Magnetic Contactors and Magnetic Starters Magnetic Contactors and Magnetic Starters Exceed your expectations Mitsubishi's Magnetic Contactors and Magnetic Starters, continuously pushing the boundaries. Safety Warning To ensure proper use of the products listed in this catalog, please be sure to read the instruction manual prior to use. Eco Changes is the Mitsubishi Electric Group, s environmental statement, and expresses the Group, s stance on environmental management. Through a wide range of businesses, we are helping contribute to the realization of a sustainable society. HEAD OFFICE: TOKYO BLDG., -7-, MARUNOUCHI, CHIYODA-KU, TOKYO 0-8, JAPAN www.mitsubishielectric.co.jpmelfansweb MitsubishiContactors and Magnetic Starters L(NA)000ENG-B(09)
Mitsubishi's Magnetic Contactors and Magnetic Starters continue to Mitsubishi Electric began making Magnetic Contactors and Magnetic Starters in 19 with the first EC Series products. Since then consecutive new products and series have been highly appreciated by our customers. Our commitment to our customers remains to continuously develop our products to exceed their expectations. push the boundaries. MS-A Series Double ratings of AC grade (Green) and AC grade (Red) were adopted allowing the unit to be downsized. MS-A Series was released. US-N Series was released. Sales of Magnetic Starters exceeded 0 million units. US-H Series was released. MS-T Series is released. The Motor Circuit Breaker was released. The 80th anniversary 19 19 190 19 198 197 198 198 199 001 00 00 01 0 MS Series was released. SD-Q Series was released. Meeting your needs EC Series was released. EK Series was released. ES Series was released. EM Series was released. EK Series In cooperation with Westinghouse Electric Corporation, the clapper type EK Magnetic Contactor was developed. EM Series Mitsubishi Electric introduced its own design of horizontal movement Magnetic Contactor with the EM series. MS-K Series was released. MS-N Series was released. US-K Series was released. MS-K Series Lower power consumption was achieved through the use of AC operating, DC excited electromagnets. MS-N Series The ground breaking "CAN terminal" proved to be an epoch making step in the design of Magnetic Contactors. MS-T Series Introduction Features of MS-T Series List of Produced Models Selection and Application 1 Specification List Table 1 Short-circuit coordination Electrical Durability Curve Operation coil rating Contact Reliability 1 Application to Thermal Overload Relays 1 Specification List 1 Selection Table 1 Precautions for Use 1 Operating Characteristic Curve 17 Product Introduction 18 Magnetic Starters 18 Magnetic Contactors 19 Thermal Overload Relays 0 Contactor Relays 1 Optional Units International 8 Type Codes Order Procedure Outline Drawing Warranty and Safety Information of Our FA-related Products 0
Desire to down-size the switchboard Do these requirements sound familiar? Desire to reduce the types and stock of switchboard parts The new MS-T Series can help you solve these issues. Desire to prevent accidents such as electric shock Global Down-sizing Small ization ization Safety & Quality Safety & Quality Smart wiring Smart Wiring Global
MS-T Series Introduction Down-sizing S mall ization S tandardization MS-T Series Introduction A frame model is over 1% smaller with a width of just mm!! There is a saying that "every bit helps" and now with the industries smallest* general purpose Magnetic Contactor in its class, customers are able to more easily down-size their boards than ever before. *based on a survey of A frame class Magnetic Contactors conducted for Mitsubishi Electric September 01 Example: Status where units are arranged mm units = 1mm Actual size Reduction by 7mm! mm units = 180mm (For mounting details, please refer to "mounting on Page.) Reduction by mm! New integrated terminal covers The perennial issues of remembering to order the terminal covers, fitting them correctly or loosing them in the process are challenges of the past. The integrated terminal cover system means they are always there, on the Magnetic Contactor or its contact, ready to be used. Traditional solution: Cover + Contactor Reduce your coil inventory by up to 0% A terminal cover is included as standard in the contactor!! The new ST series has new wide range operating coils which mean 0% fewer variations are required to span the -0V voltage range compared to the previous SN series. This means a smaller stock burden for those users who hold main stock or spare parts. Overseas Product Introduction Application to Thermal Overload Relays Selection and Application Traditional MS-N Series New slimline MS-T Series Frame size 11A A 0A A 7 Front view Front view Slimline Reversing type The new slimline design has also been applied to the mechanical interlocks used to create Reversing Magnetic Contactor configurations, helping to save even more switchboard panel space. S-N S-N11 ( 1-pole) S-N1 ( -pole) S-N0 S-N S-T -7mm! S-T1 ( -pole) (Example) -mm! 99mm <S-N> S-T0-17mm! -0mm! S-T 8mm <S-T> -1mm! Coil designation AC1V ACV AC8V AC0V AC10V AC17V AC00V AC0V AC0V AC0V AC80V AC00V AC0V AC00V Rated voltage [V] 0Hz 0Hz 1 1 8-0 0 1-10 1-17 00 08-0 0-0 0-0 -80 80-1 1-0 00 8-0 0-1 11-10 17 00-0 0 0-0 0-80 80 00-0 0-80 00-0 Coil designation ACV AC8V AC0V AC00V AC00V AC00V AC00V Rated voltage [V] 0Hz0Hz 8-0 0-17 00-0 0-00 80-0 0-0 * 1VAC type is an order-made product. A tough product for tough environments - as standard Tropicalization treatment, anti-corrosion treatment and low temperature-response capabilities are now standard in the S-T type Magnetic Contactor range, so our customers do not need to worry about which version they are ordering.(note MSO-T and TH-T Magnetic Starters and thermal overloads have anti-corrosive treatment only) Warranty and Safety Outline Drawing Order Procedure Type Codes 7
MS-T Series Introduction S Safety & Quality afety & Quality No touch safety The integrated terminal covers offer various benefits not to mention added protection against electric shock through secure finger protection. This is available not only on Magnetic Contactors but also Thermal Overload relays, Contactor relays and Contact Units. MS-T Series complies with DIN EN 07VDE 00 Teil 1 for "Finger safe (prevention of finger contact)" Easy branch circuit wiring with Manual Motor Circuit Breaker and optional connection conductor unit Easy wiring is available for the new MS-T Series by using the Manual Motor Circuit Breaker and optional connection conductor unit, contributing your productivity improvement. Unit eliminates the need of wires MS-T Series Introduction Selection and Application Application to Thermal Overload Relays A light touch The MS-T Series' auxiliary contacts can operate with load as light as 0V ma making it suitable for direct controloperation from a PLC output. S Smart wiring mart Wiring Smart design means Smart wiring The integrated terminal covers have an additional benefit in that they act as a guide to improve wiring efficiency but also retain the terminal screw in place: no mislaying the screw, no dropping it or having trouble reinserting it in to the terminal block just fast efficient wiring. Fast wiring terminals (model name with suffix BC ) are also available to further improve wiring efficiency, workability and hence productivity. Screw holder lifts up the screw. Insert a ring crimp lug Tighten the screw Easy wiring! Global Global S tandard Your confidence: Certified Many customers are engaged in business which can mean them exporting to countries around the world and therefore having to comply with those local standards. The MS-T Series is certified to the highest international levels while work is ongoing to gain other country and shipping standards to help put your "mind at rest". s Higher SCCR value achieved by using with Manual Motor Circuit Breaker When the MMP-T Series and the MS-T Series are used together, the higher SCCR (UL short-circuit current rating) value, can be achieved.that will be a great support for your business in North America. * For details, refer to page 8. Applicable standard Safety certification standard International Japan European countries China U.S. & Canada EN EC directive Certificate authority GB Note IEC JIS Note: Also compliant with the requirements for mirror contacts comply with IEC097--1 Annex F. SCCR value increased Warranty and Safety Outline Drawing Order Procedure Type Codes Overseas Product Introduction 8 9
MS-T Series Introduction List of Produced Models Magnetic StartersMagnetic Contactors (NonReversing) Frame Category AC- 0V T Thermal Overload Relays. T1. Rated capacity [kw] 0V. contact 1a 1a1b Model Name (Note ) Special 1b a,b MS- With push button MS-PM -element type MS-KP Quick motion type MS-QM MSO- DC operated type MSOD- Delay trip type MSO-SR Enclosed Magnetic Starters Open type Magnetic Contactors Open type -element MSO-KPSR delay trip type -element MSO-FSKP quick trip type MSO-KF Quick motion type MSO-QM Mechanically MSOL- latched type MSOLD- Delay open type MSO-DL With terminal cover MSO-CX (Note ) With fast wiring terminal MSO-BC S- DC operated type SD- Mechanically SL- latched type SLD- With surge absorber S-SA (Note ) With surge absorber SD-SA Quick motion type S-QM With terminal cover S-CX (Note ) With fast wiring terminal S-BC Delay open type S-DL T0. T1. New release T T N N11 N1 N18 N0 N1 N N N0 N N80 N9 N1 N10 N180 N0 N00 N00 N00 N800 7. 7....... 7. 7. 11 1 1.. 7. 11 11 1 18. 1a1b ab ab 1a 1a 1a1b 1a1b a 1b 1b a,b a Note 1: : Already released. : To be released in the future. - : No plan to be released. Note : S-TSA type is a surge absorber-installed type. Alternate current operation coils of N0 to N800 types with surge absorption function contained do not generate coil openclose surge, so that a surge absorber for coil is not required. Thermal New release 11 1 18. 0 0 7 0 ab 7 Note : Magnetic Contactors and Thermal Overload Relays in MSOS-N0CX and NCX are provided with a terminal cover. Note : The auxiliary contact arrangements for mechanical latch type and delay release type are different. For details, please refer to the Catalog for MS-N. Frame T18 T N1 N18 N0 N0TA N0 N0TA N10 N10TA N0 N00 N00 Heater designation 0.1 to 1 0. to 0.1 to 11 1. to 1 0. to 1 to 9 1 to 7 to 8 to 8 to 1 8 to 180 to 0 0 to 0 TH- Delay trip type TH-SR Quick trip type TH-FS -element type TH-KP -element delay trip type TH-KPSR TH-FSKP -element quick trip type TH-KF With terminal cover TH-CX With fast wiring terminal TH-BC Note 1: : Already released. : To be released in the future. - : No plan to be released. Quick trip type MSO-FS -element type MSO-KP 90 7 90 1 0 190 0 0 0 Magnetic StartersMagnetic Contactors (Reversing) Frame Category AC- Rated capacity [kw] (Notes to ) Model Name Special MS- -element type MS-KP MSO- DC operated type MSOD- Enclosed Magnetic Starters Open type Magnetic Contactors Open type Contactor Relays Frame Number of contacts DC operated type With large rated auxiliary contacts With terminal cover contact Wiring fast wiring terminal 0V 0V T. (1a ) +b (1b ) +b SR- SRD- SR-JH SRD-JH SR-CX SRD-CX SR-BC SR-SA SRD-SA T1.. T0. 7. (1a1b ) +b (a ) +b T a a1b ab New release T1 T T N N11 N18 N0 N1 N N N0 N. 7. 7...... 7. 11 1 18. 11 1 1. 7. 11 11 1 18. 0 ab (1a ) (1a ) ab 1a1b +b +b ab (1b ) (1a ) +b +b Delay trip type MSO-SR -element quick trip type MSO-FSKP MSO-KF -element type MSO-KP With terminal cover MSO-CX (Note ) With fast wiring terminal MSO-BC S- DC operated type SD- Mechanically SL- latched type SLD- With surge absorber S-SA (Note ) With surge absorber SD-SA With terminal cover S-CX (Note ) With fast wiring terminal S-BC New release T9 9 9a 7ab ab Note 1: : Already released. : To be released in the future. - : No plan to be released. N a a1b ab N a a1b ab ab N8 8 8a 7a1b ab ab ab N80 N9 0 N1 7 0 N10 7 N180 90 N0 7 ab N00 90 N00 1 0 N00 190 0 ab Note 1: : Already released. : To be released in the future. - : No plan to be released. Note : S- x TSA type is a surge absorber-installed type. Alternate current operation coils of N0 to N800 types with surge absorption function contained do not generate coil openclose surge, so that a surge absorber for coil is not required. Note : Magnetic Contactors and Thermal Overload Relays in MSOS- x N0CX and x NCX are provided with a terminal cover. Note : +b of T and T1 auxiliary contact arrangements in Reversing type represents b contact built in the UT-ML11 interlock unit. With surge absorber Note : For auxiliary contact arrangement in Reversing type, X is displayed as combined auxiliary contact arrangement of two Magnetic Contactors.Please specify the contact arrangement for which two main units are combined must be designated.<designation example> In case of 1b x + b: B Note : The auxiliary contact arrangement from mechanical latch type is different. For details, please refer to the Catalog for MS-N. N800 0 0 Warranty and Safety Outline Drawing Order Procedure Type Codes Overseas Product Introduction Application to Thermal Overload Relays Selection and Application MS-T Series Introduction 11
Selection and Application Specification List Table Magnetic StartersMagnetic Contactors Model name Main contact rating contact rating Performance Characteristic Outside dimensions Models of mountable options Frame T T1 T0 T1 T T Applicable standard IEC097--1,EN097--1,JIS C801--1 Magnetic Contactors (Without Thermal Overload Relays, Open type) Magnetic Starters Non-Reversing Reversing Non-Reversing S-T S-T MSO-T S-T1 S-T1 MSO-T1 S-T0 S-T0 MSO-T0 S-T1 S-T1 MSO-T1 S-T S-T MSO-T S-T S-T (With standard -element, Open type Reversing MSO-T MSO-T1 MSO-T0 MSO-T1 MSO-T With Thermal Overload Relays) Combined Thermal Overload Relays TH-T18 TH-T Magnetic Starters (With -element type Thermal Open type Non-Reversing Reversing MSO-TKP MSO-TKP MSO-T1KP MSO-T1KP MSO-T0KP MSO-T0KP MSO-T1KP MSO-T1KP MSO-TKP MSO-TKP Overload Relays) Combined Thermal Overload Relays TH-T18KP TH-TKP Rated insulation voltage [V] 90 Rated impulse withstand voltage [kv] Rated frequency [Hz] 00 Pollution degree 0 to 0VAC.11..18. 7.0(7.) 7. Category AC- 80 to 0VAC 9.1 7.18 11 10(1) 1 (Three-phase squirrel-cage motor load 00VAC 7.9 7.17 1117 1 1 standard responsibility) (Note 1) [kwa] 90VAC.7 7.9 7.9 111 111 Category AC- 0 to 0VAC 1.8.11.718.718.0. (Three-phase squirrel-cage motor load 80 to 0VAC. 9.. 7.17 11 inching responsibility) [kwa] 00VAC.7.9.. 7.1 7. Category AC-1 (Resistance, heater load) 0 to 0VAC 0 0 0 80 to 0VAC 11 Conventional free air thermal current Ith [A] 0 0 0 Non-Reversing 1a 1a1b ab accessory Reversing (Note, Note ) 1a +b 1a1b +b ab 1b a Contact Non-Reversing Special accessory arrangement Reversing (Note, Note ) 1b +b a +b Max. number of Non-Reversing *1 *1 *1 *1 *1 *1 additional options (Note ) Reversing (Note, Note ) * * * * * * Rated operational current 10VAC (Category AC-1 : Alternating current coil load) 0VAC Rated operational current VDC (Category DC- : Direct current coil load) 1VDC 0. Conventional free air thermal current Ith [A] Mechanical durability [ten thousand times] 00 Category AC- Please refer to the Electrical durability curve on Page Electrical durability Category AC- Please refer to the Electrical durability curve on Page [ten thousand times] Category AC-1 0 Category AC- 1800 Switching frequency [timehour] Category AC- 00 Category AC-1 100 Coil consumption (Note ) Inrush [VA] 7 Sealed [VA] 7. Power consumption (Note ) [W]..... 1.8 Magnetic Contactors (without Thermal Overload Relays) Non-Reversing 7 78 7 78 7 78 (Width x Height x Depth) [mm] Reversing 88 78 97 8 78 97 8 78 9 111 Open type Magnetic Starters Non-Reversing 11 79 11 79 11 79 18 8 18 8 (Width x Height x Depth) [mm] Reversing 90 1 79 97 1 79 97 1 79 18 8 18 8 IEC mm rail mounting Possible Possible Possible Possible Possible Possible Additional auxiliary ( 1a1b) UT-AXAX11 * Scheduled to be released in fiscal 0 contact block ( ab) UT-AX (Varistor) (Note ) UT-SA1 Operation coil (Varistor + indicating LED) UT-SA surge absorber (CR) UT-SA unit (Varistor + CR) UT-SA Mechanical interlocks UT-ML11 UN-ML1 Note 1: The content within ( ) of rated capacity and rated operational current is applied to the Magnetic Starter. Note : Coil surge absorber-mounted type (- SA type) is also manufactured. UT-SA1 type is mounted. Note : +b of T and T1 auxiliary contact arrangements in Reversing type represents b contact built in the UT-ML11 interlock unit. Note : The maximum number of additional options is equal to the number of auxiliary contact units UT-AX mounted on the main unit. The number of auxiliary contact unit to be mounted is one for *1-marked model and is two for *-marked model. The main unit and auxiliary contact unit must be separately arranged and additionally mounted by the customer. Note : For auxiliary contact arrangement in Reversing type, X is displayed as combined auxiliary contact arrangement of two Magnetic Contactors. Please specify the contact arrangement for which two main units are combined must be designated. <Designation example> In case of 1b x + b: B Note : Operational coil input and coil consumption are average values in case of applying 0V0Hz to AC00V coil. Making and Breaking capacities Frame T T1 T0 T1 T T Making capacity Category AC- [A] Breaking capacity Category AC- [A] 0 to 0VAC 80 to 0VAC 00VAC 0 to 0VAC 80 to 0VAC 00VAC 1 90 70 88 7 0 10 90 9 7 180 180 170 1 1 0 0 170 00 18 00 00 0 0 0 19 0 0 0 19 Note 1: Openclose frequency of closed circuit current capacity and breaking current capacity is 0 respectively (IEC097--1). Main circuit voltage 0 to 0VAC Electrical life (ten thousand times) Short-circuit Coordination Magnetic Contactors model S-T S-T1 S-T0 S-T1 S-T Short-circuit protection device rating Main circuit 0A 80A Type 1 * Fuse gg (IEC09-1) circuit A Electrical Durability Curve 00 0 1 T1 T T0 T1 T T 1 0 00 Coil Ratings Breaking current (A) AC- AC- Main circuit voltage 80 to 0VAC Electrical life (ten thousand times) 00 0 T1 T0 T1 T T Coil types and ratings (Alternating current operation type) For S-T to T types For SR-T and T9 types Rated voltage [V] Coil designation 0Hz0Hz T 1 1 0 00 1 ACV AC8V AC0V AC00V AC00V AC00V AC00V 8-0 0-17 00-0 0-00 80-0 0-0 Coil display Rated voltage and frequency Note : Even when the single rating (example: 00V0Hz) is specified for an order, the above rating voltage is indicated on the product. Breaking current (A) S-T SR-TT9 A AC- AC- MS-T Series Introduction Selection and Application Application to Thermal Overload Relays Product Introduction Overseas Type Codes Order Procedure Outline Drawing Warranty and Safety
Selection and Application Application to Thermal Overload Relays For S-TSA to TSA types For SR-TSA and T9SA types Rated voltage [V] Coil designation 0Hz0Hz ACV AC8V AC0V AC00V AC00V AC00V 8-0 0-17 00-0 0-00 80-0 Coil indication Contact reliability of main and auxiliary contacts Varistor voltage [V] Note 1: Add "SA" to the end of the type name to order the operation coil surge absorber mounting type (varistor). Example: S-TSA AC0V Note : Even when the single rating (example: 00V0Hz) is specified for an order, the above rating voltage is indicated on the product. The minimum working voltage and current of the main and auxiliary contacts of the S-T type Magnetic Contactors and the contact of the SR-T type Contactor Relays vary depending on the allowable failure rate. Apply the following diagrams. The contact reliability reduces when a contact is connected in series or when the current is applied and broken at the time of opening and closing the contact. Prescribe remedies such as connecting the contact in parallel (providing redundancy). The contact must be connected in parallel (providing redundancy) if reliability greater than the contact reliability shown the diagrams 1 to is required. Magnetic Contactors Contact current Contact Reliability 00mA 00mA 0mA 0mA ma ma -7 1x time -8 1x time 0 8 0 00 00 Contact voltage (V) Contact current 0mA 0mA ma ma Rated voltage and frequency -7 1x time -8 x time -9 x time 0 8 0 00 00 Contact voltage (V) -9 x time 10 10 70 70 9 9 Contactor Relays 00mA 0mA 0mA ma ma -7 1x time -8 x time -9 x time 0 8 0 00 00 Contact voltage (V) Diagram 1. S-T main contact Diagram. S-T auxiliary contact Diagram. SR-T, T9,UT-A Contact current -9 x time Note 1: The contact reliability indicates the failure rate 0 (the number of failuresthe number of opening and closing operations, per contact) at 0% reliability standard. This reliability is applied when the product is in use under a clean atmosphere in the standard specification environment (Refer to page ). Note : The contact resistance of the contacts may change due to economical corrosion and that may affect the contacts in the case of a light load. It is recommended that regular inspections to be conducted, with load opening and closing performed several times in the inspection, and that consideration be provided on the system side. Model list CharacteristicsFunctions Operation circuit (contact) specifications Main circuit specifications Specification List Model name Frame Appearance with -elements with -elements For Magnetic Starters For independent mounting For Magnetic Starters For independent mounting For Magnetic Starters W Outside dimensions [mm] H W H D For independent mounting Product weight For Magnetic Starters D [kg] For independent mounting Applicable standard Use condition Ambient temperature [ C] Frequency [Hz] Rated insulation voltage [V] Rated impulse withstand voltage [kv] Pollution degree Heater designation (adjustable range of stabilized current) [A] (Rated operational voltage : 0V maximum) Power consumption [VAelement] at minimummaximum stabilization Terminal screw size Compatible with terminal Electric wire size [mm ] Crimp lug size Conventional free air thermal current Ith [A] Rating Category AC-1 AC operated Magnetic Contactors Coil opening and closing a contactb contact VAC 10VAC 0VAC Operational The value in brackets indicates the rating for automatic reset. 0VAC Current Category DC- VDC DC operated Magnetic Contactors [A] Coil opening and closing The value in brackets indicates the rating for automatic reset. 1VDC 0VDC Minimum applicable load level Terminal screw size Compatible with terminal Electric wire size [mm ] Crimp lug size Trip class Operating characteristic curve description page Vibration resistance (vibration resistance malfunction performance) Trip-free Reset method Operation indication (lever indication) Manual trip check Note 1: The ambient temperature compensator is mounted on all types. Note : indicates standard equipment. : Already released. T18 T TH-T18 TH-T TH-T18KP TH-TKP 7. 1 79 0.11 0.1 IEC, EN,JIS - to +0 (: 0 C; maximum temperature on the board: C) 0(DC) to 00 90 0.1 (0.1 to 0.1) 0.17 (0.1 to 0.) 0. (0. to 0.) 0. (0.8 to 0.) 0. (0. to 0.) 0.7 (0. to 0.8) 0.9 (0.7 to 1.1) 1. (1 to 1.) 1.7 (1. to ).1 (1.7 to.). ( to ). (.8 to.) ( to ). (. to 8) 9 (7 to 11) 11 (9 to ) 1 (1 to 18) 0. (0. to 0.) 0. (0.8 to 0.) 0. (0. to 0.) 0.7 (0. to 0.8) 0.9 (0.7 to 1.1) 1. (1 to 1.) 1.7 (1. to ).1 (1.7 to.) 0.8 1.8 M. 1., 0.7 to. 1.-. to -.,.-S 1a1b (0.) (0.) (0.) (0.) 1(0.) 1(0.) 0.(0.) 0.(0.) 0.(0.) 0.(0.) 0.1(0.1) 0V ma M. 1., 0.7 to. 1.-. to -. A Page 17 to Hz, 19. ms ManualAutomatic switchable Thermal Overload Relays 1.0.1 M 1. to., 1. to 1.- to.- 1a1b (0.) (0.) (0.) (0.) 1(0.) (0.) 0.(0.) 0.(0.) 1(0.) 0.(0.) 0.1(0.1) 0V ma M. 1., 0.7 to. 1.-. to -.. ( to ). (.8 to.) ( to ). (. to 8) 9 (7 to 11) 11 (9 to ) 1 (1 to 18) (18 to ) ManualAutomatic switchable Warranty and Safety Outline Drawing Order Procedure Type Codes Overseas Product Introduction Application to Thermal Overload Relays Selection and Application MS-T Series Introduction 1 1
Application to Thermal Overload Relays - () Selection Table Application to standard three-phase motor of Thermal Overload Relays Heater designation (A) 0.1 0.17 0. 0. 0. 0.7 0.9 1. 1.7.1... 9 11 1 0 (1) 0.1-0.1 0.1-0. 0.-0. 0.8-0. 0.-0. 0.-0.8 0.7-1.1 1.0-1. 1.-.0 1.7-..0-.0.8-..0-.0.-8.0 7.0-11 9.0-1-18 18- () 118 11 11 11 1 8 (%) 0 0 98 9 9 9 90 88 8 8 Compensation factor Main circuit 1 0 0 0 circuit Precautions for Use 0 () TH-T18(KP) Ambient temperature ( C) *1 (Temperature on control board ( C) * 0 () TH-T18 0 () TH-T Disassembly The Thermal Overload Relays are adjusted at the time of assembly. Do not disassemble it. Ambient temperature compensation The TH-T type Thermal Overload Relays are adjusted with the Magnetic Starters in the standard box (the MS type) relative to the ambient temperature of 0 C (The temperature on the control board of the MSO type Magnetic Starters is C). The ambient temperature compensator is mounted on the TH-T type Thermal Overload Relays. Therefore, the ambient temperature less affects the operational characteristic change. The minimum operating current change according to the ambient temperature change relative to the ambient temperature of 0 C (the temperature on the control board of C) generally depends on the characteristics in the diagrams 1 and. The Thermal Overload Relays have a characteristic that the operating current becomes high when the ambient temperature is low and becomes low when the ambient temperature is high. If the ambient temperature of the installation site is significantly different from 0 C (the temperature on the control board of C), the setting current of the Thermal Overload Relays needs to be corrected as shown in diagrams 1 and. In addition, note that the compensation factor has a characteristic to be the minimum scale>middle scale>maximum scale at the adjustment knob location. (Note that the Thermal Overload Relays may operate at a current of less than 0% stabilized current if in use at temperatures exceeding the allowable working temperature of 0 C ( C).) Maximum scale Middle scale Minimum scale Diagram 1. Ambient temperature compensation curve (T18 frame) - () 0 (1) () 118 11 11 11 1 8 (%) 0 0 98 9 9 9 90 88 8 8 Note 1: [*1] The ambient temperature applied to the MS type indicates the outside temperature of the box. To be released in the future [*] The temperature including temperature increase on the control board applied to the MSO type is indicated. 0.0 0.0 0.07 0.1 0. 0. 0.7 1 1...7. 0.0 0.1 0.18 0. 0.7, 0. 0.7 1.1 1..,.7,.7. 7., 9 11 Compensation factor S-T S-T1 0 () Thermal Overload Relays Thermal Overload Relays three-phase motor capacity [kw] Magnetic Contactors that can be combined Short-circuit protector rating (A) Setting range (A) * Fuse gg (IEC09-1) Frame 00-0V 80-0V TH-T18 TH-T S-T0 0 () S-T1 TH-T(KP) Ambient temperature ( C) *1 (Temperature on control board ( C) * 0 () Maximum scale Middle scale Minimum scale Diagram. Ambient temperature compensation curve (T frame) S-T Thermal Overload Relays Compensation factor: Percentage of the minimum operating current at the ambient temperature of 0 C (the temperature on the control board of C) <Compensation procedure of setting current> Determine the compensation factor of the working ambient temperature according to the curves in diagrams 1 and and use the value of all load currents of the motor divided by the determined compensation factor as the stabilization value. Example: The ambient temperature compensation factor for TH-T at the ambient temperature of 0 C (the temperature on the control board of C) is 97% at the minimum scale according to diagram. If the motor rated current is 1A, the stabilization value is 1.A (=10.97). ) Connecting electric wire size and operating current The TH-T type adjusts the minimum operating current with the standard electric wire size shown in the following table. If the electric wire is thicker or thinner than this standard electric wire size, the operating current becomes high or low, respectively. Therefore, correct the stabilized current (divide it by the change rate of the minimum operating current) to use a size different from the standard connecting electric wire size. Model name TH-T18(KP) TH-T(KP) TH-T(KP) (h) (Hour) (min) (Minute) 1 0 0 0 0 (s) (Second) 00 800 00 00 Operating time 00 0 80 0 0 0 0 8 1 0.8 0. 0. 0. 0 8 1 Heater designati on [A] 0.1 to 1 0. to 11 1, TH-T18, T18KP electric wire size [mm ]. Cold start Connecting electric wire size [mm ] Hot start 1.. Operating Characteristic of Thermal Overload Relays (Ambient Temperature of 0 C) 0.8 1 1. 8 1 Current (multiple of setting current) Change rate of minimum operating current [%] 98 97 For the information on the connecting electric wire size, refer to page. TH-T, TKP (h) (Hour) (min) (Minute) 1 0 0 0 0 (s) (Second) 00 800 00 00 Operating time 00 0 80 0 0 0 0 8 1 0.8 0. 0. 0. 0 8 1 Cold start Hot start 0.8 1 1. 8 1 Current (multiple of setting current) Thermal Overload Relays Warranty and Safety Outline Drawing Order Procedure Type Codes Overseas Product Introduction Application to Thermal Overload Relays Selection and Application MS-T Series Introduction 1 17
Product Introduction Magnetic Starters Magnetic Contactors MS-T Series Introduction MSO-T series (non-reversing) MSO-xT series (Reversing) Model name Non-Reversing Reversing 0 to 0VAC 80 to 0VAC 00VAC Heater rating (designation) of standard Thermal Overload Relays (A) contact arrangement Option Rated capacity (kw) Category AC- Operation coil rating Non- Reversing Reversing Non-Reversing Reversing Special Special A B C A B C IEC mm rail mounting type Front clip-on auxiliary contact block mounting type Side clip-on auxiliary contact block mounting type Surge absorber mounting type MSO-T MSO-T. 1a 1b 1a +b 1b +b 11 79 1 90 79 MSO-T1 MSO-T1... 1a1b a 1a1b +b a +b 11 79 1 97 79 MSO-T0 MSO-T0. 7. 7. Refer to pages and 1 1a1b a 1a1b +b a +b 11 79 1 97 79 MSO-T1 MSO-T1. 11 11 ab - abx - 18 8 18 8 MSO-T MSO-T 7. 1 1 ab - abx - 18 8 18 8 S-T series (non-reversing) S-xT series (Reversing) Model name Non-Reversing Reversing 0 to 0VAC Rated operational current 80 to 0VAC (A) Category AC- 00 VAC Conventional free air thermal current Ith (A) Operation coil rating Non- contact Reversing Special arrangement Reversing Special A Option Non-Reversing Reversing B C A B C IEC mm rail mounting type Front clip-on auxiliary contact block mounting type Side clip-on auxiliary contact block mounting type Surge absorber mounting type S-T S-T 11 9 7 0 1a 1b 1a +b 1b +b 7 78 8 8 78 S-T1 S-T1 1 9 0 1a1b a 1a1b +b b +b 7 78 8 97 78 S-T0 S-T1 S-T0 S-T1 18 18 17 17 0 Refer to pages and 1 1a1b ab a - 1a1b +b abx b +b - 7 78 8 97 78 S-T S-T 0 0 ab - abx - S-T S-T - - - - 9 111 Overseas Product Introduction Application to Thermal Overload Relays Selection and Application Thermal Overload Relays that can be combined with Magnetic Contactors Thermal Overload Relays type names and heater types that can be combined with Magnetic Contactors Type Codes Magnetic Contactors frame Thermal Overload Relays type name that can be combined Heater designation (adjustable range of stabilized current) (A) T, T1, T0 T1, T TH-T18 TH-T 0.1(0.1 to 0.1) 0.17(0.1 to 0.) 0. (0. to 0.) 0.(0.8 to 0.) 0.(0. to 0.) 0.7(0. to 0.8) 0.9(0.7 to 1.1) 1.(1 to 1.) 1.7(1. to ).1(1.7 to.).( to ).(.8 to.) ( to ).(. to 8) 9(7 to 11) 11(9 to )* 1(1 to 18)* 0.(0. to 0.) 0.(0.8 to 0.) 0.(0. to 0.) 0.7(0. to 0.8) 0.9(0.7 to 1.1) 1.(1 to 1.) 1.7(1. to ).1(1.7 to.).( to ).(.8 to.) ( to ).(. to 8) 9(7 to 11) 11(9 to ) 1(1 to 18) (18 to )* Note 1: Select the value closer to the heater designation if the stabilized current has two values. Note : Heater designation marked with * has Magnetic Starters frames that cannot be applied. For information on the applicable Magnetic Starters frames, refer to the "Heater rating (designation) of standard Thermal Overload Relays" field in the above table. Order Procedure Warranty and Safety Outline Drawing 18 19
Product Introduction Thermal Overload Relays Contactor Relays MS-T Series Introduction TH-T series Model name Heater types Heater types of TH type Thermal Overload Relays T18 Application heater rating (designation) (A) B A T18KP C For Magnetic Starters For single mounting -element -element -element -element T TKP T Note 1 A B C Note 1 Note 1 TKP Note 1 TH-T18 MSO-T -T1 -T0 0.1, 0.17, 0., 0., 0., 0.7, 0.9,1., 1.7,.1,.,.,,., 9, 11, 1 Heater designation (adjustable range of stabilized current) (A) Note 1: Combining UT-HZ18 To be released in the future allows the T18 frame to be used singly (screw mounting or IEC mm rail mounting). Combining UN-RM0 allows the T frame for single mounting to have the IEC mm rail mounted. 1a1b TH-T MSO-T1 -T 0., 0., 0., 0.7, 0.9, 1., 1.7,.1,.,.,,., 9, 11, 1, 1a1b 1 7. 79 0.1(0.1 to 0.1) 0.17(0.1 to 0.) 0. (0. to 0.) 0.(0.8 to 0.) 0.(0. to 0.) 0.7(0. to 0.8) 0.9(0.7 to 1.1) 1. (1 to 1.) 1.7(1. to ).1(1.7 to.).( to ).(.8 to.) ( to ).(. to 8) 9(7 to 11) 11(9 to ) 1(1 to 18) 0.(0. to 0.) 0.(0.8 to 0.) 0.(0. to 0.) 0.7(0. to 0.8) 0.9(0.7 to 1.1) 1.(1 to 1.) 1.7(1. to ).1(1.7 to.).( to ).(.8 to.) ( to ).(. to 8) 9(7 to 11) 11(9 to ) 1(1 to 18) (18 to ) Specification List Number of poles Model name Rated insulation voltage [V] Rated impulse withstand voltage [kv] Rated frequency [Hz] Pollution degree 10VAC Category AC-1 (Coil load) 0VAC 0VAC 0VAC 10VAC Category AC-1 (resistive load) 0VAC 0VAC 0VAC VDC Category DC- (large coil load) 8VDC 1VDC 0VDC VDC Category DC-1 (resistive loads) 8VDC 1VDC 0VDC Minimum applicable load level Mechanical durability [ten thousand times] Electrical durability [ten thousand times] Switching frequency [timehour] Coil consumption (Note ) Inrush [VA] Sealed [VA] Power consumption (Note ) [W] Contact rating (Note 1) Performance Characteristic AC rated operational current [A] DC rated operational current [A] SR-T a a1b ab 90 00 1. 1. 8 1. 0.() 0.(0.8) 8 (8) 1() 0V ma 1,000 0 1,800 7 7. SR-T9 9 9a 7ab ab Type Codes Overseas Product Introduction Application to Thermal Overload Relays Selection and Application Optional unit (Note ) Surge absorber unit Additional auxiliary contact block IEC mm rail mounting Note 1: The value in brackets indicates the current when switching the load with two poles installed in series. Note : In the optional unit field, and X indicate mountable and non-mountable, respectively. Note : Coil consumption are average values in case of applying 0V0Hz to AC00V coil. Outline Drawing Order Procedure Warranty and Safety 0 1
Product Introduction Contactor Relays Contact placement Model name Contact arrangement SR-T a a1b ab A A1 1 SR-T9 9a 7ab ab 7 8 9 7 8 9 A A1 Optional Units Model list (for MS-T series) Model name contact blocks Operation coil surge absorber unit Type Mounting Specification Function UT-AX Twin contact built-in -pole auxiliary contact (a, ab, a1b) Front clip-on UT-AX * Twin contact built-in -pole auxiliary contact (a, 1a1b, b) UT-AX11 * UT-SA UT-SA1 UT-SA UT-SA UT-ML11 Side clip-on Twin contact built-in -pole auxiliary contact (1a1b) With CR AC00V Mounting on top Operation coil surge absorber With varistor 8VAC (Shared with DC) 00VAC (Shared with DC) 00VAC With varistor + indicating LED 00VAC (Shared with DC) With varistor + CR 8VAC (Shared with DC) 00VAC (Shared with DC) Mechanical interlocks Side clip-on Combining it with two single Magnetic Contactors configures the reversing type. ML11 is the electrical interlock b contact built-in type. MS-T Series Introduction Selection and Application Application to Thermal Overload Relays Contact placement A A1 a 1 1 A A1 1 9a 7 8 9 7 8 11 9 1 1 Appearance (Typical example) Applied model Others Magnetic Starters Magnetic Contactors Contactor Relays UT-AX UT-AX11 UT-SA1 UT-ML11 T-T T-T T-T T-T0 SR-T SR-T SR-TT9 Combination with Combination with UT-AX11 is not available. UT-AX is not available. * Scheduled to be released in fiscal 0 Product Introduction Overseas A A1 11 a1b 1 7ab 71 9 Type Codes 1 A A1 7 8 11 9 1 1 Order Procedure ab ab Combination with additional auxiliary contact block The SR-T series contactor type Contactor Relay is usable in combination with the following additional auxiliary contact blocks. contact Front clip-on Contactor Relay blocks UT-AX UT-AX* Model name a a1b ab a 1a1b b a 9a 8a1b 7ab 7a a1b ab SR-T a1b 8a1b 7ab ab a1b ab ab ab 7ab ab ab ab ab ab Note 1: The auxiliary contact blocks cannot be mounted on SR-T9. Note : The Contactor Relay is not usable with front clip-on and side clip-on blocks mounted at the same time. Note : The contact arrangements in are standard combinations. Side clip-on UT-AX11* UT-AX11* 1a1b+1a1b 1a1b 7ab a1b ab ab ab ab * Scheduled to be released in fiscal 0 Outline Drawing Warranty and Safety
Product Introduction UT-AX auxiliary contact block Ratings and specifications Optional Units UT-SA Operation Coil Surge Absorber Unit Types and application Application and selection Precautions for application Order Procedure Type Codes Overseas Product Introduction Application to Thermal Overload Relays Selection and Application MS-T Series Introduction Outline Drawing Warranty and Safety
Product Introduction UT-ML Mechanical Interlock Unit Application Specifications Mounting Hole drilling dimension Overseas Product Introduction Application to Thermal Overload Relays Selection and Application MS-T Series Introduction Type Codes Warranty and Safety Order Procedure Outline Drawing 7
Overseas We support your overseas business. U.S.A U.S.A. UL standard Our standard products comply with the domestic standards as well as various overseas standards and are certified to meet all the standards. Type Magnetic Contactors Open Type Magnetic Starters Thermal Overload Relays Canada Canada CSA standard North America North America CSA standard Model name JIS Japan Applicable standard CE IEC EN UL CSA GB Marking TUV International Europe Safety certification standard CCC U.S.A. Canada Europe China S-T to T MSO-TKP to TKP TH-T18KP to TP Euro European countries CE marking EN standard China China GB standard International International IEC standard (Note) EC directive Certification body Japan Japan JIS standards Note1: The Magnetic Starters will be certified under each type name of the Magnetic Contactors and the Thermal Overload Relays on the condition that the Magnetic Contactors and the Thermal Overload Relays are used in combination. Note: For the UL standard for the U.S.A. & Canada, refer to the table on the right. : (Note1) (Note) UL Approval for U.S.A. and Canada Magnetic Contactor Type S-(X)T S-(X)T1 S-(X)T0 S-(X)T1 S-(X)T S-(X)T Main Contact Maximum Horsepower Rating [HP] Single Phase Polyphase 1-10V 00-08V 0-0V 0-80V 0-00V 1-10V 00-08V 0-0V 0-80V 0-00V 1 1 1-1 1 1 1 1-1 1 7-1 1 7-1 1 7-1 7-1 7-1 1 7-1 0 1 Mechanical Interlock UT-ML11 Approval as Unlisted Component to be suitable for Type S-XT, -XT1 or -XT0 Reversing Magnetic Contactor Thermal Overload Relay Type TH-T18KP TH-TKP Contactor Relay and Contact Block Type Contact Rating Code Mark SR-T SR-T9 (UT-AX) UT-AX (UT-AX11) Heater Designation 0.1 A 0.17 A 0. A 0. A 0. A 0.7 A 0.9 A 1. A 1.7 A.1 A. A. A A. A 9A 11A 1 A 0. A 0. A 0. A 0.7 A 0.9 A 1. A 1.7 A.1 A. A. A A. A 9 A 11 A 1 A A Note *1 - The available FLA rating is 1A or less. A00 and Q00 FLA Adjustable Range [A] 0.1-0.1 0.1-0. 0. - 0. 0.8-0. 0. - 0. 0. - 0.8 0.7-1.1 1-1. 1. - 1.7 -. -.8 -. -. - 8 7-11 9-1 - 18 *1 0. - 0. 0.8-0. 0. - 0. 0. - 0.8 0.7-1.1 1-1. 1. - 1.7 -. -.8 -. -. - 8 7-11 9-1 - 18 18 - File No. E899 CCN NKCR (U.S.A.) NKCR7 (Canada) File No. E899 CCN NKCR (U.S.A.) NKCR8 (Canada) Magnetic Contactor to be coupled S-(X)T, S-(X)T1, S-(X)T0 S-(X)T1, S-(X)T0 S-(X)T0 S-(X)T1, S-(X)T S-(X)T Connecting Bar for coupling Unnecessary UN-TH1 Maximum Continuous Current Rating [A] 0 0. Trip Class Surge Absorber Unit for Operating Coil Type UT-SA1 UT-SA UT-SA UT-SA Rating, 00Hz -8V 0-0V -80V 0-0V 0-0V -0V 0-0V Contact Rating Code A00 and Q00 Contact Rating Code Mark C00 B00 File No. E899 CCN NKCR (U.S.A.) NKCR8 (Canada) Mark File No. E898 CCN NLDX (U.S.A.) NLDX7 (Canada) Mark File No. E899 CCN NKCR (U.S.A.) NKCR7 (Canada) Warranty and Safety Outline Drawing Order Procedure Type Codes Overseas Product Introduction Application to Thermal Overload Relays Selection and Application MS-T Series Introduction 8 9
Overseas Instruction for UL CSA Available Short Circuit Current Rating (SCCR) and Short Circuit Protection Device (S.C.P.D.) Model S-TT1 S-T0 S-T1 S-T S-T Max. Circuit Voltage S.C.P.D. Fuse, Class K Max. Current Ratings 00V 0A 70A Available Short Circuit Current 00V *1. Main circuit wires must be connected to contactor using applicable lugs shown in below table. 70A 0A 0A ka *1 0V 0A 0A 0A 7A 7A Max. Current Ratings *1 80V 0A 0A 0A 7A 7A S.C.P.D. Circuit Breaker Min. Interrupting Ratings 00V NA *1 0V ka ka 0kA 1kA 0kA 1kA 0kA *1 80V 18kA 0kA 00V NA Available Short Circuit Current *1 *1 0V 80V ka ka ka ka ka ka ka ka ka 00V NA Applicable wire size, lug size and tightening torque Model Terminal Screw size Wire strip length L Wire size (07) (copper only) (Sol.Str.) Recommended Crimp Lug Size (JST Cat No.) * Connection to terminal Max. qty. Tightening torque Main M. mm 1-1 AWG 1.-. to -..-S S-TT1T0 M. Wires or Lugs per terminal. lb-in (1.17Nm) mm 1 AWG 1.-. to -.. lb-in (1.17Nm) Control M. 9mm 1 AWG 1.-. to -. *. lb-in (1.17Nm) S-T1 S-T S-T1T S-T1T Main Control M M. M. 1 - AWG 1.- to.- 11.mm 1.- to.- 8-NK 1 lb-in (1.9Nm) 1-8 AWG *1. The available current rating of 1A heater is 1A or less. *. Two conductors of the same size can be connected. *. Please use swaging tool which is recommended by JST. WARNING When a -wire control is used to reset the automatic reset overload relay of a motor controller, the motor connected to the circuit may start automatically when the relay is in the automatic reset position. 11.mm 1 AWG 1.-. to -.. lb-in (1.17Nm) 9mm 1 AWG 1.-. to -.. lb-in (1.17Nm) TH-T18KP Main M. M..mm 1-1 AWG*1 1.-. to -..-S. lb-in (1.17Nm).mm 1 AWG 1.-. to -.. lb-in (1.17Nm) TH-TKP Main M M. mm 1-8 AWG 1.- to.- 8-NK 1 lb-in (1.9Nm).mm 1 AWG 1.-. to -.. lb-in (1.17Nm) MS-T Series Introduction Selection and Application Application to Thermal Overload Relays Model Adjustable Range.Amps. Max. Circuit Voltage 0.1A 0. - 0.1 0.17A 0.1-0. 0.A 0.0-0. 0.A 0.8-0. 0.A 0. - 0 0.7A 0. - 0.8 0.9A 0.7-1.1 1A 1.A 1.0-1. 1.7A 1. -.0 ka.1a 1.7 -. 1A.A.0 -.0.A.8 -. A.0 -.0 0A.A. - 8.0 9A 7-11 0A 0A 11A * 9-1A * 1-18 0A 0A 0.A 0.0-0. 0.A 0.8-0. 0.A 0. - 0. 0.7A 0. - 0.8 0.9A 0.7-1.1 1A 1.A 1.0-1. 1.7A 1. -.0.1A 1.7 -. ka 1A.A.0 -.0.A.8 -. A.0 -.0 0A.A. - 8.0 0A 9A 7-11 0A 0A 11A 9-0A 1A 1-18 70A 0A A * 18-0A 7A *1. Main circuit wires must be connected to contactor using applicable lugs shown in next table. *. 11A heater is applied to types S-T1 and S-T0. *. 1A heater is applied to type S-T0. *. A heater is applied to type S-T. WARNING To provide continued protection against a risk of fire and electric shock, the complete overload relay must be replaced if burnout of current element occurs. TH-T18KP TH-TKP Heater Desig. S.C.P.D. Fuse, Class K Max. Current Ratings Available Short Circuit Current Max. Current Ratings S.C.P.D. Circuit Breaker Min. Interrupting Ratings Available Short Circuit Current *1 *1 *1 *1 *1 *1 00V 00V 0V 80V 00V 0V 80V 00V 0V 80V 1A 0A 0A 1A 0A 0A 7A NA NA NA NA ka ka 0kA 1kA0kA 18kA 0kA NA NA ka ka ka NA ka NA ka 00V Note1: This overload relay is adjustable and ambient compensated. Set the dial in the position corresponding to the motor full load current. Note: Trip rating is 1% of setting. NA NA 0 1 Terminal Model Screw size Wire strip length L Wire size (07) (copper only) (Sol.Str.) Recommended Crimp Lug Size (JST Cat No.) * Connection to terminal Max. qty. Tightening torque Main M 11.mm 1 - AWG 8 AWG *1 1.- to -. 8-NK S-T Control M. 9mm 1 AWG 1.-. to -. Wires or Lugs per terminal * 1 lb-in (1.9Nm). lb-in (1.17Nm) *1. If it is necessary to apply 8AWG at the polyphase AC00-08V, it should be applied 7 copper wire only. *. Two conductors of the same size can be connected. *. Please use swaging tool which is recommended by JST. Model Terminal Screw size Wire strip length L Wire size (07) (copper only) (Sol.Str.) Recommended Crimp Lug Size (JST Cat No.) * Connection to terminal Max. qty. Tightening torque SR-TT9 M. mm 1 AWG 1.-. to -. Wires or Lugs per terminal *1. lb-in (1.17Nm) *1. Two conductors of the same size can be connected. *. Please use swaging tool which is recommended by JST. Control M. 9mm 1 AWG 1.-. to -.. lb-in (1.17Nm) Product Introduction Overseas Type Codes Order Procedure Outline Drawing Warranty and Safety
Type Codes Type Codes Magnetic Starters MSO MSO Basic type AC operated type Non-ReversingReversing Non-Reversing Reversing Frame size T-T T BC KP SA Finger protection BC AR Applicable model T-T Reset method of Thermal Overload Relays KP Manual reset (standard) Automatic reset Combined Thermal Overload Relays With fast wiring terminal With -element Thermal Overload Relays With -element Thermal Overload Relays With -element delay trip type Thermal Overload Relays With -element delay trip type Thermal Overload Relays With -element quick trip type Thermal Overload Relays With -element quick trip type Thermal Overload Relays * For the information on type codes for orders, check the note in Order Procedure. Operation coil and operation circuit specification Applicable model SA YS With surge absorber T-T Special environment Applicable model YS Anticorrosion treatment T-T specification Thermal Overload Relays TH Basic type Thermal TH Overload Relays Frame size T18, T Note: Frame size classification by mounting type Magnetic Starters for independent mounting T For Magnetic Starters T18 T18 BC KP Reset method of Thermal Overload Relays AR KP Manual reset (standard) Automatic reset Combined Thermal Overload Relays BC -element Thermal Overload Relays -element Thermal Overload Relays -element delay trip type (with saturable reactor) -element delay trip type (with saturable reactor) -element quick trip type Finger protection YS -element quick trip type With fast wiring terminal Applicable model T18, T Special environment Anticorrosion YS treatment specification Applicable model T18, T Product Introduction Application to Thermal Overload Relays Selection and Application MS-T Series Introduction Magnetic Contactors S x T BC SA Contactor Relays SR T BC SA Overseas Basic type Finger protection Applicable model Basic type Finger protection Applicable model S AC operated type Non-ReversingReversing Non-Reversing BC With fast wiring terminal T-T SR AC operated type Frame size T, T9 BC With fast wiring terminal T, T9 Type Codes Reversing Operation coil and operation circuit specification Applicable model Operation coil and operation circuit specification Applicable model Frame size T-T SA With surge absorber With special auxiliary contact JH With large rated auxiliary contacts T-T Applicable model All series T-T Optional Units SA With surge absorber With special contact With large rated auxiliary contacts UT AX BC JH T, T9 Applicable model T, T9 Order Procedure Outline Drawing Basic type Unit type Application Finger protection Applicable model UT Optional units AX Additional auxiliary contacts UT ML Mechanical interlocks UT SA Surge absorbers UT BC With fast wiring terminal 1 to -digit number All units AX, ML Unit specification, applicable model, and others Warranty and Safety
Order Procedure Order Procedure (AC operated) Magnetic Starters MSO-(X)T type (Open type) Model name MSO-T1.7kW AC00V MSO-T 9A AC00V 1B Refer to page 1,. Refer to page 1,. Select coil designation from pages and 1 or specify the working operation circuit voltage. (AC operated) Magnetic Contactors S-T and S-XT types Model name Select coil designation from pages and 1 or specify the working operation circuit voltage. contact Specify the auxiliary contact arrangements. from page 1 Magnetic Starters with -element Thermal Overload Relays MSO-TKP type Heater designation (setting current) Select from page 1. Operation coil designation or operation circuit voltage S-T0 AC00V A S-T0 AC0V0Hz Note For orders, specify products as shown below. Insert a space where is present. If adding multiple two-character codes (such as SA, BC, and KP) after a frame size (T or others) of type name, specify them in alphabetical order of the first letters. (Example: MSO-TBCKPSA) (If they are not in alphabetical order, the type code is automatically changed.) Operation coil designation or operation circuit voltage contact Specify the auxiliary contact arrangements. from page 1 MEMO Overseas Product Introduction Application to Thermal Overload Relays Selection and Application MS-T Series Introduction Model name Refer to page 1,. Heater designation (setting current) MSO-TKP 9A AC00V Select from page 1. Operation coil designation or operation circuit voltage Select coil designation from pages and 1 or specify the working operation circuit voltage. contact Specify the auxiliary contact arrangements. from page 1 Type Codes With fast wiring Terminal MSO-TBC type Model name Heater designation (setting current) MSO-T1BC.kW AC00V Operation coil designation or operation circuit voltage contact Order Procedure Refer to page. S-TBC type Select from page 1. Select coil designation from pages and 1 or specify the working operation circuit voltage. Specify the auxiliary contact arrangements. from page 1 Outline Drawing Model name Operation coil designation or operation circuit voltage contact S-T1BC AC00V S-T1BC AC0V0Hz A Refer to page. Select coil designation from pages and 1 or specify the working operation circuit voltage. Specify the auxiliary contact arrangements. from page 1 Warranty and Safety
Outline Drawing Outline Drawing, Contact Arrangement Magnetic Starters MSO-TKP Installation holes for -M screws. 0 (Installation Dimension). 11. 1a 1b A A1 1L1 L L T1 T T 1 A A1 1L1 L L 1 97 97 9 98 9 9 T1 T T 98 9 MSO-XTKP Application to Thermal Overload Relays Selection and Application MS-T Series Introduction MSO-T1KP MSO-T0KP Installation holes for -M screws. 0 (Installation Dimension). 11. 0. (Installation Dimension) 8. 7. 1..7 8 11 1a1b a A A1 A A1 1L1 L L 1 1L1 L L 1 T1 T T 1 97 98 97 9 9 9 MSO-XT1KP MSO-XT0KP Overseas Product Introduction MSO-T1KP MSO-TKP 8 1 8 (Installation Dimension) 8. 7. 8.7 11 78 9 contact 90 7 (Installation Dimension) Installation holes for -M screws 8. 7. 0 (Installation Dimension)...7 Operation indication (Manual trip) () 11 8 78 9 contact (1a) + b Black Red 1L1 L L 1L1 L L A A1 R01 L01 A A1 R0 L0 1 1 97 9 T1 T T 98 9 11 7.. (Reset bar) 79 78 9 7.9 Contact Installation holes for -M screws. 0 (Installation Dimension). 7. 89 (Installation Dimension) 8 (Installation Dimension) 8. 7. Operation indication (Manual trip).7 8 () 11 7 79.9 78 9 contact (1a1b) + b A Black 1 A1 L1 1 T1 L T L T 1 R0 97 98 R01 9 9 L01 L0 Red A A1 1 1 L1 L L 1 Installation holes for -M screws 1 0 (Installation Dimension) 8 11 1.8 7.. (Reset bar). (Installation Dimension).. M screws 7. 1. 9 18 79 9 9.1 8 7..9. Contact ab A T1 T T 98 A1 97 9 1 1L1 L L 1 1 9 T1 T T 98 9 MSO-XT1KP MSO-XTKP M screws. (Installation Dimension) 19 (Installation Dimension) (Internal pitch). Installation holes for -M screws 7 1 0 (Installation Dimension) 8 7. M screws. 1.8 7. 98 Operation indication (Manual trip) () 1. 9 Resetting bar (Resetting stroke) (.mm) 8 79 7.9 9. 9 8. contact (ab) A A1 1 1 1 L1 T1 L T L T 1 97 98 9 9 A A1 1 1 1 L1 L L 1 Warranty and Safety Outline Drawing Order Procedure Type Codes 7
Outline Drawing Outline Drawing, Contact Arrangement Magnetic Contactors S-T. 0 (Installation Dimension). Installation holes for -M screws 8 (Installation Dimension) 8. 7..7 1. 7 78 9.9 contact 1a 1b A A1 A A1 1L1 T1 1L1 T1 L T L T L T L T 1 1 S-T Installation holes for -M screws. 0 (Installation Dimension). 8 (Installation Dimension) 18 8 (Installation Dimension) (Internal pitch) 8. 7. 8 1..7 7 78 9.9 contact 1a + b A A1 1L1 T1 L T L T Black 1 R01 L01 Red A A1 1L1 L L T1 T T 1 Application to Thermal Overload Relays Selection and Application MS-T Series Introduction S-T1 S-T0. 0 (Installation Dimension). Installation holes for -M screws (Installation Dimension) 1..7 7 8. 7. 78 9.9 contact 1a1b a A A1 A A1 1L1 L L 1 1 T1 T T 1 1L1 L L T1 T T S-T1 S-T0. 0 (Installation Dimension). (Installation Dimension) 18.9 (Installation Dimension) (Internal pitch).9 8. 7. 97 Installation holes for -M screws 1..7 7 78 9.9 contact 1a1b +b A L A1 1L1 L 1 1 T1 T T Black R01 L01 Red L A A1 1L1 L 1 T1 T T 1 Overseas Product Introduction S-T1 S-T 1 0 (Installation Dimension) Installation holes for -M screws. (Installation Dimension). M screws 9 1. 9.. contact ab A A1 1 1L1 L L 1 1 T1 T T S-T1 S-T 1 0 (Installation Dimension). Installation holes for -M screws (Installation Dimension) 19 (Internal pitch) (Installation Dimension) 7. M screws 9 1. 9.. contact ab b A A1 1 1L1 L L 1 1 T1 T T A A1 1 1L1 L L 1 1 T1 T T Order Procedure Type Codes S-T 1 Installation holes for -M screws M screws. 0 (Installation Dimension) 0 (Installation Dimension). 9 1. 9. A A1 1L1 T1 L T L T S-T Installation holes for -M screws. 0 (Installation Dimension) 0 (Installation Dimension) (Internal pitch) 1 0 (Installation Dimension) M screws 8.. 7. 9 9 1. 98. 9 111. contact ab A A1 1L1 L L T T1 T 71 7 8 9 9 1L1 L A A1 L 71 9 T 9 T1 T 7 8 Warranty and Safety Outline Drawing 8 9
Outline Drawing Outline Drawing, Contact Arrangement Contactor Relays SR-T. 0 (Installation Dimension). SR-T9 Installation holes for -M screws. (Installation Dimension). 0 (Installation Dimension). Installation holes for -M screws (Installation Dimension) 8. 8. 7. 1..7 7 8. 7. 78.8 1..7 7 8 9 9.9 Thermal Overload Relays TH-T18KP Resetting bar (Resetting stroke) (.mm) TH-TKP 7.1 (Installation Dimension). M screws. 7. 1.8 19 (Installation Dimension) 1.8. Operation indication (Manual trip) 1. 0. Installation holes for -M screws Operation indication (Manual trip) 7...8 18 7. 7 80 7 7 7 contact TH-T18KP contact TH-TKP 97 9 T1 T T 98 9 97 9 T1 T T 98 9 Type Codes Overseas Product Introduction Application to Thermal Overload Relays Selection and Application MS-T Series Introduction Warranty and Safety Outline Drawing Order Procedure 9.9 For contact arrangement and contact allocation, see Page. For contact arrangement and contact allocation, see Page. 0 1
Outline Drawing Outline Drawing, Contact Arrangement MEMO MS-T Series Introduction Optional Units UT-AX UT-ML11 7. 7 7. 8 8 8. 9 9.8 Note: The contact arrangement a is shown in the figure above. 0 17 Magnetic Contactor or Contactor Relay H Product Introduction Application to Thermal Overload Relays Selection and Application Overseas Type Codes Warranty and Safety Outline Drawing Order Procedure Application Applicable model S-T, T1, T0 Magnetic Contactor S-T1, T, T Contact Relay SR-T Dimension H 8 111 8 a a1b ab 7 8 9 71 8 9 7 8 9 7 8 9 71 9 7 8 9 0.8.8 7.. 19.9 A (BlackL0 L01 R0(Red) R01 A1 A A1 (Left) (Right) 1..1 (Interlock Unit).7
Warranty and Safety About Handling Precautions for Use Performance Usage environment (1) Ambient temperature : - C to 0 C (Applied to the outside of the control board) Average daily atmospheric temperature: C (Max.), Average yearly atmospheric temperature: C (Max.) () Maximum temperature of the : C However, the ambient temperature of boxed MS type is 0 C (Average yearly temperature of the inside of the control board is 0 C or less.). inside of the control board Please note that the operating characteristics of the Magnetic Contactors and Thermal Overload Relays may vary with the ambient temperature. () Ambient temperature : % to 8% RH However, dew condensation and freezing should be avoided. () Height above sea level : 000 m or less () Vibration : to Hz, 19. ms or less () Impact : 9 ms or less (7) Atmosphere : Inclusion of dust, smoke, corrosive gas, moisture, salt content and the like in the atmosphere should be avoided as much as possible. Please note that continuing to use the device in a closed condition for a long period may cause contact failure. Never use the device under an atmosphere that contains flammable gas. (8) Storage temperaturerelative humidity : -0 C to C % to 8% RH However, dew condensation and freezing should be avoided. The storage temperature is ambient temperature during transportation or storage and should be within the usage temperature when starting to use the device. Mounting Direct mounting (1) The device should be mounted in a dry location low in dust and vibration. () The normal mounting direction is the direction shown in Fig. 1 on a vertical surface, but mounting the device at an inclination angle of up to 0 degrees in either direction is allowed. (Fig. ) () Mounting the device on a floor or ceiling is not allowed. (Mounting the device on a floor or ceiling may affect the continuity performance, operation performance, and durability of the contact.) () If mounting the device in a horizontal orientation cannot be avoided, be sure to rotate the device by 90 degrees in a counterclockwise direction from the normal mounting direction as shown in figure when mounting it. If the device is mounted in a horizontal orientation, its characteristic is nearly unchanged but mechanical durability may be deteriorated. Horizontal mounting of reversing type is not allowed. Top Bottom Top Bottom Note Be sure to periodically check the Magnetic Starters and apply danger prevention measures on the sequence of important circuits. (The Magnetic Starters contacts may suffer from defective continuity, welding, and burning. ) When performing installation, wiring, and maintenance & inspection, be sure to disconnect the Magnetic Starters from the power supply. It may cause electric shock. In addition, the malfunction attributable to vibration, impact, and false wiring may exert serious results (machine malfunction, short-circuiting of power supply, etc.) on the Magnetic Contactors. The performance described in this catalog is based on the result of a test conducted under the conditions specified in the (IEC097--1 "Low-voltage switchgear and controller" etc.). If actual use condition is different from this test condition, the user must evaluate the condition (by using an actual device). Use condition Although the device can operate without any problem when under the conditions described in this chapter, be careful about the following matters. (1) Ambient temperature Even when the device is used in accordance with normal usage, deterioration of the insulation will progress. In particular, as the ambient temperature increases, the insulation life is shortened. In general, it is said that every time the ambient temperature increases by to C, the insulation life decreases by half (Arrhenius law). In a case where the ambient temperature is high and voltage exceeding the rated voltage is continuously applied to coil, the coil temperature increases and life may be shortened dramatically. () VibrationImpact Although vibration of 19.ms and impact of 9ms do not cause contact malfunction, even when the vibration and impact are below these values but are applied continuously, fatigue failure may cause some trouble. In particular, please note that the resonance of an installed board may exert a large vibration on the product. 0 0 Fig.1. Normal mounting Fig.. Inclined mounting Fig.. Horizontal mounting 0 0 90 Normal Tightening torque of mounting screw The device should be mounted by force of tightening torques shown in the right table. Mounting of IEC mm wide rail (1) T to T types and SR-T type are standard devices allowed to be mounted on an IEC mm wide rail. () DIN, EN, IEC, and JIS C standards-compliant mm wide rails come in two types: 7.mm and 1mm in rail height. Their shapes and dimensions are as shown in the figure below. 1 Rail Frame TH-7. TH-1 Rail TH-7. TH-1 Rail specifications Rail width: mm, Rail height: 7.mm Rail width: mm, Rail height: 1mm () Maximum pitch of rail mounting screw L(mm) When mounting a rail on a surface of the board, be sure to keep the rail mounting screw pitch below the dimension shown in the following table in order to secure sufficient mechanical strength. 0 00 Mounting space and arc space D A(A1, A) B (B1, B) S-T, T1, T0, T1, T, T Grounding metal C (C1) Grounding metal Grounding metal Mounting space and arc space E Screw size Tightening torque of mounting screw N m M 1. to 1.9 Z Burring should be avoided. ±0. 0. or less 7 Height: 7.mm "Z" Details 7. 0-0. 1±0.0 Mounting screw pitch L L L Minimum mounting space Frame A(A1, A) dimension B(B1, B) dimension C (C1) dimension [mm] [mm] [mm] S-T S-T1 S-T0 1 (A1 =, A = ) 8 (A1 = 0, A = 7) S-T1 (Note ) 8 (B1 (A1 = 80, A = 9) = 17, (C1 = ) S-T B = 9) S-T SR-T SR-T9 8 (A1 = 0, A = 7) 8 (A1 = 0, A = 7) 8 (Note ) D dimension [mm] Height: 1mm "Z" Details When mounting the Magnetic Contactors side by side, be sure to keep the devices isolated by a distance longer than the dimension shown in the following table. Also, the Magnetic Contactors and adjacent grounding metal should be isolated by a distance longer than the dimension shown in the following table. The content described in ( ) is applied when additionally mounting auxiliary contacts. Although an arc space is not required in a position above the Magnetic Contactors, it is recommended to provide a space longer than the E dimension shown in the following table in consideration of the product movement caused by variation in depth dimension of Magnetic Contactors and the vibration produced when turning on or releasing the contactor. Additional auxiliary contact (Shadowed area) SR-T,T9 A1, B1, C1: When an auxiliary contact is added to the shadowed area A, B : When two auxiliary contacts are added to the shadowed area Arc Space (Note 1) 1 1±0.0 1 Mounting screw Upper mounting space E 1 0 (Note ) Note 1. The value of this arc space is a value of IEC and JIS s-based closed circuit shut-off capacity test. Note. Although the B dimension of T to T allows closely-attached mounting, when continuing to apply current to the device or when mounting a product high in openclose frequency and high utilization on the same rail, the device life may be shortened in terms of temperature increase and impact, so please keep the space between the devices over the minimum value shown in the above table as much as possible when mounting them. Note. E dimension is mm when mounting UT-AX or UT-AX with contactors. Warranty and Safety Outline Drawing Order Procedure Type Codes Overseas Product Introduction Application to Thermal Overload Relays Selection and Application MS-T Series Introduction
Warranty and Safety About Handling Note Connection Applicable electric wire size and tightening torque and terminal dimension of terminal screw This may cause overheating or fire. Be sure to properly keep the tightening torque and periodically re-tighten the screw. However, please note that tightening the screw under the status where oil is adhered to the terminal portion may damage the terminal screw even within the existing tightening torque. Electric wires should be properly connected according to the electric wiring diagram. Tightening the terminal screw should be properly conducted within the tightening torque shown in the right table. Insufficient tightening of the terminal screw may cause overheating or cause the electric wire to drop off. Excessive tightening torque may damage the tightening screw. Adhesion of rock paint, thermo label, etc. to electric wire connection or contact may cause heat generation due to defective continuity, so this is very dangerous. The main circuit terminals of T to T and TH-T18T types are allowed to be connected via any of single wire, stranded wire, and crimp lug. The main circuit terminals and operating circuit terminals of T to T and TH-T18T types are self-up terminals, which facilitate wiring. Model type Contactor Relays Magnetic Contactors Thermal Overload Relays SR-T, T9 S-T, T1, T0 S-T1, T, T TH-T18 (Load side) TH-T (Power side Load side) (1) When applying MSO, S-T, T1, T0, SR-T, T9, and TH-T18 types to a circuit exceeding 80V to set a crimp lug wiring, please use an insulating tube-attached crimp lug. () When applying such parts to a Reversing type circuit exceeding 00V, please use an SR-T type Contactor Relays (XF, XR) as shown in the right figure to set the switching time allowance. Wiring direction Terminal dimension and sizetype of screw Operating Main circuit circuit Dimension of cross slot terminal portion Screw Screw screw with A x B x C size type pressure [mm] (Note 1) plate 7..7.... M. 7...8..7 M. 7. cross slot M. 7. screw with pressure M. 7. plate cross slot M. 7. M. M. screw with pressure plate M. 7. M. 7. M. 7. Applicable electric wire size [mm, mm ] Main circuit 1. 0.7 to. 1. -. 1. to 1. 0.7 to. 1. -. 1. to Application to a circuit exceeding 80V Operating circuit 1. 0.7 to. 1. 0.7 to. Connection conductor thickness (D) [mm] Main circuit (Note 1) Main circuit Although the upper terminal side is usually set to the power supply side when wiring, the lower terminal side may be set to the power supply side THR when it is unavoidable due to some reason of the board wiring. However, the mounting direction must be in accordance with the description on Page. In case of Reversing type circuit exceeding 00V 1.. Applicable crimp lug size (JST Cat No.) 1.-. to -..-S 1.- to.- 1.-. to -..-S 1.-. to -. 1.- to.- XF Operating circuit 1.-. to -. Normal rotation XF Stop XF XR MCF XR MCR Main circuit Note 1: The dimension of the main circuit terminal is a dimension for board conductor wiring. (See the right diagram) The board conductor thickness (D dimension) must be below the allowable connection conductor thickness stated above because of the length of the terminal screw. In case of wiring with two boards used, the total value of two boards must be below the value (D dimension) shown in the table. Note : In each terminal, two wires or two crimp lugs are allowed to be connected. Note : The cross slot screws with pressure plate of T Series and those of N or other Series are same in size but different in pressure plate Connection dimension, so please avoid the mixed use of such screws. This may break the insulation barrier or make the wire likely to fall out. conductor Note : When using IEC09-based finger safe specification, be sure to use an insulation tube-attached crimp lug. Note : Tightening the terminal screw excessively without wiring may break the screw and consequently disable the tightening, so please avoid such excessive tightening. Note : Operational circuits are coil terminals of magnetic contactors and control circuit terminals of Thermal Overload Relays. Note 7: Please use swaging tool which is recommended by JST. A D Tightening torque of terminal screw [N m] 0.9 to 1. 1. to 1.9 0.9 to 1. 1. to 1.9 Reverse rotation XR XR XF B MCR Operating circuit 0.9 to 1. 0.9 to 1. C MCF Terminal Terminal Operating circuit Applying a low voltage that does not operate the Magnetic Contactors to the operating circuit may cause overcurrent to the coil, which may cause the coil to be burned in a short time. If the operating circuit wiring is too long, when the coil's instantaneous current flows, the wiring impedance may cause a reduction in the coil voltage, so that the operating circuit may fail to be activated. And, the stray capacitance of the wired line may cause the coil's excitation not to be released even when releasing the excitation. Power supply voltage variation range and voltage drop of the operating circuit (1) Operating voltage When the rated voltage and frequency are applied to the coil at an ambient temperature of 0 C (Inside temperature of the board: C), the device operates without any problem at 8 to 1% of the rated voltage of the coil after the temperature increases and becomes saturated. () Voltage drop Even when the coil is excited at the rated voltage and the voltage drops to % of the rated voltage (first 1 to cycles; however in case of 0.1 second or more, 70%) when the main contact is contacted, contact welding does not occur at a current ten times the rated operational current, allowing the device to operate without any problem. () VoltageFrequency and coil rating of operating circuit The voltagefrequency of the operating circuit and the same of the operation coil must be matched. Applying a voltage exceeding 0% of the rated voltage to the operating circuit when using the coil may acceleratedly deteriorate the coil insulation and consequently reduce mechanical durability, so set the coil's average voltage to 9 to 0% of the rated voltage when using the coil. Application to special environment Please note that the operating characteristics of the magnetic contactor and thermal overload relay may vary with the ambient temperature. High temperature When using Magnetic Starters or Magnetic Contactors at high ambient temperature, the temperature may mainly affect the insulation life (continuous electric conduction life) of the operation coil and the aging variation of the molding component. MSO and S-T type without a box are standard products available even at the inside temperature of C. Low temperature Although the Magnetic Contactors may be transported to a cold region or used in such a cold region or under cold conditions such as those found in a refrigerator with the contactor incorporated in a switchboard, the S-T type Magnetic Contactors is applicable as a standard product. Also, MSO-T type Magnetic Starters and TH-T type Thermal Overload Relays of low temperature specification are not manufactured. Applicable temperature range of low-temperature-based products: -0 to C (Operating temperature) -0 to C (Storage temperature) Corrosive gas S-T type Magnetic Contactors is of corrosion resistance-increased specification as a standard product. Corrosive gases that exist in an environment with an Magnetic Starters or Magnetic Contactors used are gases such as sulfurous acid (SO), hydrogen sulfide (HS), chlorine (Cl), and ammonia (NH), and conductive portions can be protected by plating a metal resistant to such gases on the portion. However, because there is no adequate corrosion prevention method for the contact, such gases may increase the contact resistance, resulted in increased temperature. Additionally, if the environment contains some corrosive gas but is under dry condition, this may delay the progression of corrosion, so using the switchboard with the inside kept as dry as possible is also one of the corrosion prevention methods. In the Magnetic Starters and Thermal Overload Relays, corrosion-prevented products (MSO-TYS, TH-TYS) of the specification with increased corrosion resistance to such corrosive gases are also manufactured. Dust Magnetic Starters and Magnetic Contactors used in an iron foundry, construction site, or powder conveying machine tend to be subject to a relatively large amount of dust. When using the control board in such locations, the board must be dust-preventionstructured. Also, using the board under hermetically-sealed condition for a long period may cause contact failure. Export of the products to tropical regions The environment of exported products which pass through tropical regions tends to be of high temperature and high humidity, and humidity is the environmental factor that affects the Magnetic Starters and Magnetic Contactors most severely. Humidity is the biggest rust-generating factor and the exported products must be in a structure resistant to humidity. Therefore, it is recommended to put a moisture absorbent (Silica gel) in an amount of kg or more per m³; so as to lower the humidity. Warranty and Safety Outline Drawing Order Procedure Type Codes Overseas Product Introduction Application to Thermal Overload Relays Selection and Application MS-T Series Introduction 7
Warranty and Safety [Notes for adopting the product] Before purchasing and using our products, please confirm the following product warranty. Period and scope of warranty Warranty period (1) The warranty period for our products shall be one year after purchase or delivery to the designated location. However the maximum warranty period shall be 18 months after production, in consideration that the maximum length of distribution period is to be months after shipping. () This warranty period may not apply in the case where the use environment, use conditions, or the number of openclose operation times specifically impact the lives of products. Scope of warranty (1) When any failure occurs during the above warranty period which is clearly our responsibility, we will replace or repair the failed portion of the product free of charge at the location of purchase or delivery. Note that the "failure" mentioned here shall not include such items as scratches and discoloration which do not affect performance. () In the following cases, even during the warranty period, charged repair services shall be applied. Failures caused by inappropriate conditions, environment, handling, and uses other than those specified in catalogs, instruction manuals or specifications. Failures caused by inappropriate installation. Failures caused by the design of customer's equipment or software. Failures caused by the customer tampering with our products such as reworks without our authorization. Failures caused by the customer failing to correctly maintain or replace components such as spare parts, as specified by documents such as instruction manuals. Failures caused by uses of the product other than ordinarily intended. Failures caused by force majeure such as fire and abnormal voltage accidents, and natural disasters such as earthquake, wind and flood. Failures caused by reasons that were unforeseeable by the level of technology at the time of shipment. () The warranty that is mentioned here shall mean warranty of the unit of delivery, and any losses induced by the failures of delivered products shall be excluded from our warranty. Failure diagnosis In principle, primary failure diagnosis shall be conducted by the customer. However this job, if requested by the customer, can be performed by us or our service company with charge. In this case, a service fee shall be charged to the customer in accordance with our price list. Recommendation for renewal due to life Our Magnetic Starters and Magnetic Contactors with contacts and mechanical parts have certain wear life in line with the number of switching operations, while our coil wires and electronic parts have aging degradation life influenced by the use environment and use conditions. Regarding the use of our Magnetic Starters and Magnetic contactors, we recommend customers to renew the products every years as a rule, provided that the products are used in line with the number of openclose operations specified by this catalog or the instruction manual. We also recommend to renew devices other than the Magnetic Starters and Magnetic Contactors described in this catalog every years as a rule. Exemption from warranty related to opportunity or secondary losses. Regardless of in or out of warranty period, loss of opportunity and lost earnings at the customer side caused by the failures of our products, any damages caused by special situation regardless of our foreseeability, secondary losses, accident compensation, damages on anything other than our products, compensation to jobs including replacement work, readjustment of field machinery equipment, startup test run, etc. performed by customers, and damages caused by any reasons for which we are not held responsible, shall be outside the scope of our compensation. Exemption from warranty related to opportunity or secondary losses. (1) The contents of products shown in this catalog are for your selection of models. When you actually use the product, read the "Instruction Manual" carefully beforehand and use correctly. Please note that the external view or specifications that should not affect the model selection can change without preannouncement. () When using a product listed in this catalog, you are required to accept that your use should not lead to any serious accident if by any chance the product develops any failures or errors, and, in the event any failure or error occurs, backup or fail-safe functions are in place outside the device by the system. () The products described in this catalog are designed and manufactured as general products to be used for general industrial fields. For this reason, the products described in this catalog should not be used for the applications requiring special quality assurance systems, such as serious public uses as atomic power plants and other power plants owned by power companies, railway applications and government and public office applications. Note, however, that the products shall be applicable to such uses if the use is limited and the customer agrees not to require specially high quality. Furthermore, when the customer is investigating application for the uses where serious impact is foreseen to the human body and assets and therefore high reliability for security and control system is required, such as aviation, medical services, railways, combustion and fuel equipment, manned transportation equipment, entertainment facilities and security machines, please contact our representatives and discuss any necessary agreement or specifications. Supply period of spare goods after production stop (1) For the discontinuation of production, we will announce in such media as "Sales and Service" paper created by us. [Notes for security related issues] Before performing the installation, wiring works, operation and maintenancecheck for the products described in this catalog, make sure to read the "Instruction Manual" or "Notes for Use" attached to the product for correct usage. In spite of our continued efforts to enhance the quality and reliability of our product, the product can fail. The products described in this catalog can bring about serious results, such as malfunctions of machinery, short circuit at power supply, and catching fire), by the malfunction caused by vibration, physical shock and improper wiring. Pay special attention to avoid any secondary accidents such as injuries and fire, as the result of failures or malfunctions. When you find any questions or you need more details after reading this catalog, please contact your dealer or our company. [For using the products described in this catalog, please observe the following items. ] Danger Make sure to disconnect the power before you perform installation, removal, wiring works, or maintenancechecking. There is a risk of receiving an electric shock or occurrence of a malfunction. When the product is energized, avoid touching or coming near the product, especially the terminals having electricity. There is a risk of receiving an electric shock or burn injury. Notes Use the product in the use environment described in this catalog and Instruction Manual. Do not install the product in any abnormal environment with high temperature, high humidity, dust, corrosive gas or excessive vibrationshock. There is a risk of catching fire, malfunctions, electric shock or failure. Avoid applying shocks by dropping or falling the product during transportation and unpacking. This will lead to breakage or failure of products. Do not use the product when it has received damage during transportation, installation or wiring. This can cause fire or malfunctions. Make sure that only technicians qualified for electric work or wiring should perform installation, wiring works and maintenancechecking of the product. Make sure that no foreign objects such as dust, iron powder and wire chips enter the product during installation and wiring works. There is a risk of contact failures and malfunctions leading to damage or fire at the load. When you use mounting screws of the wrong size or use a small number of screws than specified, or when the mounting to the rail of IEC mm width is defective, there is a risk that the product may fall. When you apply wiring works, be sure to use the wire size that suits the applied voltage, flow current and inrush current, and to fasten wires with the correct torque as specified in this catalog or the instruction manual. Defective wiring can cause fires, accidents and failures. To terminal screws and mounting screws, apply the torque as we specify for tightening, and regularly apply retorquing. When the tightening torque is too large, the work can damage terminal screws or mounting screws. When the terminal screws or mounting screws slacken or are broken, they can cause overheat or fire, or the body can fall off to create serious accidents. Confirm the rated values and specifications, and make sure to use a product that meets the requirements. When you use a product exceeding the ratedspecified values, it may cause insulation breakdown leading to earth fault or short circuit accidents, or create the cause of fire by overheat or breakdown due to inability to shutdown. When a product described in this catalog is to be used in a facility where a failure can lead to injury to the human body or serious damage to earnings, make sure to install some safety mechanism. Apply regular checks to the product and use safety measures on the sequence to the critical circuits. The contacts of Contactors and Magnetic Starters can develop defective conduction, weldingor burnout. Contactors and Magnetic Starters can create welding of contacts disabling the opening, due to such causes as switching operation for excessive current, abnormal wearing of contacts, chattering at operational instruction contacts, aging degradation and product life. Also the contacts may fail to open due to unexpected mechanical constraints other than contact adhesion. Since the disability of contact to open can cause the machine to go out of control, secure safety by assuming the mechanical constraints or contact welding leading to inability of openclose operations. There remains a risk of fire even when an overload protective device (Thermal Overload Relays) is provided. The example connection described in this catalog only shows a typical one to run a system. For the protection of each device and safety measures, the customer is requested to consider the connection for each system. Do not apply reworks to the product or disassemble the product. These may cause failures. When you dispose of the products, treat them as industrial waste products. Warranty and Safety Outline Drawing Order Procedure Type Codes Overseas Product Introduction Application to Thermal Overload Relays Selection and Application MS-T Series Introduction 8 9
0 1 [Related Products]