacitors for 24 hours in a 50±2 C oven and then allow to stabilize at room temperature. 2. Subject the capacitors to hour continuous cycles with relative humidity and temperature as shown hours after completion of the last cycle, the capacitors will show no visual damage and will meet the after-test limits below. 24-Hour Moisture Resistance Cycle 65±2 C 90 98% RH 25±2 C 90 98% RH 10±2 C uncontrolled humidity hours Life Test: Subject the capacitors to maximum operating temperature (+125 C or +150 C) After-Test Limits with 1.5 times rated voltage applied for 2,000 hours. There will be no visual damage and the capacitors will meet the after-test limits below. Radial Leaded Mica Test Withstand Insulation Capacitance Change DF Q Voltage Resistance (whichever is greater) Moisture Resistance IL 30 GΩ NV±1% or ±1 pf 150% IL 2/3xIL Life Test IL IL NV±1% or ±1 pf 150% IL 2/3xIL IL=Initial Limit NV=Nominal Value 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 4.017

353 Ordering Information, Radial-Leaded, Mica Ordering Information Order by complete part number as below. For other options, write your requirements on your purchase order or request for quotation. Radial-Leaded Silvered Mica (except D7, D10*) CD15 C D 100 J O 3 Voltage Capacitance Temperature Range CDE Y=50 Y = 50 Vdc Vdc F=1000 F =1000 Vdc Vdc 010=1pF= 1pF 0= 55 C to +125 C Type A=100 A = 100 Vdc Vdc H=1500 Vdc Vdc 1R5=1.5 = 1.5 pf pf P= 55 C to +150 C C=300 C = 300 Vdc VdcJ=2000 J =2000 Vdc Vdc 361=360 = 360 pf pf D= Vdc VdcK=2500 K =2500 Vdc Vdc 122=1200 = 1200 pf pf Characteristic Vibration Grade Temp. Coeff. Capacitance Standard Cap. Vibration ppm/ C Drift Range Number MIL-STD-202 Condition (Hz) C 200 to +200 ±(0.5% +0.1pF) 1 18 pf 1 Method to 55,00 E 0 20 to +100 ±(0.1% +0.1 pf) pf 3 Method to 2,000 F 0 20 to0 +70 ±(0.05% +0.1 pf) 91 pf and up Condition D Standard vibration grade is 3, the more severe requirement. Radial Leaded Mica Options Available Non-flammable units per IEC are available for standard dipped capacitors. Specify IEC on your order. Tape and reeling, specify per next page. P temperature range available for CD10, CD15, CD19, CD30, CD42, CDA15. For MIL-C-5 capacitors, see below. MIL-C-5 Capacitance Tolerance Tol. Capacitance Code Tolerance Range C ±1 pf 1 9 pf D ± 1 2 pf 1 24 pf E ± 1 2 % 100 pf and up F ±1 % 50 pf and up G ±2 % 25 pf and up H ±3 % 18 pf and up J ±5 % 10 pf and up Standard tolerance is ± 1 2 pf for less than 10 pf and ±5% for 10 pf and up. are available marked and manufactured to the requirements of standard MIL-C-5. To order the MIL-C-5 part number, change the Catalog Number by replacing the CDE Type with the MIL-C-5 Style Number using the table below. Example: Change CD15ED470J03 to CM05ED470J03. CDE Type Number CD10 CD15 CD19 CD30 MIL-C-5 Style Number CM04 CM05 CM06 CM07 The following ratings have no MIL-C-5 equivalents: Type CD10: 2, 3, 4, 50, 250 and 400 pf Type CD15: 2, 3, 4, 50, 250, 430 and higher pf Type CD19: 390 and lower pf, 2,500 pf, and 5,000 and higher pf Type CD30: 5,000 and lower pf, 22,000 and higher pf *Order Types D7 and D10 using the Catalog Numbers shown in the ratings tables East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

354 Ordering Information Ordering Information, Radial-Leaded, Mica Dipped Mica for Auto Insertion L max. T max. For tape and reel or ammo-packed packaging, specify on the order..078 H max..250 ± ± max..500 ±.012 S ±.031 Lead Configurations.157 ±.012 h ±.020 For high-volume auto insertion applications, the bestvalue choice is Type CDA15. Reel packing is also available for Types CD4, CD5, CD6, CD7, CD10, CD15, CD17, CD19, CM04, and CM05. Reel Packing with.200 lead spacing is available for Types CD5, CD6, CD7, and CD10. To order.200 lead spacing, change the Catalog Number by inserting the letter A in the CDE Type. Example: Type CD5 capacitors, reel packed with.200" lead spacing, is designated as Type CDA5. See the table below for available reel-packed types, lead configurations, lead spacing, lead material, pieces per reel and pieces per ammo packs. A B C Packaging will be in accordance with EIA-468. Dimension h will be 16mm for formed leads or 18mm for straight leads. 20mm is available on special request. Specify reel or ammo on your purchase order. Range of Range of Type Lead Lead Lead Capacitance Pieces per Pieces per Number Spacing Configuration Material Range Reel Ammo Pack CD4.100 A CCS pf pf pf CD5.120 A CCS pf pf CDA5.200 B CCS pf CD6.172 A CCS pf CDA6.200 A CCS CD7.172 A CCS pf CDA7.200 A (up to 820 pf) CCS pf C (all values) pf D pf CD10/CM A CCS pf CDA C CCS pf CD15/CM A CCS pf CD pf pf CD A CCS pf CDV pf pf pf > 2000 pf CDA A, C Copper pf CDA pf pf CD A CCS pf pf pf pf CCS = copper-clad steel CDA indicates.200 lead spacing for a bulk part. If you want it configured for auto insertion, it must be so noted on the order (i.e. tape/reel or ammo pack the referenced parts) Radial Leaded Mica 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 4.019

355 Type CMR, High-Reliability, Mica Radial Leaded Mica Cap Catalog L H T S d pf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 50 Vdc 22 CMR03E220DOYR.270 (6.9).190 (4.8).110 (2.8).120 (3.0).016 (.4) 24 CMR03E240DOYR.270 (6.9).190 (4.8).110 (2.8).120 (3.0).016 (.4) 27 CMR03E270JOYR.270 (6.9).190 (4.8).110 (2.8).120 (3.0).016 (.4) 30 CMR03E300JOYR.270 (6.9).190 (4.8).110 (2.8).120 (3.0).016 (.4) 33 CMR03E330JOYR.270 (6.9).190 (4.8).110 (2.8).120 (3.0).016 (.4) 36 CMR03E360JOYR.270 (6.9).190 (4.8).110 (2.8).120 (3.0).016 (.4) 39 CMR03E390JOYR.270 (6.9).190 (4.8).120 (3.0).120 (3.0).016 (.4) 43 CMR03E430JOYR.270 (6.9).190 (4.8).120 (3.0).120 (3.0).016 (.4) 47 CMR03E470JOYR.270 (6.9).190 (4.8).120 (3.0).120 (3.0).016 (.4) 51 CMR03E510JOYR.270 (6.9).190 (4.8).120 (3.0).120 (3.0).016 (.4) 56 CMR03E560JOYR.270 (6.9).200 (5.1).120 (3.0).120 (3.0).016 (.4) 62 CMR03E620JOYR.270 (6.9).200 (5.1).120 (3.0).120 (3.0).016 (.4) 68 CMR03E680JOYR.270 (6.9).200 (5.1).120 (3.0).120 (3.0).016 (.4) 75 CMR03E750JOYR.270 (6.9).200 (5.1).120 (3.0).120 (3.0).016 (.4) 82 CMR03E820JOYR.270 (6.9).200 (5.1).120 (3.0).120 (3.0).016 (.4) 91 CMR03F910JOYR.270 (6.9).200 (5.1).130 (3.3).120 (3.0).016 (.4) 100 CMR03F101JOYR.270 (6.9).200 (5.1).130 (3.3).120 (3.0).016 (.4) 110 CMR03F111JOYR.270 (6.9).200 (5.1).130 (3.3).120 (3.0).016 (.4) 120 CMR03F121JOYR.270 (6.9).200 (5.1).130 (3.3).120 (3.0).016 (.4) 130 CMR03F131JOYR.270 (6.9).210 (5.3).130 (3.3).120 (3.0).016 (.4) 150 CMR03F151JOYR.270 (6.9).210 (5.3).140 (3.6).120 (3.0).016 (.4) 160 CMR03F161JOYR.270 (6.9).210 (5.3).140 (3.6).120 (3.0).016 (.4) 180 CMR03F181JOYR.270 (6.9).210 (5.3).140 (3.6).120 (3.0).016 (.4) 200 CMR03F201JOYR.270 (6.9).220 (5.6).150 (3.8).120 (3.0).016 (.4) 220 CMR03F221JOYR.270 (6.9).220 (5.6).150 (3.8).120 (3.0).016 (.4) 240 CMR03F241JOYR.270 (6.9).220 (5.6).160 (4.1).120 (3.0).016 (.4) 270 CMR03F271JOYR.270 (6.9).230 (5.8).160 (4.1).120 (3.0).016 (.4) 300 CMR03F301JOYR.270 (6.9).230 (5.8).170 (4.3).120 (3.0).016 (.4) 330 CMR03F331JOYR.270 (6.9).240 (6.1).180 (4.6).120 (3.0).016 (.4) 360 CMR03F361JOYR.270 (6.9).240 (6.1).180 (4.6).120 (3.0).016 (.4) 390 CMR03F391JOYR.270 (6.9).250 (6.4).190 (4.8).120 (3.0).016 (.4) 400 CMR03F401JOYR.270 (6.9).250 (6.4).190 (4.8).120 (3.0).016 (.4) 100 Vdc 15 CMR03C150DOAR.270 (6.9).190 (4.8).110 (2.8).120 (3.0).016 (.4) 18 CMR03C180DOAR.270 (6.9).190 (4.8).110 (2.8).120 (3.0).016 (.4) 20 CMR03E200DOAR.270 (6.9).190 (4.8).110 (2.8).120 (3.0).016 (.4) 22 CMR03E220DOAR.270 (6.9).190 (4.8).120 (3.0).120 (3.0).016 (.4) 24 CMR03E240DOAR.270 (6.9).190 (4.8).120 (3.0).120 (3.0).016 (.4) 27 CMR03E270JOAR.270 (6.9).190 (4.8).120 (3.0).120 (3.0).016 (.4) Cap Catalog L H T S d pf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 100 Vdc (cont d) 30 CMR03E300JOAR.270 ( 6.9).200 ( 5.1).120 ( 3.0).120 ( 3.0).016 (.4) 33 CMR03E330JOAR.270 ( 6.9).200 ( 5.1).120 ( 3.0).120 ( 3.0).016 (.4) 36 CMR03E360JOAR.270 ( 6.9).200 ( 5.1).120 ( 3.0).120 ( 3.0).016 (.4) 39 CMR03E390JOAR.270 ( 6.9).200 ( 5.1).120 ( 3.0).120 ( 3.0).016 (.4) 43 CMR03E430JOAR.270 ( 6.9).200 ( 5.1).120 ( 3.0).120 ( 3.0).016 (.4) 47 CMR03E470JOAR.270 ( 6.9).200 ( 5.1).130 ( 3.3).120 ( 3.0).016 (.4) 51 CMR03E510JOAR.270 ( 6.9).200 ( 5.1).130 ( 3.3).120 ( 3.0).016 (.4) 56 CMR03E560JOAR.270 ( 6.9).200 ( 5.1).130 ( 3.3).120 ( 3.0).016 (.4) 62 CMR03E620JOAR.270 ( 6.9).210 ( 5.3).130 ( 3.3).120 ( 3.0).016 (.4) 68 CMR03E680JOAR.270 ( 6.9).210 ( 5.3).140 ( 3.6).120 ( 3.0).016 (.4) 75 CMR03E750JOAR.270 ( 6.9).210 ( 5.3).140 ( 3.6).120 ( 3.0).016 (.4) 82 CMR03E820JOAR.270 ( 6.9).210 ( 5.3).140 ( 3.6).120 ( 3.0).016 (.4) 91 CMR03F910JOAR.270 ( 6.9).210 ( 5.3).140 ( 3.6).120 ( 3.0).016 (.4) 100 CMR03F101JOAR.270 ( 6.9).220 ( 5.6).150 ( 3.8).120 ( 3.0).016 (.4) 110 CMR03F111JOAR.270 ( 6.9).220 ( 5.6).150 ( 3.8).120 ( 3.0).016 (.4) 120 CMR03F121JOAR.270 ( 6.9).220 ( 5.6).160 ( 4.1).120 ( 3.0).016 (.4) 130 CMR03F131JOAR.270 ( 6.9).230 ( 5.8).160 ( 4.1).120 ( 3.0).016 (.4) 150 CMR03F151JOAR.270 ( 6.9).230 ( 5.8).170 ( 4.3).120 ( 3.0).016 (.4) 160 CMR03F161JOAR.270 ( 6.9).240 ( 6.1).170 ( 4.3).120 ( 3.0).016 (.4) 170 CMR03F171JOAR.270 ( 6.9).240 ( 6.1).180 ( 4.6).120 ( 3.0).016 (.4) 180 CMR03F181JOAR.270 ( 6.9).240 ( 6.1).180 ( 4.6).120 ( 3.0).016 (.4) 200 CMR03F201JOAR.270 ( 6.9).250 ( 6.4).190 ( 4.8).120 ( 3.0).016 (.4) 330 CMR04F331JOAR.390 ( 9.9).380 ( 9.7).220 ( 5.6).150 ( 3.8).016 (.4) 360 CMR04F361JOAR.390 ( 9.9).380 ( 9.7).220 ( 5.6).150 ( 3.8).016 (.4) 390 CMR04F391JOAR.390 ( 9.9).380 ( 9.7).220 ( 5.6).150 ( 3.8).016 (.4) 300 Vdc 1 CMR03C1R0DOCR.270 ( 6.9).190 ( 4.8).110 ( 2.8).120 ( 3.0).016 (.4) 1.5 CMR03C1R5DOCR.270 ( 6.9).190 ( 4.8).110 ( 2.8).120 ( 3.0).016 (.4) 2 CMR03C2R0DOCR.270 ( 6.9).190 ( 4.8).110 ( 2.8).120 ( 3.0).016 (.4) 2.5 CMR03C2R5DOCR.270 ( 6.9).190 ( 4.8).110 ( 2.8).120 ( 3.0).016 (.4) 3 CMR03C3R0DOCR.270 ( 6.9).190 ( 4.8).110 ( 2.8).120 ( 3.0).016 (.4) 3.5 CMR03C3R5DOCR.270 ( 6.9).190 ( 4.8).110 ( 2.8).120 ( 3.0).016 (.4) 4 CMR03C4R0DOCR.270 ( 6.9).190 ( 4.8).110 ( 2.8).120 ( 3.0).016 (.4) 4.5 CMR03C4R5DOCR.270 ( 6.9).190 ( 4.8).110 ( 2.8).120 ( 3.0).016 (.4) 5 CMR03C5R0DOCR.270 ( 6.9).190 ( 4.8).110 ( 2.8).120 ( 3.0).016 (.4) 6 CMR03C6R0DOCR.270 ( 6.9).190 ( 4.8).110 ( 2.8).120 ( 3.0).016 (.4) East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

356 Ratings and Dimensions Type CMR, High-Reliability, Mica Cap Catalog L H T S d pf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 300 Vdc (cont d) 7 CMR03C7R0DOCR.270 ( 6.9).190 ( 4.8).110 ( 2.8).120 ( 3.0).016 (.4) 8 CMR03C8R0DOCR.270 ( 6.9).190 ( 4.8).110 ( 2.8).120 ( 3.0).016 (.4) 9 CMR03C9R0DOCR.270 ( 6.9).190 ( 4.8).110 ( 2.8).120 ( 3.0).016 (.4) 10 CMR03C100DOCR.270 ( 6.9).190 ( 4.8).110 ( 2.8).120 ( 3.0).016 (.4) 11 CMR03C110DOCR.270 ( 6.9).190 ( 4.8).110 ( 2.8).120 ( 3.0).016 (.4) 12 CMR03C120DOCR.270 ( 6.9).190 ( 4.8).110 ( 2.8).120 ( 3.0).016 (.4) 15 CMR03C150DOCR.270 ( 6.9).190 ( 4.8).120 ( 3.0).120 ( 3.0).016 (.4) 18 CMR03C180DOCR.270 ( 6.9).200 ( 5.1).120 ( 3.0).120 ( 3.0).016 (.4) 20 CMR03E200DOCR.270 ( 6.9).200 ( 5.1).120 ( 3.0).120 ( 3.0).016 (.4) 22 CMR03E220DOCR.270 ( 6.9).200 ( 5.1).120 ( 3.0).120 ( 3.0).016 (.4) 24 CMR03E240DOCR.270 ( 6.9).200 ( 5.1).120 ( 3.0).120 ( 3.0).016 (.4) 27 CMR03E270JOCR.270 ( 6.9).200 ( 5.1).130 ( 3.3).120 ( 3.0).016 (.4) 30 CMR03E300JOCR.270 ( 6.9).200 ( 5.1).130 ( 3.3).120 ( 3.0).016 (.4) 33 CMR03E330JOCR.270 ( 6.9).200 ( 5.1).130 ( 3.3).120 ( 3.0).016 (.4) 36 CMR03E360JOCR.270 ( 6.9).210 ( 5.3).130 ( 3.3).120 ( 3.0).016 (.4) 39 CMR03E390JOCR.270 ( 6.9).210 ( 5.3).130 ( 3.3).120 ( 3.0).016 (.4) 43 CMR03E430JOCR.270 ( 6.9).210 ( 5.3).140 ( 3.6).120 ( 3.0).016 (.4) 47 CMR03E470JOCR.270 ( 6.9).210 ( 5.3).140 ( 3.6).120 ( 3.0).016 (.4) 51 CMR03E510JOCR.270 ( 6.9).210 ( 5.3).140 ( 3.6).120 ( 3.0).016 (.4) 56 CMR03E560JOCR.270 ( 6.9).220 ( 5.6).150 ( 3.8).120 ( 3.0).016 (.4) 62 CMR03E620JOCR.270 ( 6.9).220 ( 5.6).150 ( 3.8).120 ( 3.0).016 (.4) 68 CMR03E680JOCR.270 ( 6.9).220 ( 5.6).150 ( 3.8).120 ( 3.0).016 (.4) 75 CMR03E750JOCR.270 ( 6.9).230 ( 5.8).160 ( 4.1).120 ( 3.0).016 (.4) 82 CMR03E820JOCR.270 ( 6.9).230 ( 5.8).160 ( 4.1).120 ( 3.0).016 (.4) 91 CMR03F910JOCR.270 ( 6.9).230 ( 5.8).170 ( 4.3).120 ( 3.0).016 (.4) 100 CMR03F101JOCR.270 ( 6.9).240 ( 6.1).180 ( 4.6).120 ( 3.0).016 (.4) 110 CMR03F111JOCR.270 ( 6.9).240 ( 6.1).180 ( 4.6).120 ( 3.0).016 (.4) 120 CMR03F121JOCR.270 ( 6.9).250 ( 6.4).190 ( 4.8).120 ( 3.0).016 (.4) 270 CMR04F271JOCR.390 ( 9.9).380 ( 9.7).220 ( 5.6).150 ( 3.8).016 (.4) 300 CMR04F301JOCR.390 ( 9.9).380 ( 9.7).220 ( 5.6).150 ( 3.8).016 (.4) 500 Vdc 1 CMR04C1R0DODR.360 ( 9.1).330 ( 8.4).190 ( 4.8).150 ( 3.8).016 (.4) 1 CMR05C1R0DODR.450 (11.4).360 ( 9.1).170 ( 4.3).225 ( 5.7).025 (.6) 1.5 CMR04C1R5DODR.360 ( 9.1).330 ( 8.4).190 ( 4.8).150 ( 3.8).016 (.4) 1.5 CMR05C1R5DODR.450 (11.4).360 ( 9.1).170 ( 4.3).225 ( 5.7).025 (.6) 2 CMR04C2R0DODR.360 ( 9.1).330 ( 8.4).190 ( 4.8).150 ( 3.8).016 (.4) 2 CMR05C2R0DODR.450 (11.4).360 ( 9.1).170 ( 4.3).225 ( 5.7).025 (.6) 2.5 CMR04C2R5DODR.360 ( 9.1).330 ( 8.4).190 ( 4.8).150 ( 3.8).016 (.4) 2.5 CMR05C2R5DODR.450 (11.4).360 ( 9.1).170 ( 4.3).225 ( 5.7).025 (.6) 3 CMR04C3R0DODR.360 ( 9.1).330 ( 8.4).190 ( 4.8).150 ( 3.8).016 (.4) 3 CMR05C3R0DODR.450 (11.4).360 ( 9.1).170 ( 4.3).225 ( 5.7).025 (.6) 3.5 CMR04C3R5DODR.360 ( 9.1).330 ( 8.4).190 ( 4.8).150 ( 3.8).016 (.4) 3.5 CMR05C3R5DODR.450 (11.4).360 ( 9.1).170 ( 4.3).225 ( 5.7).025 (.6) 4 CMR04C4R0DODR.360 ( 9.1).330 ( 8.4).190 ( 4.8).150 ( 3.8).016 (.4) 4 CMR05C4R0DODR.450 (11.4).360 ( 9.1).170 ( 4.3).225 ( 5.7).025 (.6) 4.5 CMR04C4R5DODR.360 ( 9.1).330 ( 8.4).190 ( 4.8).150 ( 3.8).016 (.4) 4.5 CMR05C4R5DODR.450 (11.4).360 ( 9.1).170 ( 4.3).225 ( 5.7).025 (.6) 5 CMR04C5R0DODR.360 ( 9.1).330 ( 8.4).190 ( 4.8).150 ( 3.8).016 (.4) 5 CMR05C5R0DODR.450 (11.4).360 ( 9.1).170 ( 4.3).225 ( 5.7).025 (.6) 6 CMR04C6R0DODR.360 ( 9.1).330 ( 8.4).190 ( 4.8).150 ( 3.8).016 (.4) 6 CMR05C6R0DODR.450 (11.4).360 ( 9.1).170 ( 4.3).225 ( 5.7).025 (.6) 7 CMR04C7R0DODR.360 ( 9.1).330 ( 8.4).190 ( 4.8).150 ( 3.8).016 (.4) 7 CMR05C7R0DODR.450 (11.4).360 ( 9.1).170 ( 4.3).225 ( 5.7).025 (.6) 8 CMR04C8R0DODR.360 ( 9.1).330 ( 8.4).190 ( 4.8).150 ( 3.8).016 (.4) 8 CMR05C8R0DODR.450 (11.4).360 ( 9.1).170 ( 4.3).225 ( 5.7).025 (.6) 9 CMR04C9R0DODR.360 ( 9.1).330 ( 8.4).190 ( 4.8).150 ( 3.8).016 (.4) 9 CMR05C9R0DODR.450 (11.4).360 ( 9.1).170 ( 4.3).225 ( 5.7).025 (.6) 10 CMR04C100DODR.360 ( 9.1).330 ( 8.4).190 ( 4.8).150 ( 3.8).016 (.4) 10 CMR05C100DODR.450 (11.4).360 ( 9.1).170 ( 4.3).225 ( 5.7).025 (.6) 11 CMR04C110DODR.360 ( 9.1).330 ( 8.4).190 ( 4.8).150 ( 3.8).016 (.4) 11 CMR05C110DODR.450 (11.4).360 ( 9.1).170 ( 4.3).225 ( 5.7).025 (.6) 12 CMR04C120JODR.360 ( 9.1).330 ( 8.4).190 ( 4.8).150 ( 3.8).016 (.4) 12 CMR05C120JODR.450 (11.4).360 ( 9.1).170 ( 4.3).225 ( 5.7).025 (.6) 15 CMR04C150JODR.360 ( 9.1).330 ( 8.4).190 ( 4.8).150 ( 3.8).016 (.4) 15 CMR05C150JODR.450 (11.4).360 ( 9.1).170 ( 4.3).225 ( 5.7).025 (.6) 18 CMR04C180JODR.360 ( 9.1).330 ( 8.4).190 ( 4.8).150 ( 3.8).016 (.4) 18 CMR05C180JODR.450 (11.4).360 ( 9.1).170 ( 4.3).225 ( 5.7).025 (.6) 20 CMR04E200JODR.360 ( 9.1).330 ( 8.4).190 ( 4.8).150 ( 3.8).016 (.4) 20 CMR05E200JODR.450 (11.4).360 ( 9.1).170 ( 4.3).225 ( 5.7).025 (.6) 22 CMR04E220JODR.360 ( 9.1).330 ( 8.4).190 ( 4.8).150 ( 3.8).016 (.4) Cap Catalog L H T S d pf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 500 Vdc (con d) 22 CMR05E220J0DR.450 (11.4).360 ( 9.1).170 (4.3).225 (5.7).025 (.6) 24 CMR04E240JODR.360 ( 9.1).330 ( 8.4).190 (4.8).150 (3.8).016 (.4) 24 CMR05E240JODR.450 (11.4).360 ( 9.1).170 (4.3).225 (5.7).025 (.6) 27 CMR04E270JODR.370 ( 9.4).330 ( 8.4).190 (4.8).150 (3.8).016 (.4) 27 CMR05E270JODR.450 (11.4).360 ( 9.1).170 (4.3).225 (5.7).025 (.6) 30 CMR04E300JODR.370 ( 9.4).340 ( 8.6).190 (4.8).150 (3.8).016 (.4) 30 CMR05E300JODR.450 (11.4).360 ( 9.1).170 (4.3).225 (5.7).025 (.6) 33 CMR04E330JODR.370 ( 9.4).340 ( 8.6).190 (4.8).150 (3.8).016 (.4) 33 CMR05E330JODR.450 (11.4).360 ( 9.1).170 (4.3).225 (5.7).025 (.6) 36 CMR04E360JODR.370 ( 9.4).340 ( 8.6).190 (4.8).150 (3.8).016 (.4) 36 CMR05E360JODR.450 (11.4).360 ( 9.1).170 (4.3).225 (5.7).025 (.6) 39 CMR04E390JODR.370 ( 9.4).340 ( 8.6).190 (4.8).150 (3.8).016 (.4) 39 CMR05E390JODR.450 (11.4).360 ( 9.1).170 (4.3).225 (5.7).025 (.6) 43 CMR04E430JODR.370 ( 9.4).340 ( 8.6).190 (4.8).150 (3.8).016 (.4) 43 CMR05E430JODR.450 (11.4).360 ( 9.1).170 (4.3).225 (5.7).025 (.6) 47 CMR04E470JODR.370 ( 9.4).340 ( 8.6).190 (4.8).150 (3.8).016 (.4) 47 CMR05E470JODR.450 (11.4).360 ( 9.1).170 (4.3).225 (5.7).025 (.6) 51 CMR04E510JODR.370 ( 9.4).340 ( 8.6).190 (4.8).150 (3.8).016 (.4) 51 CMR05E510JODR.450 (11.4).360 ( 9.1).170 (4.3).225 (5.7).025 (.6) 56 CMR04E560JODR.370 ( 9.4).340 ( 8.6).190 (4.8).150 (3.8).016 (.4) 56 CMR05E560JODR.450 (11.4).360 ( 9.1).170 (4.3).225 (5.7).025 (.6) 62 CMR04E620JODR.370 ( 9.4).340 ( 8.6).190 (4.8).150 (3.8).016 (.4) 62 CMR05E620JODR.450 (11.4).360 ( 9.1).170 (4.3).225 (5.7).025 (.6) 68 CMR04E680JODR.370 ( 9.4).340 ( 8.6).190 (4.8).150 (3.8).016 (.4) 68 CMR05E680JODR.450 (11.4).360 ( 9.1).180 (4.6).225 (5.7).025 (.6) 75 CMR04E750JODR.370 ( 9.4).340 ( 8.6).200 (5.1).150 (3.8).016 (.4) 75 CMR05E750JODR.450 (11.4).360 ( 9.1).180 (4.6).225 (5.7).025 (.6) 82 CMR04E820JODR.370 ( 9.4).350 ( 8.9).200 (5.1).150 (3.8).016 (.4) 82 CMR05E820JODR.450 (11.4).360 ( 9.1).180 (4.6).225 (5.7).025 (.6) 91 CMR04F910JODR.370 ( 9.4).350 ( 8.9).200 (5.1).150 (3.8).016 (.4) 91 CMR05F910JODR.460 (11.7).360 ( 9.1).180 (4.6).225 (5.7).025 (.6) 100 CMR04F101JODR.370 ( 9.4).350 ( 8.9).200 (5.1).150 (3.8).016 (.4) 100 CMR05F101JODR.460 (11.7).360 ( 9.1).180 (4.6).225 (5.7).025 (.6) 110 CMR04F111JODR.380 ( 9.7).350 ( 8.9).200 (5.1).150 (3.8).016 (.4) 110 CMR05F111JODR.460 (11.7).370 ( 9.4).180 (4.6).225 (5.7).025 (.6) 120 CMR04F121JODR.380 ( 9.7).350 ( 8.9).200 (5.1).150 (3.8).016 (.4) 120 CMR05F121JODR.460 (11.7).370 ( 9.4).180 (4.6).225 (5.7).025 (.6) 130 CMR04F131JODR.380 ( 9.7).360 ( 9.1).200 (5.1).150 (3.8).016 (.4) 130 CMR05F131JODR.460 (11.7).370 ( 9.4).180 (4.6).225 (5.7).025 (.6) 150 CMR04F151JODR.380 ( 9.7).360 ( 9.1).210 (5.3).150 (3.8).016 (.4) 150 CMR05F151JODR.460 (11.7).370 ( 9.4).190 (4.8).225 (5.7).025 (.6) 160 CMR04F161JODR.380 ( 9.7).360 ( 9.1).210 (5.3).150 (3.8).016 (.4) 160 CMR05F161JODR.460 (11.7).370 ( 9.4).190 (4.8).225 (5.7).025 (.6) 180 CMR04F181JODR.380 ( 9.7).370 ( 9.4).210 (5.3).150 (3.8).016 (.4) 180 CMR05F181JODR.460 (11.7).370 ( 9.4).190 (4.8).225 (5.7).025 (.6) 200 CMR04F201JODR.390 ( 9.9).380 ( 9.7).220 (5.6).150 (3.8).016 (.4) 200 CMR05F201JODR.460 (11.7).380 ( 9.7).190 (4.8).225 (5.7).025 (.6) 220 CMR04F221JODR.390 ( 9.9).380 ( 9.7).220 (5.6).150 (3.8).016 (.4) 220 CMR05F221JODR.460 (11.7).380 ( 9.7).200 (5.1).225 (5.7).025 (.6) 240 CMR04F241JODR.390 ( 9.9).380 ( 9.7).220 (5.6).150 (3.8).016 (.4) 240 CMR05F241JODR.460 (11.7).380 ( 9.7).200 (5.1).225 (5.7).025 (.6) 270 CMR05F271JODR.470 (11.9).390 ( 9.9).210 (5.3).225 (5.7).025 (.6) 300 CMR05F301JODR.470 (11.9).390 ( 9.9).210 (5.3).225 (5.7).025 (.6) 330 CMR05F331JODR.470 (11.9).390 ( 9.9).210 (5.3).225 (5.7).025 (.6) 360 CMR05F361JODR.470 (11.9).400 (10.2).220 (5.6).225 (5.7).025 (.6) 390 CMR05F391JODR.470 (11.9).400 (10.2).220 (5.6).225 (5.7).025 (.6) 430 CMR06F431JODR.640 (16.3).510 (13.0).200 (5.1).350 (8.9).032 (.8) 470 CMR06F471JODR.640 (16.3).510 (13.0).200 (5.1).350 (8.9).032 (.8) 510 CMR06F511JODR.650 (16.5).510 (13.0).200 (5.1).350 (8.9).032 (.8) 560 CMR06F561JODR.650 (16.5).510 (13.0).200 (5.1).350 (8.9).032 (.8) 620 CMR06F621JODR.650 (16.5).510 (13.0).200 (5.1).350 (8.9).032 (.8) 680 CMR06F681JODR.650 (16.5).510 (13.0).210 (5.3).350 (8.9).032 (.8) 750 CMR06F751JODR.650 (16.5).510 (13.0).210 (5.3).350 (8.9).032 (.8) 820 CMR06F821JODR.650 (16.5).510 (13.0).210 (5.3).350 (8.9).032 (.8) 910 CMR06F911JODR.650 (16.5).510 (13.0).210 (5.3).350 (8.9).032 (.8) 1000 CMR06F102JODR.650 (16.5).520 (13.2).220 (5.6).350 (8.9).032 (.8) 1100 CMR06F112JODR.650 (16.5).520 (13.2).220 (5.6).350 (8.9).032 (.8) 1200 CMR06F122JODR.660 (16.8).520 (13.2).220 (5.6).350 (8.9).032 (.8) 1300 CMR06F132JODR.660 (16.8).520 (13.2).220 (5.6).350 (8.9).032 (.8) 1500 CMR06F152JODR.660 (16.8).520 (13.2).230 (5.8).350 (8.9).032 (.8) 1600 CMR06F162JODR.660 (16.8).530 (13.5).230 (5.8).350 (8.9).032 (.8) 1800 CMR06F182JODR.670 (17.0).530 (13.5).240 (6.1).350 (8.9).032 (.8) 2000 CMR06F202JODR.670 (17.0).530 (13.5).240 (6.1).350 (8.9).032 (.8) Radial Leaded Mica 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 4.021

357 Type CMR, High-Reliability, Mica Ratings and Dimensions Cap Catalog L H T S d pf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) Inches (mm) 500 Vdc (cont d) 2200 CMR06F222JODR.670 (17.0).530 (13.5).250 ( 6.4).350 ( 8.9).032 (.8) 2400 CMR06F242JODR.670 (17.0).540 (13.7).260 ( 6.6).350 ( 8.9).032 (.8) 2700 CMR06F272JODR.680 (17.3).540 (13.7).270 ( 6.9).350 ( 8.9).032 (.8) 3000 CMR06F302JODR.680 (17.3).550 (14.0).280 ( 7.1).350 ( 8.9).032 (.8) 3300 CMR06F332JODR.680 (17.3).550 (14.0).290 ( 7.4).350 ( 8.9).032 (.8) 3600 CMR06F362JODR.680 (17.3).560 (14.2).300 ( 7.6).350 ( 8.9).032 (.8) 3900 CMR06F392JODR.690 (17.5).560 (14.2).310 ( 7.9).350 ( 8.9).032 (.8) 4300 CMR06F432JODR.690 (17.5).570 (14.5).330 ( 8.4).350 ( 8.9).032 (.8) 4700 CMR06F472JODR.700 (17.8).580 (14.7).350 ( 8.9).350 ( 8.9).032 (.8) 5100 CMR07F512JODR.780 (19.8).860 (21.8).280 ( 7.1).425 (10.8).040 (1.0) 5600 CMR07F562JODR.780 (19.8).870 (22.1).290 ( 7.4).425 (10.8).040 (1.0) 6200 CMR07F622JODR.780 (19.8).870 (22.1).290 ( 7.4).425 (10.8).040 (1.0) 6800 CMR07F682JODR.780 (19.8).870 (22.1).300 ( 7.6).425 (10.8).040 (1.0) 7500 CMR07F752JODR.790 (20.1).880 (22.4).310 ( 7.9).425 (10.8).040 (1.0) 8200 CMR07F822JODR.790 (20.1).880 (22.4).320 ( 8.1).425 (10.8).040 (1.0) 9100 CMR07F912JODR.790 (20.1).880 (22.4).330 ( 8.4).425 (10.8).040 (1.0) CMR07F103JODR.800 (20.3).890 (22.6).340 ( 8.6).425 (10.8).040 (1.0) CMR07F113JODR.800 (20.3).890 (22.6).350 ( 8.9).425 (10.8).040 (1.0) CMR07F123JODR.800 (20.3).890 (22.6).360 ( 9.1).425 (10.8).040 (1.0) CMR07F133JODR.810 (20.6).890 (22.6).370 ( 9.4).425 (10.8).040 (1.0) CMR07F153JODR.810 (20.6).900 (22.9).390 ( 9.9).425 (10.8).040 (1.0) CMR07F163JODR.820 (20.8).900 (22.9).410 (10.4).425 (10.8).040 (1.0) CMR07F183JODR.820 (20.8).910 (23.1).430 (10.9).425 (10.8).040 (1.0) Radial Leaded Mica East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

358 Type CMR, High-Reliability, Mica Specifications Capacitance is within tolerance when measured at these frequencies: MHz > khz Dissipation Factor limits are below. Measure dissipation factor at 1 MHz when the capacitance is 1 pf to 1,000 pf, and at 1 khz when the capacitance is greater than 1,000 pf. Dissipation factor is equal to DF=2πfRC, where f is the test frequency, R is the equivalent series resistance, and C is the capacitance. For other capacitance values, see Figure 1. Capacitance Dissipation Factor pf max at 1 MHz pf max at 1 khz pf max at 1 khz 10,000 pf max at 1 khz Quality Factor (Q) is the reciprocal of dissipation factor. Insulation Resistance for capacitances up to 10,000 pf is greater than 100 GΩ at 25 C, greater than 10 GΩ at 125 C, and greater than 5 GΩ at 150 C. For other capacitance values and temperatures, see Figure 2. Withstanding Voltage is two times the rated voltage, and can be applied up to 5 seconds without damage. Temperature Coefficient and Capacitance Drift: Measure the capacitors capacitance at 25 C, 55 C, 25 C, 125 C (or 150 C) and at 25 C after stabilizing at each temperature. The capacitance will meet the limits of the Characteristic table shown in Ordering Information. Failure Rate: Type CMR capacitors have specified failure rate levels ranging from 0.01% to 2.0% per 1,000 hours. The failure rate level is established at a 90% confidence level and is referred to operational life at full-rated voltage at maximum-rated temperature. High-Voltage Stabilization: We subject capacitors with Failure Levels M, P, and R to a burn-in at twice-rated voltage, at rated temperature, for a minimum of 48 hours. that show damage, arcing, breakdown, or low IR are removed. We reject the lot if more than 8% of the capacitors fail. Solderability: After an 8-hour steam aging, coat leads with a rosin flux (R) and immerse in molten 245 C±5 C 60/40 tin/lead solder. Solder coverage will be no less than 95% when examined at 10X magnification. Life Test: Subject the capacitors to maximum operating temperature (+125 C or +150 C) with 1.5 times rated voltage applied for 10,000 hours. Take readings and make visual observations every 2,000 hours. There will be no visual damage and the capacitors will meet the after-test limits on page Resistance to Solvents: Subject the capacitors to three cycles of 3- minute immersion in solvent, 10 strokes with bristle brush and, where applicable, 1 2 minute in vapor, per MIL-STD- 202, Method 215. Repeat the three cycles for three solvent mixtures: Isopropyl alcohol mixture (Solvent 1), azeotrope mixture (Solvent 3), and water/propylene-glycol mixture (Solvent 4). The marking will not rub off or smear and there will be no visible damage to the capacitor body. Refer to MIL- STD-202 for details. Resistance to Soldering Heat: will meet the requirements of MIL-STD-202, Method 210 Test Condition G. Immerse capacitor leads to within.250 inches (6.4 mm) of the body in molten tin/lead solder (260 C±5 C) for 10±2 seconds. Allow to cool. will meet the after-test limits on page Marking of capacitors conforms to method I of MIL-STD-1285, and includes the type designation, JAN, brand, trademark, source code, date code, rated voltage, capacitance, capacitance tolerance, and highest rated temperature. Small capacitors are marked with the letter J. Radial Leaded Mica DISSIPATION FACTOR Maximum dissipation factor at 1 MHz for capacitance values of 1,000 pf or less Maximum dissipation factor at 1 khz for capacitance values greater than 1,000 pf ,000 10, ,000 INSULATION RESISTANCE (MEGOHMS) 100,000 10,000 1, C +85 C +125 C +150 C ,000 10,000 62,000 CAPACITANCE (pf) CAPACITANCE (pf) Figure 1. DF vs. Capacitance Figure 2. IR vs. Capacitance 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 4.023

359 Type CMR, High-Reliability, Mica Specifications Moisture Resistance: will meet the requirements of MIL-STD-202, Method 106F as outlined here and diagrammed on the right. Apply 100 V or the rated voltage (whichever is less) to half of the capacitors. Don t apply voltage to the other half. Refer to MIL-STD- 202 for details. 1. Dry capacitors for 24 hours in a 50±2 C oven and then allow to stabilize at room temperature. 2. Subject the capacitors to hour continuous cycles with relative humidity and temperature as shown to 24 hours after completion of the last cycle the capacitors will show no visual damage and will meet the after-test limits below. 24-Hour Moisture Resistance Cycle 65±2 C 90 98% RH 25±2 C 90 98% RH 10±2 C uncontrolled humidity hours Radial Leaded Mica After-Test Limits Test Withstand Insulation Capacitance Change DF Q Voltage Resistance (whichever is greater) Moisture Resistance IL 30 GΩ NV±1% or ±1 pf 150% IL 2/3xIL Life Test IL IL NV±1% or ±1 pf 150% IL 2/3xIL Solder Heat IL IL IV±5% or ±5pF IL IL IL=Initial Limit NV=Nominal Value IV=Initial Value Ordering Information Order by complete part number, as below. For other options, write your requirements on your quote request. High-Reliability Mica CMR05 C 100 J P D R CDE Capacitance Capacitance Temperature Range Voltage Failure Rate Type 1R0 = 1.0pF Tolerance O= 55 C to +125 C* Y= = Vdc L L=2.0%/1000 = hrs. hrs. 361 =1360pF D=±.5 pf P= 55 C to +150 C* A= A = 100 Vdc M=1.0%/1000 = hrs. 122 =1200pF F =±1% P= C.1%/1000 = 300 Vdc hrs. P =.1%/1000 hrs. G=±2% R=.01%/1000 D = 500 Vdchrs. R =.01%/1000 hrs. J=±5% Characteristic Temp. Coeff. Capacitance Standard ppm/ C Drift Cap. Range C 200 to +200 ±(0.5% +0.1pF) 1 18 pf E 20 to +100 ±(0.1% +0.1pF) pf F 200 to + 70 ±(0.05% +0.1pF) 91 pf and up * P temperature range is available for CMR04, CMR05, CMR06, CMR07, CMR East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

360 High-Voltage, Rectangular Types, Mica Types 271, 272, 273 Rectangular Case, High-Current and High-Voltage Circuits Designed for frequencies ranging from 100 khz to 3 MHz, Mica Capacitor Types 271, 272, and 273 are well-suited for high-current and highvoltage circuits like radio transmitters. Cast in rectangular cases, these capacitors are electrically equivalent to MIL-C-5 Styles CM65 through CM73 in capacitance and current ratings but are far superior in environmental capability, temperature range, physical size, mounting configuration, and reliability. Performance Highlights Peak Voltage: 250 to 8,000 Peak Volts Capacitance Range: 47 pf to 1,000,000 pf Capacitance Tolerance: ±2 (G), ±5% (J) Temperature Range: 55 C to +125 C Cast in Rectangular Cases Type 273 permits stand-off mounting Highly shock resistant Optional aluminum mounting plates Convenient mounting Type 271 Ratings Rated Current At Cap Catalog Frequencies (rms amperes) pf Number 3 MHz 1 MHz.3 MHz.1 MHz 250 Peak Volts B473JO B503JO B513JO B563JO B623JO B683JO B753JO B823JO B913JO B104JO Peak Volts B273JO B303JO B333JO B363JO B393JO B433JO ,000 Peak Volts B103JO B113JO B123JO B133JO B153JO B163JO B183JO B203JO B223JO B243JO ,500 Peak Volts B802JO B822JO B912JO Rated Current At Cap Catalog Frequencies (rms amperes) pf Number 3 MHz 1 MHz.3 MHz.1 MHz 2,000 Peak Volts B272JO B302JO B332JO B362JO B392JO B402JO B432JO B472JO B502JO B512JO B562JO B602JO B622JO B682JO B752JO ,000 Peak Volts B470JO B510JO B560JO B620JO B680JO B750JO B820JO B910JO B101JO B111JO B121JO B131JO B151JO B161JO B181JO B201JO B221JO B241JO High-Voltage & Pulse Mica 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 4.025

361 High-Voltage, Rectangular Types, Mica Type 271, 272 and 273 Ratings High-Voltage & Pulse Mica Rated Current At Cap Catalog Frequencies (rms amperes) pf Number 3 MHz 1 MHz.3 MHz.1 MHz 3,000 Peak Volts (cont d) B251JO B271JO B301JO B331JO B361JO B391JO B431JO B471JO B501JO B511JO B561JO B621JO B681JO B751JO B821JO B911JO B102JO B112JO B122JO B132JO B152JO B162JO B182JO B202JO B222JO B242JO Peak Volts B254JO Peak Volts B823JO B913JO B104JO B204JO ,000 Peak Volts B563JO B623JO B683JO B753JO ,500 Peak Volts B243JO B273JO B303JO B333JO B363JO B393JO B433JO B473JO B503JO B513JO ,000 Peak Volts B822JO B912JO B103JO B113JO B123JO B133JO B153JO B163JO B183JO B203JO B223JO ,000 Peak Volts B272JO B302JO B332JO B362JO B392JO B432JO B472JO B502JO B512JO B562JO B602JO B622JO B682JO B752JO Rated Current At Cap Catalog Frequencies (rms amperes) pf Number 3 MHz 1 MHz.3 MHz.1 MHz 5,000 Peak Volts B470JO B510JO B560JO B620JO B680JO B750JO B820JO B910JO B101JO B111JO B121JO B131JO B151JO B161JO B181JO B201JO B221JO B241JO B251JO B271JO B301JO B331JO B361JO B391JO B431JO B471JO B501JO B511JO B561JO B601JO B621JO B681JO B751JO B821JO B911JO B102JO B112JO B122JO B132JO B152JO B162JO B182JO B202JO B222JO B242JO Peak Volts B105JO Peak Volts B204JO B254JO B304JO B404JO B504JO B604JO B754JO ,000 Peak Volts B104JO ,000 Peak Volts B253JO B303JO B403JO B503JO ,000 Peak Volts B203JO ,000 Peak Volts B201JO B251JO B501JO B102JO B202JO B302JO B402JO B452JO B502JO B602JO B802JO B103JO Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

362 High-Voltage, Cylindrical Types, Mica Types 291, 292, 293, 294 Cylindrical Case, High-Current and High-Voltage Circuits Designed for frequencies ranging from 100 khz to 3 MHz, Mica Capacitor Types 291, 292, 293 and 294 are well suited for high-current and high-high-voltage circuits like radio transmitters. Cast in cylindrical cases, these capacitors are electrically equivalent to MIL-C-5 Styles CM75 through CM93 in capacitance and current ratings but are far superior in environmental capability, temperature range, physical size, mounting configuration, and reliability. Performance Highlights Peak Voltage: 1,000 to 30,000 Peak Volts Capacitance Range: 47 pf to 100,000 pf Capacitance Tolerance: ±2% (G), ±5% (J) Temperature Range: 55 C to +125 C Cast in Cylindrical Cases Highly shock resistant Convenient mounting Type 291 Ratings Rated Current At Cap Catalog Frequencies (rms amperes) pf Number 3 MHz 1 MHz.3 MHz.1 MHz 1,000 Peak Volts B753JO B823JO B913JO B104JO ,500 Peak Volts B303JO B333JO B363JO B393JO B433JO B473JO B513JO B563JO B623JO B683JO ,000 Peak Volts B183JO B203JO B223JO B243JO B273JO ,000 Peak Volts B123JO B133JO B153JO B163JO ,000 Peak Volts B512JO B562JO B602JO B622JO B682JO Rated Current At Cap Catalog Frequencies (rms amperes) pf Number 3 MHz 1 MHz.3 MHz.1 MHz 4,000 Peak Volts (cont d) B752JO B822JO B912JO B103JO B113JO ,000 Peak Volts B470JO B500JO B510JO B560JO B620JO B680JO B750JO B820JO B910JO B101JO B111JO B121JO B131JO B151JO B161JO B181JO B201JO B221JO B241JO B271JO B301JO B331JO B361JO B391JO B401JO B431JO B471JO B501JO High-Voltage & Pulse Mica 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 4.027

363 High-Voltage, Cylindrical Types, Mica Types 291, 292 and 293 Ratings High-Voltage & Pulse Mica Rated Current At Cap Catalog Frequencies (rms amperes) pf Number 3 MHz 1 MHz.3 MHz.1 MHz 6,000 Peak Volts (cont d) B511JO B561JO B621JO B681JO B751JO B821JO B911JO B102JO B112JO B122JO B132JO B152JO B162JO B182JO B202JO B222JO B242JO B272JO B302JO B332JO B362JO B392JO B402JO B432JO B472JO B502JO ,500 Peak Volts B753JO B823JO B913JO B104JO ,000 Peak Volts B303JO B333JO B363JO B393JO B433JO B473JO B513JO B563JO B623JO B683JO ,000 Peak Volts B183JO B203JO B223JO B243JO B273JO ,000 Peak Volts B123JO B133JO B153JO B163JO ,000 Peak Volts B562JO B602JO B622JO B682JO B752JO B822JO B912JO B103JO B113JO ,000 Peak Volts B472JO B502JO B512JO ,000 Peak Volts B222JO B242JO B272JO B302JO B332JO B362JO B392JO B402JO B432JO Rated Current At Cap Catalog Frequencies (rms amperes) pf Number 3 MHz 1 MHz.3 MHz.1 MHz 10,000 Peak Volts B470JO B510JO B560JO B620JO B680JO B750JO B820JO B910JO B101JO B111JO B121JO B131JO B151JO B161JO B181JO B201JO B221JO B241JO B251JO B271JO B301JO B331JO B361JO B391JO B431JO B471JO B501JO B511JO B561JO B621JO B681JO B751JO B821JO B911JO B102JO B112JO B122JO B132JO B152JO B162JO B182JO B202JO Rated Current At Cap Catalog Frequencies (rms amperes) Case pf Number 3 MHz 1 MHz.3 MHz.1 MHz Height 2,000 Peak Volts B753JO B823JO B913JO B104JO ,000 Peak Volts B273JO B303JO B333JO B363JO B393JO B433JO B473JO B513JO B563JO B623JO B683JO ,000 Peak Volts B123JO B133JO B153JO B163JO B183JO B203JO B223JO B243JO ,000 Peak Volts B912JO B103JO B113JO Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

364 Types 293 and 294 Ratings High-Voltage, Cylindrical Types, Mica Rated Current At Cap Catalog Frequencies (rms amperes) Case pf Number 3 MHz 1 MHz.3 MHz.1 MHz Height 10,000 Peak Volts B472JO B502JO B512JO B562JO B602JO B622JO B682JO B752JO B802JO B822JO ,000 Peak Volts B222JO B242JO B272JO B302JO B332JO B362JO B392JO B402JO B432JO ,000 Peak Volts B122JO B132JO B152JO B162JO B182JO B202JO ,000 Peak Volts B470JO B500JO B510JO B560JO B620JO B680JO B750JO B820JO B910JO B101JO B111JO B121JO B131JO B151JO B161JO B181JO B201JO B221JO B241JO B251JO B271JO B301JO B331JO B361JO B391JO B431JO B471JO B501JO B511JO B561JO B621JO B681JO B751JO B801JO B821JO B911JO B102JO B112JO ,000 Peak Volts B823JO B913JO B104JO ,000 Peak Volts B683JO B753JO ,000 Peak Volts B333JO B363JO B393JO Rated Current At Cap Catalog Frequencies (rms amperes) Case pf Number 3 MHz 1 MHz.3 MHz.1 MHz Height 5,000 Peak Volts (cont d) B403JO B433JO B473JO B513JO B563JO B623JO ,000 Peak Volts B183JO B203JO B223JO B243JO B273JO B303JO ,000 Peak Volts B123JO B133JO B153JO B163JO ,000 Peak Volts B103JO B113JO ,000 Peak Volts B802JO B822JO B912JO ,000 Peak Volts B432JO B472JO B502JO B512JO B562JO B602JO B622JO B682JO B752JO ,000 Peak Volts B202JO B222JO B242JO B272JO B302JO B332JO B362JO B392JO B402JO ,000 Peak Volts B112JO B122JO B132JO B152JO B162JO B182JO ,000 Peak Volts B101JO B111JO B121JO B131JO B151JO B161JO B181JO B201JO B221JO B241JO B251JO B271JO B301JO B331JO B361JO B391JO B431JO B471JO B501JO B511JO B561JO B621JO B681JO B751JO B801JO B821JO B911JO B102JO High-Voltage & Pulse Mica 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 4.029

365 High-Voltage Types, Specifications, Mica Type 271 Type 273 MOUNTING STYLE 0 MOUNTING STYLE 1 MOUNTING STYLE 2 Type 272 TOLERANCES UNLESS OTHERWISE SPECIFIED: ±.031 Cast-Case Styles MOUNTING STYLE 0 MOUNTING STYLE 1 MOUNTING STYLE 2 Type 291 Type 292 High-Voltage & Pulse Mica MOUNTING STYLE 0 MOUNTING STYLE 1 MOUNTING STYLE 2 MOUNTING STYLE 0 MOUNTING STYLE 1 MOUNTING STYLE 2 Type 293 Type 294 MOUNTING STYLE 0 MOUNTING STYLE 1 MOUNTING STYLE 2 MOUNTING STYLE 0 MOUNTING STYLE 1 MOUNTING STYLE Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

366 High-Voltage Types, Specifications, Mica Type 271 (CM 66) Type 272 (CM 71) Type 273 Type 291 (CM 76) Type 292 (CM 81) Type 293 (CM 86) High-Voltage & Pulse Mica Type 294 (CM 91) Type G5 (CM 95) 140 Technology Place Liberty, SC (864) , Fax (864)

367 High-Voltage Types, Specificaations, Mica Potted-Case Styles Type F1 (available in same ratings as 271) Type F2 (available in same ratings as 272) MFD AMPS KC VOLTS d 2 HOLES T ± 1 64 Type F3 (available in same ratings as 273) ± ± 1 64 DIA 3 HOLES ± ±.005 W ± 1 32 D ±.005 L ± 1 32 THREAD NF-2A THREAD 5 16 ± ± ± ± 1 64 S ± ± 1 32 h ± 1 32 H ± ± MAX t ± ± 1 32 Type G1 (available in same ratings as 291) Type G2 (available in same ratings as 292) Type G3 (available in same ratings as 293) Type G4 (available in same ratings as 294) Type G5 (ratings from 50 pf, 35,000 V pk to 10,000 pf, 15,000 V pk) ± 1 64 DIA NAMEPLATE D ± ± 1 64 d DIA ± 1 16 R 4 ± 1 64 R High-Voltage & Pulse Mica L ± 1 16 T ± ± ± 1 16 H ± 1 16 t ± 1 32 Type L H T t h W d(min.) D S Thread F NC-2A F NF-2A F /4-28 NF-2A G G G G G Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

368 High-Voltage Types, Specifications, Mica Specifications Capacitance is within tolerance when measured at these frequencies: MHz > khz Dissipation Factor is typically less than 0.05% when measured as above. Dissipation factor (DF) equals 2πfRC, where f is the test frequency, R is the equivalent series resistance (Ω), and C is nominal capacitance (F). Q is the reciprocal of the dissipation factor. Operating Temperature Range is 55 C to +125 C. Insulation Resistance is no less than 7500 MΩ when measured at 100 Vdc. Temperature Coefficient and Capacitance Drift: Measure the capacitors capacitance at 25 C, 55 C, 25 C, 125 C, and at 25 C after stabilizing at each temperature. The capacitance will meet the limits of the Characteristic table shown in Ordering Information. Rated Peak Voltage is not to be exceeded in actual use. Voltage ratings are in the listings and apply under the following conditions: Temperature: Within the specified operating temperature range. Altitude: Up to 50,000 feet or 3.4 inches of mercury. Relative Humidity: Up to 80%. Frequency: As specified. Where pulse conditions are encountered, contact us. Withstanding Voltage: will withstand application of an ac potential between terminals having an rms value equal to the rated peak voltage at a frequency of 100 Hz or less without damage, arcing or breakdown. Apply the potential by raising the voltage from zero to the specified value. Apply the full potential for a minimum of 5 seconds. Case Insulation: Capacitor cases will withstand, without damage, arcing or breakdown, a 60-Hz peak ac potential equal to twice the rated peak voltage applied between the terminals connected together and a metal electrode touching the case. Apply this potential for between 1 and 5 seconds. Current Ratings at various frequencies are in the listings and apply under the following conditions: Temperature: 65 C maximum Derating Factor: None Vibration: will withstand vibrational forces occurring at rates of from 10 to 55 Hz for hours. The total excursion during vibration is 0.06 inches. At the end of this period, make the following inspections and tests: Visual and Mechanical Inspection: No perceptible deterioration. Withstanding Voltage: As specified under Withstanding Voltage. Insulation Resistance: No less than 7500 MΩ. Capacitance Change: Not to exceed 3% of the nominal value or one picofarad, whichever is greater. Temperature and Immersion Cycling: will withstand the temperature and immersion cycles indicated in the tables below. Follow three temperature cycles by two immersion cycles. Make the measurements listed below no more than 30 minutes following the final immersion cycle: Withstanding Voltage: As specified under Withstanding Voltage. Insulation Resistance: No less than 7500 MΩ. Capacitance: Change not to exceed 4% of the nominal value or one picofarad, whichever is greater. Temperature Cycling Test Conditions Steps Temp. Interval ( C) (Minutes) to to 15 5 Immersion Test Conditions Number of cycles: 2 Duration of each immersion: 15 minutes Immersion bath: Saturated solution of sodium chloride and water Temp. of hot bath: 65 Temp. of cold bath: Life Test: Subject all capacitors to a temperature of 55 C for 48 hours. Then subject units cast in rectangular cases (Types 271, 272, and 273) to a 60-Hz rms voltage equal to the rated peak voltage for 250 hours. Subject units cast in cylindrical cases (Types 291, 292, 293, and 294) to a 60-Hz rms voltage equal to 90% of the rated peak voltage for 250 hours. In both tests, maintain the temperature at 125 C. After test, the capacitors will meet these requirements: Withstanding Voltage: As specified under Withstanding Voltage. Insulation Resistance: No less than 7500 MΩ. Capacitance Change: Within the limits given in the table below or one picofarad, whichever is greater. Characteristic Maximum Cap. Change B ±8% C ±3% D ±3% E ±3% In addition, the capacitor must show no visual damage and the markings must be legible. High-Voltage & Pulse Mica 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 4.033

369 High-Voltage Types, Ordering Information, Mica Ordering Information Order by complete part number, as below. For other options, write your requirements on your quote request or purchase order. Cast-Case Transmitting Mica B 470 J O 0 CDE Rated Peak Capacitance Capacitance Temperature Range Mounting Style Type Voltage (in 470=47pF = 1247 pf Tolerance 0= 55 C to +125 C 0=No mounting plate hundreds of 361=360pF= 1360 pf G=±2% 1=Mounting plate onl peak working 122=1200pF = 1200 pf J J=±5% 1=bottom only volts) 2=Mounting plates on 2=top and bottom Characteristic Temp. Coeff. Capacitance Standard ppm/ C Drift Cap. Range B Not specified Not specified C 200 to +200 ±(0.5% +0.1pF) 1 18 pf D 100 to +100 ±(0.3% +0.1pF) E 20 to +100 ±(0.1% +0.1pF) pf High-Voltage & Pulse Mica Potted-Case Styles Transmitting mica capacitors are available in pottedcase packages with the same ratings as the 27 and 29 cast-case series. To order potted styles, use the table at the right to find the equivalent cast type. Then use the part numbering below. Type G5, which has no cast equivalent, covers ratings of 50 pf at 35,000 V pk to 10,000 pf at 15,000 V pk. To order, contact us. Potted Case Type Equivalent Cast Type F1 271 F2 272 F3 273 G1 291 G2 292 G3 293 G4 294 G5 F1 30 B 470 J M CDE Rated Peak Characteristic Capacitance Capacitance Temperature Range Type Voltage (in 470=47pF = 1247 pf Tolerance M= 55 C to +70 C hundreds of peak 361=360pF 1360 pf G=±2% working volts) 122=1200pF = 1200 pf J J=±5% (standard) Military Style Numbers For the commercial equivalent to military style numbers CM65 through CM95, see the table below. Military Style No. Equivalent CDE Type CM65 F1 CM66 271, Mounting Style 0 CM67 271, Mounting Style 1 CM68 271, Mounting Style 2 CM70 F2 CM71 272, Mounting Style 0 CM72 272, Mounting Style 1 CM73 272, Mounting Style 2 CM75 G1 CM76 291, Mounting Style 0 CM77 291, Mounting Style 1 CM78 291, Mounting Style 2 CM80 G2 Military Style No. Equivalent CDE Type CM81 292, Mounting Style 0 CM82 292, Mounting Style 1 CM83 292, Mounting Style 2 CM85 G3 CM86 293, Mounting Style 0 CM87 293, Mounting Style 1 CM88 293, Mounting Style 2 CM90 G4 CM91 294, Mounting Style 0 CM92 294, Mounting Style 1 CM93 294, Mounting Style 2 CM95 G Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

370 Type KV x, High-Voltage and Pulse, Mica-Paper/Polymer Applications HV Power Supplies AC Voltage Dividers Pulse-forming Networks Down-hole Applications Jet Engine Ignition Aircraft and Shipboards Filters and Multipliers Satellites Snubbers EFI Devices X-Ray Equipment Performance Highlights Capacitance Range: 1pF to 10 µf Tolerance: ±0.5% to ±20% Voltage Range: 100 V to 150 kvdc Temperature Range: -55 C to 125 C standard, -65 C to 200 C available. Negligible capacitance change, all environments Insulation Resistance: 5 GΩµF min at 500 Vdc, 2 min. Dissipation Factor: Characteristic S-.5%, C-.05% KV x High-Voltage and Pulse Ignite Your World Voltage, Current and Temperature to New Heights KaBOOM! Another exploding foil initiator successfully detonates a military smart bomb thanks to a KV x capacitor. Jet engines roar with KV x ignition capacitors. KV x will ignite your applications with its high reliability, high energy density, high peak current capability, and excellent mechanical properties. Spanning voltages up to 150kV, peak currents up to 100kA, and temperatures from -65 C to +200 C, Type KV x capacitors are it for applications like pulse ignition, corona-free signal coupling, high-voltage energy storage and voltage division of high AC voltages. Wide Selection of Capabilities The Type KV x capacitor draws on an unprecendented selection of three dielectric systems, three impregnating systems, and three package types to deliver its superior capabilities. The dielectric is high-purity mica plates, flexible reconstituted mica paper, or a polymer film/mica paper combination. Mica is the proven reliable dielectric for high voltage and temperature stress, even with continuous corona and radiation. We combine mica synergistically with polymer films to provide pulse capacitors of extremely high energy density (to over.1 J/cc). High value with three impregnation systems: Epoxy for best value operation through 125 C; Polyester Resin for continuous operation up to 200 C. Five Package Types Deliver Custom Fit Package Type B: Bare sections-if you want to design your own package. Package Type C: Metal Can-to be worked out individually. Package Type T: For minimum size and quick availability, the Type T package wraps the rectangular capacitor element with high temperature, heat-cured polyester tape and closes each end with a thick poured section of epoxy. The finished capacitor is sealed and is suitable for potted-in and many low humidity applications. Package Type G: In applications requiring superior mechanical integrity, such as metal clamp mounting, moisture exposure, and mechanical vibration and shock, the Type G package adds that needed strength by vacuum potting the capacitor element in a laminated fiberglass epoxy tube. Package Type M: For the ultimate in environmental protection and operation up to 150kV, the Type M package provides a fully molded, vacuum-encapsulated system. The final capacitor shape can exactly meet your application mechanical requirements and fit where no other can. Operating Life Guaranteed for 10 Years KV x capacitors are not ordinary high voltage capacitors. Manufacturing processes developed and proven over 50 years of continuous manufacture of transmitting, pulse and high-voltage capacitors allow us to make a remarkable guarantee. Cornell Dubilier guarantees that KV x capacitors will operate ten years or more when operated within specified limits. Cornell Dubilier warrants that if a KV x capacitor fails during normal use within 10 years of the date of purchase, it will replace the capacitor at no charge if CDE analysis confirms that the capacitor was not abused by operating beyond product limits for humidity, temperature, voltage, and current. High-Voltage & Pulse Mica 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 4.035

371 Type KV x, High-Voltage and Pulse, Mica-Paper/Polymer Ratings High-Voltage & Pulse Mica Case Dimensions Inches Cap. µf Catalog Number Length L MAX Width W MAX Height H MAX Max. PRF Max. I PEAK 1 kvdc (500 V repetitive) KVX01S473K0T KVX01S104K0T KVX01S224K0T KVX01S474K0T KVX01S105K0T KVX01S105K0T KVX01S225K0T KVX01S335K0T KVX01S475K0T KVX01S685K0T kvdc (1 kv repetitive) KVX02S333K0T KVX02S105K0T KVX02S105K0T KVX02S335K0T KVX02S475K0T kvdc (1.5 kv repetitive) KVX03S103K0T KVX03S223K0T KVX03S334K0T KVX03S474K0T KVX03S105K0T KVX03S335K0T kvdc (2 kv repetitive) KVX04S682K0T KVX04S103K0T KVX04S104K0T KVX04S224K0T KVX04S105K0T KVX04S225K0T kvdc (2.5 kv repetitive) KVX05S472K0T KVX05S103K0T KVX05S683K0T KVX05S104K0T KVX05S105K0T kvdc (3 kv repetitive) KVX06S103K0T KVX06S223K0T KVX06S104K0T KVX06S105K0T Outline Drawings Case Dimensions Inches Cap. µf Catalog Number Length L MAX Width W MAX Height H MAX Max. PRF Max. I PEAK 8 kvdc (4 kv repetitive) KVX08S332K0T KVX08S103K0T KVX08S223K0T KVX08S104K0T KVX08S684K0T kvdc (5 kv repetitive) KVX10S102K0T KVX10S222K0T KVX10S103K0T KVX10S473K0T KVX10S334K0T kvdc (6 kv repetitive) KVX12S103K0T KVX12S333K0T KVX12S334K0T kvdc (7.5 kv repetitive) KVX15S471K0T KVX15S681K0T KVX15S102K0T KVX15S103K0T KVX15S224K0T kvdc (10 kv repetitive) KVX20S331K0T KVX20S102K0T KVX20S103K0T KVX20S473K0T kvdc (12.5 kv repetitive) KVX25S101K0T KVX25S221K0T KVX25S471K0T KVX25S102K0T KVX25S222K0T KVX25S332K0T KVX25S472K0T KVX25S103K0T KVX25S333K0T kvdc (15 kv repetitive) KVX30S101K0T KVX30S102K0T KVX30S103K0T KVX30S223K0T Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

372 Type KV x, High-Voltage and Pulse, Mica-Paper/Polymer Specifications Terminations available differ according to package type: Package Type T G M Ribbon leads X X X Wire leads X X X Threaded studs X X X Threaded inserts X X Turret terminals X X HV Connectors X X Quick Connect Ribbon leads are typically tin-plated copper, x0.5 x2 on small units (<1 in 3 ) and x0.987 x2 on larger. Wire leads are typically bare AWG #18 or #20, 2 minimum. Threaded studs or inserts are standard from 4-40 to and typically tin-plated brass. Turret terminals are brass with silver or tin plate. High voltage connectors are available with creepage, tracking and clearance distances to meet requirements up to 150 kv. ID Marking includes manufacturer, CDM, capacitance in µf, rated voltage, identification number and date code YYWW (2 digit year and week of manufacture). Capacitance is within tolerance when measured at 1 khz (1 MHz if C<1000 pf). Standard tolerance: ±5% 10 kv ±10% 100 pf & 5 kv ±20%<100 pf & 5 kv Dissipation Factor is no more than 0.5%, S characteristic, when measured at 1 khz (1 MHz if C<1000 pf) and room temperature. Lower dissipation factor specification is available, to 0.1% for mica-plate capacitors, characteristic C. Look up the test voltage as a multiple of the Rated Voltage in this table: Rated Voltage Test Voltage 0 to 8 kv 200% 8.1 to 10 kv 175% 10.1 to 12 kv 150% 12.1 to 20 kv 140% 20.1 to 30 kv 130% 30.1 kv and up 120% Corona-Free capacitors are readily available and certification for corona-free operation up to 50 kvac or kvdc is available. Life Test: Subject capacitors to rated maximum temperature ±3 C with rated voltage applied for 2000(+72,-2)hours. There will be no visual damage and the capacitance will not have changed more than the greater of ±3% and ±1 pf. Vibration Resistance: Subject the capacitors to simple harmonic motion with an amplitude of 0.06 inches; vary the frequency uniformly from 10 to 55 Hz and return to 10 Hz, all in one minute. Repeat that cycle continuously for 2 hours in each of 3 mutually perpendicular directions. There will be no visual damage, the capacitance will not change more than the greater of ±3% and ±1 pf, and the insulation resistance will be no less than the lesser of 7.5 GΩ and 5 GΩµF. Moisture Resistance: Subject G or M package capacitors to 40±2 C at 90 to 95% humidity for 500(+24,-0)hours. Return to room ambient for 24 hours. There will be no visual damage, the capacitance will not change more than the greater of ±4% or 1 pf, and the insulation resistance will be no less than the lesser of 7.5 GΩ and 5 GΩµF. capacitor s capacitance at 25 C, -55 C, 25 C, 125 C, and at 25 C all ±3 C after stabilizing at each temperature. The capacitance temperature coefficient will be less than or equal to ±500 ppm/ C, and the capacitance will not have changed more than ±(0.5%+0.1 pf). Pulse Capability: Maximum achievable peak current is usually limited by the inductance of the discharge circuit, not by rise-time effects of the dielectric. For repetition-rated applications, use double the dc rating in the Typical Ratings table on the following page. In other words, for a 10kV repetition-rated capacitor applicaiton, use a 20 kvdc rated capacitor. The table of Typical Ratings on the following page lists maximum pulse repetition frequency (PRF) and maximum peak current (I PEAK ) at the maximum PRF at room temperature ambient conditions. To use higher peak current, derate the PRF as the square of the peak current ratio. For example, to use double the maximum rated peak current, use onequarter of the maximum rated repetition rate. For higher rep rate applications, or to enable higher peak current without the above derating, contact us for alternatives. Also we can recommend active cooling strategies for your high energy density application. Capacitor Size is determined by your choice of package, the capacitance and the rated voltage. For new designs, we will furnish your capacitor s size with our quotation. For a first estimate of capacitor size refer to the Typical Ratings table page 46. High-Voltage & Pulse Mica Insulation Resistance is no less than the lesser of 100 GΩ and 5 GΩµF, when measured at 500 Vdc after 2 minutes, and at room temperature (1 GΩ or 25 MΩµF at 125 C). Rated Voltage is the maximum peak voltage for actual use. Withstanding Voltage: Apply a DC test voltage for 5 seconds with the charge and discharge current limited to one ampere and with the capacitor immersed in an insulating fluid when needed to prevent external arcing. Moisture resistance is not specified for T package capacitors and product warranty is void if used regularly beyond 50% relative humidity. Temperature Coefficient and Drift: Measure the 140 Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com 4.037

373 Type KV x, High-Voltage and Pulse, Mica-Paper/Polymer Typical Performance Curves High-Voltage & Pulse Mica These are typical curves for KV x capacitors with mica-paper dielectric. Other dielectric systems are available with improved characteristics. Please contact us for information. Ordering Information KV x 10 S 473 J 0 T Type Rated Voltage 10 = 10kV 05 = 5kV Characteristic S = Standard Performance C = High Current, <5% tol. E = High Energy Density Capacitance 471 = 470pF 472 = 4700pF 4732 = 47300pF 47R3 = 47.3pF Tolerance E = ±0.5% F = ±1% G = ±2% J = ±5% K = ±10% M=±20% Temperature 0 = -55 C to 125 C 1 = -65 C to 125 C 2 = -65 C to 150 C 3 = -65 C to 200 C 4 = -65 C to 260 C Package T = Tape wrap/end fill M= Molded, vacuum G = Glass/epoxy tube B = Bare element Order by complete Part Number. We will assign you a new number when your part is manufactured. Use Outline Drawings and Typical Ratings as a capability guide. They are for mica-paper capacitors in Type T packages with S characteristic. Standard leads are AWG #18 centered on the ends for less than 20 kvdc and offset as shown for 20 kvdc and up. See Terminations for optional leads and terminals. We invite you to challenge us with your special requirements for high-voltage and pulse capacitors. Also feel free to request custom shapes for G and M package units. Those packages can deliver unique shapes and configurations and are not limited to the simple, rectangular shapes shown here Technology Place Liberty, SC (864) , Fax (864) cde@cornell-dubilier.com

374 Pulse, High-Frequency and Snubber Pulse, Hi-Frequency & Snubber

375

376 Selector Guide, Pulse, High-Frequency and Snubber Voltage Capacitance dv/dt Peak RMS Form Range Range Range Current Current Page Factor Type Description (Vdc) (µf) (V/µs) (A) (A) Number IGBT Snubber Capacitor Modules SCD polypropylene capacitor, <20 nh, fits 23 to 28 mm lead spacing up to 50 A SCM polypropylene capacitor & hyperfast diode, <20 nh, fits 23 to 28 mm lead spacing up to 50 A SCC Polypropylene Pulse and High-Frequency 940C 2 polypropylene capacitors & hyperfast diodes, <20 nh, fits 23 to 28 mm lead spacing, dual IGBTs double metallized up to 50 A up to 25 A Pulse, Hi-Frequency & Snubber 941C double metallized up to 25A C foil/metallized hybrid up to 25 A C foil/metallized hybrid up to 25 A DP Types film/foil , up to 10 A Mica Pulse and High-Frequency CD Types silver mica , up to 9 A Oil-Filled Snubber SNU film/paper, extended foil, for SCRs up to 300 A up to 12 A East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 5.001

377 Type SCD, IGBT Snubber Capacitor Modules Style SCD Direct Mount Applications Style SCD offers protection against voltage transients in low to medium current IGBT applications where high dv/dt is encountered. Connect these capacitors from C1 to E2 on a dual IGBT module or from P to N on a six-pack module to eliminate severe voltage transients. Parts ending with Z25 fit IGBTs with 23mm, 25mm and 28mm lead spacing. If you have a preferred lead spacing, please specify. Pulse, Hi-Frequency & Snubber Highlights High peak & RMS current capability Mount directly to the IGBT module Low inductance <20nH Low loss polypropylene dielectric Self healing Flame resistant case and resin, meets UL94V0 Other terminal spacing and capacitance values available. We can build to your specs! 85 C ambient temperature CAP dv/ dt ESR Arms DIMENSIONS (in) PART NUMBER µf Vdc Vac (V/ µs) Ipk(A) mω (55 C) W L H SCD474K601A3Z SCD684K601A3Z SCD105K601A3Z SCD155K601A3Z SCD205K601A3Z SCD335K601A3Z SCD475K601A3Z SCD474K102A3Z SCD474K102D3Z SCD684K102A3Z SCD684K102D3Z SCD105K102A3Z SCD105K102D3Z SCD155K102A3Z SCD155K102D3Z SCD205K102A3Z SCD205K102D3Z East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

378 Type SCD, IGBT Snubber Capacitor Modules CAP dv/ dt ESR Arms DIMENSIONS (in) PART NUMBER µf Vdc Vac (V/ µs) Ipk(A) mω (55 C) W L H SCD224K122A3Z SCD334K122A3Z SCD474K122A3Z SCD684K122A3Z SCD105K122A3Z SCD155K122A3Z SCD205K122A3Z SCD305K122C3Z SCD224K162A3Z SCD334K162A3Z SCD474K162A3Z SCD684K162A3Z SCD105K162A3Z SCD155K162A3Z SCD205K162A3Z SCD224K202A3Z SCD334K202A3Z SCD474K202A3Z SCD684K202A3Z SCD105K202A3Z Note: Modify PART NUMBER to specify lead spacing. Example: 44mm spacing would use 44 instead of Z25. For additional ratings, contact factory. Other capacitance values and lead orientations are available. Contact us. Pulse, Hi-Frequency & Snubber Mounting Across the Bus? CDE Will Accommodate Your Bus Structure 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 5.003

379 Type SCM, Single/Dual IGBT Snubber Capacitor Modules Applications Use style SCM as a discharge restrictive de-coupling to protect dual IGBT modules from overvoltage, Figure 1. Style SCM may also be used as an N or P type snubber component for a clamp snubber where single IGBT modules are used, Figure 2. Highlights Mount directly to the IGBT module Low inductance Low Loss Hyperfast diodes integrated into package 1 or 2 wire taps for connecting external resistor Flame resistant case and epoxy, meets UL 94VO Other terminal pitches and capacitance values available. Pulse, Hi-Frequency & Snubber Discharge Restrictive De-coupling The circuit in Figure 1 operates on the same principles as the de-coupling capacitor, but only during turn-off switching. As the IGBT turns off, energy trapped in the loop inductance is transferred to the capacitor. The diode blocks oscillations from occurring and excess charge on the capacitor is discharged through the external resistor. RCD Clamp The function of this snubber is similar to a clamp, Figure 2. At turn-off, the snubber diode is forward biased and the snubber is activated. The energy trapped in the stray inductance is absorbed by the snubber capacitor. During turn-on the snubber caps that were fully charged to bus voltage have a discharge path through the forward biased free-wheel diode, the IGBT, and the snubber resistors. This reduces the reverse recovery voltage transient. Figure 1 Style SCM Discharge restrictive decoupling used to protect dual IGBT modules Figure 2 Style SCM P type and N type used as a clamp to protect an inverter using two single IGBT modules. Dual IGBT Module SCM "N" Type Module External Resistor Single IGBT Module Single IGBT Module SCM "P" Type Module SCM "N" Type Module External Resistors East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

380 Type SCM, Single/Dual IGBT Snubber Capacitor Modules L W H C E 5mm 16mm UL1015 AWG18 L= 200 mm min. 8mm 15mm P 7mm dia Typical Application Ipk(A), Tc = 25 C IGBT Module Diode Repetitive Cap Ic/Vce Characteristics Ipk(A) Surge 20 khz Dimensions (in.) Part Number µf S=Single, D=Dual Vrrm/If/trr(µs) Tc = 25 C Sq Wave W L H P(mm) SCM474K601H7N S-300S/ /30/< SCM474K601H7P S-300S/ /30/< SCM105K601H7[ ] D-200D/ /30/< SCM105K601H5[ ] S-400S/ /50/< SCM155K601H7N D-300D/ /30/< SCM155K601H7P D-300D/ /30/< SCM205K601H5[ ] D-400D/ /50/< SCM205K601H2[ ] S-600S/ /100/< SCM474K122H8N S-300S/ /30/< SCM474K122H8P S-300S/ /30/< SCM105K122H8[ ] D-200D/ /30/< SCM105K122H4N S-400S/ /50/< SCM105K122H4P S-400S/ /50/< SCM155K122H8N D-300D/ /30/< SCM155K122H8P D-300D/ /30/< SCM205K122H4[ ] D-400D/ /50/< SCM205K122H1[ ] S-600S/ /100/< Pulse, Hi-Frequency & Snubber Specify N type or P type P TYPE R N TYPE R C E C E 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 5.005

381 Type SCC, Dual IGBT Clamp-Snubber Modules Style SCC Applications Style SCC is ideal for use in medium to high current applications where a dual IGBT module is used. This low loss snubber directly reduces turnoff voltage overshoots and is effective in reducing turn-on voltage transients. L W H C1 E2 E1/C2 5 mm Highlights 14 mm Pulse, Hi-Frequency & Snubber Mount directly to the IGBT module Low inductance Low loss polypropylene dielectric High peak current Hyperfast diodes integrated into package Wire taps for connecting external resistors Flame resistant case and epoxy meet UL 94VO R1 R2 W2 P P 7 mm UL1015 AWG20 L = 150 min. 14 mm 6.5mm X 8.5mm Dual IGBT Module External Resistors SCC Clamp Module Ipk(A), Tc = 25 C Typical Application Diode Repetitive Cap DUAL IGBT Characteristics Ipk(A) Surge 20 khz Dimensions (in.) Part Number µf Ic/Vce Vrrm/Io/trr(µs) Tc = 25 C Sq Wave W L H W2 P(mm) SCC105K601H / /30/ SCC155K601H / /30/ SCC205K601H / /50/ SCC205K601H / /50/ SCC474K122H / /30/ SCC474K122H / /30/ SCC105K122H / /30/ SCC105K122H / /30/ SCC155K122H / /50/ SCC155K122H / /50/ SCC205K122H / /50/ SCC205K122H / /50/ East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

382 Type 940C, High dv/dt, Round Polypropylene Pulse & High-Frequency Applications Double Metallized Axial Leads Type 940C round, axial film capacitors use polypropylene film and dual metallized electrodes for both self healing properties and high peak current carrying capability (dv/dt). This series features low ESR characteristics, excellent high frequency and high voltage capabilities. Specifications Voltage Range: Vdc Capacitance Range: µf Capacitance Tolerance: ±10% Operating Temperature Range: -55 C to 105 C* *Full-rated voltage at 85 C Derate linearly to 50%-rated voltage at 105 C d Double Metallized Polyester Polypropylene Metallized polypropylene Construction 850 Vdc and Higher NOTE: (41mm) MIN. L MAX (41mm) MIN. D MAX. Request for non-listed capacitance values, size modifications and application specific requirements are welcomed by our engineering staff. Pulse, Hi-Frequency & Snubber Ratings and Dimensions Normally Stocked Typical Typical Cap. Catalog D L d ESR ESL dv/dt I peak IRMS µf Number Inches (mm) Inches (mm) Inches (mm) milliohms nh V/µs A A 600 Vdc (275 Vac) C6P1K.354 (9.0) (34.0).032 (.8) C6P15K.413 (10.5) (34.0).040 (1.0) C6P22K.453 (11.5) (34.0).040 (1.0) C6P33K.531 (13.5) (34.0).040 (1.0) C6P47K.610 (15.5) (34.0).040 (1.0) C6P68K.709 (18.0) (34.0).040 (1.0) C6W1K.827 (21.0) (34.0).040 (1.0) C6W1P5K.984 (25.0) (34.0).047 (1.2) C6W2K.925 (23.5) (46.0).047 (1.2) C6W3P3K (27.0) (54.0).047 (1.2) C6W4P7K (31.5) (54.0).047 (1.2) Vdc (450 Vac) C8P15K.512 (13.0) (34.0).040 (1.0) C8P22K.610 (15.5) (34.0).040 (1.0) C8P33K.709 (18.0) (34.0).040 (1.0) C8P47K.827 (21.0) (34.0).040 (1.0) C8P68K.965 (24.5) (34.0).047 (1.2) C8W1K.886 (22.5) (46.0).047 (1.2) C8W1P5K (27.0) (46.0).047 (1.2) C8W2K (30.5) (46.0).047 (1.2) C8W2P2K (32.0) (46.0).047 (1.2) C8W2P5K (34.0) (46.0).047 (1.2) East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 5.007

383 Type 940C, High dv/dt, Round Polypropylene Pulse & High-Frequency Applications Ratings and Dimensions Normally Stocked Pulse, Hi-Frequency & Snubber Typical Typical Cap. Catalog D L d ESR ESL dv/dt I peak IRMS µf Number Inches (mm) Inches (mm) Inches (mm) milliohms nh V/µs A A 1000 Vdc (500 Vac) C10P15K.591 (15.0) (34.0).040 (1.0) C10P22K.689 (17.5) (34.0).040 (1.0) C10P33K.807 (20.5) (34.0).040 (1.0) C10P47K.945 (24.0) (34.0).047 (1.2) C10P68K (28.0) (34.0).047 (1.2) C10W1K (26.0) (46.0).047 (1.2) C10W1P5K (31.0) (46.0).047 (1.2) C10W2K (35.5) (46.0).047 (1.2) Vdc (500 Vac) C12P1K.610 (15.5) (34.0).040 (1.0) C12P15K.728 (18.5) (34.0).040 (1.0) C12P22K.846 (21.5) (34.0).040 (1.0) C12P33K.787 (20.0) (46.0).040 (1.0) C12P47K.906 (23.0) (46.0).047 (1.2) C12P68K (27.0) (46.0).047 (1.2) C12W1K (33.0) (46.0).047 (1.2) C12W1P5K (35.0) (54.0).047 (1.2) Vdc (630 Vac) C16P1K.709 (18.0) (34.0).040 (1.0) C16P15K.846 (21.5) (34.0).040 (1.0) C16P22K (25.5) (34.0).047 (1.2) C16P33K.925 (23.5) (46.0).047 (1.2) C16P47K (27.5) (46.0).047 (1.2) C16P68K (32.5) (46.0).047 (1.2) C16W1K (39.0) (46.0).047 (1.2) C16W1P5K (42.0) (54.0).047 (1.2) Vdc (630 Vac) C20S22K.453 (11.5) (34.0).040 (1.0) C20S33K.531 (13.5) (34.0).040 (1.0) C20S47K.591 (15.0) (34.0).040 (1.0) C20S68K.689 (17.5) (34.0).040 (1.0) C20P1K.827 (21.0) (34.0).040 (1.0) C20P15K.768 (19.5) (46.0).040 (1.0) C20P22K.866 (22.0) (46.0).040 (1.0) C20P33K (27.0) (46.0).047 (1.2) C20P47K (32.0) (46.0).047 (1.2) C20P56K (31.0) (54.0).047 (1.2) C20P68K (34.0) (54.0).047 (1.2) C20W1K (41.0) (54.0).047 (1.2) Vdc (750 Vac) C30S1K.453 (11.5) (34.0).040 (1.0) C30S15K.531 (13.5) (34.0).040 (1.0) C30S22K.610 (15.5) (34.0).040 (1.0) C30S33K.709 (18.0) (34.0).040 (1.0) C30S47K.650 (16.5) (46.0).040 (1.0) C30S68K.748 (19.0) (46.0).040 (1.0) C30P1K.886 (22.5) (46.0).047 (1.2) C30P15K (27.0) (46.0).047 (1.2) East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

384 Type 941C, High dv/dt, Oval Polypropylene Pulse & High-Frequency Applications Double Metallized Axial Leads Type 941C flat, oval film capacitors use polypropylene film and dual metallized electrodes for both self healing properties and high peak current carrying capability (dv/dt). This series features low ESR characteristics, excellent high frequency and high voltage capabilities. For round configuration see Type 940C, pages & Specifications Voltage Range: Vdc Capacitance Range: µf Capacitance Tolerance: ±10% Operating Temperature Range: -55 C to 105 C* *Full-rated voltage at 85 C Derate linearly to 50%-rated voltage at 105 C d W MAX. Double Metallized Polyester Polypropylene Metallized polypropylene Construction 850 Vdc and Higher (41mm) MIN. NOTE: L MAX (41mm) MIN. T MAX. Request for non-listed capacitance values, size modifications and application specific requirements are welcomed by our engineering staff. Pulse, Hi-Frequency & Snubber Ratings and Dimensions Typical Typical Cap. Catalog T W L d ESR ESL dv/dt I peak IRMS µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) milliohms nh V/µs A A 600 Vdc (275 Vac) C6P1K.223 (5.7).470 (11.9) (34.0).032 (.8) C6P15K.266 (6.8).513 (13.0) (34.0).040 (1.0) C6P22K.318 (8.1).565 (14.3) (34.0).040 (1.0) C6P33K.387 (9.8).634 (16.1) (34.0).040 (1.0) C6P47K.462 (11.7).709 (18.0) (34.0).040 (1.0) C6P68K.558 (14.2).805 (20.4) (34.0).040 (1.0) C6W1K.680 (17.3).927 (23.5) (34.0).040 (1.0) C6W1P5K.837 (21.3) (27.5) (34.0).047 (1.2) C6W2K.717 (18.2) (27.6) (46.0).047 (1.2) C6W3P3K.886 (22.5) (31.8) (54.0).047 (1.2) C6W4P7K (28.6) (33.3) (54.0).047 (1.2) Vdc (450 Vac) C8P15K.378 (9.6).625 (15.9) (34.0).040 (1.0) C8P22K.458 (11.6).705 (17.9) (34.0).040 (1.0) C8P33K.562 (14.3).810 (20.6) (34.0).040 (1.0) C8P47K.674 (17.1).922 (23.4) (34.0).040 (1.0) C8P68K.815 (20.7) (27.0) (34.0).047 (1.2) C8W1K.679 (17.2) (26.7) (46.0).047 (1.2) C8W1P5K.847 (21.5) (30.9) (46.0).047 (1.2) C8W2K.990 (25.1) (34.6) (46.0).047 (1.2) C8W2P2K (26.5) (35.9) (46.0).047 (1.2) C8W2P5K (28.4) (37.8) (46.0).047 (1.2) East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 5.009

385 Type 941C, High dv/dt, Oval Polypropylene Pulse & High-Frequency Applications Ratings and Dimensions Pulse, Hi-Frequency & Snubber Typical Typical Cap. Catalog T W L d ESR ESL dv/dt I peak IRMS µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) milliohms nh V/µs A A 1000 Vdc (500 Vac) C10P15K.441 (11.2).688 (17.5) (34.0).040 (1.0) C10P22K.535 (13.6).782 (19.9) (34.0).040 (1.0) C10P33K.658 (16.7).906 (23.0) (34.0).040 (1.0) C10P47K.790 (20.1) (26.3) (34.0).047 (1.2) C10P68K.955 (24.2) (30.5) (34.0).047 (1.2) C10W1K.803 (20.4) (29.8) (46.0).047 (1.2) C10W1P5K (25.4) (34.8) (46.0).047 (1.2) C10W2K (29.7) (39.1) (46.0).047 (1.2) Vdc (500 Vac) C12P1K.462 (11.7).709 (18.0) (34.0).040 (1.0) C12P15K.568 (14.4).815 (20.7) (34.0).040 (1.0) C12P22K.691 (17.5).938 (23.8) (34.0).040 (1.0) C12P33K.575 (14.6).946 (24.0) (46.0).040 (1.0) C12P47K.698 (17.7) (27.1) (46.0).047 (1.2) C12P68K.854 (21.7) (31.1) (46.0).047 (1.2) C12W1K (26.7) (36.1) (46.0).047 (1.2) C12W1P5K (27.6) (40.2) (54.0).047 (1.2) Vdc (630 Vac) C16P1K.565 (14.3).813 (20.6) (34.0).040 (1.0) C16P15K.696 (17.7).943 (23.9) (34.0).040 (1.0) C16P22K.848 (21.5) (27.8) (34.0).047 (1.2) C16P33K.715 (18.2) (27.6) (46.0).047 (1.2) C16P47K.867 (22.0) (31.4) (46.0).047 (1.2) C16P68K (26.9) (36.3) (46.0).047 (1.2) C16W1K (33.1) (42.5) (46.0).047 (1.2) C16W1P5K (34.5) (47.0) (54.0).047 (1.2) Vdc (630 Vac) C20S22K.313 (7.9).561 (14.2) (34.0).040 (1.0) C20S33K.382 (9.7).629 (16.0) (34.0).040 (1.0) C20S47K.456 (11.6).703 (17.8) (34.0).040 (1.0) C20S68K.550 (14.0).797 (20.2) (34.0).040 (1.0) C20P1K.670 (17.0).917 (23.3) (34.0).040 (1.0) C20P15K.557 (14.1).928 (23.6) (46.0).040 (1.0) C20P22K.686 (17.4) (26.8) (46.0).040 (1.0) C20P33K.856 (21.7) (31.2) (46.0).047 (1.2) C20P47K (26.3) (35.8) (46.0).047 (1.2) C20P56K.941 (23.9) (36.5) (54.0).047 (1.2) C20P68K (26.7) (39.2) (54.0).047 (1.2) C20W1K (33.1) (45.6) (54.0).047 (1.2) Vdc (750 Vac) C30S1K.308 (7.8).555 (14.1) (34.0).040 (1.0) C30S15K.375 (9.5).622 (15.8) (34.0).040 (1.0) C30S22K.454 (11.5).701 (17.8) (34.0).040 (1.0) C30S33K.558 (14.2).805 (20.4) (34.0).040 (1.0) C30S47K.446 (11.3).817 (20.7) (46.0).040 (1.0) C30S68K.545 (13.8).916 (23.3) (46.0).040 (1.0) C30P1K.673 (17.1) (26.5) (46.0).047 (1.2) C30P15K.839 (21.3) (30.7) (46.0).047 (1.2) East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

386 Type 942C, Very High dv/dt, Polypropylene Pulse & High-Frequency Applications Foil/Metallized Hybrid Axial Leads Type 942C round, axial film capacitors utilize a hybrid section design of polypropylene film, metal foils and metallized polypropylene dielectric to achieve both high peak current as well as superior rms current ratings. This series is ideal for high pulse operation and high peak current circuits. Specifications Voltage Range: Vdc Capacitance Range: µf Capacitance Tolerance: ±10% Operating Temperature Range: -55 C to 105 C* *Full-rated voltage at 85 C Derate linearly to 50%-rated voltage at 105 C d (41mm) MIN. L MAX (41mm) MIN. D MAX. Foil Polypropylene Metallized polypropylene Construction 600 Vdc and Higher NOTE: Request for non-listed capacitance values, size modifications and application specific requirements are welcomed by our engineering staff. Pulse, Hi-Frequency & Snubber Ratings and Dimensions Typical Typical Cap. Catalog D L d ESR ESL dv/dt I peak IRMS µf Number Inches (mm) Inches (mm) Inches (mm) milliohms nh V/µs A A 600 Vdc (300 Vac) Normally Stocked C6P15K.551 (14.0) (34.0).040 (1.0) C6P22K.630 (16.0) (34.0).040 (1.0) C6P33K.748 (19.0) (34.0).040 (1.0) C6P47K.866 (22.0) (34.0).040 (1.0) C6P68K (25.6) (34.0).047 (1.2) C6W1K.925 (23.5) (46.0).047 (1.2) C6W1P5K (28.5) (46.0).047 (1.2) C6W2K (28.5) (54.0).047 (1.2) C6W2P2K (30.0) (54.0).047 (1.2) C6W2P5K (32.0) (54.0).047 (1.2) Vdc (360 Vac) C8P15K.610 (15.5) (34.0).040 (1.0) C8P22K.709 (18.0) (34.0).040 (1.0) C8P33K.846 (21.5) (34.0).040 (1.0) C8P47K.984 (25.0) (34.0).047 (1.2) C8P68K (29.5) (34.0).047 (1.2) C8W1K (28.0) (46.0).047 (1.2) C8W1P5K (29.0) (54.0).047 (1.2) C8W2K (29.5) (64.0).047 (1.2) East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 5.011

387 Type 942C, Very High dv/dt, Polypropylene Pulse & High-Frequency Applications Ratings and Dimensions Normally Stocked Pulse, Hi-Frequency & Snubber Typical Typical Cap. Catalog D L d ESR ESL dv/dt I peak IRMS µf Number Inches (mm) Inches (mm) Inches (mm) milliohms nh V/µs A A 1000 Vdc (400 Vac) C10P1K.630 (16.0) (34.0).040 (1.0) C10P15K.748 (19.0) (34.0).040 (1.0) C10P22K.887 (22.5) (34.0).040 (1.0) C10P33K.827 (21.0) (46.0).040 (1.0) C10P47K.945 (24.0) (46.0).047 (1.2) C10P68K (28.5) (46.0).047 (1.2) C10W1K (30.0) (54.0).047 (1.2) C10W1P4K (31.5) (64.0).047 (1.2) Vdc (430 Vac) C12P1K.748 (19.0) (34.0).040 (1.0) C12P15K.887 (22.5) (34.0).040 (1.0) C12P22K (26.5) (34.0).047 (1.2) C12P33K.965 (24.5) (46.0).047 (1.2) C12P47K (29.0) (46.0).047 (1.2) C12P68K (30.5) (54.0).047 (1.2) C12P9K (31.0) (64.0).047 (1.2) Vdc (460 Vac) C16S22K.472 (12.0) (34.0).040 (1.0) C16S33K.571 (14.5) (34.0).040 (1.0) C16S47K.650 (16.5) (34.0).040 (1.0) C16S68K.748 (19.0) (34.0).040 (1.0) C16P1K.887 (22.5) (34.0).040 (1.0) C16P15K.807 (20.5) (46.0).040 (1.0) C16P22K.925 (23.5) (46.0).040 (1.0) C16P33K (28.5) (46.0).047 (1.2) C16P47K (30.0) (54.0).047 (1.2) C16P56K (28.5) (64.0).047 (1.2) C16P68K (31.5) (64.0).047 (1.2) Vdc (500 Vac) C20S1K.472 (12.0) (34.0).040 (1.0) C20S15K.571 (14.5) (34.0).040 (1.0) C20S22K.650 (16.5) (34.0).040 (1.0) C20S33K.768 (19.5) (34.0).040 (1.0) C20S47K.709 (18.0) (46.0).040 (1.0) C20S68K.807 (20.5) (46.0).040 (1.0) C20P1K.965 (24.5) (46.0).047 (1.2) C20P15K (29.5) (46.0).047 (1.2) East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

388 Type 943C, Very High dv/dt, Oval Polypropylene Pulse & High-Frequency Applications Foil/Metallized Hybrid Axial Leads Type 943C oval, axial film capacitors utilize a hybrid section design of polypropylene film, metal foils and metallized polypropylene dielectric to achieve both high peak current as well as superior rms current ratings. This series is ideal for high pulse operation and high peak current circuits. Specifications Voltage Range: Vdc Capacitance Range: µf Capacitance Tolerance: ±10% Operating Temperature Range: -55 C to 105 C* *Full-rated voltage at 85 C Derate linearly to 50%-rated voltage at 105 C d W MAX. Foil Polypropylene Metallized polypropylene Construction 600 Vdc and Higher (41mm) MIN. NOTE: L MAX (41mm) MIN. T MAX. Request for non-listed capacitance values, size modifications and application specific requirements are welcomed by our engineering staff. Pulse, Hi-Frequency & Snubber Ratings and Dimensions Typical Typical Cap. Catalog T W L d ESR ESL dv/dt I peak IRMS µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) milliohms nh V/µs A A 600 Vdc (300 Vac) C6P15K.483 (12.3).669 (17.0) (34.0).040 (1.0) C6P22K.565 (14.3).750 (19.0) (34.0).040 (1.0) C6P33K.672 (17.1).857 (21.8) (34.0).040 (1.0) C6P47K.785 (19.9).970 (24.6) (34.0).040 (1.0) C6P68K.927 (23.5) (28.3) (34.0).047 (1.2) C6W1K.758 (19.2) (28.6) (46.0).047 (1.2) C6W1P5K.926 (23.5) (32.9) (46.0).047 (1.2) C6W2K.947 (24.0) (33.5) (54.0).047 (1.2) C6W2P2K.993 (25.2) (34.6) (54.0).047 (1.2) C6W2P5K (27.0) (36.5) (54.0).047 (1.2) Vdc (360 Vac) C8P15K.548 (13.9).733 (18.6) (34.0).040 (1.0) C8P22K.644 (16.4).829 (21.0) (34.0).040 (1.0) C8P33K.769 (19.5).954 (24.2) (34.0).040 (1.0) C8P47K.902 (22.9) (27.6) (34.0).047 (1.2) C8P68K (27.1) (31.8) (34.0).047 (1.2) C8W1K.882 (22.4) (31.8) (46.0).047 (1.2) C8W1P5K.956 (24.3) (33.7) (54.0).047 (1.2) C8W2K.972 (24.7) (34.2) (64.0).047 (1.2) East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 5.013

389 Type 943C, Very High dv/dt, Oval Polypropylene Pulse & High-Frequency Applications Ratings and Dimensions Pulse, Hi-Frequency & Snubber Typical Typical Cap. Catalog T W L d ESR ESL dv/dt I peak IRMS µf Number Inches (mm) Inches (mm) Inches (mm) Inches (mm) milliohms nh V/µs A A 1000 Vdc (400 Vac) C10P1K.569 (14.4).755 (19.2) (34.0).040 (1.0) C10P15K.677 (17.2).862 (21.9) (34.0).040 (1.0) C10P22K.802 (20.4).987 (25.1) (34.0).040 (1.0) C10P33K.654 (16.6) (26.0) (46.0).040 (1.0) C10P47K.777 (19.7) (29.1) (46.0).047 (1.2) C10P68K.933 (23.7) (33.1) (46.0).047 (1.2) C10W1K (25.4) (34.9) (54.0).047 (1.2) C10W1P4K (26.3) (36.0) (64.0).047 (1.2) Vdc (430 Vac) C12P1K.675 (17.1).860 (21.8) (34.0).040 (1.0) C12P15K.807 (20.5).992 (25.2) (34.0).040 (1.0) C12P22K.960 (24.4) (29.1) (34.0).047 (1.2) C12P33K.794 (20.2) (29.6) (46.0).047 (1.2) C12P47K.946 (24.0) (33.4) (46.0).047 (1.2) C12P68K (25.6) (35.0) (54.0).047 (1.2) C12P9K (25.7) (35.1) (64.0).047 (1.2) Vdc (460 Vac) C16S22K.416 (10.6).602 (15.3) (34.0).040 (1.0) C16S33K.487 (12.4).673 (17.1) (34.0).040 (1.0) C16S47K.563 (14.3).748 (19.0) (34.0).040 (1.0) C16S68K.659 (16.7).844 (21.4) (34.0).040 (1.0) C16P1K.780 (19.8).966 (24.5) (34.0).040 (1.0) C16P15K.636 (16.1) (25.5) (46.0).040 (1.0) C16P22K.765 (19.4) (28.8) (46.0).040 (1.0) C16P33K.935 (23.7) (33.2) (46.0).047 (1.2) C16P47K.989 (25.1) (34.5) (54.0).047 (1.2) C16P56K.957 (24.3) (33.7) (64.0).047 (1.2) C16P68K (26.6) (36.0) (64.0).047 (1.2) Vdc (500 Vac) C20S1K.411 (10.4).596 (15.1) (34.0).040 (1.0) C20S15K.480 (12.2).666 (16.9) (34.0).040 (1.0) C20S22K.561 (14.2).747 (19.0) (34.0).040 (1.0) C20S33K.667 (16.9).852 (21.6) (34.0).040 (1.0) C20S47K.525 (13.3).896 (22.8) (46.0).040 (1.0) C20S68K.624 (15.8).995 (25.3) (46.0).040 (1.0) C20P1K.752 (19.1) (28.5) (46.0).047 (1.2) C20P15K.918 (23.3) (32.7) (46.0).047 (1.2) East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

390 Pulse and High-Frequency, Radial-Leaded Polypropylene Types DPP, DPPS, DPFF, DPPM, DPMF Highlights Type DPP is standard film/foil construction. Types DPPS and DPFF are series-wound extended foil with a floating common foil for 800 Vdc and up. Types DPPM and DPMF are similar except use metallized polypropylene film for the floating common foil for 800 Vdc and up. This alternate construction cuts the capacitor volume by almost half. Specifications Voltage Range: Vdc ( Vac) Capacitance Range: µf Operating Temperature Range: -55 C to 85 C Choose with confidence any of these high peak current, radial-leaded, polypropylene, film/foil capacitors for your snubber application. They are offered here for easy use in snubbers with the highest peak current ratings listed first. Ratings max. Cap. Catalog L H T S d Ipk Irms, Amps µf Number in. (mm) in. (mm) in. (mm) in. (mm) in. (mm) Amps 1 khz 10 khz 100 khz 250 Vdc (155 Vac).010 DPP2S1K.590 (15.0).470 (12.0).280 (7.0).394 (10.0).024 (.6) DPFF2S12J.700 (17.8).320 (8.1).260 (6.6).374 (9.5).032 (.8) DPP2S15K.591 (15.0).473 (12.0).300 (7.5).390 (10.0).024 (.6) DPFF2S15J.750 (19.1).370 (9.4).370 (9.4).374 (9.5).032 (.8) DPFF2S18J.700 (17.8).350 (8.9).290 (7.4).374 (9.5).032 (.8) DPP2S22J.591 (15.0).512 (13.0).315 (8.0).390 (10.0).024 (.6) DPFF2S22J.750 (19.1).420 (10.7).420 (10.7).374 (9.5).032 (.8) DPFF2S27J.700 (17.8).390 (9.9).330 (8.4).374 (9.5).032 (.8) DPFF2S33J.750 (19.1).420 (10.7).420 (10.7).370 (9.4).032 (.8) DPP2S33K.788 (20.0).551 (14.0).335 (8.5).590 (15.0).024 (.6) DPMF2S39K.700 (17.8).560 (14.2).320 (8.1).375 (9.5).032 (.8) DPFF2S39J.900 (22.9).380 (9.7).320 (8.1).374 (9.5).032 (.8) DPMF2S47K.700 (17.8).580 (14.7).340 (8.6).375 (9.5).032 (.8) DPP2S47K.788 (20.0).630 (16.0).354 (9.0).590 (15.0).024 (.6) DPFF2S56J.900 (22.9).430 (10.9).370 (9.4).374 (9.5).032 (.8) DPP2S68K.788 (20.0).630 (16.0).433 (11.0).590 (15.0).024 (.6) DPFF2S68J.950 (24.1).450 (11.4).450 (11.4).370 (9.4).032 (.8) DPMF2S82K.950 (24.1).600 (15.2).360 (9.1).375 (9.5).032 (.8) L S H min. T d Pulse, Hi-Frequency & Snubber 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 5.015

391 Pulse and High-Frequency, Radial-Leaded Polypropylene Ratings Cap. Catalog L H T S d Ipk Irms, Amps µf Number in. (mm) in. (mm) in. (mm) in. (mm) in. (mm) Amps 1 khz 10 khz 100 khz 250 Vdc (155 Vac) Pulse, Hi-Frequency & Snubber.082 DPFF2S82J (31.8).420 (10.7).260 (9.1).720 (18.3).032 (.8) DPP2P1K (26.0).710 (18.0).390 (10.0).790 (20.0).032 (.8) DPFF2P1J (31.8).450 (11.4).450 (11.4).720 (18.3).032 (.8) DPMF2P12K.950 (24.1).690 (17.5).400 (10.2).375 (9.5).032 (.8) DPFF2P12J (31.8).470 (11.9).410 (10.4).720 (18.3).032 (.8) DPP2P15K (26.0).870 (22.0).470 (12.0).790 (20.0).032 (.8) DPFF2P15J (33.0).550 (14.0).550 (14.0).720 (18.3).032 (.8) DPFF2P18J (31.8).530 (13.5).470 (11.9).720 (18.3).032 (.8) DPP2P22K (26.0).940 (24.0).550 (14.0).790 (20.0).032 (.8) DPFF2P22J (33.0).620 (15.7).620 (15.7).720 (18.3).032 (.8) DPMF2P27K (31.8).750 (19.1).470 (11.9).719 (18.3).032 (.8) DPFF2P27J (41.9).550 (14.0).490 (12.4) (27.8).032 (.8) DPP2P33K (32.0).980 (25.0).590 (15.0) (27.5).032 (.8) DPFF2P33J (41.9).650 (16.5).650 (16.5) (27.8).032 (.8) DPMF2P39K (31.8).900 (22.9).510 (13.0).719 (18.3).032 (.8) DPFF2P39J (41.9).620 (15.7).560 (14.7) (27.8).032 (.8) DPP2P47K (32.0) (27.0).630 (16.0) (27.5).032 (.8) DPFF2P47J (43.2).750 (19.1).750 (19.1) (27.8).032 (.8) DPMF2P56K (31.8) (25.4).610 (15.5).719 (18.3).032 (.8) DPMF2P68K (43.2).940 (23.9).560 (14.2) (27.8).032 (.8) DPMF2P82K (43.2) (25.4).610 (15.5) (27.8).032 (.8) DPMF2W1K (43.2) (27.2).680 (17.3) (27.8).032 (.8) Vdc (200 Vac).0039 DPFF4D39J.700 (17.8).380 (9.7).400 (10.2).374 (9.5).032 (.8) DPFF4D47J.700 (17.8).380 (9.7).340 (8.6).374 (9.5).032 (.8) DPFF4D56J.700 (17.8).400 (10.2).360 (9.1).374 (9.5).032 (.8) DPFF4D68J.700 (17.8).350 (8.9).290 (7.8).374 (9.5).032 (.8) DPFF4D82J.700 (17.8).360 (9.1).300 (7.6).374 (9.5).032 (.8) DPP4S1K.591 (15.0).550 (14.0).335 (8.5).390 (10.0).024 (.6) DPFF4S1J.700 (17.8).360 (9.1).300 (7.6).374 (9.5).032 (.8) DPFF4S12J.700 (17.8).380 (9.7).320 (8.1).374 (9.5).032 (.8) DPP4S15K.591 (15.0).590 (15.0).350 (9.0).390 (10.0).024 (.6) DPFF4S15J.750 (19.1).450 (11.4).450 (11.4).374 (9.5).032 (.8) DPFF4S18J.900 (22.9).370 (9.4).310 (7.9).374 (9.5).032 (.8) DPP4S22K.790 (20.0).670 (17.0).390 (10.0).590 (15.0).024 (.6) DPFF4S22J.900 (22.9).390 (9.9).330 (8.4).374 (9.5).032 (.8) DPFF4S27J.900 (22.9).420 (10.7).360 (9.1).374 (9.5).032 (.8) DPP4S33K.790 (20.0).420 (17.0).390 (10.0).590 (15.0).024 (.6) DPFF4S33J.950 (24.1).500 (12.7).500 ( (9.5).032 (.8) DPMF4S39K.950 (24.1).600 (15.2).360 (9.1).375 (9.5).032 (.8) DPFF4S39J (31.8).410 (10.4).350 (8.9).720 (18.3).032 (.8) DPP4S47K (26.0).630 (16.0).354 (9.0).790 (20.0).032 (.8) DPFF4S47J (31.8).430 (10.9).370 (9.4).720 (18.3).032 (.8) DPMF4S56K.950 (24.1).680 (17.3).400 (10.2).375 (9.5).032 (.8) DPFF4S56J (33.0).450 (11.4).390 (9.9).720 (18.3).032 (.8) DPP4S68K (26.0).710 (18.0).433 (11.0).790 (20.0).032 (.8) DPFF4S68J (33.0).480 (12.2).420 (10.7).720 (18.3).032 (.8) DPFF4S82J (33.0).510 (13.0).450 (11.4).720 (18.3).032 (.8) East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

392 Pulse and High-Frequency, Radial-Leaded Polypropylene Ratings Cap. Catalog L H T S d Ipk Irms, Amps µf Number in. (mm) in. (mm) in. (mm) in. (mm) in. (mm) Amps 1 khz 10 khz 100 khz 400 Vdc (200 Vac).10 DPP4P1K (32.0).788 (20.0).473 (12.0) (27.5).032 (.8) DPFF4P1J (31.8).540 (13.7).480 (12.2).720 (18.3).032 (.8) DPFF4P12J (31.8).580 (14.7).520 (13.2).720 (18.3).032 (.8) DPP4P15K (32.0).910 (23.0).470 (12.0) (27.5).032 (.8) DPFF4P15J (33.0).650 (16.5).650 (16.5).719 (18.3).032 (.8) DPMF4P18K (31.8).890 (22.6).500 (12.7).719 (18.3).040 (1.0) DPFF4P18J (41.9).600 (15.2).540 (13.7) (27.8).032 (.8) DPMF4P22K (31.8).950 (24.1).570 (14.5).719 (18.3).040 (1.0) DPFF4P22J (43.2).700 (17.8).700 (17.8) (27.8).032 (.8) DPMF4P27K (31.8) (25.7).630 (16.0).719 (18.3).040 (1.0) DPFF4P27J (43.2).680 (17.5).630 (16.0) (27.8).032 (.8) DPFF4P33J (43.2).800 (20.3).800 (20.3) (27.8).032 (.8) DPFF4P39J (43.2).810 (20.6).750 (19.1) (27.8).032 (.8) DPFF4P47J (43.2).900 (22.9).900 (22.9) (27.8).032 (.8) Vdc (250 Vac).0010 DPP6D1K.591 (15.0).492 (12.5).256 (6.5).390 (10.0).024 (.6) DPFF6D1J.700 (17.8).390 (9.9).350 (8.9).374 (9.5).032 (.8) DPFF6D12J.700 (17.8).400 (10.2).360 (9.1).374 (9.5).032 (.8) DPP6D15K.591 (15.0).492 (12.5).276 (7.0).390 (10.0).024 (.6) DPFF6D15J.750 (19.1).400 (10.2).400 (10.2).374 (9.5).032 (.8) DPFF6D18J.700 (17.8).380 (9.7).340 (8.6).374 (9.5).032 (.8) DPP6D22K.591 (15.0).492 (12.5).276 (7.0).390 (10.0).024 (.6) DPFF6D22J.700 (17.8).370 (9.4).330 (8.4).374 (9.5).032 (.8) DPFF6D27J.700 (17.8).390 (9.9).350 (8.9).374 (9.5).032 (.8) DPP6D33K.768 (19.5).470 (12.0).295 (7.5).590 (15.0).024 (.6) DPFF6D33J.750 (19.1).400 (10.2).400 (10.2).374 (9.5).032 (.8) DPFF6D39J.700 (17.8).380 (9.7).340 (8.6).374 (9.5).032 (.8) DPP6D47K.768 (19.5).492 (12.5).315 (8.0).590 (15.0).024 (.6) DPFF6D47J.750 (19.1).450 (11.4).450 (11.4).374 (9.5).032 (.8) DPFF6D56J.700 (17.8).400 (10.2).360 (9.1).374 (9.5).032 (.8) DPP6D68K.768 (19.5).550 (14.0).354 (9.0).590 (15.0).024 (.6) DPFF6D68J.750 (19.1).450 (11.4).450 (11.4).374 (9.5).032 (.8) DPMF6D82K.700 (17.8).560 (14.2).320 (8.1).375 (9.5).032 (.8) DPFF6D82J.900 (22.9).380 (9.7).340 (8.6).374 (9.5).032 (.8) DPP6S1K (26.0).550 (14.0).354 (9.0).790 (20.0).024 (.6) DPFF6S1J.950 (24.1).450 (11.4).450 (11.4).374 (9.5).032 (.8) DPFF6S12J.900 (22.9).420 (10.7).380 (9.7).374 (9.5).032 (.8) DPP6S15K (26.0).630 (16.0).394 (10.0).790 (20.0).024 (.6) DPFF6S15J.950 (24.1).500 (12.7).500 (12.7).374 (9.5).032 (.8) DPFF6S18J.900 (22.9).480 (12.2).440 (11.2).374 (9.5).032 (.8) DPP6S22K (26.0).670 (17.0).433 (11.0).790 (20.0).024 (.6) DPFF6S22J.950 (24.1).550 (14.0).550 (14.0).374 (9.5).032 (.8) DPMF6S27K.950 (24.1).690 (17.5).410 (10.4).375 (9.5).032 (.8) DPFF6S27J (33.0).550 (14.0).550 (14.0).720 (18.3).032 (.8) DPP6S33K (32.0).670 (17.0).433 (11.0).080 (27.5).032 (.8) DPFF6S33J (31.8).500 (12.7).460 (11.7).720 (18.3).032 (.8) DPMF6S39K.950 (24.1).760 (19.3).480 (12.2).375 (9.5).032 (.8) DPFF6S39J (31.8).530 (13.5).490 (12.4).720 (18.3).032 (.8) Pulse, Hi-Frequency & Snubber 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 5.017

393 Pulse and High-Frequency, Radial-Leaded Polypropylene Ratings Cap. Catalog L H T S d Ipk Irms, Amps µf Number in. (mm) in. (mm) in. (mm) in. (mm) in. (mm) Amps 1 khz 10 khz 100 khz 630 Vdc (250 Vac).047 DPP6S47K (32.0).750 (19.0).492 (12.5) (27.5).032 (.8) DPFF6S47J (31.8).560 (14.2).520 (13.2).720 (18.3).032 (.8) DPFF6S56J (31.8).600 (15.2).560 (14.2).720 (18.3).032 (.8) DPP6S68K (32.0).870 (22.0).550 (14.0) (27.5).032 (.8) DPFF6S68J (33.0).650 (16.5).650 (16.5).720 (18.3).032 (.8) DPFF6S82J (31.8).690 (17.5).650 (16.5).720 (18.3).032 (.8) DPP6P1K (32.0).866 (22.0).512 (13.0) (27.5).032 (.8) DPFF6P1J (33.0).750 (19.1).750 (19.1).720 (18.3).032 (.8) DPMF6P12K (31.8).970 (24.6).590 (15.0).720 (18.3).040 (1.0) DPFF6P12J (41.9).690 (17.5).650 (16.5) (27.8).032 (.8) DPFF6P15J (43.2).750 (19.1).750 (19.1) (27.8).032 (.8) DPFF6P18J (41.9).810 (20.6).770 (19.6) (27.8).032 (.8) DPFF6P22J (43.2).850 (21.6).850 (21.6) (27.8).032 (.8) Vdc (450 Vac) Pulse, Hi-Frequency & Snubber.0056 DPFF8D56J (33.0).500 (12.7).500 (12.7).720 (18.3).032 (.8) DPFF8D68J (31.8).340 (8.6).280 (7.1).720 (18.3).032 (.8) DPFF8D82J (31.8).370 (9.4).310 (7.9).720 (18.3).032 (.8) DPFF8S1J (33.0).500 (12.7).500 (12.7).720 (18.3).032 (.8) DPFF8S12J (33.0).550 (14.0).550 (14.0).720 (18.3).032 (.8) DPFF8S15J (33.0).550 (14.0).550 (14.0).720 (18.3).032 (.8) DPFF8S18J (31.8).470 (11.9).410 (10.4).720 (18.3).032 (.8) DPFF8S22J (33.0).600 (15.2).600 (15.2).720 (18.3).032 (.8) DPFF8S27J (31.8).530 (13.5).470 (11.9).720 (18.3).032 (.8) DPFF8S33J (33.0).700 (17.8).510 (13.0).720 (18.3).032 (.8) DPFF8S39J (41.9).530 (13.5).470 (11.9) (27.8).032 (.8) DPFF8S47J (41.9).560 (14.2).500 (12.7) (27.8).032 (.8) DPFF8S56J (41.9).590 (15.0).530 (13.5) (27.8).032 (.8) DPFF8S68J (43.2).800 (20.3).800 (20.3) (27.8).032 (.8) DPFF8S82J (41.9).680 (17.3).620 (15.7) (27.8).032 (.8) DPFF8P1J (43.2).900 (22.9).900 (22.9) (27.8).032 (.8) DPMF8P12K (43.2) (25.7).620 (15.7) (27.8).040 (1.0) Vdc (450 Vac).0010 DPPS10D1K.984 (25.0).511 (13.0).314 (8.0).826 (21.0).032 (.8) DPPM10D1K.984 (25.0).452 (11.5).256 (6.5).826 (21.0).032 (.8) DPPS10D12K.984 (25.0).511 (13.0).314 (8.0).826 (21.0).032 (.8) DPPM10D12K.984 (25.0).452 (11.5).256 (6.5).826 (21.0).032 (.8) DPPS10D15K.984 (25.0).511 (13.0).314 (8.0).826 (21.0).032 (.8) DPPM10D15K.984 (25.0).452 (11.5).256 (6.5).826 (21.0).032 (.8) DPPS10D18K.984 (25.0).511 (13.0).314 (8.0).826 (21.0).032 (.8) DPPM10D18K.984 (25.0).452 (11.5).256 (6.5).826 (21.0).032 (.8) DPPS10D22K.984 (25.0).551 (14.0).334 (8.5).826 (21.0).032 (.8) DPPM10D22K.984 (25.0).452 (11.5).256 (6.5).826 (21.0).032 (.8) DPPM10D27K.984 (25.0).472 (12.0).275 (7.0).826 (21.0).032 (.8) DPPS10D33K.984 (25.0).590 (15.0).354 (9.0).826 (21.0).032 (.8) DPPM10D33K.984 (25.0).492 (12.5).275 (7.0).826 (21.0).032 (.8) DPPS10D39K.984 (25.0).590 (15.0).354 (9.0).826 (21.0).032 (.8) East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

394 Pulse and High-Frequency, Radial-Leaded Polypropylene Ratings Cap. Catalog L H T S d Ipk Irms, Amps µf Number in. (mm) in. (mm) in. (mm) in. (mm) in. (mm) Amps 1 khz 10 khz 100 khz 1000 Vdc (450 Vac).0039 DPPM10D39K.984 (25.0).511 (13.0).275 (7.0).826 (21.0).032 (.8) DPPS10D47K.984 (25.0).629 (16.0).374 (9.5).826 (21.0).032 (.8) DPPM10D47K.984 (25.0).531 (13.5).295 (7.5).826 (21.0).032 (.8) DPPSD10D56K.984 (25.0).669 (17.0).413 (10.5).826 (21.0).032 (.8) DPPM10D56K.984 (25.0).551 (14.0).314 (8.0).826 (21.0).032 (.8) DPPS10D68K.984 (25.0).708 (18.0).452 (11.5).826 (21.0).032 (.8) DPPM10D68K.984 (25.0).570 (14.5).334 (8.5).826 (21.0).032 (.8) DPPS10D82K.984 (25.0).826 (21.0).492 (12.5).826 (21.0).032 (.8) DPPM10D82K.984 (25.0).826 (21.0).334 (8.5).826 (21.0).032 (.8) DPPS10S1K.984 (25.0).826 (21.0).511 (13.0).826 (21.0).032 (.8) DPPM10S1K.984 (25.0).826 (21.0).374 (9.5).826 (21.0).032 (.8) DPPS10S12K.984 (25.0).826 (21.0).511 (13.0).826 (21.0).032 (.8) DPPM10S12K.984 (25.0).826 (21.0).393 (10.0).826 (21.0).032 (.8) DPPS10S15K (32.0) (26.5).511 (13.0) (26.5).032 (.8) DPPM10S15K (31.0) (26.5).374 (9.5) (26.5).032 (.8) DPPS10S18K (32.0) (26.5).551 (14.0) (26.5).032 (.8) DPPM10S18K (31.0) (26.5).393 (10.0) (26.5).032 (.8) DPPS10S22K (32.0) (26.5).510 (15.5) (26.5).032 (.8) DPPM10S22K (31.0) (26.5).433 (11.0) (26.5).032 (.8) DPPS10S27K (32.0) (28.0).669 (17.0) (28.0).032 (.8) DPPM10S27K (31.0) (26.5).472 (12.0) (26.5).032 (.8) DPPS10S33K (32.0) (28.0).748 (19.0) (28.0).032 (.8) DPPM10S33K (31.0) (26.5).511 (13.0) (26.5).032 (.8) DPPM10S39K (31.0) (26.5).551 (14.0) (26.5).032 (.8) DPPM10S47K (31.0) (26.5).590 (15.0) (26.5).032 (.8) Pulse, Hi-Frequency & Snubber 1200 Vdc (475 Vac).0010 DPPM12D1K.984 (25.0).452 (11.5).256 (6.5).826 (21.0).032 (.8) DPPM12D12K.984 (25.0).452 (11.5).256 (6.5).826 (21.0).032 (.8) DPPM12D15K.984 (25.0).452 (11.5).256 (6.5).826 (21.0).032 (.8) DPPM12D18K.984 (25.0).472 (12.0).275 (7.0).826 (21.0).032 (.8) DPPM12D22K.984 (25.0).492 (12.5).275 (7.0).826 (21.0).032 (.8) DPFF12D27J (31.8).420 (10.7).380 (9.7).720 (18.3).032 (.8) DPPM12D27K.984 (25.0).492 (12.5).275 (7.0).826 (21.0).032 (.8) DPFF12D33J (31.8).380 (9.7).320 (8.1).720 (18.3).032 (.8) DPPM12D33K.984 (25.0).511 (13.0).295 (7.5).826 (21.0).032 (.8) DPFF12D39J (31.8).400 (10.2).340 (8.6).720 (18.3).032 (.8) DPPM12D39K.984 (25.0).531 (13.5).295 (7.5).826 (21.0).032 (.8) DPFF12D47J (31.8).420 (10.7).360 (9.1).720 (18.3).032 (.8) DPPM12D47K.984 (25.0).551 (14.0).314 (8.0).826 (21.0).032 (.8) DPFF12D56J (31.8).440 (11.2).380 (9.7).720 (18.3).032 (.8) DPPM12D56K.984 (25.0).570 (14.5).334 (8.5).826 (21.0).032 (.8) DPFF12D68J (31.8).470 (11.9).410 (10.4).720 (18.3).032 (.8) DPPM12D68K (31.0).590 (15.0).314 (8.0) (26.5).032 (.8) DPFF12D82J (31.8).500 (12.7).440 (11.2).720 (18.3).032 (.8) DPPM12D82K (31.0).610 (15.5).334 (8.5) (26.5).032 (.8) DPFF12S1J (31.8).530 (13.5).470 (11.9).720 (18.3).032 (.8) DPPM12S1K (31.0).629 (16.0).354 (9.0) (26.5).032 (.8) DPFF12S12J (31.8).570 (14.5).510 (13.0).720 (18.3).032 (.8) DPPM12S12K (31.0).669 (17.0).374 (9.5) (26.5).032 (.8) East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 5.019

395 Pulse and High-Frequency, Radial-Leaded Polypropylene Ratings Cap. Catalog L H T S d Ipk Irms, Amps µf Number in. (mm) in. (mm) in. (mm) in. (mm) in. (mm) Amps 1 khz 10 khz 100 khz 1200 Vdc (475 Vac).015 DPFF12S15J (33.0).650 (16.5).650 (16.5).720 (18.3).032 (.8) DPPM12S15K (31.0).708 (18.0).413 (10.5) (26.5).032 (.8) DPFF12S18J (41.9).560 (14.2).500 (12.7) (27.8).032 (.8) DPPM12S18K (31.0).748 (19.0).433 (11.0) (26.5).032 (.8) DPFF12S22J (41.9).600 (15.2).540 (13.7) (27.8).032 (.8) DPPM12S22K (31.0).787 (20.0).472 (12.0) (26.5).032 (.8) DPFF12S27J (41.9).650 (16.5).590 (15.0) (27.8).032 (.8) DPPM12S27K (31.0).826 (21.0).511 (13.0) (26.5).032 (.8) DPFF12S33J (41.9).700 (17.8).640 (16.3) (27.8).032 (.8) DPPM12S33K (31.0).866 (22.0).551 (14.0) (26.5).032 (.8) DPFF12S39J (43.2).850 (21.6).850 (21.6) (27.8).032 (.8) DPPM12S47J (41.9).800 (20.3).740 (18.8) (27.8).032 (.8) DPMF12S56K (43.2) (27.2).680 (17.3) (27.8).040 (1.0) Vdc (500 Vac) Pulse, Hi-Frequency & Snubber.0010 DPPS16D1K.984 (25.0).511 (13.0).354 (9.0).826 (21.0).032 (.8) DPPM16D1K.984 (25.0).452 (11.5).256 (6.5).826 (21.0).032 (.8) DPPS16D12K.984 (25.0).511 (13.0).354 (9.0).826 (21.0).032 (.8) DPPM16D12K.984 (25.0).452 (11.5).256 (6.5).826 (21.0).032 (.8) DPPS16D15K.984 (25.0).511 (13.0).354 (9.0).826 (21.0).032 (.8) DPPM16D15K.984 (25.0).492 (12.5).275 (7.0).826 (21.0).032 (.8) DPPS16D18K.984 (25.0).551 (14.0).354 (9.0).826 (21.0).032 (.8) DPFF16D18J (31.8).380 (9.7).340 (8.6).720 (18.3).032 (.8) DPPS16D22K.984 (25.0).590 (15.0).354 (9.0).826 (21.0).032 (.8) DPFF16D22J (33.0).500 (12.7).500 (12.7).720 (18.3).032 (.8) DPPS16D27K.984 (25.0).629 (16.0).374 (9.5).826 (21.0).032 (.8) DPFF16D27J (31.8).420 (10.7).380 (9.7).720 (18.3).032 (.8) DPPS16D33K.984 (25.0).669 (17.0).413 (10.5).826 (21.0).032 (.8) DPFF16D33J (33.0).550 (14.0).550 (14.0).720 (18.3).032 (.8) DPPS16D39K.984 (25.0).708 (18.0).452 (11.5).826 (21.0).032 (.8) DPFF16D39J (31.8).470 (11.9).430 (10.9).720 (18.3).032 (.8) DPPS16D47K.984 (25.0).4748 (19.0).472 (12.0).826 (21.0).032 (.8) DPFF16D47J (33.0).600 (15.2).600 (15.2).720 (18.3).032 (.8) DPPS16D56K (32.0).826 (21.0).472 (12.0) (26.5).032 (.8) DPFF16D56J (31.8).530 (13.5).490 (12.4).720 (18.3).032 (.8) DPPS16D68K (32.0).826 (21.0).472 (12.0) (26.5).032 (.8) DPFF16D68J (33.0).650 (16.5).650 (16.5).720 (18.3).032 (.8) DPPS16D82K (32.0).866 (22.0).511 (13.0) (26.5).032 (.8) DPFF16D82J (31.8).600 (15.2).560 (14.2).720 (18.3).032 (.8) DPPS16S1K (32.0).905 (23.0).590 (15.0) (26.5).032 (.8) DPFF16S1J (33.0).700 (17.8).700 (17.8).720 (18.3).032 (.8) DPPS16S12K (32.0).944 (24.0).629 (16.0) (26.5).032 (.8) DPFF16S12J (41.9).580 (14.7).540 (13.7) (27.8).032 (.8) DPPS16S15K (32.0) (26.0).708 (18.0) (26.5).032 (.8) DPFF16S15J (43.2).750 (19.1).750 (19.1) (27.8).032 (.8) DPPS16S18K (33.0) (28.0).787 (20.0) (28.0).032 (.8) DPFF16S18J (41.9).670 (17.0).630 (18.0) (27.8).032 (.8) DPPS16S22K (33.0) (30.0).787 (20.0) (28.0).032 (.8) DPFF16S22J (41.9).730 (18.5).690 (17.5) (27.8).032 (.8) DPFF16S27J (41.9).780 (19.8).740 (18.8) (27.8).032 (.8) DPFF16S33J (43.2).950 (24.1).950 (24.1) (27.8).950 (24.1) East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

396 Pulse and High-Frequency, Radial-Leaded Polypropylene Ratings Cap. Catalog L H T S d Ipk Irms, Amps µf Number in. (mm) in. (mm) in. (mm) in. (mm) in. (mm) Amps 1 khz 10 khz 100 khz 2000 Vdc (500 Vac).001 DPPS20D1K.984 (25.0).590 (15.0).393 (10.0).826 (21.0).032 (.8) DPPM20D1K.984 (25.0).492 (12.5).275 (7.0).826 (21.0).032 (.8) DPPS20D12K.984 (25.0).590 (15.0).393 (10.0).826 (21.0).032 (.8) DPPM20D12K.984 (25.0).511 (13.0).295 (7.5).826 (21.0).032 (.8) DPPS20D15K.984 (25.0).590 (15.0).393 (10.0).826 (21.0).032 (.8) DPPM20D15K.984 (25.0).551 (14.0).314 (8.0).826 (21.0).032 (.8) DPPS20D18K.984 (25.0).629 (16.0).433 (11.0).826 (21.0).032 (.8) DPPM20D18K.984 (25.0).610 (15.5).334 (8.5).826 (21.0).032 (.8) DPPS20D22K.984 (25.0).669 (17.0).472 (12.0).826 (21.0).032 (.8) DPPM20D22K.984 (25.0).629 (16.0).354 (9.0).826 (21.0).032 (.8) DPPS20D27K.984 (25.0).708 (18.0).511 (13.0).826 (21.0).032 (.8) DPPM20D27K.984 (25.0).649 (16.5).374 (9.5).826 (21.0).032 (.8) DPPS20D33K.984 (25.0).787 (20.0).551 (14.0).826 (21.0).032 (.8) DPPM20D33K.984 (25.0).688 (17.5).413 (10.5).826 (21.0).032 (.8) DPPS20D39K.984 (25.0).866 (22.0).590 (15.0).826 (21.0).032 (.8) DPPM20D39K.984 (25.0).748 (19.0).433 (11.0).826 (21.0).032 (.8) DPPS20D47K (32.0).866 (22.0).551 (14.0) (26.5).032 (.8) DPPM20D47K (31.0).748 (19.0).393 (10.0) (26.5).032 (.8) DPPS20D56K (32.0).905 (23.0).590 (15.0) (26.5).032 (.8) DPPM20D56K (31.0).767 (19.5).433 (11.0) (26.5).032 (.8) DPPS20D68K (32.0).944 (24.0).629 (16.0) (26.5).032 (.8) DPPM20D68K (31.0).807 (20.5).472 (12.0) (26.5).032 (.8) DPPS20D82K (32.0).984 (25.0).669 (17.0) (26.5).032 (.8) DPPM20D82K (31.0).846 (21.5).511 (13.0) (26.5).032 (.8) DPPS20S1K (32.0) (26.0).708 (18.0) (26.5).032 (.8) DPPM20S1K (31.0).866 (22.0).551 (14.0) (26.5).032 (.8) DPPS20S12K (33.0) (28.5).787 (20.0) (28.0).032 (.8) DPPM20S12K (31.0).925 (23.5).570 (14.5) (26.5).032 (.8) DPPS20S15K (33.0) (31.0).826 (21.0) (28.0).032 (.8) DPPM20S15K (31.0).964 (24.5).629 (16.0) (26.5).032 (.8) Pulse, Hi-Frequency & Snubber 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 5.021

397 Specifications, Pulse and High-Frequency Polypropylene Specifications and Application Guide Capacitance is within tolerance when measured at 1 khz, 25 C. Standard (K) tolerance is ±10% unless specified otherwise. Operating Temperature Range: Polypropylene capacitors may be operated at full rated voltage from -55 C to +85 C. Above 85 C derate linearly to 50% rated voltage at 105 C. Under no circumstances should polypropylene capacitors be used at an ambient temperature exceeding 105 C. For high-frequency operation, the maximum rms current rating ensures that the capacitor s case temperature rise does not exceed 15 C. To calculate the maximum rms voltage and current that would result in a 15 C heat rise, the following equations may be used. For Round Cases Vrms = 2300 [D(.5D+L)/fC(df)].5 Irms =.0144[fCD(.5D+L)/df].5 Pulse, Hi-Frequency & Snubber Insulation Resistance: Insulation resistance is no less than the lesser of the RC product or the R specified in the following table. IR is measured after 2 minutes at 100 VDC and 25±5 C: Type Minimum IR Minimum RC 940C Not Specified 100,000 M x F 941C Not Specified 100,000 M x F 942C Not Specified 100,000 M x F 943C Not Specified 100,000 M x F DPP 100,000 M min 50,000 M x F DPPS 400,000 M min 200,000 M x F DPFF 200,000 M min Not Specified DPPM 400,000 M min Not Specified DPMF 200,000 M min Not Specified SCD Not Specified 100,000 M x F SCM* Not Specified 100,000 M x F SCC* Not Specified 100,000 M x F *Applies to capacitor only. See data tables for diode specifications. Rated DC Voltage is the maximum continuous voltage that may be applied at the maximum rated operating temperature. AC Voltage and Pulse Rating: Keep voltage peaks to less than the rated DC voltage and AC voltage to less than the rated rms volts. Limit the current peaks to the rated peak. For Oval and Rectangular Cases Vrms = 1800 [(TH+TL+HL)/fC(df)].5 Irms =.0115[fC(TH+TL+HL)/(df)].5 Where D,T,H, and L are dimensions in the ratings tables, f is frequency in Hz and C is nominal capacitance in µf. (df) is dissipation factor in percent from the df vs Frequency curve on page Under no circumstances should the applied rms voltage exceed the rated rms voltage otherwise corona inception may occur. Also, rms current must not exceed rated rms current of the leads. Maximum Allowable RMS Lead Current Cap Lead Irms Type Dia. Max. DPP A A DPFF DPPS A DPMF A DPPM A 940C-943C SCD 50 A SCM 50 A SCC 50 A East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

398 Specifications, Pulse and High-Frequency Polypropylene Typical Characteristics Capacitance Change vs. Temperature % Capacitance Change Degrees Centigrade Dissipation Factor vs. Temperature % Dissipation Factor Degrees Centigrade Insulation Resistance vs. Temperature Dissipation Factor vs. Frequency 1,000, ,000 MΩ x µf 100,000 50,000 10,000 5,000 1, Degrees Centigrade % Dissipation Factor khz 1 khz 10 khz 100 khz Frequency Pulse, Hi-Frequency & Snubber 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 5.023

399 Pulse and High-Frequency, Radial-Leaded Mica Pulse, Hi-Frequency & Snubber Specifications Up to 9.0 amps continuous current Up to 3,700 amps peak current Up to 1,500 Vdc, 400 Vac 100,000 V/µs capability minimum Quiet no piezoelectric buzzing No capacitance change with voltage, temperature or frequency -55 C to +125 C at rated voltage Silvered mica dielectric Ratings Types CD16, CD30, CDV16, CDV19, CDV30 Mica Highlights With 75% lower impedance at resonance than ceramic disks and twice the dv/dt capability of our best polypropylene film/foil capacitors, CDE mica caps are the choice for snubber and resonant power applications. They re quiet, too: there s no piezoelectric buzz like with high K ceramic capacitors. While the industry standard IEC test procedure permits 3% capacitance change after 10,000 dv/dt pulses, CDE mica caps show no change after a million shots. Measured at point where phenolic cone becomes a cylinder Cap. Catalog Dimensions (in.) Ipk Irms, 85 C pf Number L H T S d Amps 100 khz 250 khz 500 khz 1 MHz 2.5 MHz 5 MHz L Max. S ±.031 H Max..078 Max. No solder d T Max Min. Copper-clad steel leads Type AWG CD16 20 CD30 18 CDV16 20 CDV19 20 CDV Vdc (300 Vac) 100 CD16FD101J CD16FD121J CD16FD151J CD16FD181J CD16FD221J CD16FD271J CD16FD331J CD16FD391J CD16FD471J CD16FD561J CD16FD681J CD16FD821J CD16FD102J CD16FD122J CD16FD152J CD16FD182J CD16FD222J CD16FD272J CD16FD302J East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

400 Pulse and High-Frequency, Radial-Leaded Mica Ratings Cap. Catalog Dimensions (in.) Ipk Irms, 85 C pf Number L H T S d Amps 100 khz 250 khz 500 khz 1 MHz 2.5 MHz 5 MHz 500 Vdc (300 Vac) 3300 CD16FD332J CD16FD362J CD16FD392J CD16FD432J CD16FD472J CD16FD562J CD16FD682J CD16FD752J CD30FD822J CD30FD103J Vdc (350 Vac) 100 CDV16FF101J CDV16FF151J CDV16FF221J CDV16FF331J CDV16FF471J CDV16FF681J CDV16FF102J CDV16FF152J CDV16FF222J CDV16FF302J CDV19FF332J CDV19FF472J CDV30FF682J CDV30FF822J CDV30FF103J Vdc (400 Vac) Pulse, Hi-Frequency & Snubber 100 CDV30FH101J CDV30FH151J CDV30FH221J CDV30FH331J CDV30FH471J CDV30FH681J CDV30FH102J CDV30FH152J CDV30FH222J CDV30FH332J CDV30FH472J CDV30FH682J CDV30FH822J East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 5.025

401 Pulse and High-Frequency, Radial-Leaded Mica Specifications and Application Guide Pulse, Hi-Frequency & Snubber Capacitance Tolerance: ±5% is standard. Capacitance is within tolerance when measured at these frequencies: MHz > khz Dissipation Factor is equal to DF=2πfRC, where f is the test frequency, R is the equivalent series resistance, and C is the capacitance. Limits are: Capacitance Dissipation Factor pf max at 1 MHz pf max at 1 khz pf max at 1 khz 10,000 pf max at 1 khz Quality Factor Q is the reciprocal of dissipation factor. Insulation Resistance is no less than 100 GΩ at 25 C and 10 GΩ at 125 C. Pulse Capability: The brass clips used in Snubber Mike capacitors allow them to endure huge transient currents. All are capable of withstanding an unlimited number of pulses with a dv/dt of 100,000 V/µs tested per IEC dv/dt ratings are: Types CD16 CD30 Rated CDV16 CDV19 CDV30 Volts dv/dt maximum, V/µs The peak current rating in amps is the rated capacitance in µf times the dv/dt rating: Ipk = C(dV/dt) Voltage Coefficient: The change in capacitance from 0 volts to rated voltage is less than 0.1%. Temperature Coefficient and Capacitance Drift: Measure capacitance at 25 C, -55 C, 25 C, 125 C and at 25 C after stabilizing at each temperature. The temperature coefficient will be 35 ±35 ppm/ C and the capacitance will be the initial value ±(.05%+.1 pf). Marking: Per EIA RS153 B and includes CDE s name, nominal capacitance in pf, capacitance tolerance, and DC working voltage if other than 500 V. Solderability: After an 8-hour steam aging, coat leads with rosin flux (R) and immerse in molten 245 C ±5%C 60/40 tin lead solder. Solder coverage will be no less than 95% when examined at 10X magnification. Life Test: Subject the capacitors to maximum operating temperature (+125 C or +150 C) with 1.5 times rated voltage applied for 2000 hours. There will be no visual damage and the capacitors will meet these after-test limits: Withstanding voltage and insulation resistance initial requirements; capacitance change ±1% maximum; and, DF 150% initial limit maximum. Moisture Resistance: will meet the requirements of MIL-STD-202, Method 106F as outlined here and diagrammed below. Refer to MIL-STD-202 for details. 1. Dry capacitors for 24 hours in a 50±2 C oven and then allow to stabilize at room temperature. 2. Subject the capacitors to ten 24-hour continuous cycles with relative humidity and temperature as shown hours after completion of the last cycle the capacitors will show no visual damage and will meet these after-test limits: Withstanding voltage initial requirement; insulation resistance 30 GΩ minimum; capacitance change ±1% maximum; and, DF 150% initial limit maximum East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

402 Pulse and High-Frequency, Radial-Leaded Mica Specifications and Application Guide Pulse, Hi-Frequency & Snubber 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508)

403 Pulse, Hi-Frequency & Snubber Type SNU, Oil-Filled, Metallic Oval Case Snubber Cap. Stock Catalog Case Height (H) Amps µf Items Number Code (inches) RMS 55 C 1000 Vpk 0.10 S SNU102K104R A S SNU102K254R A S SNU102K504R A S SNU102K105R A S SNU102K205R A Vpk 0.05 S SNU202K503R A S SNU202K104R A S SNU202K254R A S SNU202K504R A S SNU202K105R A Type SNU for Snubber Applications Film/Paper/Extended Foil Type SNU capacitors have low inductance and high peak current ratings making them ideal for power snubber applications. Use Type SNU to reduce voltage transients across semiconductor devices such as SCRs. Highlights Voltage ratings: 1000 Vpk, 2000 Vpk Capacitance range: 0.05µF to 2.0µF Capacitance tolerance: ±10% Operating temperature range: -40 C to 85 C Dissipation factor:.3% maximum Internally protected (not UL recognized) Series inductance: 0.10 microhenries maximum Aluminum case (tinplate steel may be substituted for aluminum) 2.16" ±.06".81" ± " ±.06" Mounting Hardware.50 MAX. Wrap Around Universal screw and nut Case Height End Mount Side Mount End Mount (2 required) Side Mount (2 required) H +.12" -.06" East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

404 Application Guide, Snubber Designing an RC Snubber Snubbers are any of several simple energyabsorbing circuits used to eliminate voltage spikes caused by circuit inductance when a switch either mechanical or semi-conductor opens. The object of the snubber is to eliminate the voltage transient and ringing that occurs when the switch opens by providing an alternate path for the current flowing through the circuit s intrinsic leakage inductance. Snubbers in switchmode power supplies provide one or more of these three valuable functions: Shape the load line of a bipolar switching transistor to keep it in its safe operating area. Remove energy from a switching transistor and dissipate the energy in a resistor to reduce junction temperature. Reduce ringing to limit the peak voltage on a switching transistor or rectifying diode and to reduce EMI by reducing emissions and lowering their frequency. The most popular snubber circuit is a capacitor and a series resistor connected across a switch. Here s how to design that ubiquitous RC Snubber: Component Selection: Choose a resistor that s noninductive. A good choice is a carbon composition resistor. A carbon film resistor is satisfactory unless it s trimmed to value with a spiral abrasion pattern. Avoid wirewound because it is inductive. Choose a capacitor from this datasheet to withstand the stratospherically high peak currents in snubbers. For capacitance values up to 0.01 µf, look first at Snubber Mike dipped mica capacitors. For higher capacitance values, look at the Type DPP radial-leaded polypropylene, film/foil capacitors. Axial-leaded Type WPP is as good except for the higher inductance intrinsic to axial-leaded devices. The highest Type DPP rated voltage is 630 Vdc and the highest Type WPP voltage is 1000 Vdc. For higher voltages and capacitances, stay with polypropylene film/foil capacitors, choosing the case size you prefer from Types DPFF and DPPS selections. For the smallest case size, choose Type DPPM or DPMF, but realize that these types include floating, metallized film as common foils to achieve small size. The use of metallized film reduces the peak current capability to from a third to a fifth of the other high-voltage choices. The selection process is easy in this datasheet peak current and rms current capability is provided with the capacitance ratings. The peak current capability is the dv/dt capability times the nominal capacitance. The rms current capability is the lower of the current which causes the capacitor to heat up 15 C or the current which causes the capacitor to reach its AC voltage. We ve included dv/dt capability tables to allow you to compare CDE snubber capacitors to other brands. Snubber Mikes can withstand dv/dts of more than 100,000 V/µs for all ratings and Type DPPs can withstand more than 2000 V/µs. For high-voltage snubbers, Types DPFF and DPPS handle more than 3000 V/µs, and Types DPMF and DPPM, more than 1000 V/µs. See the table for values according to case length. Assuming that the source impedance is negligible the worst case assumption the peak current for your RC Snubber is: I pk = V o R s And the peak dv/dt is: dv/dt pk = V o R s C s While for a sinewave excitation voltage, rms current in amps is the familiar: I rms = 2πfCV rms x 10 6 For a squarewave you can approximate rms and peak current as: CVpp I rms =.64 tt q and Ipeak = CVpp V o R s C s = open circuit voltage = snubber resistance = snubber capacitance f = frequency in Hz C = capacitance in µf V = voltage in V rms V pp = peak-peak volts t = pulse width in µs T = pulse period in µs.64t Other Capacitor Types: Here s a last word on capacitor choice to help you venture out on your own into the uncharted territory of capacitors not specified for use in snubbers and not in this Pulse, Hi-Frequency & Snubber 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 5.029

405 Application Guide, Snubber Pulse, Hi-Frequency & Snubber datasheet. Realize that metallized film types and high-k ceramic types have limited peak-current and transient withstanding capability, on the order of 50 to 200 V/µs. Polyester has 15 times the loss of polypropylene and is fit only for low rms currents or duty cycles. And, be sure to take voltage and temperature coefficients into account. While a Snubber Mike s or a Type DPP s capacitance is nearly independent of voltage and temperature, by comparison, a high-k ceramic dielectric like Y5V can lose 3 of its capacitance from room temperature to 50 C (122 F) and lose another 3 from zero volts to 50% rated voltage. Quick Snubber Design: Where power dissipation is not critical, there is a quick way to design a snubber. Plan on using a 2-watt carbon composition resistor. Choose the resistor value so that the same current can continue to flow without voltage overshoot after the switch opens and the current is diverted into the snubber. Measure or calculate the voltage across the switch after it opens and the current through it at the instant before the switch opens. For the current to flow through the resistor without requiring a voltage overshoot, Ohm s Law says the resistance must be: R # = off voltage V o V o C s = 1 = 780pF (160) 2 (50 x 10 3 ) Optimum Snubber Design: For optimum snubber design using the AC characteristics of your circuit, first determine the circuit s intrinsic capacitance and inductance. Suppose you were designing a snubber for the same transistor switch as in the Quick example. Then on a scope note the ringing frequency of the voltage transient when the transistor turns off. Next, starting with a 100 pf Snubber Mike capacitor, increase the capacitance across the transistor in steps until the ringing frequency is half of the starting frequency. The capacitance you have added in parallel with the transistor s intrinsic capacitance has now increased the total capacitance by a factor of four as the ringing frequency is inversely proportional to the square root of the circuit s inductancecapacitance product: f o = 1 2π q LC So, the transistor s intrinsic capacitance, C i, is a of the added capacitance, and the circuit inductance, the the above equation, is: L I i = 1 I = on current f i = initial ringing frequency C The resistor s power dissipation is independent of i (2πf i ) 2 C i = intrinsic capacitance the resistance R because the resistor dissipates (added capacitance) /3 the energy stored in the snubber capacitor, L i = intrinsic inductance 2C s V o 2, for each voltage transition regardless of the resistance. Choose the capacitance to cause When the transistor switch opens, the snubber the 2-watt resistor to dissipate half of its power rating, one watt. For two times f s transitions per sec- and only the snubber resistor is in the circuit. capacitor looks like a short to the voltage change, ond, the resistor will dissipate one watt when: Choose a resistor value no larger than the characteristic impedance of the circuit so that the inductive current to be snubbed can continue 1 = (2C s V o 2)(2f s ) f s = switching frequency C s = 1 unchanged without a voltage transient when the switch opens: V o 2f s As an illustration, suppose that you have designed R = q L i /C i a switchmode converter and you want to snub one You may need to choose an even smaller resistance to reduce voltage overshoot. The right of the transistor switches. The switching frequency is 50 khz and the open-switch voltage is 160 Vdc resistance can be as little as half the characteristic with a maximum switch current of 5A. The resistor impedance for better sampling of the Intrinsic LC value must be: circuit. R # 160/5 = 32 Ω The power dissipated in the resistor is the energy and the capacitance value is: in the capacitance, 2C s V o 2, times the switching East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

406 Application Guide, Snubber frequency, f s, times the number of voltage transitions per cycle. For example, if your circuit is a half-bridge converter, there are two voltage transitions per cycle and the power in the resistor is: P r = C s V o 2f s C s = snubber capacitance V o = off voltage = switching frequency Choose a snubber capacitance value which meets two requirements: 1) It can provide a final energy storage greater than the energy in the circuit inductance 2C s V 2 o > 2L i I 2 I = closed-circuit C s > LI 2 I V o 2 f s and, 2) it produces a time constant with the snubber resistor that is small compared to the shortest expected on-time for the transistor switch. RC s < t on /10 C s < t on /10R Choosing a capacitance near the low end of the range reduces power dissipated in the resistor, and choosing a capacitance 8 to 10 times the intrinsic capacitance, C i, almost suppresses the voltage overshoot at switch turn off. Try a capacitance at the low end of the range as the initial value and increase it later if needed. Now revisit the Quick example with the added data permitting Optimum design. You ve taken some more measurements on your switchmode converter: the ringing frequency of the voltage transient when the transistor switch opens is 44 MHz and an added parallel capacitance of 200 pf reduces the ringing frequency to 22 MHz. The switching frequency is 50 khz with a 10% minimum duty cycle, and the open-switch voltage is 160 Vdc with a maximum switch current of 5A. So you know the following: f i = 44 MHz C i = 200/3 = 67 pf f s = 50 khz t on = 0.1/(50 x 10 3 ) = 2µs V o = 160 Vdc I = 5A And calculate the circuit inductance: L i = 1 = 0.196µH (67 x )(2π44 x 10 6 ) 2 And the snubber resistor value: R = q 0.196/67 (10-3 ) = 54Ω Before you can calculate the resistor power dissipation, you must first choose the snubber capacitance: L i I 2 < C s < t on V 2 o 10R (0.196 x 10-6 )(5) 2 < C s < 2 x 10-6 (160) 2 (10)(54) 192 < C s < 3700 pf Since power dissipation in the resistor is proportional to the capacitance, choose a standard capacitance value near the low end of the above range. For a 220 pf capacitor and two transitions per cycle, the power dissipation in the resistor is: P r = (220 x )(160) 2 (50 x 10 3 ) = 0.2 W Comparing the Quick design to the Optimum design, you see that for the same converter switch the required snubber resistor s power capability was reduced by a factor of 5, from 1 W to 0.2 W, and the snubber capacitance was reduced by a factor of 3.5, from 780 pf to 220 pf. This was possible because the additional circuit measurements revealed that the source impedance was actually 54 Ω rather than 32 Ω, and that the circuit inductance permitted a smaller capacitance to swallow the circuit s energy. Usually the Quick method is completely adequate for final design. Start with the Quick approach to prove your circuit breadboard, and go on to the Optimum approach only if power efficiency and size constraints dictate the need for optimum design. NOTE: For more on RC snubber design, for RCD snubber design, and for snubber design using IGBT snubber modules, get the application note, Design of Snubbers for Power Circuits, at Pulse, Hi-Frequency & Snubber 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 5.031

407 Motor-Run, Motor-Start and High Voltage DC High-Voltage and Motor

408

409 Selector Guide, Motor-Run, Motor-Start and High Voltage DC Motor Run & Power Supply Motor Start DC/AC-rated Commutating DC-rated Type KKSM,KTSM,KBSM SMP,SMS,SMT,PD ETW OTB SCR T Metallized polypropylene Non Polarized Paper-Film/Foil Paper-Film/Foil Paper-Film/Foi l Self healing, Protected, Aluminum Electrolytic Oil filled, protecte d O il filled, Metal case Oil fille d Oil filled, Metal case PD Dry Plastic case phenolic case Metal case Low inductance Metal case Motor Run Application Power Supplies Motor Start Filters SCR Commutation Filters HID Lighting Blocking Blocking Air Conditioning Power Supplies Power Supplies Ballasts General Purpose AC Motor Controls Voltage Range 240 to 660 Vac 125 to 330 Vac 400 Vdc/236 Vac 200 Vpk to 2000 Vpk 600 Vdc to 5000 Vdc to 3,000 Vdc/950 Vac Capacitance Range 0.5 µf to 120 µf 21µF to 1200 µf 0.1µF to 35 µf 0.05 µf to 50 µf 0.1µF to 15 µf Rated Temperature -40 C to +70 C -40 C to 65 C -55 C to 85 C -40 C to 85 C -55 C to 85 C (Operating) -40 C to +90 C Avail. Dissipation Factor 0.1% N/A 1.0% 0.3% 1.0% (Maximum) Service Life Objective 94% / 60,000 hours 50,000 starts 40,000 hours 95% / 40,000 hours 40,000 hours (Rated Conditions) Agency Approvals UL 810 and CSA UL 810 and CSA for protection for protection High-Voltage and Motor Applicable Standards EIA-456-A UL 810 EIA 463 UL 810/CSA RS-401 (Type SCR) N/A Page East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 6.001

410 Type PD, Leak-Free Motor Run and Power Supply High-Voltage and Motor East Rodney French Blvd. New Bedford, MA (508) , Fax (508)

411 Type PD, Leak-Free Motor Run and Power Supply High-Voltage and Motor 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508)

412 Type SM Motor-Run and Power Supply Metallized Polypropylene Applications Motor Run provide starting torque and power factor correction for split phase motors typically used in refrigeration and air conditioning. Power Supply are used in power supply circuits to provide noise suppression, voltage regulation, and line current reduction Life vs. Temperature High-Voltage and Motor Highlights Voltage range: 240 to 660 Vac Capacitance range:.5 to 120 µf Temperature range: -40 C to 70 C, 90 C avail. Capacitance tolerance: ±10% standard tolerance; ±3% available. Self healing Fault Current Protection up to 10,000 amps AFC Low energy consumption. Dissipation factor <0.1% 2- tine, 1/4" quick connect lug terminals are standard (4 bladed available) Meet requirements of EIA 456A UL recognized file No. E56959 CSA certified file No. LR075387/LR Service Life Objective The service life objective for this series is 60,000 hours of operating life with a 94% survival rate when operated at full voltage, 60 Hz, and rated ambient temperature. AC capacitors are frequently used at voltages and ambient temperatures other than rated conditions. Service life may be estimated under specific conditions of temperature and voltage by using the curves as shown to the right. Capacitance vs. Temperature The Capacitance vs. Temperature curve may be used to determine the capacitance change as a function of temperature. Capacitance varies by no more than ±3% over the operating temperature range. % of Rated Life % of Rated Life Capacitance Change % % of Rated Temperature Life vs. Voltage % of Rated Voltage Capacitance vs. Temperature Temperature C East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

413 Type SM Motor-Run and Power Supply Type SM Oval Case Style B ±.06 Case Code.81 ±.06 Dimensions (Inches) Case Code A B H KK see table KT see table KB see table A ± MAX. H Cap. Stock Catalog Case H (µf) Items Number Code (inches) 370 Vac 70 C Case Temperature 2.0 S KKSM37U205M18 KK S KKSM37U205M23 KK S KKSM37U305M18 KK S KKSM37U305M23 KK S KKSM37U405M18 KK S KKSM37U405M23 KK S KKSM37U505M18 KK S KKSM37U505M23 KK S KKSM37U605M18 KK S KKSM37U605M23 KK S KKSM37U755M23 KK S KKSM37U106M2B KK S KKSM37U1255M32 KK S KKSM37U156M3E KK S KTSM37U1755M2B KT KKSM37U206M3E KK S KTSM37U206M2B KT S KTSM37U256M2B KT S KTSM37U306M32 KT S KTSM37U356M32 KT S KTSM37U406M3E KT S KTSM37U456M3E KT KBSM37U456M3E KB S KTSM37U506M3E KT S KBSM37U506M3E KB Vac 70 C Case Temperature Cap. Stock Catalog Case H 2.0 S KKSM44U205M23 KK 2.19 (µf) Items Number Code (inches) 3.0 S KKSM44U305M23 KK Vac 70 C Case Temperature 4.0 S KKSM44U405M23 KK KKSM24U405M23 KK S KKSM44U505M23 KK KKSM24U505M23 KK S KKSM44U605M2B KK KKSM24U605M23 KK S KKSM44U755M32 KK KKSM24U755M23 KK S KKSM44U106M3E KK KKSM24U106M23 KK S KKSM44U156M3E KK KKSM24U156M2B KK S KTSM44U156M2B KT KKSM24U206M32 KK S KTSM44U206M3E KT KTSM24U256M2B KT S KTSM44U256M3E KT KTSM24U306M2B KT S KTSM44U306M3E KT KTSM24U356M2B KT S KBSM44U356M3E KB KTSM24U406M32 KT S KBSM44U406M3E KB KTSM24U456M32 KT S KBSM44U456M3E KB KTSM24U506M32 KT S KBSM44U506M3E KB KTSM24U606M3E KT S KBSM44U556M44 KB KTSM24U706M3E KT S KBSM44U606M44 KB 4.25 High-Voltage and Motor 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 6.005

414 Type SM Motor-Run and Power Supply High-Voltage and Motor Cap. Stock Catalog Case H (µf) Items Number Code (inches) 480 Vac 70 C Case Temperature 4.0 KKSM48U405M23 KK KKSM48U505M32 KK KKSM48U605M32 KK KKSM48U755M32 KK KKSM48U106M32 KK KTSM48U156M32 KT KTSM48U206M3E KT KTSM48U256M3E KT KTSM48U306M3E KT KBSM48U406M3E KB Vac 70 C Case Temperature 1.0 KKSM66U105M23 KK S KKSM66U205M23 KK S KKSM66U305M23 KK S KKSM66U405M2B KK S KKSM66U505M32 KK S KKSM66U605M3E KK S KKSM66U805M3E KK S KTSM66U805M32 KT S KKSM66U106M3E KK S KTSM66U106M32 KT S KTSM66U126M32 KT S KTSM66U156M3E KT S KTSM66U186M3E KT S KBSM66U186M3E KB S KBSM66U206M3E KB S KBSM66U256M3E KB S KBSM66U306M3E KB KBSM66U356M3E KB KBSM66U406M44 KB 4.25 Options Tinplated steel cans are standard. Aluminum cases are available upon request. Tighter capacitance tolerances such as ± 3% or ±6% are available. +90 C ratings are available for HID lighting and power supply applications. Discharge resistors are available. Special terminal lugs such as 4 tines per terminal or 2 tines plus 1 fork lug available. Dual capacitance values are available for 370 Vac and 440 Vac applications. Accessories for Oval Wrap Around Bracket End Mount Footed Bracket (2 required) Side Mount Footed Bracket (2 required) Universal Mounting Brackets Insulating Terminal Boots UL 465 Listed screw and nut 6-32 screw and nut Case Code Bracket KK KT KB Case Height Bracket Case Height Bracket Case Code Bracket KK KT KB East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

415 Type SM Motor-Run and Power Supply Type SM - Round Case Style D ± ±.06 Case Code Case Code D (inches) H P 1.87 see table S 2.12 see table T 2.62 see table Hardware for Round Wrap Around Bracket Case Code Bracket P S T Footed Round 2 Footed Round Mounting Bracket Mounting Bracket.50 MAX. Case Code Bracket P A S A T A Case Code Bracket P S T H Cap. Stock Catalog Case H Cap. Stock Catalog Case H (µf) Items Number Code (inches) (µf) Items Number Code (inches) 370 Vac 70 C Case Temperature 370 Vac 70 C (cont d) 2.0 SMP37U205M24 P SMT37U906M3C T SMP37U305M24 P SMT37U107M44 T S SMP37U405M24 P Vac 70 C Case Temperature 5.0 SMP37U505M24 P SMP44U205M24 P SMP37U605M24 P SMP44U305M24 P SMP37U755M24 P SMP44U405M24 P S SMP37U106M24 P SMP44U505M24 P S SMP37U1255M24 P SMP44U605M24 P S SMP37U156M2E P S SMP44U755M2E P SMP37U1755M2E P S SMP44U106M2E P S SMP37U206M2E P S SMP44U1255M2E P S SMP37U256M2E P S SMP44U156M2E P S SMP37U306M2E P SMP44U1755M2E P S SMS37U356M2E S S SMP44U206M2E P S SMS37U406M2E S SMS44U256M3C S SMS37U456M3C S S SMS44U306M3C S S SMS37U506M3C S SMT44U356M2E T S SMS37U556M3C S SMT44U406M3C T S SMT37U606M3C T SMT44U456M3C T SMT37U656M3C T SMT44U506M3C T SMT37U706M3C T SMT44U556M44 T SMT37U756M3C T S SMT44U606M44 T S SMT37U806M3C T 3.75 High-Voltage and Motor 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 6.007

416 Type ETW Motor Start Type ETW Non Polarized Aluminum Electrolytic Application AC Motor Start capacitors provide small AC motors with starting torque. They are designed for intermittent AC duty. Type ETW capacitors are provided with a pressure safety vent and are furnished in phenolic cases. Highlights Voltage range: 125 to 330 Vac Capacitance range: 21 to 1200 µf 50,000 starts minimum Temperature range: -40 C to 65 C Operating frequency: Hz Meets EIA RS463 Type II 2-bladed quick connects; standard terminations Specify "R" at end of part number for 15,000 ohm, 2 Watt, bleeder resistor. High-Voltage and Motor Case Dimensions Case Dimensions Cap. Stock Catalog Inches Cap. Stock Catalog Inches µf Items Number D L C µf Items Number D L C 125 Vac 125 Vac (cont d) S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N Vac S ETW N ETW N S ETW N ETW N S ETW N ETW N S ETW N ETW N S ETW N ETW N S ETW N ETW N S ETW N ETW N S ETW N ETW N S ETW N ETW N S ETW N ETW N S ETW N ETW N S ETW N ETW N S ETW N ETW N East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

417 Type ETW Motor Start Case Dimensions Case Dimensions CAP Stock Catalog Inches CAP Stock Catalog Inches µf Items Number D L C µf Items Number D L C 250 Vac 250 Vac (cont d) S ETW N S ETW N S ETW N S ETW N S ETW N Vac S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N S ETW N High-Voltage and Motor Bracket, Endcap & Capacitor Assembly Mounting Hardware Case Case Dimensions Optional Optional Code (inches) End Mounting D L Cap Bracket N N N N N * Order both endcap and bracket for mounting 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 6.009

418 Application Guide for Type ETW Motor Start High-Voltage and Motor VOLTAGE RATING The capacitorsís rated voltage must be greater than or equal to the average voltage across the capacitor' s terminals during the motor starting cycle. This is not the same voltage as the motor line voltage. In addition, the cutoff voltage rating of the capacitor must be greater than or equal to the maximum voltage attained across the terminals of the capacitor in actual service. The maximum recommended cut-of voltages for the four standard voltage ratings are as follows: Rated Maximum Voltage (rms) Cut-Off Voltage (rms) These ratings are based on the maximum capacitor temperature of 65 C. CAPACITANCE RATING The capacitance is chosen to give the necessary starting torque to the motor. The minimum capacitance value is the minimum designed capacitance. The maximum capacitance is 20% more than the minimum value. DUTY CYCLE The duty cycle should be calculated for each application. It is the ratio of the time the capacitor is on voltage to the total time of one cycle. The duty cycles for the normal performance of standard Type II capacitors are listed in Table A. CDE type ETW capacitors may be used in any intermittant application within their temperature and voltage range where the duty cycle does not exceed that listed in Table A. This is in accordance with the standards in EIA Specification RS-463 for Type II capacitors. If a particular application exceeds the normal duty cycle, but does not exceed the values listed in Table B, an extra performance or Type I capacitor is required. Rated Voltage VAC (rms) Duty Cycles of Type II Capacitance Rating (µ F) Table A Duty Cycle % Duty Cycle # of Starts From To Secs. Secs. (On) (Off) , , , , , , , , , , , , , , , , , , , , ,500 Typical life expectancy is 50,000 cycles for 125V ratings, and 40,000 total cycles for 165, 250 and 330V ratings. The number of cycles shown in the table above are for the convenient test time of 35 days total for all ratings. Rated Voltage VAC (rms) Duty Cycles of Type I Capacitance Rating (µ F) Table B Duty Cycle % Secs. (On) Secs. (Off) Duty Cycle # of Starts 125 all , all , all , all ,000 If an application exceeds the duty cycles of Type I, other methods of capacitor selection must be used. Contact CDE, for Engineering assistance. FREQUENCY These capacitors are designed for 60 Hz application but may be operated in the range of 47 Hz - 60 Hz without damage provided voltage limitations stated above are observed. For other variations in frequency, contact CDE. MOUNTING Vertical mounting of the capacitor with the terminals up is recommended. However, horizontal mounting is acceptable providing the vent is in the upward position. Vertical mounting with the terminals down is not recommended because the capacitor life may be reduced East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

419 Type OTB DC/AC Dual Rated Type OTB Paper-Film/Foil Applications Use Type OTB capacitors for all normal blocking, filtering and bypass applications where any standard DC capacitor may be used. They may also be used in motor-run and other 60 Hz applications. Highlights Voltage ratings DC/AC: 400/236, 600/330, 1000/440, 1500/660, 2000/700, 2500/800, 3000/950 Capacitance range: 0.1 µf to 35.0 µf Capacitance tolerance: ±10% Temperature range: -55 C to 85 C Protected: Pressure sensitive interrupter Listed under UL File No. E56959 CSA Certified file No. LR Environmentally compatible Solder Lug terminations Cap. Stock Catalog Case H Cap. Stock Catalog Case H (µf) Items Number Code (inches) (µf) Items Number Code (inches) 400 Vdc (236 Vac) Paper Dielectric 1000 Vdc (440 Vac) Paper Dielectric 3.0 OTBE305KNPIR A OTBG104KNPIR A OTBE405KNPIR A S OTBG254KNPIR A OTBE505KNPIR A S OTBG504KNPIR A OTBE605KNPIR A OTBG105KNPIR A OTBE805KNPIR A OTBG205KNPIR A OTBE106KNPIR A OTBG305KNPIR A OTBE126KNPIR C OTBG405KNPIR A OTBE156KNPIR C OTBG505KNPIR A OTBE206KNPIR C OTBG605KNPIR C OTBE256KNPIR C OTBG805KNPIR C OTBE306KNPIR C OTBG106KNPIR C Vdc (330 Vac) Paper Dielectric 12.0 OTBG126KNPIR C OTBF504KNPIR A OTBG156KNPIR C OTBF105KNPIR A OTBG206KNPIR D OTBF205KNPIR A OTBG256KNPIR D OTBF305KNPIR A Vdc (660 Vac) Film/Paper Dielectric 4.0 OTBF405KNPIR A OTBH504KNPIR A OTBF505KNPIR A S OTBH105KNPIR A OTBF605KNPIR A S OTBH205KNPIR A OTBF805KNPIR A S OTBH305KNPIR A OTBF106KNPIR C OTBH405KNPIR C OTBF126KNPIR C OTBH505KNPIR C OTBF156KNPIR C OTBH605KNPIR C OTBF206KNPIR C OTBH805KNPIR C OTBF256KNPIR C OTBH106KNPIR D OTBF306KNPIR D OTBH126KNPIR D OTBF356KNPIR D OTBH156KNPIR D 6.75 High-Voltage and Motor 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

420 Type OTB DC/AC Dual Rated Cap. Stock Catalog Case H Cap. Stock Catalog Case H (µf) Items Number Code (inches) (µf) Items Number Code (inches) 2000 Vdc (700 Vac) Film/Paper Dielectric 3000 Vdc (950 Vac) Film/Paper Dielectric 0.10 OTBJ104KNPIR A OTBL104KNPIR A OTBJ254KNPIR A OTBL254KNPIR A S OTBJ504KNPIR A OTBL504KNPIR C OTBJ105KNPIR A OTBL105KNPIR C OTBJ205KNPIR A OTBL205KNPIR C OTBJ305KNPIR C OTBL305KNPIR C OTBJ405KNPIR C OTBL405KNPIR D OTBJ505KNPIR C OTBL505KNPIR D OTBJ605KNPIR C OTBJ805KNPIR D OTBJ106KNPIR D ± Vdc (800 Vac) Film/Paper Dielectric 0.50 OTBK504KNPIR A OTBK105KNPIR C OTBK205KNPIR C OTBK305KNPIR C OTBK405KNPIR C OTBK505KNPIR C OTBK605KNPIR D OTBK705KNPIR D OTBK805KNPIR D 7.25 Mounting Hardware B ±.06 A ±.06 High-Voltage and Motor End Mount (2 required) Side Mount (2 required) H (Inches) End Mount Side Mount MAX. H Case Code Bracket A C D Case Code Bracket A C D Wrap Around Bracket Universal Mounting Bracket screw and nut Case Code Dimensions (Inches) Case Code A B H A see table C see table D see table East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com

421 Type SCR Commutating Type SCR Film-Paper/Extended Foil Applications Type SCRN capacitors are for SCR (silicon controlled rectifier) commutating applications, requiring high peak and rms current capability. These capacitors are ideal for other high frequency and pulsed applications. Highlights Voltage ratings 200 to 2000 Vpk Capacitance range: 0.25 to 50 µf Capacitance tolerance: ±10% Temperature range: -40 C to 65 C 80 C surface temperature 40,000 Hour, 95% minimum survival at full rated temperature and volt-amps Conforms to EIA RS401 1/4 x 20 threaded studs for high current Tinplated steel case standard. Non ferrous covers available for high frequency applications. Cap. Stock Catalog Case H Max VA Max Amps Cap. Stock Catalog Case H Max VA Max Amps (µf) Item Number Code (inches) (65 C) RMS (µf) Item Number Code (inches) (65 C) RMS 200 Vpk (Paper dielectric) 600 Vpk (Film dielectric for low-loss) 3.0 SCRN201R A SCRN262R A SCRN202R A SCRN263R A S SCRN203R A SCRN264R A SCRN205R A SCRN265R A SCRN206R B SCRN266R C SCRN208R C Vpk ( Film and Paper dielectric) 40.0 SCRN209R C S SCRN233R A SCRN210R D S SCRN234R A Vpk (Film and Paper dielectric) 3.0 SCRN235R A SCRN211R A S SCRN236R B SCRN212R A SCRN237R C SCRN213R A SCRN238R D SCRN214R B S SCRN239R E SCRN215R C Vpk (Film and Paper dielectric) 20.0 SCRN216R C S SCRN240R A SCRN217R D S SCRN241R A SCRN218R D S SCRN242R B SCRN219R E S SCRN243R C Vpk (Film and Paper dielectric) 5.0 SCRN244R C SCRN220R A SCRN245R E SCRN221R A Vpk (Film and Paper dielectric) 5.0 S SCRN222R A S SCRN246R A S SCRN224R C SCRN257R A SCRN226R C S SCRN247R A S SCRN227R D S SCRN248R A S SCRN229R D SCRN249R B SCRN230R D SCRN251R C SCRN231R E S SCRN253R D SCRN232R E S SCRN256R F High-Voltage and Motor 1605 East Rodney French Blvd. New Bedford, MA (508) , Fax (508) cdenb@cornell-dubilier.com 6.013