General-purpose Relays MK-S (New Models) CSM_MK-S_DS_E 1 New Super MK Relays. Latching Lever Added to the Series. Same mounting and internal wiring as the previous Super MK Relays Built-in mechanical indicator enables checking contact operation. Two modes can be used to check circuits for models with latching lever. Nameplate provided on models with latching lever. All materials are RoHS compliant. UL and IEC (TÜV) certification. Features Latching Lever Operation indicator * Nameplate Mechanical indicator Latching lever DC: Blue AC: Red Operating Method for Latching Lever Relay in Normal Operation Yellow button For Momentary Operation For Lock Operation * The operation indicator is built in only on specified models. Example of Applications of Latching Levers Operation checks in relay sequence circuits Model Number Structure Model Number Legend MKS@@@@@-@-@ 1 1. Contact Form : : PDT. Terminals P: Plug-in. Mechanical Indicator/Test Button Blank: Mechanical indicator I: Mechanical indicator and lockable test button. LED Indicator Blank: Standard N: LED indicator Slide the latching lever to the first position, then press the yellow button with an insulated tool to operate the contact. Slide the latching lever to the second position. (The contact is now in the locked position.). Coil Polarity Blank: Standard 1: Reverse polarity (DC coil only). Surge Absorption Blank: Standard D: Surge absorber diode (DC coil only) V: Surge absorber varistor (AC coil only). Internal Connections Blank: Standard or : Non-standard connections (Refer to Terminal Arrangement and Internal Connection (Bottom View).). Rated Voltage (Refer to Coil Ratings.) 1
Ordering Information List of Models Type Standard Models LED Indicator (See note.) Diode (See note.) LED Indicator and Diode Varistor LED Indicator and Varistor Terminals Plug-in Contact form PDT PDT PDT PDT PDT PDT List of Models (Order Separately) Internal connections (See note.) With mechanical indicator Standard MKSP MKSPI Non-standard MKSP- MKSPI- Standard MKSP MKSPI MKSP- MKSP- With mechanical indicator and lockable test button MKSPI- MKSPI- Standard MKSPN(1) MKSPIN(1) Non-standard MKSPN(1)- MKSPIN(1)- Standard MKSPN(1) MKSPIN(1) MKSPN(1)- MKSPN(1)- MKSPIN(1)- MKSPIN(1)- Standard MKSP(1)-D MKSPI(1)-D Non-standard MKSP(1)-D- MKSPI(1)-D- Standard MKSP(1)-D MKSPI(1)-D MKSP(1)-D- MKSP(1)-D- MKSPI(1)-D- MKSPI(1)-D- Standard MKSPN-D MKSPIN-D Non-standard MKSPN-D- MKSPIN-D- Standard MKSPN-D MKSPIN-D MKSPN-D- MKSPN-D- MKSPIN-D- MKSPIN-D- Standard MKSP-V MKSPI-V Non-standard MKSP-V- MKSPI-V- Standard MKSP-V MKSPI-V MKSP-V- MKSP-V- MKSPI-V- MKSPI-V- Standard MKSPN-V MKSPIN-V Non-standard MKSPN-V- MKSPIN-V- Standard MKSPN-V MKSPIN-V Item Type Model Track-mounted Socket -pin 11-pin -pin 11-pin PF0A-E PF11A-E PF0A-D PF11A-D MKSPN-V- MKSPN-V- MKSPIN-V- MKSPIN-V- MK-S Coil ratings Note: 1. When ordering, add the rated voltage to the model number. Rated voltages are given in the coil ratings table in the specifications. Example: MKSP VDC Rated voltage. The DC coil comes in two types: standard coil polarity and reverse coil polarity. Refer to Terminal Arrangement and Internal Connections (Bottom View). Example: MKSPIN1- VDC Reverse coil polarity. Refer to Terminal Arrangement and Internal Connections (Bottom View) for non-standard internal connections. Hold-down Clip (For PF0A-E and PF11A-E) PFC-A1 AC/DC AC/DC DC DC AC AC
Specifications Ratings Coil Ratings AC DC Rated voltage 1 V 10. ma 11, Ω Note: 1. The rated current and coil resistance are measured at a coil temperature of C with tolerances of +1%/ 0% for AC rated current and ±1% for DC coil resistance.. Performance characteristic data are measured at a coil temperature of C.. The maximum voltage is one that is applicable instantaneously to the Relay coil at C and not continuously.. For DC-operated Relays with the LED indicator built-in, add an LED current of approx. ma to the rated current. Contact Ratings Rated current 0 Hz 0 Hz V ma ma.1 Ω Coil resistance 1 V 1 ma 1 ma 1. Ω V 110 ma. ma. Ω 100 V. ma.1 ma 0 Ω 110 V. ma 1.0 ma Ω 00 V 1. ma 11. ma,10 Ω 0 V 1.1 ma 10. ma,0 Ω 0 V 10.0 ma 11. ma,0 Ω 0 V 11.0 ma. ma,0 Ω V ma. Ω 1 V 11 ma 10 Ω V. ma 0 Ω V.1 ma 1,10 Ω 100 V 1. ma,0 Ω 110 V 1. ma,0 Ω Must operate voltage 0% max. of rated voltage Must release voltage 0% min. of rated voltage at 0 Hz % min. of rated voltage at 0 Hz 1% min. of rated voltage Max. voltage 110% of rated voltage Power consumption Approx.. VA at 0 Hz Approx.. VA at 0 Hz Approx. 1. W Load Resistive load (cosφ = 1) Inductive load (cosφ = 0.) Contact mechanism Single Contact material AgSnIn Rated load NO NC 10 A, 0 VAC 10A, 0 VDC A, 0 VAC A, 0 VDC A, 0 VAC Rated carry current 10 A Max. switching voltage 0 VAC, 0 VDC Max. switching current 10 A Max. switching power NO NC,00 VA/00 W 1,0 VA/10 W
Characteristics Contact resistance Operate time Release time Max. operating frequency Insulation resistance Dielectric strength Insulation method Impulse withstand voltage Pollution degree Rated insulation voltage Vibration resistance Shock resistance Weight Approx. 0 g Note: 1. The values given above are initial values.. P level: λ0 = 0.1 10 - /operation. Ambient temperature of models with LED indicator is to 0 C. Approved Standards UL0 (File No. E11) 100 mω max. AC: 0 ms max. DC: 0 ms max. CSA Standard: CSA Certification by : CSA C. No. 1 0 ms max. (0 ms max. for built-in Diode Relays) Mechanical: 1,000 operations/h Electrical: 1,00 operations/h (under rated load) 100 MΩ min. (at 00 VDC),00 VAC 0/0 Hz for 1 min between coil and contacts 1,000 VAC 0/0 Hz for 1 min between contacts of same polarity and terminals of the same polarity,00 VAC 0/0 Hz for 1 min between current-carrying parts, non-current-carrying parts, and opposite polarity Basic insulation. kv between coil and contacts (with 1. 0 µs impulse wave).0 kv between contacts of different polarity (with 1. 0 µs impulse wave) 0 V Destruction: 10 to to 10 Hz, 0.-mm single amplitude (1.-mm double amplitude) Malfunction: 10 to to 10 Hz, 0.-mm single amplitude (1.0-mm double amplitude) Destruction: 1,000 m/s (approx. 100 G) Malfunction: 100 m/s (approx. 10 G) Endurance Mechanical:,000,000 operations min. (at 1,000 operations/h under rated load) Electrical: 100,000 operations h. (at 1,00 operations/h under rated load) Failure rate P level (reference value) 10 ma at 1 VDC Ambient temperature Operating: 0 to 0 C (with no icing or condensation) Ambient humidity Operating: % to % Coil ratings Contact ratings Operations to 110 VDC to 0 VAC N.O. contact N.C. contact 10 A, 0 V AC 0/0 Hz (Resistive) 10 A, 0 V DC (Resistive) A, 0 V AC 0/0 Hz (General Use) 10 A, 0 V AC 0/0 Hz (Resistive) 10 A, 0 V DC (Resistive) A, 0 V AC 0/0 Hz (General Use) 100,000 100,000 IEC Standard/TUV Certification: IEC110-1 (Certification No. R010) Coil ratings Contact ratings Operations, 1,,, 100, 110 VDC, 1,, 100, 110, 00, 0, 0 VAC N.O. contact N.C. contact 10 A, 0 V AC 0/0 Hz (Resistive) 10 A, 0 V DC (Resistive) A, 0 V AC 0/0 Hz (General Use) A, 0 V AC 0/0 Hz (Resistive) A, 0 V DC (Resistive) A, 0 V AC 0/0 Hz (General Use) 100,000 100,000 Note: When Relays are mounted on the PF0A-E or PF11A-E, the maximum carrying current is A. Engineering Data Reference Data Maximum Switching Power Rated Carry Current vs. Ambient Rated Temperature Switching current (A) 100 0 0 DC resistive load with NO contact AC resistive load with NO contact Rated carry current (A) 10 UL derating curve 10 DC resistive load with NC contact AC resistive load with NC contact AC inductive load (cosφ = 0.) 1 10 0 0 100 00 00 1.000 Switching voltage (V) 0 0 0 0 0 0 0 0 Ambient temperature ( C) Note: The lower limit of the ambient operating temperature for models with built-in operation indicators is C.
Dimensions out Latching Lever Latching Lever MK-S (Unit: mm). max.. max.. max. 0.. max.. max. 0.. max. Sockets See below for Socket dimensions. Maximum carry current Socket Surface-mounting Socket (for track or screw mounting) Finger-protection models --- 10 A A PF0A-E PF0A-D PF0A poles PF11A-E PF11A-E-D PF11A poles Note: Use the Surface-mounting Sockets (i.e., finger-protection models) with -E at the end of the model number. When using the PF0A and PF11A, be sure not to exceed the Socket's maximum carry current of A. Using at a current exceeding A may lead to burning. Round terminals cannot be used for finger-protection models. Use Y-shaped terminals. PF0A-E (Conforming to EN 00) Eight, M. sems Terminal Arrangement PF11A-E (Conforming to EN 00) Eleven, M. sems Terminal Arrangement max.. max.. 1 max.. 1 max. Mounting Holes Two, M or two.-dia. holes. max.. 1 max. Mounting Holes Two, M or two.-dia. holes ±0. ±0.
PF0A-D PF11A-D. Terminal Arrangement 1 1. Terminal Arrangement 1 1 Eight, M screws A 1 1 11 A1 Eight, M screws 10 A 11 1 A1 1 Mounting Holes Two, M or two.-dia. hole Mounting Holes Two, M or two.-dia. hole 0 0 Hold-down Clips PFC-A1 ( pieces per set). 0.. Mounting Tracks PFP-100N, PFP-0N (Conforming to EN 00) PFP-100N (Conforming to EN 00)..±0.1 ±0. ±0.1. ±0. 1. 1 * 10 10 1000 (00)* 1 1 1 10 10 1000± 1 1. * This dimension applies to the PFP-0N Mounting Track. * A total of twelve. elliptic holes is provided with six holes cut from each track end at a pitch of 10 mm. Mounting Height with Sockets Surface-mounting Sockets. (See note.) Two poles.. (See note.) Three poles. PF0A(-E) PF11A(-E) Note: PF0A(-E) and PF11A(-E) allow either track or screw mounting.
Terminal Arrangement and Internal Connection (Bottom View) Standard Models (AC/DC Coil) MKSP(I) MKSP(I)- MKSP(I) MKSP(I)- MKSP(I)- 1 1 LED Indicator (AC Coil) MKSP(I)N MKSP(I)N- MKSP(I)N MKSP(I)N- MKSP(I)N- 1 1 Diode (DC Coil: Standard Polarity) MKSP(I)N MKSP(I)N- MKSP(I)N MKSP(I)N- MKSP(I)N- 1 1 LED Indicator and Diode (DC Coil: Reverse Polarity) MKSP(I)N1 MKSP(I)N1- MKSP(I)N1 MKSP(I)N1- MKSP(I)N1-1 1 Standard Models (DC Coil: Standard Polarity) MKSP(I)-D MKSP(I)-D- MKSP(I)-D MKSP(I)-D- MKSP(I)-D- 1 1 Diode (DC Coil: Reverse Polarity) MKSP(I)1-D MKSP(I)1-D- MKSP(I)1-D MKSP(I)1-D- MKSP(I)1-D- 1 1 LED indicator (DC Coil) MKSP(I)N-D MKSP(I)N-D- MKSP(I)N-D MKSP(I)N-D- MKSP(I)N-D- 1 1
Varistor (AC Coil) MKSP(I)-V MKSP(I)-V- MKSP(I)-V MKSP(I)-V- MKSP(I)-V- 1 1 LED indicator and Varistor (AC Coil) MKSP(I)N-V MKSP(I)N-V- MKSP(I)N-V MKSP(I)N-V- MKSP(I)N-V- 1 1 Safety Precautions Refer to Safety Precautions for All Relays. Safety Precautions for Correct Use Installation Mount the MK-S with the marking at the bottom. Handling Check the coil polarity of models with built-in operation indicator (DC operation coil) and wire them correctly. Test Button Do not use the test button for any purpose other than testing. Be sure not to touch the test button accidentally as this will turn the contacts ON. Before using the test button, confirm that circuits, the load, and any other connected item will operate safely. Check that the test button is released before turning ON relay circuits. If the test button is pulled out too forcefully, it may bypass the momentary testing position and go straight into the locked position. Use an insulated tool when you operate the test button. test buttons or LED indicators fulfill the requirements for reinforced insulation between live parts and the front of cover only when the Relay is in a complete condition, i.e. with the nameplate, nameplate frame, test button, and slider in place. If any of these parts are removed, only the requirements for basic insulation are fulfilled.