(VJ12, 2, 13, 14, 15, 32) Transient Voltage Suppression, ESD Protection Devices & EMI Devices GENERAL DESCRIPTION AVX s Professional Multilayer Varistors include 3 series of glass coated products as listed below: Standard M/MC/PC Series Telecom MT Series Automotive MA/PA/QA Series The glass encapsulation process ensures high insulation resistance values after reflow soldering and excellent SMT compatibility. This protection ensures reliability and acidresistance against harsh environment like chlorite flux. TYPICAL APPLICATIONS Mainly used to reduce transient over-voltages in a very wide range of electronic products. Some example applications are: 1) Telecom, 2) Automotive, 3) Consumer Electronics, and 4) Industrial Applications. PHYSICAL CHARACTERISTICS 1 Zinc varistor 2 Glass lead-free encapsulation 3 Silver termination 4 Nickel barrier 5 Tin % PHYSICAL DIMENSIONS: mm (inches) L t W T Type IEC Size L W T Land Length t 2.1±.2 1.25±.15 1.3 max..15...55 VJ12 85 (.79±.8) (.49±.6) (.51 max.) (.6...22) VJ2 126 VJ13 12 VJ14 1812 VJ15 222 VJ32 322 3.2±.2 1.6±.2 1.7 max..25...75 (.126±.8) (.63±.8) (.67 max.) (...3) 3.2±.3 2.5±.25 1.7 max..25...75 (.126±.12) (.98±.) (.67 max.) (...3) 4.5±.3 3.2±.3 2. max..25...1. (.177±.12) (.126±.12) (.79 max.) (...39) 5.7±.4 5.±.4 2.5max..25...1. (.224±.16) (.197±.16) (.98 max.) (...39) 8.2±.4 5.±.4 2.5 max..35...1.3 (.323±.16) (.197±.16) (.98 max.) (.14...51) PART NUMBERING VJ 14 MT 95 K BA Varistor Termination Chip Size Series Code Operating 1mA Voltage Packaging VJ = Plated Ni/Sn% 12 = 85 M,MC/QC = Industrial Voltage Tolerance BA = Tape & Reel VU = Plated Ni/SnPb 2 = 126 MT = Telecom AC or DC K = ±% VJ12 = 4 pcs/reel VC = Hybrid AgPdPt 13 = 12 MA/PA/QA = Automotive VJ2 = 3 pcs/reel 14 = 1812 VJ13 = 2 pcs/reel 15 = 222 VJ14 = 125 pcs/reel 32 = 322 VJ15 = 125 pcs/reel VJ32 = pcs/reel 8216 97
(VJ12, 2, 13, 14, 15, 32) Automotive MLV Range MA, PA and QA Series AUTOMOTIVE SERIES VJ12, 2, 13, 14, 15, 32 MA and PA SERIES FEATURES GENERAL CHARACTERISTICS Storage Temperature: -55ºC to +15ºC Operating Temperature: -55ºC to +125ºC* * 15 C upon request Available in case size 85 to 322 Working voltage from 16Vdc to 85Vdc Well suited to protect against automotive related transients Response time <1ns Load Dump capability 1J to 5J according to ISO standard DP7637 pulse 5 Jump start capability Complying to AEC-Q 2 VJ: Nickel and Tin (%) plated Termination suitable for lead free soldering VC: PdPtAg termination for hybrid assembly without glass coating RoHS Compliant, IMDS Registration upon request PART NUMBERS APPLICATIONS Protection of various semiconductor elements from overvoltage. Absorption of switching surge and electrostatic surge for relays and motors. Protection of electronic equipment for automobiles from induced lightning surge. Max. Max. Energy Typical Case Energy Jump Mean Working Breakdown Vclamp Peak leakage Load- Cap T Size (x Start Power Voltage Voltage at 1mA (8x2µs) current current Dump 1KHz/ max. EIA µs) (5mn) Dissipation (8x2µs) at Vdc (x**).5vrms Vrms Vdc min Nom max Vp Ip (A) Amp. µa J J max. V W pf mm 12-16 V Power Supply *VJ12PA16K-- 85 14 16 22 24.5 27 4 1 12 15.3 1 24.5.5 5 1.3 VJ2MA16K-- 126 14 16 22 24.5 27 4 1 2 15.6 1.5 24.5.8 8 1.7 VJ2PA16K-- 126 14 16 22 24.5 27 4 1 3 15 1.1 2 24.5.8 1 1.7 VJ13MA16K-- 12 14 16 22 24.5 27 4 2.5 4 15 1.6 3 24.5. 1 8 1.7 VJ13PA16K-- 12 14 16 22 24.5 27 4 2.5 5 15 2 5 24.5. 2 3 1.7 VJ14MA16K-- 1812 14 16 22 24.5 27 4 5 8 15 2.4 6 24.5.15 5 4 2. VJ14PA16K-- 1812 14 16 22 24.5 27 4 5 15 2.9 24.5.15 6 2 2. VJ15MA16K-- 222 14 16 22 24.5 27 4 12 15 5.8 12 24.5.3 11 2. VJ15PA16K-- 222 14 16 22 24.5 27 4 15 15 7.2 25 24.5.3 16 2. VJ15QA16K-- 222 14 16 22 24.5 27 4 2 15 7.5 35 24.5.3 25 2. VJ32PA16K-- 322 14 16 22 24.5 27 4 3 15 13.8 5 24.5.4 3 2.5 12-22 V Power Supply VJ2PA22K-- 126 17 22 27 3 33 49 1 25 15 1 2 26.8 1 1.7 VJ13PA22K-- 12 17 22 27 3 33 49 2.5 4 15 1.7 5 26. 2 1.7 VJ14PA22K-- 1812 17 22 27 3 33 49 5 7 15 2.5 26.15 6 2. VJ15PA22K-- 222 17 22 27 3 33 49 15 15 6.8 25 26.3 15 2. VJ32PA22K-- 322 17 22 27 3 33 49 3 15 13 5 26.4 25 2.5 12-26 V Power Supply VJ2PA26K-- 126 23 26 31.5 35 38.5 57 1 2 15 1 2 3.8 6 1.7 VJ13PA26K-- 12 23 26 31.5 35 38.5 57 2.5 3 15 1.7 5 3. 1 2 1.7 VJ14PA26K-- 1812 23 26 31.5 35 38.5 57 5 6 15 2.5 3.15 3 2. VJ15PA26K-- 222 23 26 31.5 35 38.5 57 15 15 6.8 25 3.3 7 2. VJ32PA26K-- 322 23 26 31.5 35 38.5 57 3 15 13 5 3.4 15 2.5 24-34 V Power Supply VJ2PA34K-- 126 3 34 42.3 47 51.7 77 1 2 15 1.5 1.5 47.8 3 1.7 VJ13PA34K-- 12 3 34 42.3 47 51.7 77 2.5 35 15 3.5 3 47. 65 1.7 VJ14PA34K-- 1812 3 34 42.3 47 51.7 77 5 6 15 5 6 47.15 1 8 2. VJ15MA34K-- 222 3 34 42.3 47 51.7 77 12 15 12 47.3 4 2. VJ15PA34K-- 222 3 34 42.3 47 51.7 77 15 15 12 25 47.3 7 2. VJ32PA34K-- 322 3 34 42.3 47 51.7 77 3 15 13 5 47.4 2.5 24-42 V Power Supply *VJ2PA42K-- 126 37 42 5.4 56 61.6 91 1 15 15 1.5 1.5 47.8 14 1.7 *VJ13PA42K-- 12 37 42 5.4 56 61.6 91 2.5 25 15 3.5 3 47. 3 1.7 *VJ14PA42K-- 1812 37 42 5.4 56 61.6 91 5 5 15 5 6 47.15 8 2. *VJ15PA42K-- 222 37 42 5.4 56 61.6 91 15 15 12 12 47.3 1 8 2. *VJ32PA42K-- 322 37 42 5.4 56 61.6 91 3 15 13 5 47.4 2 8 2.5 * under development ** time interval between pulses: 6s min. VC with hybrid solderable termination same electrical characteristics Other voltage or energy values available upon request 98 8216
(VJ12, 2, 13, 14, 15, 32) Automotive MLV Range MA, PA and QA Series Max. Max. Energy Typical Case Energy Jump Mean Working Breakdown Vclamp Peak leakage Load- Cap T Size (x Start Power Voltage Voltage at 1mA (8x2µs) current current Dump 1KHz/ max. EIA µs) (5mn) Dissipation (8x2µs) at Vdc (x**).5vrms Vrms Vdc min Nom max Vp Ip (A) Amp. µa J J max. V W pf mm 24-65 V Power Supply *VJ2MA65K-- 126 5 65 76.5 85 93.5 135 1 15 15 1.5 1.5 7.8 2 1.7 *VJ13MA65K-- 12 5 65 76.5 85 93.5 135 2.5 25 15 3.5 3 7. 2 1.7 *VJ14MA65K-- 1812 5 65 76.5 85 93.5 135 5 5 15 5 6 7.15 4 2. *VJ15MA65K-- 222 5 65 76.5 85 93.5 135 15 12 12 7.3 8 2. *VJ32MA65K-- 322 5 65 76.5 85 93.5 135 15 15 13 5 7.4 35 2.5 24-85 V Power Supply *VJ2MA85K-- 126 6 85 99 1 121 165 1 12 15 1.5 1.5 9.8 12 1.7 *VJ13MA85K-- 12 6 85 99 1 121 165 2.5 2 15 3.5 3 9. 2 1.7 *VJ14MA85K-- 1812 6 85 99 1 121 165 5 5 15 5 6 9.15 4 2. *VJ15MA85K-- 222 6 85 99 1 121 165 15 12 12 9.3 8 2. *VJ32MA85K-- 322 6 85 99 1 121 165 15 15 13 5 9.4 25 2.5 * under development ** time interval between pulses: 6s min. VC with hybrid solderable termination same electrical characteristics Other voltage or energy values available upon request TEMPERATURE CHARACTERISTICS For Current, Energy and Power Percent of Rating Value 12 8 6 4 2-55 -25 25 5 75 125 15 Ambient Temperature ( C) IMPEDANCE CHARACTERISTICS Z (Ohms) 1.1 VJ15PA16K VJ15MA16K VJ14MA16K VJ13MA16K VJ2MA16K VJ15MA34K.1 1,,, Frequency (khz) 1,, 8216 99
(VJ12, 2, 13, 14, 15, 32) Automotive MLV Range MA and PA Series AUTOMOTIVE SERIES VJ12, 2, 13, 14, 15, 32 MA and PA SERIES V / I CHARACTERISTICS PULSE RATING V (V) 2 15 5 V / I Characteristics : Automotive Parts VJ2MA16K VJ13MA16K VJ14MA16K VJ14PA16K VJ15MA16K VJ15PA16K VJ15PA34K VJ32PA16K 1E-6.1.1.1.1.1 1 I (A) % of peak current rating.%.% 1.% T Pulse Rating A% max 1 Repetition (Top) 2 Repetitions Repetitions E2 Repetitions E3 Repetitions E4 Repetitions E5 Repetitions E6 Repetitions Infinite (bottom).% Pulse Duration (µs) TEMPERATURE DEPENDENCE OF V/I CHARACTERISTICS V/V1mA (%) VJ2MA16K V/V1mA (%) VJ13MA16K -4 C -4 C 1E-7 1E-6 1E-5 1E-4 1E-3 1E-2 1E-6 1E-5 1E-4 1E-3 1E-2 V/V1mA (%) VJ14MA16K -4 C V/V1mA (%) VJ15MA16K -4 C 1E-7 1E-6 1E-5 1E-4 1E-3 1E-2 1E-7 1E-6 1E-5 1E-4 1E-3 1E-2 1E-1 8216
(VJ12, 2, 13, 14, 15, 32) Automotive MLV Range MA and PA Series AUTOMOTIVE SERIES VJ12, 2, 13, 14, 15, 32 MA and PA SERIES Voltage as a percent of breakdown voltage 1, VJ14PA16 inter (%) final (%) 1E-7 1E-6 1E-5 1E-4 1E-3 1E-2 1E-1 V/V1mA (%) VJ15PA16K -4 C 1E-7 1E-6 1E-5 1E-4 1E-3 1E-2 VJ15MA34K -4 C 1E-7 1E-6 1E-5 1E-4 1E-3 1E-2 Change in breakdown voltage (%) PULSE DEGRADATION Repetitive Peak Current Strikes 16% 14% VJ2MA16K @2A 12% VJ13MA16K @4A % VJ14MA16K @8A 8% VJ14PA16K @A VJ15PA16K @12A 6% VJ15MA16K @12A 4% VJ15MA34K @12A 2% % 2 3 4 5 6 Number of strikes 8216 1
(VJ12, 2, 13, 14, 15, 32) Automotive MLV Range MA and PA Series AUTOMOTIVE SERIES VJ12, 2, 13, 14, 15, 32 MA and PA SERIES AUTOMOTIVE LOAD DUMP TEST (According to ISO DP7637/2 Pulse 5) V z 9% % When using the test method indicated below, the amount of Energy dissipated by the varistor must not exceed the Load Dump Energy value specified in the product table. V i V Tr Td t Voltage Pulse applied to the varistor: 12V Network Vi = 13.5V Td = to 35ms Ri = 2 Ohms (Internal Resistance) Vz - 7 to 2V Number of Pulses = Pulses Other Load Dump Simulations can be achieved 24V Network Vi = 27V Td = to 35ms Ri = 2 Ohms (Internal Resistance) Vz - 7 to 2V Number of Pulses = Pulses Pulse 5: Typical Vz max versus Pulse duration and Rs VJ2PA16K.5 Ω 1 Ω 2 Ω 4 Ω 5ms 33 34 39 49 ms 31 31 34 43 2ms 27 28 33 43 4ms 28 3 34 42 VJ13PA16K.5 Ω 1 Ω 2 Ω 4 Ω 5ms 44 48 57 75 ms 36 39 46 6 2ms 33 33 39 5 4ms 28 28 34 46 VJ14PA16K.5 Ω 1 Ω 2 Ω 4 Ω 5ms 6 68 85 125 ms 46 52 62 77 2ms 37 41 5 63 4ms 32 35 43 54 VJ15PA16K.5 Ω 1 Ω 2 Ω 4 Ω 5ms 8 116 145 188 ms 61 8 4 14 2ms 47 6 78 4ms 39 47 58 74 VJ15QA16K.5 Ω 1 Ω 2 Ω 4 Ω ms 65 78 91 117 2ms 54 6 73 92 4ms 44 51 6 75 VJ15MA34K.5 Ω 1 Ω 2 Ω 4 Ω ms 66 78 91 117 2ms 55 6 73 92 4ms 49 53 6 75 VJ15PA34K.5 Ω 1 Ω 2 Ω 4 Ω ms 8 9 8 134 2ms 6 67 8 6 4ms 58 62 69 85 VJ32PA16K.5 Ω 1 Ω 2 Ω 4 Ω ms 2 12 175 2 2ms 72 85 12 158 4ms 53 62 78 5 VJ32PA34K.5 Ω 1 Ω 2 Ω 4 Ω ms 9 5 133 17 2ms 7 79 98 132 4ms 62 7 83 6 2 8216
(VJ12, 2, 13, 14, 15) Industrial MLV Range M Series INDUSTRIAL MLV RANGE VJ12, 2, 13, 14, 15 M SERIES FEATURES Glass encapsulation device with very low leakage current under DC operating conditions Device available in case size 126, 12, 1812, 222 (322) Nickel and Tin (%) plated Termination (Hybrid AgPdPt termination available upon request) Bi-Directional protection. Fast Turn-On Time. Excellent transient clamping characteristics up to 12amps peak current Multi strike capability. Provide EMC Capacitance RoHS Compliant GENERAL CHARACTERISTICS Storage Temperature: -55ºC to +15ºC Operating Temperature: -55ºC to +125ºC TYPICAL APPLICATIONS Many uses to reduce transient over-voltage in the very wide range of electronic products in the Professional, Industrial and Consumer Applications. Type Case Size Vrms VDC Max. Maximum Max. Peak Cap. Breakdown Energy Clamping Leakage Current Typical Voltage *μs Voltage Current 8*2μs (1KHz/.5V) (V) (V) (V) Vp (V) lp (A) μa (J) (A) (pf) VJ2M14K--- 126 14 18 22±% 38 1 15.5 2 8 VJ13M14K--- 12 14 18 22±% 38 2.5 15 1.5 4 18 VJ14M14K--- 1812 14 18 22±% 38 5 15 2.3 8 42 VJ15M14K--- 222 14 18 22±% 38 15 5.8 12 96 VJ2M17K--- 126 17 22 27±% 44 1 15.6 2 8 VJ13M17K--- 12 17 22 27±% 44 2.5 15 1.7 5 16 VJ14M17K--- 1812 17 22 27±% 44 5 15 2.7 8 37 VJ15M17K--- 222 17 22 27±% 44 15 7.2 12 86 VJ2M2K--- 126 2 26 33±% 54 1 15.7 2 6 VJ13M2K--- 12 2 26 33±% 54 2.5 15 1.9 4 12 VJ14M2K--- 1812 2 26 33±% 54 5 15 3 8 3 VJ15M2K--- 222 2 26 33±% 54 15 7.8 12 64 VJ2M25K--- 126 25 31 39±% 65 1 15 1 2 4 VJ13M25K--- 12 25 31 39±% 65 2.5 15 1.7 3 1 VJ14M25K--- 1812 25 31 39±% 65 5 15 3.7 8 24 VJ15M25K--- 222 25 31 39±% 65 15 9.6 12 55 VJ2M3K--- 126 3 38 47±% 77 1 15 1.1 2 35 VJ13M3K--- 12 3 38 47±% 77 2.5 15 2 3 75 VJ14M3K--- 1812 3 38 47±% 77 5 15 4.2 8 19 VJ15M3K--- 222 3 38 47±% 77 15 12 12 42 VJ2M35K--- 126 35 45 56±% 9 1 15.6 2 26 VJ13M35K--- 12 35 45 56±% 9 2.5 15 1.5 3 53 VJ14M35K--- 1812 35 45 56±% 9 5 15 4 5 14 VJ15M35K--- 222 35 45 56±% 9 15 7.7 28 VJ2M4K--- 126 4 56 68±% 1 1 15.7 2 18 VJ13M4K--- 12 4 56 68±% 1 2.5 15 2.3 25 38 VJ14M4K--- 1812 4 56 68±% 1 5 15 4.8 5 8 VJ15M4K--- 222 4 56 68±% 1 15 9 2 VJ2M5K--- 126 5 65 82±% 135 1 15.8 2 16 VJ13M5K--- 12 5 65 82±% 135 2.5 15 1.6 2 3 VJ14M5K--- 1812 5 65 82±% 135 5 15 4.5 4 8 VJ15M5K--- 222 5 65 82±% 135 15 5.6 8 14 VJ2M6K--- 126 6 85 ±% 165 1 15.9 12 VJ13M6K--- 12 6 85 ±% 165 2.5 15 2. 2 2 VJ14M6K--- 1812 6 85 ±% 165 5 15 5.8 4 6 VJ15M6K--- 222 6 85 ±% 165 15 6.8 8 1 8216 3
(VJ12, 2, 13, 14, 15) Industrial MLV Range M Series INDUSTRIAL MLV RANGE VJ12, 2, 13, 14, 15 M SERIES V/I CHARACTERISTIC 15 VI Curves 18V, 22V, and 26V Voltage (V) 5 18V, 1.6J 22V, 1.6J 26V, 1.9J 26V, 3J 1E-6.1.1.1.1.1 1 Voltage (V) 2 15 VI Curves 31V, 38V, and 45V 31V, 1.7J 38V, 1.1J 38V, 2J 38V, 4.2J 45V, 1.5J 5 1E-6.1.1.1.1.1 1 25 VI Curves 56V, 65V, and 85V Voltage (V) 2 15 56V 65V, 1.6J 85V, 1.5J 5 1E-6.1.1.1.1.1 1 4 8216
VJ13 Standard Range Industrial MLV Range MC/PC Series INDUSTRIAL MLV RANGE VJ13 MC/PC SERIES FEATURES Glass encapsulation device with very low leakage current under DC operating conditions Device available in 12 case size Bi-Directional protection. Fast Turn-On Time. Nickel and Tin (%) plated Termination (Hybrid AgPdPt termination available upon request) Excellent transient clamping characteristics up to 5amps peak current Multi strike capability. Provide EMC Capacitance RoHS Compliant GENERAL CHARACTERISTICS Storage Temperature: -55ºC to +15ºC Operating Temperature: -55ºC to +125ºC Working Voltage: 18Vdc to 6Vdc TYPICAL APPLICATIONS Protection of various semiconductor elements from overvoltage Industrial equipment Consumer Electronics Plug-in cards, remote controls Home automation Part Number max. Working Breakdown Voltage Vclamp Energy CAP peak current Voltage Voltage at 1mA (8x2µs) (xµs) (1KHz/.5Vrms) (8x2µs) Vdc min Nom max Vp Ip(A) Amp. J pf VJ13MC18K-- 18 21.6 24 26.5 45 5 1.5 22 VJ13MC26K-- 26 29.7 33 36.3 62 3 1.2 12 VJ13MC3K-- 3 35.1 39 42.9 73 22.9 VJ13PC3K-- 3 35.1 39 42.9 73 28 1.2 VJ13MC48K-- 48 54.5 6.5 66.5 1 22.9 53 VJ13PC48K-- 48 54.5 6.5 66.5 1 25 1.2 5 VJ13MC6K-- 6 67 75 83 126 25 1.5 4 VC with hybrid solderable termination same electrical characteristics Other voltage values available upon request 8216 5
(VJ14) Telecom MLV Range MT Series FEATURES Effective alternative to leaded MOVs between 6 and 9 Vrsm High Energy Ratings up to 6 Joules with 1812 case size Nickel barrier or hybrid AgPdPt terminations Multiple Strike Capability Provide EMC Capacitance Specified in accordance to CCITT /μs Pulse test RoHS Compliant and IMDS Registration TELECOM MLV RANGE - VJ14 MT SERIES TARGET APPLICATIONS Phone Lines, ADSL Lines, and other Telecom Circuits Consumer Products GENERAL CHARACTERISTICS Storage Temperature: -55ºC to +125ºC Operating Temperature: -55ºC to +125ºC CCITT x7μs TEST A pulse of x 7μs duration as specified by CCITT or IEC 6-4-5 is often used to check the interference immunity of Telecom equipment. The curves show that the 6Vrms Varistor can reduce the interference of the equipment from 2KV to less than 2V. Voltage 2 15 /7 Telecom Test Pulse Wave-Form Without Varistor (Open-circuit voltage) dv/v1ma % 8% 6% 4% 2% /7 Pulse Test Capability Typical V1mA Drift 6Vrms 95Vrms 5 With a 6Vrms Telecom Varistor (Protection level <2V).2.4.6.8 Time (ms) 1 1.2 1.4 1.6 Ten pulses with a duration of x7μs applied at one minute intervals are specified for telecom equipment. The curves show the V1mA drift when more than pulses are applied. % 1 Pulses PART NUMBERS Part Number Case Size Operating Voltage CCITT Mean Breakdown l max. Energy Typical Max. Clamping Voltage Pulses Power Voltage 8*2μs *μs Cap. *7μs Dissipation EIA Vac Vdc V(1mA) V Amp. Amp. Amp. Joules W pf VJ14MT6--- 1812 6 85 7 2 45 45 4 6.15 4 VJ14MT75--- 1812 75 12 25 45 45 4 6.15 4 VJ14MT95--- 1812 95 125 15 27 45 45 25 5.15 28 Hybrid termination AgPdPt (VC Range) upon request 6 8216
(VJ32/VC32) GENERAL DESCRIPTION The VJ32/VC32M Series offers the designer a surface mount solution with higher voltage ratings and transient energy ratings. This Multilayer Layer Surface Mount Varistor replaces the traditional radial-lead Varistors with reduced size and weight. The glass encapsulation ensures the high performances in voltage up to 3Vrms reliability and acid-resistance against harsh environment like chlorite soldering flux. LEAD-FREE COMPATIBLE COMPONENT FEATURES Lead less surface mount chip 322 Case Size Voltage Ratings from 175Vrms to 3 Vrms VJ32 with Ni barrier/% Sn Termination (for lead free soldering applications) VC32 with hybrid PdPtAg Termination (not suitable for lead free soldering) Operating temperature from -55 C to RoHS Compliant APPLICATIONS MOV (Radial) Replacement Suppression of transient on line voltage Electric Meters Industrial Equipment Mains PSUs Telecommunications Consumer Electronics PART NUMBERS Max. Peak Max. Cap. Breakdown Voltage Max. Clamping Voltage Energy Current Operating voltage Leakage Typical AVX Part Number Case Size Voltage at 1mA 8*2μs *μs 8*2μs Current (1KHz,.5V) 1 Pulse Vrms Vdc Min. Average Max. V A μa Joule A pf VJ32M14K-- 322 14 18 19.8 22 24.2 47 15.7 15 15 VJ32M17K-- 322 17 22 24.3 27 29.7 57 15.9 15 15 VJ32M2K-- 322 2 26 29.7 33 36.3 68 15 1.1 15 15 VJ32M25K-- 322 25 31 35.1 39 42.9 79 15 1.2 15 15 VJ32M3K-- 322 3 38 42.3 47 51.7 92 15 1.5 15 15 VJ32M35K-- 322 35 45 5.4 56 61.6 7 15 1.8 12 5 VJ32M4K-- 322 4 56 61.2 68 74.8 127 15 2.2 12 5 VJ32M5K-- 322 5 66 73.8 82 9.2 135 15 2.5 35 VJ32M6K-- 322 6 85 9. 1 165 15 3 25 VJ32M75K-- 322 75 2 8 12 132 2 15 3.5 6 2 VJ32M9K-- 322 95 127 135 15 165 25 15 6 6 15 VJ32M115K-- 322 115 153 162 18 198 295 15 6.5 3 35 VJ32M131K-- 322 13 175 18 2 22 34 15 7 3 17 VJ32M141K-- 322 14 18 198 22 242 36 15 7.5 3 14 VJ32M151K-- 322 15 2 216 24 264 395 15 9 3 13 VJ32M175K-- 322 175 225 243 27 297 455 15 9.5 3 12 VJ32M231K-- 322 23 3 324 36 396 595 15 3 8 VJ32M251K-- 322 25 33 351 39 429 65 15 11 3 75 VJ32M275K-- 322 275 369 387 43 473 7 15 13 3 7 VJ32M31K-- 322 3 385 423 47 517 775 15 15 3 65 VC32 Series with solderable hybrid termination. Glass encapsulation from 115Vrms to 3Vrms. Other voltage values available upon request 8216 7
(VJ13, 14, 15, 2) Surface Mounting Guide SOLDERABILITY/LEACHING SURFACE MOUNTING GUIDE (VJ13, 14, 15, 2, 32) APPLICATIONS NOTES Terminations to be well soldered after immersion in a 6/4 tin/lead solder bath at 235±5ºC for 2±1 seconds. Terminations will resist leaching for at least the immersion times and conditions recommendations shown below. P/N Termination Type Solder Solder Immersion Tin/Lead Temp. ºC Time (sec) Plated MLV VJ Nickel and Matte Tin 6/4 26±5 3±1 Plating Termination a) The visual standards used for evaluation of solder joints will need to be modified as lead free joints are not as bright as with tin-lead pastes and the fillet may not be as large. b) Lead-free solder pastes do not allow the same self alignment as lead containing systems. Standard mounting pads are acceptable, but machine set up may need to be modified. D2 Ceramic Unplated MLV Electrodes Thick Film Material Ceramic Electrodes Plated MLV Solder Layer Nickel Layer Thick Film Material RECOMMENDED SOLDERING PROFILES VJ products are compatible with a wide range of soldering conditions consistent with good manufacturing practice for surface mount components. This includes Pb free reflow processes and peak temperatures up to 27ºC. Recommended profiles for reflow and wave soldering are show below for reference. VC products are recommended for lead soldering application or gluing techniques. Temperature (ºC) 3 25 2 15 5 VJ Products Lead-Free Reflow Profile MAXIMUM TEMPERATURE 26ºC 2-4 SECONDS WITH 5ºC RAMP RATE < 3ºC/s PREHEAT ZONE 6-15 SEC > 217ºC RECOMMENDED SOLDER PAD LAYOUT REFLOW SOLDERING Case Size D1 D2 D3 D4 D5 126 4. (.157) 1. (.39) 2. (.79) 1. (.39) 1.6 (.42) 12 4. (.157) 1. (.39) 2. (.79) 1. (.39) 2.5 (.81) 1812 5.6 (.22) 1. (.39) 3.6 (.142) 1. (.39) 3. (.118) 222 6.6 (.26) 1. (.39) 4.6 (.181) 1. (.39) 5. (.197) 322.21 (.42) 2.21 (.87) 5.79 (.228) 2.21 (.87) 5.5 (.217) WAVE SOLDERING D1 D3 D4 D5 Dimensions in mm (inches) Dimensions in mm (inches) Case Size D1 D2 D3 D4 D5 126 5. (.197) 1.5 (.59) 2. (.79) 1.5 (.59) 1.6 (.42) 12 5. (.197) 1.5 (.59) 2. (.79) 1.5 (.59) 2.5 (.81) 1812 6.6 (.26) 1.5 (.59) 3.6 (.142) 1.5 (.59) 3. (.118) 222 7.6 (.299) 1.5 (.59) 4.6 (.181) 1.5 (.59) 5. (.197) 322 11.21 (.441) 1.5 (.59) 5.79 (.228) 1.5 (.59) 5.5 (.217) 1. 2. 3. 4. 5. 6. 7. 8 8216