omron

General-purpose Relay

MY An Improved Miniature Power Relay with Many Models for Sequence Control and Power Applications A wide range of relay variations including ones with operation indicators, built-in diodes, etc. Arc barrier standard on 3- and 4-pole Relays. Dielectric strength: 2,000 VAC.

LR Ordering Information List of Models Type

Contact form

Plug-in socket/solder terminals

PCB terminals

Upper-mounting/ solder terminals

With indicator Standard

DPDT

MY2

MY2N

MY2-02

MY2F

DPDT (bifurcated)

MY2Z

MY2ZN

MY2Z-02

MY2ZF

3PDT

MY3

MY3N

MY3-02

MY3F

4PDT

MY4

MY4N

MY4-02

MY4F

4PDT (bifurcated)

MY4Z

MY4ZN

MY4Z-02

MY4ZF

With built-in diode

DPDT

MY2-D

MY2N-D2

–––

–––

(DC only)

DPDT (bifurcated)

MY2Z-D

MY2ZN-D2

–––

–––

3PDT

MY3-D

MY3N-D2

–––

–––

4PDT

MY4-D

MY4N-D2

–––

–––

4PDT (bifurcated)

MY4Z-D

MY4ZN-D2

–––

–––

With built-in CR

DPDT

MY2-CR

MY2N-CR

–––

Not available.

(AC only)

DPDT (bifurcated)

MY2Z-CR

–––

–––

3PDT

MY3-CR

–––

–––

4PDT

MY4-CR

MY4N-CR

–––

4PDT (bifurcated)

MY4Z-CR

–––

–––

DPDT

MY2I4

MY2I4N

–––

–––

4PDT

MY4I4

MY4I4N

–––

–––

With test button

Note:

1. When ordering, add the rated coil voltage to the model number. Rated coil voltages are given in the coil ratings table. Example: MY2, 6 VAC Rated coil voltage 2. The standard contacts for MY2Z-series Relays and for the MY4Z are gold-plated.

1

MY

MY

Accessories (Order Separately) Sockets Poles

Front-mounting socket

Back-mounting socket

(DIN-rail/screw mounting)

Solder terminals W/ clip

W/o clip

Wire-wrap terminals W/ clip

PCB

W/o clip

terminals

2

PYF08A PYF08A-E (finger protection) PYF08A-N (finger protection)

PY08

PY08-Y1

PY08QN

PY08QN-Y1

PY08–02

3

PYF11A

PY11

PY11-Y1

PY11QN

PY11QN-Y1

PY11-02

4

PYF14A PYF14A-N (finger protection) PYF14A-E (finger protection)

PY14 PY14-3*

PY14-Y1

PY14QN

PY14QN-Y1

PY14-02

Note:

*1. Equipped with operation check terminal. 2. The PYF08A(-E), PYF11A, and PYF14A(-E) have been approved as individual sockets by UL S08 and CSA C22.2.

Mounting Plates for Sockets Socket model PY08, PY11, PY14, PY08QN(2), PY11QN(2), PY14QN(2) Note:

For 1 socket PYP-1

For 18 sockets

For 36 sockets

PYP-18

PYP-36

PYP-18 and PYP-36 can be cut into any desired length in accordance with the number of sockets.

Socket Hold-down Clip Pairing Relay type

Poles

Front-connecting sockets (rail-/screw-mounted) Socket

Standard, bifurcated contacts, operation indicator, built-in diode.

Test button

CR circuit

2

Clip PYC-A1

Back-connecting sockets Solder/wire-wrap terminals

Socket

PYF08A-N, PYF08A-E, PYF08A

3

PYF11A

PY11(QN)

PY11(QN)

4

PYF14A-N, PYF14A-E, PYF14A

PY14(QN)

PY14(QN)

2

PYF08A-N, PYF08A-E, PYF08A

3

PYF11A

PY11(QN)

PY11(QN)

4

PYF14A-N, PYF14A-E, PYF14A

PY14(QN)

PY14(QN)

2

PYF08A-N, PYF08A-E, PYF08A

3

PYF11A

PY11(QN)

PY11(QN)

4

PYF14A-N, PYF14A-E, PYF14A

PY14(QN)

PY14(QN)

Y92H-3

PY08(QN)

PY08(QN)

PYC-P

PCB terminals Socket

2

PYC-A1

PY08(QN)

Clip

PYC-P2

PYC-1

PY08(QN)

PY08(QN)

PY08(QN)

Clip PYC-P

PYC-P2

PYC-1

MY

MY

Specifications Coil Ratings Rated voltage

Rated current 50 Hz

AC

DC

Coil resistance es sta ce

60 Hz

Inductance (reference value) Arm. OFF

Must operate

Arm. ON

Must release

Max. voltage

% of rated voltage

6V

214.1 mA

183 mA

12.2 :

0.04 H

0.08 H

80%

30%

12 V

106.5 mA

91 mA

46 :

0.17 H

0.33 H

max.

min.

24 V

53.8 mA

46 mA

180 :

0.69 H

1.30 H

50 V

25.7 mA

22 mA

788 :

3.22 H

5.66 H

100/110 V

11.7/12.9 mA

10/11 mA

3,750 :

14.54 H

24.6 H

110/120 V

9.9/10.8 mA

8.4/9.2 mA

4,430 :

19.20 H

32.1 H

200/220 V

6.2/6.8 mA

5.3/5.8 mA

12,950 :

54.75 H

94.07 H

220/240 V

4.8/5.3 mA

4.2/4.6 mA

18,790 :

83.50 H

136.40 H

6V

150 mA

40 :

0.17 H

0.33 H

10%

12 V

75 mA

160 :

0.73 H

1.37 H

min.

24 V

36.9 mA

650 :

3.20 H

5.72 H

48 V

18.5 mA

2,600 :

10.60 H

21.00 H

100/110 V

9.1/10 mA

11,000 :

45.60 H

86.20 H

110%

Power consum. co su (A ) (Approx.) 1.0 to 1 2 VA 1.2 (60 Hz)

0.9 to 1 1 VA 1.1 (60 Hz)

0.9 W

Note: 1. The rated current and coil resistance are measured at a coil temperature of 23qC with tolerances of +15%/–20% for rated currents and r15% for DC coil resistance. 2. Performance characteristic data are measured at a coil temperatures of 23qC. 3. AC coil resistance and impedance are provided as reference values (at 60 Hz). 4. Power consumption drop was measured for the above data. When driving transistors, check leakage current and connect a bleeder resistor if required.

Contact Ratings Item

Double- or three-pole Resistive load (cosf = 1)

Inductive load (cosf=0.4, L/R=7 ms) 2 A, 220 VAC 2 A, 24 VDC

Four-pole Resistive load (cosf = 1) 3 A, 220 VAC 3 A, 24 VDC

Inductive load (cosf=0.4, L/R=7 ms) 0.8 A, 220 V 1.5 A, 24 VDC

Rated load

5 A, 220 VAC 5 A, 24 VDC

Carry current

5A

3A

Max. switching voltage

250 VAC 125 VDC

250 VAC 125 VDC

Max. switching current

5A

5A

3A

3A

Max. switching capacity

1,100 VA 120 W

440 VA 48 W

660 VA 72 W

176 VA 36 W

Min. permissible load*

Standard type: 100 mA, 5 VDC Bifurcated type: 100 PA, 1 VDC

Standard type: 1 mA, 1 VDC Bifurcated type: 100 PA, 1 VDC

*Note: P level: O60 = 0.1 x 10-6 /operation, reference value

3

MY

MY

Characteristics Item

All relays

Contact resistance

50 m: max.

Operate time

20 ms max.

Release time

20 ms max.

Max. operating frequency

Mechanical: 18,000 operations/hr Electrical: 1,800 operations/hr (under rated load)

Insulation resistance

1,000 M: min. (at 500 VDC)

Dielectric strength

2,000 VAC, 50/60 Hz for 1 min (1,000 VAC between contacts of same polarity)

Vibration resistance

Destruction: 10 to 55 Hz, 1.0-mm double amplitude Malfunction: 10 to 55 Hz, 1.0-mm double amplitude

Shock resistance

Destruction: 1,000 m/s2 (approx. 100G) Malfunction: 200 m/s2 (approx. 20G)

Life expectancy

See following table.

Ambient operating temperature*

Single- and double-pole standard, bifurcated-contact, test-button, relays: –55qC to 70qC (with no icing) All other relays: –55qC to 60qC (with no icing)

Ambient operating humidity

35% to 85%

Weight

Approx. 85 g

Note:

The values given above are initial values.

Life Expectancy Characteristics Relays

Mechanical life (at 18,000 operations/hr)

Electrical life (at 1,800 operations/hr under rated load)

Normal, With test button (except relays with operation indicator), With CR

AC 50,000,000 operations min. DC: 100,000,000 operations min.

1-,2-,3-pole: 500,000 operations min. 4-pole: 200,000 operations min.

With operation indicator or built-in diode

AC 50,000,000 operations min. DC: 100,000,000 operations min.

1-,2-,3-pole: 500,000 operations min. 4-pole: 200,000 operations min.

With bifurcated contacts

2-pole: 50,000,000 operations min. 4-pole:

2-pole: 200,000 operations min. 4-pole: 100,000 operations min.

Note:

See following tables for real load life expectancies.

Life Expectancies Under Real Loads MY2 Rated voltage 100 VAC

Load type AC motor

AC solenoid

Conditions

Operating frequency

Electrical life

50 W, 100 VAC single-phase with 2.8-A inrush current, 0.4-A carry current

ON for 2 s, OFF for 30 s

100,000 operations

50 W, 100 VAC single-phase with 1.6-A inrush current, 1-A carry current

ON for 1 s, OFF for 30 s

300,000 operations

24 W with 1-A carry current

ON for 1.5 s, OFF for 1.5 s

4,000,000 operations

MY4 Rated voltage 100 VAC

24 VDC

4

Load type

Conditions

Operating frequency ON for 1 s, OFF for 3 s

Electrical life

AC solenoid

50 VA with 2-A inrush current, 0.7A carry current

25,000 operations

DC magnetic switch

25 W with L/R = 40 ms , 0.2-A carry current

AC magnetic switch

35 VA with 1.5-A inrush current, 0.35-A carry current

DC solenoid

40 W with L/R = 10 ms, 1.6-A carry current

ON for 0.5 s, OFF for 1.5 s

5,000,000 operations

30 W with L/R = 10 ms with 0.34-A carry current

ON for 0.5 s, OFF for 1.5 s

6,000,000 operations

500,000 operations

MY

MY

Approved by Standards Some MY Relays are available in models meeting various safety standards. When ordering, you must specify the desired standards. Refer to Ordering Information for specific models. Note that the rating recognized by the various standards sometimes vary from the ratings of the individual relays.

UL 508 Recognitions (File No. 41515) No. of poles 2

Coil ratings 6 to 240 VAC 6 to 125 VDC

3

Contact ratings 5 A, 120 VAC resistive load 5 A, 28 VDC resistive load 5 A, 240 VAC inductive load

LR (No. 563KOB-204524) Model MY -LR

No. of poles 2

5 A, 28 VDC resistive load 5 A, 240 VAC inductive load

4

6 to 240 VAC 6 to 125 VDC

3 A 28 VDC resistive load 3 A 120 VAC inductive load 1.5 A, 240 VAC inductive load 5 A, 240 VAC inductive load (between contacts of same polarity) 5 A, 28 VDC resistive load (between contacts of same polarity) 0.2 A, 120 VDC

4

Coil ratings 6 to 240 VAC 6 to 120 VDC

Contact ratings 2 A, 30 VDC inductive load 2 A, 200 VAC inductive load 1.5 A, 30 VDC inductive load 0.8 A, 200 VAC inductive load 1.5 A, 115 VAC inductive load

CSA 22.2 No. 0 and No.14 (File No. LR31928) Model MY

No. of poles 2, 3

Coil ratings 6 to 240 VAC 6 to 120 VDC

4

Contact ratings 5 A, 28 VDC resistive load 5 A, 240 VAC inductive load 3 A, 28VDC resistive load 3 A, 240 VAC inductive load 5 A, 240 VAC inductive load (between contacts of same polarity) 5 A, 28 VDC resistive load (between contacts of same polarity) 0.2 A, 120 VDC

Engineering Data Maximum Switching Capacity

Switching current (A)

MY2, MY3 AC resistive load AC inductive load (cosf = 0.4)

DC resistive load DC inductive load (L/R = 7 ms)

Switching voltage (V)

5

MY

MY MY4, MY4Z AC resistive load

Switching current (A)

AC inductive load (cosf = 0.4)

DC resistive load DC Inductive load L/R = 7 ms

Switching voltage (V)

Life Expectancy

5,000 110 VAC resistive load 220 VAC resistive load 1,000 500 24 VDC resistive load 100

MY2, MY3 (Inductive Loads) Life expectancy (x103 operations)

Life expectancy (x103 operations)

MY2, MY3 (Resistive Loads)

5,000 110 VAC inductive load (cosf = 0.4) 1,000 500

100

Switching current (A)

Switching current (A)

5,000 110 VAC resistive load 220 VAC resistive load 1,000 500

30 VDC resistive load 100

MY4 (Inductive Loads) Life expectancy (x10 3 operations)

Life expectancy (x103 operations)

MY4 (Resistive Loads)

5,000

500

100

1,000 500

100

220 VAC resistive load

24 VDC resistive load

Switching current (A)

6

220 VAC Inductive load

30 VDC Inductive load

Switching current (A)

MY4Z (Inductive Loads) Life expectancy (x103 operations)

Life expectancy (x103 operations)

5,000

110 VAC Inductive load

1,000

Switching current (A)

MY4Z (Resistive Loads)

220 VAC inductive load (cosf = 0.4) 24 VDC inductive load (L/R = 7 ms)

5,000

1,000 500

110 VAC (cosf = 0.4) 24 VDC L/R = 7 ms

100 220 VAC (cosf = 0.4)

Switching current (A)

MY

MY

Dimensions Note:

All units are in millimeters unless otherwise indicated.

Relays with Solder Terminals MY2, MY2N, MY2N-D2

MY2N Standard

2.6

DC type

AC type

Eight, 1.2 dia. x 2.2 ellipse holes 0.5 28 max. 6.3 0.5 36 max.

21.5 max.

6.4

Note:

1. AC type is equipped with a coil disconnection self–diagnostic function. 2. Pay due attention as DC type has polarity.

MY2N-D2

MY3, MY3N, MY3N-D2,

MY3N 2.6

Standard

DC type

AC type

Eleven, 1.2 dia. x 2.2 ellipse holes

28 max. 6.3 0.5 36 max.

6.4

21.5 max.

Note:

1. AC type is equipped with a coil disconnection self– diagnostic function. 2. Do not reverse the polarity of DC relays.

MY3N-D2

7

MY

MY MY4 2.6

Fourteen, 1.2 dia. x 2.2 ellipse holes. 0.5 28 max. 6.3 0.5 36 max.

21.5 max.

6.4

Terminal arrangement/internal connections (bottom view) MY4N-D2

MY4N Standard

Note:

DC type

AC type

1. AC type is equipped with a coil disconnection selfdiagnostic function. 2. Do not reverse the polarity of DC relays.

MY I4

2.6

3.3 20.3

Fourteen, 1.2 dia. x 2.2 ellipse holes 3 max.

Push button

28 max.

0.5

6.3 36 max.

Note:

Note:

8

6.4

21.5 max..

1. Mount the relay with a socket. 2. Test button I4: AC with red push button DC with blue push button

The terminal arrangement and internal connections of the above relays are as same as these of MY

relays.

MY

MY

MY (N)-CR, MY (Z)-CR MY (N)-C R

2.6

MY (Z)-C R

Fourteen, 1.2 dia. x 2.2 ellipse holes CR

CR

0.5 28 max. 6.3 0.5 53 max.

6.4

21.5 max.

Relays with PCB Terminals MY -02 PC Board Mounting Holes

MY4-02 (4PDT) 3.5

1

3.3 (2.6)

DPDT

3PDT

13.2

13.2

4PDT 13.2 4.4

4.3

4.1

0.5 28 max. 6.3 0.5 36 max.

4

21.5 max.

6.35

12.65

6.3 3.75

Eight, 1.3r0.1 holes

Eleven, 1.3r0.1 holes

Fourteen, 1.3r0.1 holes

Note: The tolerance is r0.1. Note: 1. The figures in the parentheses are for MY4-02. 2. The above dimensions also apply to the DPDT and 3PDT Relays. 3. The internal connections of the above Relays are as same as these of MY@ Relays.

9

MY

MY

Upper-mounting Relays MY F

Mounting holes

MY4F 2.6

Two 3.5 dia holes or M3 holes

Fourteen, 1.2 dia. x 2.2 ellipse holes

2

Note:

38

29 max.

0.5

0.5 36 max .

4.35

38 44 max.

6.4 3.5 22.5 max.

1. The above dimensions also apply to the DPDT, and 3PDT relays. 2. The internal connections of the above relays are as same as these of MY relays.

Mounting Height with Socket DIN Track/Surface-mounting Socket

Back-mounting Socket

MY 70 (87)

66 (83) 39 (56)

MY

PYF A(-E) PY@ Note:

1. The PTF-A can be rail–mounted or screw-mounted. 2. For the MY -CR (CR circuit built-in type) model, figure in the parentheses apply. 3. PYC-P hold down clip should be used with PYF08M.

10

MY

MY

Sockets PYF08A-E

PYF08A-N

PYF08A

PY08

PY08-Y1

PY08QN

PY08-02

PYF14A-E

PYF14A-N

PY14

PY14-Y1

PY14QN(2)

PY14QN(2)-Y1

PY14-02

PYF11A

PY11

PY11QN(2)

PY11QN(2)-Y1

PY11-02

9

MY

MY Mounting Plates for Sockets PYP-1

PYP-18

PYP-36 72 wide ellipse hole

27.4 r0.15

492 17 x 27.4 = 465.8 r 0.6

72 wide ellipse hole 21.6

27.4 r0.15

Two, 3.4 dia. holes

492 17 x 27.4 = 465.8 r 0.6

21.6

13.1

13.1 4.5 3.4

+0.2 21.4 0

R1.7

4.5 3.4

39.7r0.2

Square hole

86.4 42 r0.1

42r0.1

49

49 39.7r0.2

+0.2 21.4 0

28

t = 1.6 13.1

t = 1.6

21.6

17 x 27.4 = 465.8 r 0.6 t = 1.6

Hold-down Clips Hold-down clips are used to hold relays to sockets and prevent them from coming loose due to vibration or shock. Connection to socket

PYC-A1

Connection to mounting plate

PYC-P

PYC-S

PY14-3 (for 4PDT) with operation check terminal

For relays with test buttons

PYC–P2

For relays with CR circuits

Y92H-3

Mounting holes 81 56 28

9(7.7) 2

38.5

78 +0.3 –0

0.3 34.5+0.4

Operation check terminal Operation checklamp can be built-in.

77.5 +0 –0.4 Three, 1.2 dia holes Two dia. holes Short-circuit lead wire

Safety Standards for Sockets Item

Standards

File No.

PYF08A (-E), PYF11A

UL508

E87929

PYF14A (-E)

CSA22.2

LR31928

12

PYC-1

36 +0.3 –0

MY

MY

Precautions Connections Do not reverse polarity when connecting DC-operated relays with built-in diodes or indicators DC-operated relays.

Mounting t

Whenever possible, mount relays so that it is not subject to vibration or shock in the same direction as that of contact movement.

t

The test button should be be pointed upwards when mounting (refer to the right figure).

Test button

13

Singapore Office: OMRON ELECTRONICS PTE. LTD. 438A Alexandra Road, #05-05/08 (Lobby 2) Alexandra Technopark Singapore 119967 Tel: (65) 6547 6789 Fax: (65) 6547 6769 E-mail: mktg_sg@ap.omron.com Malaysia Office: OMRON ELECTRONICS SDN. BHD. 1101 Level 11 Uptown 1 1 Jalan SS21/58 Damansara Uptown 47400 Petaling Jaya, Selangor Malaysia Tel: (60-3) 7688 2888 Fax: (60-3) 7688 2833 E-mail: my_enquiry@ap.omron.com Thailand Office: OMRON ELECTRONICS CO. LTD. Rasa Tower 20th Floor 555 Phaholyothin Road Chatuchak, Bangkok 10900, Thailand Tel: (66-2) 937 0500 Fax: (66-2) 937 0501 CRM Call Centre: (66-2) 942 6700 E-mail: th_enquiry@ap.omron.com

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Asia Pacific Head Office:

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Authorized Distributor i

OMRON ASIA PACIFIC PTE. LTD. 438A Alexandra Road #05-05/08 (Lobby 2) Alexandra Technopark Singapore 119967 Tel: (65) 6835 3011 Fax: (65) 6835 2711 E-mail: ask@ap.omron.com Website: eb www.omron-ap.com .omr n

Cat. No. J01P-E-01 Singapore 0410

In the interest of product improvement, specifications are subject to change without notice.

General-purpose Relay

LY A Miniature Power Relay • Equipped with arc barrier. • Dielectric strength: 2,000 V. • Built-in diode models added to the LY Series. • Single-pole and double-pole models are applicable to operating coils with ratings of 100/110 VAC, 110/120 VAC, 200/220 VAC, 220/240 VAC, or 100/110 VDC). • Three-pole and four-pole models are applicable to operating coils with ratings of 100/110 VAC, 200/220 VAC, or 100/110 VDC).

LR Ordering Information ■ Open Relays Type

Contact form

Standard

With built-in diode (DC only)

With built-in CR (AC only)

Plug-in/solder terminals

Plug-in/solder terminals with LED indicator

Upper-mounting Plug-in/solder terminals

PCB terminals

SPDT

LY1

LY1N

LY1-0

DPDT

LY2

LY2N

LY2-0

LY1F LY2F

DPDT (bifurcated)

LY2Z

LY2ZN

LY2Z-0

LY2ZF

3PDT

LY3

LY3N

LY3-0

LY3F

4PDT

LY4

LY4N

LY4-0

LY4F

SPDT

LY1-D

LY1N-D2

---

---

DPDT

LY2-D

LY2N-D2

---

---

DPDT (bifurcated)

LY2Z-D

LY2ZN-D2

---

---

3PDT

LY3-D

---

---

---

4PDT

LY4-D

LY4N-D2

---

---

SPDT

---

---

---

---

DPDT

LY2-CR

LY2N-CR

---

---

DPDT (bifurcated)

LY2Z-CR

LY2ZN-CR

---

---

Note: 1. When ordering, add the rated coil voltage to the model number. Rated coil voltages are given in the coil ratings table.

Example: LY2, 6 VAC Rated coil voltage 2. Relays with #187 quick connect terminals are also available with SPDT and DPDT contact. Ask your OMRON representative for details. 3. SEV models are standard Relays excluding DPDT (bifurcated) models. 4. VDE- or LR- qualifying Relays must be specified when ordering.

78

General-purpose Relay

LY

■ Accessories (Order Separately) Sockets Poles

Front-connecting Socket

Back-connecting Socket

DIN track/screw terminals

Plug-in/solder terminals

Wrapping terminals

PCB terminals

1 or 2

PTF08A-E, PTF08A

PT08

PT08QN

PT08-0

3

PTF11A

PT11

PT11QN

PT11-0

4

PTF14A-E, PTF14A

PT14

PT14QN

PT14-0

Note: 1. For PTF08-E and PTF14A-E, see “Track Mounted Socket.” 2. PTF@A (-E) Sockets have met UL and CSA standards: UL 508/CSA C22.2.

Mounting Plates for Sockets Socket model

For 1 Socket

For 10 Sockets

For 12 Sockets

For 18 Sockets

PT08 PT08QN

PYP-1

---

---

PYP-18

PT11 PT11QN

PTP-1-3

---

PTP-12

---

PT14 PT14QN

PTP-1

PTP-10

---

---

Socket-Hold-down Clip Pairings Relay type

Poles

Front-connecting Sockets Socket model

Standard, bifurcated contacts oper- 1, 2 ation indicator, built-in diode 3 CR circuit

PTF08A-E, PTF08A

Clip model PYC-A1

Back-connecting Sockets Socket model PT08(QN), PT08-0

PTF11A

PT11(QN), PT11-0

4

PTF14A-E, PTF14A

PT14(QN), PT14-0

2

PTF08A-E, PTF08A

Y92H-3

Clip model PYC-P

PT08(QN), PT08-0

PYC-1

Must operate voltage

Max. voltage

Specifications ■ Coil Ratings Single- and Double-pole Relays Rated voltage

Rated current

50 Hz AC

DC

Coil resistance

60 Hz

Coil inductance (reference value) Arm. OFF

Arm. ON

6V

214.1 mA

183 mA

12.2 Ω

0.04 H

0.08 H

12 V

106.5 mA

91 mA

46 Ω

0.17 H

0.33 H

24 V

53.8 mA

46 mA

180 Ω

0.69 H

1.30 H

50 V

25.7 mA

22 mA

788 Ω

3.22 H

5.66 H

100/110 V

11.7/12.9 mA

10/11 mA

3,750 Ω

14.54 H

24.6 H

110/120 V

9.9/10.8 mA

8.4/9.2 mA

4,430 Ω

19.20 H

32.1 H

200/220 V

6.2/6.8 mA

5.3/5.8 mA

12,950 Ω

54.75 H

94.07 H

220/240 V

4.8/5.3 mA

4.2/4.6 mA

18,790 Ω

83.50 H

136.40 H

6V

150 mA

40 Ω

0.16 H

0.33 H

12 V

75 mA

160 Ω

0.73 H

1.37 H

24 V

36.9 mA

650 Ω

3.20 H

5.72 H

48 V

18.5 mA

2,600 Ω

10.6 H

21.0 H

100/110 V

9.1/10 mA

11,000 Ω

45.6 H

86.2 H

Must release voltage

Power consum. (approx.)

% of rated voltage 80% max. 30% min.

110%

1.0 to 1.2 VA (60 Hz)

0.9 to 1 VA (60 Hz)

10% min.

0.9 W

Note: See notes on the bottom of next page.

General-purpose Relay

LY

79

Three-pole Relays Rated voltage

Rated current

50 Hz AC

DC

Coil resistance

60 Hz

Coil inductance (reference value) Arm. OFF

Arm. ON

6V

310 mA

270 mA

6.7 Ω

0.03 H

0.05 H

12 V

159 mA

134 mA

24 Ω

0.12 H

0.21 H

24 V

80 mA

67 mA

100 Ω

0.44 H

0.79 H

50 V

38 mA

33 mA

410 Ω

2.24 H

3.87 H

100/110 V

14.1/16 mA

12.4/13.7 mA

2,300 Ω

10.5 H

18.5 H

200/220 V

9.0/10.0 mA

7.7/8.5 mA

8,650 Ω

34.8 H

59.5 H

6V

234 mA

25.7 Ω

0.11 H

0.21 H

12 V

112 mA

107 Ω

0.45 H

0.98 H

24 V

58.6 mA

410 Ω

1.89 H

3.87 H

48 V

28.2 mA

1,700 Ω

8.53 H

13.9 H

100/110 V

12.7/13 mA

8,500 Ω

29.6 H

54.3 H

Must operate voltage

Must release voltage

Max. voltage

Power consum. (approx)

% of rated voltage 80% max. 30% min.

110%

10% min.

1.6 to 2.0 VA (60 Hz)

1.4 W

Note: See notes under next table.

Four-pole Relays Rated voltage

Rated current

50 Hz AC

DC

Coil resistance

60 Hz

Coil inductance (reference value) Arm. OFF

Arm. ON

6V

386 mA

330 mA

5Ω

0.02 H

0.04 H

12 V

199 mA

170 mA

20 Ω

0.10 H

0.17 H

24 V

93.6 mA

80 mA

78 Ω

0.38 H

0.67 H

50 V

46.8 mA

40 mA

350 Ω

1.74 H

2.88 H

100/110 V

22.5/25.5 mA

19/21.8 mA

1,600 Ω

10.5 H

17.3 H

200/220 V

11.5/13.1 mA

9.8/11.2 mA

6,700 Ω

33.1 H

57.9 H

6V

240 mA

25 Ω

0.09 H

0.21 H

12 V

120 mA

100 Ω

0.39 H

0.84 H

24 V

69 mA

350 Ω

1.41 H

2.91 H

48 V

30 mA

1,600 Ω

6.39 H

13.6 H

100/110 V

15/15.9 mA

6,900 Ω

32 H

63.7 H

Must operate voltage

Must release voltage

Max. voltage

Power consum. (approx)

% of rated voltage 80% max. 30% min.

10% min.

110%

1.95 to 2.5 VA (60 Hz)

1.5 W

Note: 1. The rated current and coil resistance are measured at a coil temperature of 23°C with tolerances of +15%/–20% for rated currents and ±15% for DC coil resistance. 2. Performance characteristic data are measured at a coil temperatures of 23°C. 3. AC coil resistance and impedance are provided as reference values (at 60 Hz). 4. Power consumption drop was measured for the above data. When driving transistors, check leakage current and connect a bleeder resistor if required.

80

General-purpose Relay LY

■ Contact Ratings Relay

Single contact 1-pole

Load

Resistive load (cosφ = 1)

Bifurcated contacts 2-, 3- or 4-pole

Inductive load (cosφ=0.4, L/R=7 ms) 110 VAC 10 A 24 VDC 7 A

Resistive load (cosφ = 1)

110 VAC 15 A 24 VDC 15 A

Rated carry current

15 A

10 A

7A

Max. switching voltage

250 VAC 125 VDC

250 VAC 125 VDC

250 VAC 125 VDC

Max. switching current

15 A

10 A

7A

Max. switching power

1,700 VA 360 W

Failure rate (reference value)*

100 mA, 5 VDC

1,100 VA 240 W

110 VAC 7.5 A 24 VDC 5 A

Resistive load (cosφ = 1)

Rated load

1,100 VA 170 W

110 VAC 10 A 24 VDC 10 A

2-pole

Inductive load (cosφ=0.4, L/R=7 ms)

825 VA 120 W

110 VAC 5A 24 VDC 5 A

550 VA 120 W

100 mA, 5 VDC

Inductive load (cosφ=0.4, L/R=7 ms) 110 VAC 4 A 24 VDC 4A

440 VA 100 W

10 mA, 5 VDC

*Note: P level: λ60 = 0.1 x 10-6/operation, reference value

■ Characteristics Item

All except Relays with bifurcated contacts

Contact resistance

50 mΩ max.

Operate time

25 ms max.

Release time

25 ms max.

Max. operating frequency

Mechanical: Electrical:

Relays with bifurcated contacts

18,000 operations/hr 1,800 operations/hr (under rated load)

Insulation resistance

100 MΩ min. (at 500 VDC)

Dielectric strength

1,000 VAC, 50/60 Hz for 1 min between contacts of same polarity 2,000 VAC, 50/60 Hz for 1 min between contacts of different polarity

Vibration resistance

Destruction: Malfunction:

10 to 55 to 10 Hz, 0.5 mm single amplitude (1.0 mm double amplitude) 10 to 55 to 10 Hz, 0.5 mm single amplitude (1.0 mm double amplitude)

Shock resistance

Destruction: Malfunction:

1,000 m/s2 200 m/s2

Endurance

Mechanical:

AC: 50,000,000 operations min. (at 18,000 operations/hr) DC: 1,00,000,000 operations min. (at 18,000 operations/hr) Single-, three-, and four-pole: 200,000 operations min. (at 1,800 operations/hr under rated load) Double-pole: 500,000 operations min. (at 1,800 operations/hr under rated load)

Electrical:

Ambient temperature*

Operating: Single- and double-pole standard, bifurcated-contact Relays: –25°C to 55°C (with no icing) (–25°C to 70°C if carry current is 4 A or less) All other Relays: –25°C to 40°C (with no icing) (–25°C to 55°C if carry current is 4 A or less)

Ambient humidity

Operating:

Weight

Single- and double-pole: approx. 40 g, three-pole: approx. 50 g, four-pole: approx. 70 g

5% to 85%

Note: 1. The values given above are initial values. 2. The upper limit of 40°C for some Relays is because of the relationship between diode junction temperature and the element used.

General-purpose Relay

LY

81

■ Endurance Under Real Loads (reference only) LY1 Rated voltage 100 VAC

Load type

Conditions

Operating frequency

Electrical life

AC motor

400 W, 100 VAC single-phase with 35-A in- ON for 10 s, OFF for 50 s rush current, 7-A current flow

50,000 operations

AC lamp

300 W, 100 VAC with 51-A inrush current, ON for 5 s, OFF for 55 s 3-A current flow

100,000 operations

500 W, 100 VAC with 78-A inrush current, 5-A current flow

25,000 operations

Capacitor (2,000 µF)

24 VDC with 50-A inrush current, 1-A cur- ON for 1 s, OFF for 6 s rent flow

100,000 operations

AC solenoid

50 VA with 2.5-A inrush current, 0.25-A current flow

1,500,000 operations

ON for 1 s, OFF for 2 s

100 VA with 5-A inrush current, 0.5-A current flow

800,000 operations

LY2 Rated voltage 100 VAC

Load type

Conditions

Operating frequency

Electrical life

AC motor

200 W, 100 VAC single-phase with 25-A in- ON for 10 s, OFF for 50 s rush current, 5-A current flow

200,000 operations

AC lamp

300 W, 100 VAC with 51-A inrush current, ON for 5 s, OFF for 55 s 3-A current flow

80,000 operations

Capacitor (2,000 µF)

24 VDC with 50-A inrush current, 1-A cur- ON for 1 s, OFF for 15 s rent flow

10,000 operations

24 VDC with 20-A inrush current, 1-A current flow

150,000 operations

AC solenoid

50 VA with 2.5-A inrush current, 0.25-A current flow

ON for 1 s, OFF for 2 s

100 VA with 5-A inrush current, 0.5-A current flow

1,000,000 operations 500,000 operations

LY4 Rated voltage 100 VAC

Load type AC motor

Conditions 200 W, 200 VAC triple-phase with 5-A inrush current, 1-A current flow

Electrical life 500,000 operations

750 W, 200 VAC triple-phase with 18-A inrush current, 3.5 A current flow

70,000 operations

AC lamp

300 W, 100 VAC with 51-A inrush current, ON for 5 s, OFF for 55 s 3-A current flow

50,000 operations

Capacitor (2,000 µF)

24 VDC with 50-A inrush current, 1-A cur- ON for 1 s, OFF for 15 s rent flow

5,000 operations

24 VDC with 20-A inrush current, 1-A cur- ON for 1 s, OFF for 2 s rent flow

200,000 operations

50 VA with 2.5-A inrush current, 0.25-A current flow

1,000,000 operations

AC solenoid

100 VA with 5-A inrush current, 0.5-A current flow

82

Operating frequency ON for 10 s, OFF for 50 s

General-purpose Relay LY

ON for 1 s, OFF for 2 s

500,000 operations

■ Approved Standards UL 508 Recognitions (File No. 41643) No. of poles 1

Coil ratings 6 to 240 VAC 6 to 125 VDC

2

3 and 4

Contact ratings

Operations

15 A, 30 VDC (Resistive) 15 A, 240 VAC (General use) TV-5, 120 VAC 1/2 HP, 120 VAC 15 A, 28 VDC (Resistive) 15 A, 120 VAC (Resistive) 12 A, 240 VAC (General use) 1/2 HP, 120 VAC

6 x 10

10 A, 30 VDC (Resistive) 10 A, 240 VAC (General use) 1/3 HP, 240 VAC

6 x 103

3

25 x 103 6 x 103 25 x 103

CSA 22.2 No. 14 Listings (File No. LR31928) No. of poles 1

Coil ratings 6 to 240 VAC 6 to 125 VDC

2

3 and 4

Contact ratings

Operations

15 A, 30 VDC (Resistive) 15 A, 120 VAC (General use) 1/2 HP, 120 VAC TV-5, 120 VAC 15 A, 30 VDC (Resistive) 15 A, 120 VAC (Resistive) 1/2 HP, 120 VAC TV-3, 120 VAC

6 x 103 25 x 103 6 x 103

10 A, 30 VDC (Resistive) 10 A, 240 VAC (General use)

SEV Listings (File No. D3,31/137) No. of poles 1

Coil ratings 6 to 240 VAC 6 to 125 VDC

2 to 4

Contact ratings

Operations

15 A, 24 VDC 15 A, 220 VAC

6 x 103

10 A, 24 VDC 10 A, 220 VAC

TÜV (File No. R9251226) (IEC255) No. of poles 1 to 4

Coil ratings 6 to 125 VDC 6 to 240 VAC

Contact ratings

Operations

LY1, LY1-FD 15 A, 110 VAC (cosφ=1) 10 A, 110 VAC (cosφ=0.4) LY2, LY2-FD, LY3, LY3-FD, LY4, LY4-FD 10 A, 110 VAC (cosφ=1) 7.5 A, 110 VAC (cosφ=0.4)

100 x 103

VDE Recognitions (No. 9903UG and 9947UG) No. of poles 1

Coil ratings 6, 12, 24, 50, 110, 220 VAC 6, 12, 24, 48, 110 VDC

Contact ratings 10 A, 220 VAC (cosφ=1) 7 A, 220 VAC (cosφ=0.4) 10 A, 28 VDC (L/R=0 ms) 7 A, 28 VDC (L/R=7 ms)

Operations 200 x 10

3

7 A, 220 VAC (cosφ=1) 4 A, 220 VAC (cosφ=0.4) 7 A, 28 VDC (L/R=0 ms) 4 A, 28 VDC (L/R=7 ms)

2

LR Recognitions (No. 563KOB-204523) No. of poles 2, 4

Coil ratings 6 to 240 VAC 6 to 110 VDC

Contact ratings 7.5 A, 230 VAC (PF0.4) 5 A, 24 VDC (L/R=7 ms)

General-purpose Relay

LY

83

Engineering Data LY1 Maximum Switching Power

Switching current (A)

10 5

AC (cosφ = 0.4)

Life: 200,000 operations

1 0.5

DC L/R = 7 ms

DC resistive load

Endurance (x103 operations)

AC resistive load

15

Endurance

0.1

10,000 5,000

110 VAC resistive load 24 VDC resistive load

1,000 500

24 VDC (L/R = 7ms)

100 10

100

500 1,000

0

2

4

6

Switching voltage (V)

110 VAC (cosφ = 0.4)

8

10 12

14 16 18 20

Switching current (A)

LY2 Maximum Switching Power

5

AC (cosφ = 0.4)

Life: 500,000 operations

1 0.5

DC L/R = 7 ms DC resistive load

Endurance (x103 operations)

Switching current (A)

AC resistive load

10

Endurance

1,0000 5,000

24 VDC resistive load 110 VAC resistive load

1,000 500 110 VAC (cosφ = 0.4)

0.1

24 VDC (L/R = 7ms) 100 10

100

0

500 1,000

2

4

6

8

10 12

14 16 18 20

Switching current (A)

Switching voltage (V)

LY3 and LY4 Maximum Switching Power

Switching current (A)

5

AC (cosφ = 0.4)

Life: 200,000 operations

1 0.5

DC L/R = 7 ms DC resistive load

0.1

1,0000 5,000

100

500 1,000

Switching voltage (V)

General-purpose Relay LY

24 VDC resistive load 110 VAC resistive load

1,000 110 VAC (cosφ = 0.4)

500

100 10

84

Endurance (x103 operations)

AC resistive load

10

Endurance

0

24 VDC (L/R = 7ms) 2

4

6

8

10 12

14 16 18 20

Switching current (A)

LY2Z

10

AC resistive load

5

AC (cosφ = 0.4)

Endurance Endurance (x103 operations)

Switching current (A)

Maximum Switching Power

DC resistive load

1 0.5

DC L/R = 7 ms

24 VDC resistive load 10,000 110 VAC resistive load

5,000

110 VAC (cosφ = 0.4) 1,000 500 24 VDC (L/R = 7ms) 100

Life: 500,000 operations

0 10

50 100

0

500 1,000

Switching voltage (V)

2

4

6

8

10

Switching current (A)

Dimensions Note: All units are in millimeters unless otherwise indicated.

Relays with Solder/Plug-in Terminals LY1 LY1N (-D2) LY1-D 0.5 Eight, 2-dia. holes

28 max.

5 3

36 max.

21.5 max.

6.4

Terminal Arrangement/Internal Connections (Bottom View) LY1

LY1N

LY1-D

DC Model

AC Model

LY1N-D2

Note: The DC models have polarity.

General-purpose Relay

LY

85

LY2 LY2-D LY2N LY2N-D2

LY2Z LY2Z-D LY2ZN LY2ZN-D2

Terminal Arrangement/Internal Connections (Bottom View) LY2(Z)-D

LY2(Z) 0.5 28 max.

Eight, 3-dia. holes 5 3 36 max.

21.5 max.

6.4

LY2(Z)N

DC Model

LY2(Z)N-D2

AC Model

Note: The DC models have polarity.

LY3Z LY3N LY3-D

0.5 28 max. 5

36.5 max.

3 6.4

31.5 max. Eleven, 3-dia. holes

Terminal Arrangement/Internal Connections (Bottom View) LY3

Note: The DC models have polarity.

86

General-purpose Relay LY

LY3-D

LY3N

DC Model

AC Model

LY4 LY4-D

Terminal Arrangement/Internal Connections (Bottom View)

LY4N LY4N-D2

LY4

LY4-D

0.5 28 max. 5 3 36 max.

41.5 max.

Fourteen, 3-dia. holes

6.4

LY4N

DC Model

LY4N-D2

AC Model

Note: The DC models have polarity.

LY2-CR LY2Z-CR LY2N-CR LY2ZN-CR

Terminal Arrangement/Internal Connections (Bottom View) LY2(Z)N-CR

LY2(Z)-CR 0.5 Eight, 3-dia. holes

28 max.

5 3 53 max.

CR Element

21.5 max.

6.4

C: 0.033 ÂľF R: 120 â„Ś

Model: LY2N-CR

Relays with PCB Terminals LY1-0 LY3-0 LY2-0 LY4-0

PC Board Holes (Bottom View)

0.5

4.1

14.2 10

14.2 10

10

10

10

10

10

28 max. 2 1 36 max.

4.5 (see note 2)

4.6

5.75 21.5 max.

7.15 5.5 3.4

Note: 1. The above model is the LY2-0. 2. This figure is 6.4 for the LY1-0

13.15

3.4 Five, 2.5-dia. holes

5.3 Eight, 2.5-dia. holes

5.3 Eleven, 2.5-dia. holes

Fourteen, 2.5-dia. holes

Note: 1. The tolerance for the above figures is 0.1 mm. 2. Besides the terminals, some part of the LY1-0 carries current. Due attention should be paid when mounting the LY1-0 to a double-sided PC board.

General-purpose Relay

LY

87

Upper-mounting Relays LY1F LY2F

Mounting Holes 22.5 max.

2

0.5

44 max. 29 38 max.

38±0.1

5 3 35.5 max.

Eight, 2-dia. holes (see note)

6.4

Two, 3.5-dia. holes (or Two M3 holes)

3.5

Note: 1. Eight 3-dia. holes should apply to the LY2F model. LY3F

32 max. 3.5

2

0.5 28.5 max.

38±0.1

38 44 max.

5 3 36 max.

Eleven, 3-dia. holes

Two, 3.5-dia. holes (or two, M3 holes)

6.4

Mounting holes

LY4F 41.5 max. 3.5

2

Two, 3.5 dia. holes (or two, M3 holes)

0.5

28 38 max.

44 max.

38±0.1

5 Fourteen, 3-dia. holes 35.5 max.

88

3

28 6.4

General-purpose Relay LY

28±0.1

Mounting Height with Socket The following Socket heights should be maintained.

Back-connecting

Front-connecting LY 67 (84)

71 (see note)

LY

40 (57)

Note: 1. The PTF@A (-E) can be track-mounted or screw-mounted. 2. For the LY@-CR (CR circuit built-in type) model, this figure should be 88.

PT@

PTF@A (-E)

Sockets PTF11A

PTF08A-E

PTF14A-E

PT14QN

PT11QN

PT08

PT08-0

PT11

PT08QN

PT14

PT14-0

PT11-0

Mounting Plates for Back-connecting PYP-1

PTP-1-3

Two, 3.4-dia. holes

5.1 42

PTP-1

49 42±0.1

59

7.7

49

PYP-18 R5 21.6

Four, 3.4-dia. holes

492 17 x 27.4 = 465.8±0.6

7.7

4.5 3.4

42±0.1 49

42±0.1 49

72 elliptical holes R1.7

28

R5

t=1.6

Four, 3.4-dia. holes

52±0.1

7.742±0.1 49 t=1.6

t=1.6 21.6

17 x 27.4 = 465.8±0.6 17 x 27.4 = 465.8±0.6

PTP-10

t=1.6

PTP-12

7.4 9 x 49.4 = 444.6±0.6

40 elliptical holes 11 x 39.4 = 433.4±0.6

48 elliptical holes

7.7 42±0.1 49

7.7 42±0.1 49

R1.7 3.4 1.1

3.4

4.5 9 x 49.4 = 444.6±0.6 9 x 49.4 = 444.6±0.6 492

Twelve, square holes

4.5 R2.25

7.4 23.7 t=1.6

11 x 39.4 = 433.4±0.6 11 x 39.4 = 433.4±0.6 492

29.3

t=1.6

General-purpose Relay

LY

89

â– Hold-down Clips Hold-down clips are used to hold Relays to Sockets and prevent them from coming loose due to vibration or shock. Used with Socket

PYC-P

PYC-A1

Used with Socket mounting plate

PYC-S

For CR circuit built-in Relay

Y92H-3

PYC-1

Precautions Refer to page 11 for general precautions.

â– Connections Do not reverse polarity when connecting DC-operated Relays with built-in diodes or indicators.

ALL DIMENSIONS SHOWN ARE IN MILLIMETERS. To convert millimeters into inches, multiply by 0.03937. To convert grams into ounces, multiply by 0.03527. Cat. No. J002-E1-10

90

In the interest of product improvement, specifications are subject to change without notice.

General-purpose Relay LY

General-purpose Relays

MK-S (New Models) CSM_MK-S_DS_E_5_1

New Super MK Relays. Models with 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 Models with Latching Lever Operating Method for Latching Lever

Operation indicator *

Relay in Normal Operation

Nameplate

For Momentary Operation

For Lock Operation

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.)

Mechanical indicator Latching lever DC: Blue AC: Red Yellow button

* The operation indicator is built in only on specified models.

Example of Applications of Models with Latching Levers Operation checks in relay sequence circuits

Model Number Structure Model Number Legend MKS@@@@@-@-@ 1 2 3 4 5

6

7

1. Contact Form 2: DPDT 3: 3PDT

5. Coil Polarity Blank: Standard 1: Reverse polarity (DC coil only)

2. Terminals P: Plug-in

6. Surge Absorption Blank: Standard D: Surge absorber diode (DC coil only) V: Surge absorber varistor (AC coil only)

3. Mechanical Indicator/Test Button Blank: Mechanical indicator I: Mechanical indicator and lockable test button 4. LED Indicator Blank: Standard N: LED indicator

7. Internal Connections Blank: Standard 2 or 5: Non-standard connections (Refer to “Terminal Arrangement and Internal Connection (Bottom View)”.) 8. Rated Voltage (Refer to “Coil Ratings”.)

1

MK-S

Ordering Information List of Models Type

Contact form

Terminals

DPDT Standard Models 3PDT

DPDT Models with LED Indicator (See note 2.)

3PDT

DPDT Models with Diode (See note 2.)

3PDT Plug-in DPDT

Models with LED Indicator and Diode

3PDT

DPDT Models with Varistor 3PDT

DPDT Models with LED Indicator and Varistor

3PDT

Internal connections (See note 3.)

With mechanical indicator

With mechanical indicator Coil ratings and lockable test button

Standard

MKS2P

MKS2PI

Non-standard

MKS2P-2

MKS2PI-2

Standard

MKS3P

MKS3PI

MKS3P-2

MKS3PI-2

MKS3P-5

MKS3PI-5

Standard

MKS2PN(1)

MKS2PIN(1)

Non-standard

MKS2PN(1)-2

MKS2PIN(1)-2

Standard

MKS3PN(1)

MKS3PIN(1)

MKS3PN(1)-2

MKS3PIN(1)-2

Non-Standard

Non-Standard

MKS3PN(1)-5

MKS3PIN(1)-5

Standard

MKS2P(1)-D

MKS2PI(1)-D

Non-standard

MKS2P(1)-D-2

MKS2PI(1)-D-2

Standard

MKS3P(1)-D

MKS3PI(1)-D

MKS3P(1)-D-2

MKS3PI(1)-D-2

Non-Standard Standard

MKS3P(1)-D-5

MKS3PI(1)-D-5

MKS2PN-D

MKS2PIN-D

Non-standard

MKS2PN-D-2

MKS2PIN-D-2

Standard

MKS3PN-D

MKS3PIN-D

MKS3PN-D-2

MKS3PIN-D-2

MKS3PN-D-5

MKS3PIN-D-5

Standard

MKS2P-V

MKS2PI-V

Non-standard

MKS2P-V-2

MKS2PI-V-2

Standard

MKS3P-V

MKS3PI-V

MKS3P-V-2

MKS3PI-V-2

Non-Standard

Non-Standard

MKS3P-V-5

MKS3PI-V-5

Standard

MKS2PN-V

MKS2PIN-V

Non-standard

MKS2PN-V-2

MKS2PIN-V-2

Standard

MKS3PN-V

MKS3PIN-V

MKS3PN-V-2

MKS3PIN-V-2

MKS3PN-V-5

MKS3PIN-V-5

Non-Standard

AC/DC

AC/DC

DC

DC

AC

AC

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: MKS3P 24 VDC Rated voltage 2. The DC coil comes in two types: standard coil polarity and reverse coil polarity. Refer to Terminal Arrangement and Internal Connections (Bottom View). Example: MKS2PIN1-2 24 VDC Reverse coil polarity 3. Refer to Terminal Arrangement and Internal Connections (Bottom View) for non-standard internal connections.

List of Models (Order Separately) Item Track-mounted Socket

Type

Model

8-pin

PF083A-E

11-pin

PF113A-E

8-pin

PF083A-D

11-pin

PF113A-D

Hold-down Clip (For PF083A-E and PF113A-E)

PFC-A1

2

MK-S

Specifications Ratings Coil Ratings Rated current

Rated voltage

AC

DC

Note: 1. 2. 3. 4.

50 Hz

60 Hz

Coil resistance

6V

443 mA

385 mA

3.1 Ω

12 V

221 mA

193 mA

13.7 Ω

24 V

110 mA

96.3 mA

48.4 Ω

100 V

26.6 mA

23.1 mA

760 Ω

110 V

24.2 mA

21.0 mA

932 Ω

200 V

13.3 mA

11.6 mA

3,160 Ω

220 V

12.1 mA

10.5 mA

3,550 Ω

230 V

10.0 mA

11.5 mA

4,250 Ω

240 V

11.0 mA

9.6 mA

4,480 Ω

6V

224 mA

26.7 Ω

12 V

112 mA

107 Ω

24 V

55.8 mA

430 Ω

48 V

28.1 mA

1,710 Ω

100 V

13.5 mA

7,390 Ω

110 V

12.3 mA

8,960 Ω

Must operate voltage

Must release voltage

Max. voltage

30% min. of rated voltage at 60 Hz 25% min. of rated voltage at 50 Hz 80% max. of rated voltage

Power consumption

Approx. 2.3 VA at 60 Hz Approx. 2.7 VA at 50 Hz 110% of rated voltage

15% min. of rated voltage

Approx. 1.4 W

125 V 10.8 mA 11,576 Ω The rated current and coil resistance are measured at a coil temperature of 23°C with tolerances of +15%/−20% for AC rated current and ±15% for DC coil resistance. Performance characteristic data are measured at a coil temperature of 23°C. The maximum voltage is one that is applicable instantaneously to the Relay coil at 23°C and not continuously. For DC-operated Relays with the LED indicator built-in, add an LED current of approx. 5 mA to the rated current.

Contact Ratings Load

Resistive load (cosφ = 1)

Contact mechanism

Single

Contact material

AgSnIn NO

10 A, 250 VAC 10A, 30 VDC

NC

5 A, 250 VAC 5 A, 30 VDC

Rated load

Rated carry current

10 A

Max. switching voltage

250 VAC, 250 VDC

Max. switching current Max. switching power

Inductive load (cosφ = 0.4)

7 A, 250 VAC

10 A NO

2,500 VA/300 W

NC

1,250 VA/150 W

3

MK-S Characteristics Contact resistance

100 mΩ max.

Operate time

AC: 20 ms max. DC: 30 ms max.

Release time

20 ms max. (40 ms max. for built-in Diode Relays)

Max. operating frequency

Mechanical: 18,000 operations/h Electrical: 1,800 operations/h (under rated load)

Insulation resistance

100 MΩ min. (at 500 VDC)

Dielectric strength

2,500 VAC 50/60 Hz for 1 min between coil and contacts 1,000 VAC 50/60 Hz for 1 min between contacts of same polarity and terminals of the same polarity 2,500 VAC 50/60 Hz for 1 min between current-carrying parts, non-current-carrying parts, and opposite polarity

Insulation method

Basic insulation

Impulse withstand voltage

4.5 kV between coil and contacts (with 1.2 × 50 µs impulse wave) 3.0 kV between contacts of different polarity (with 1.2 × 50 µs impulse wave)

Pollution degree

3

Rated insulation voltage

250 V

Vibration resistance

Destruction: 10 to 55 to 10 Hz, 0.75-mm single amplitude (1.5-mm double amplitude) Malfunction: 10 to 55 to 10 Hz, 0.5-mm single amplitude (1.0-mm double amplitude)

Shock resistance

Destruction: 1,000 m/s2 (approx. 100 G) Malfunction: 100 m/s2 (approx. 10 G)

Endurance

Mechanical: 5,000,000 operations min. (at 18,000 operations/h under rated load) Electrical: 100,000 operations h. (at 1,800 operations/h under rated load)

Failure rate P level (reference value) 10 mA at 1 VDC Ambient temperature

Operating: –40 to 60°C (with no icing or condensation)

Ambient humidity

Operating: 5% to 85%

Weight Approx. 90 g Note: 1. The values given above are initial values. 2. P level: λ60 = 0.1 × 10-6/operation 3. Ambient temperature of models with LED indicator is −25 to 60°C.

Approved Standards IEC Standard/TUV Certification: IEC61810-1 (Certification No. R50104853)

UL508 (File No. E41515) Coil ratings

Contact ratings

Operations

Coil ratings

10 A, 250 V AC 50/60 Hz (Resistive) N.O. 10 A, 30 V DC (Resistive) 100,000 contact 7 A, 250 V AC 50/60 Hz (General Use)

6 to 110 VDC 6 to 240 VAC

Contact ratings

6, 12, 24, 48, 100, 110 VDC 6, 12, 24, 100, 110, 200, 220, 240 VAC

10 A, 250 V AC 50/60 Hz (Resistive) N.C. 10 A, 30 V DC (Resistive) 100,000 contact 7 A, 250 V AC 50/60 Hz (General Use)

CSA Standard: CSA Certification by : CSA C22.2 No. 14

Operations

N.O. contact

10 A, 250 V AC 50/60 Hz (Resistive) 10 A, 30 V DC (Resistive) 100,000 7 A, 250 V AC 50/60 Hz (General Use)

N.C. contact

5 A, 250 V AC 50/60 Hz (Resistive) 5 A, 30 V DC (Resistive) 100,000 7 A, 250 V AC 50/60 Hz (General Use)

Note: When Relays are mounted on the PF083A-E or PF113A-E, the maximum carrying current is 9 A.

Engineering Data Maximum Switching Power

Rated Carry Current vs. Ambient Rated Temperature

Switching current (A)

Rated carry current (A)

Reference Data 100

50 30 DC resistive load with NO contact

AC resistive load with NO contact

10

UL derating curve

10 5

AC inductive load (cosφ = 0.4)

5 3 DC resistive load with NC contact 1

10

30

AC resistive load with NC contact

50

100

300

500 1.000

Switching voltage (V)

0 −40

−20

0

20

40

60

80

Ambient temperature (°C)

Note: The lower limit of the ambient operating temperature for models with built-in operation indicators is −25°C.

4

MK-S

Dimensions

(Unit: mm)

Models without Latching Lever

Models with Latching Lever

34.5 max.

34.5 max.

34.5 max.

0.8

52.5 max.

34.5 max.

0.8

52.5 max.

Sockets See below for Socket dimensions. Socket Maximum carry current

Surface-mounting Socket (for track or screw mounting) Finger-protection models 10 A

--5A

PF083A-E

PF083A-D

PF083A

PF113A-E

PF113A-E-D

PF113A

2 poles

3 poles

Note: Use the Surface-mounting Sockets (i.e., finger-protection models) with “-E” at the end of the model number. When using the PF083A and PF113A, be sure not to exceed the Socket's maximum carry current of 5 A. Using at a current exceeding 5 A may lead to burning. Round terminals cannot be used for finger-protection models. Use Y-shaped terminals.

PF083A-E (Conforming to EN 50022)

PF113A-E (Conforming to EN 50022) Terminal Arrangement

Eight, M3.5 × 7 sems 7

Terminal Arrangement Eleven, M3.5 × 7 sems

4

7 52 max.

4

35.4 52 max.

33 41 max.

3.5

35.4

2 21 max.

Mounting Holes Two, M4 or two 4.5-dia. holes

33±0.2

4

34 42.8 max.

3.5

2 31 max.

Mounting Holes Two, M4 or two 4.5-dia. holes

33±0.2

5

MK-S

PF113A-D

PF083A-D 8

Terminal Arrangement 24 6

5.5

22 5

12 4

8

Terminal Arrangement

14 3

32 24 21 22 12 8 7 6 5 4

5.5

27

4

27

4 Eight, M4 screws 7 A2

8 21

1 11

Eight, M4 screws

2 A1

9 10 2 3 34 A2 11 1 A1 14 31 11

Mounting Holes

65

65

Mounting Holes

Two, M4 or two 4.5-dia. hole

Two, M4 or two 4.5-dia. hole

30 30 38

38

Hold-down Clips

PFC-A1 (2 pieces per set) 4.6

60.8

6

62

4.5

Mounting Tracks

PFP-100N, PFP-50N (Conforming to EN 50022)

PFP-100N2 (Conforming to EN 50022)

16 7.3±0.15

4.5

4.5 35±0.3 15

25

25 10

25 10

1000 (500)*

25 *

35±0.3 27

27±0.15 1

* This dimension applies to the PFP-50N Mounting Track.

15

25

25 10

25 1000±4

25 15 10

24

29.2

1

1.5

* A total of twelve 25 × 4.5 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

77.8 (See note.)

Three poles

Two poles 74.3

PF083A(-E)

87.8 (See note.)

84.3

PF113A(-E)

Note: PF083A(-E) and PF113A(-E) allow either track or screw mounting.

6

MK-S

Terminal Arrangement and Internal Connection (Bottom View) Standard Models (AC/DC Coil)

MKS2P(I) 4

5

3

4 6

2

7 1

MKS2P(I)-2 5

3

6

2

8

7 1

MKS3P(I) 6

5

10

2

MKS2P(I)N 4

MKS2P(I)N-2

5

4 6

3

6

2

7

2

7

1

8

1

6

5

MKS2P(I)N 4

MKS2P(I)N-2

5

4

9

3

6

3

6

2

7

2

7

1

8

1

6

MKS2P(I)N1 4

MKS2P(I)N1-2

5

4 6

3

6

2

7

2

7

1

8

1

6

9

3

Standard Models (DC Coil: Standard Polarity)

MKS2P(I)-D 4

MKS2P(I)-D-2

5

4

5

3

6

3

6

2

7

2

7

1

8

1

6

5 3

9

MKS2P(I)1-D 4

MKS2P(I)1-D-2

5

4 6

3

6

2

7

2

7

1

8

1

6

5 3

9

Models with LED indicator (DC Coil)

MKS2P(I)N-D 4

5

3

4 6

2

7 1

MKS2P(I)N-D-2

8

5

3

6

2

7 1

8

3

6

5 3

9

2

10 11

9 2

10 1

9

3 2

10 11

11

MKS3P(I)-D-5 6

7

4

8

3

9 2

10 11

MKS3P(I)1-D-5 6

7 8

4

9

3 2

10 11

MKS3P(I)N-D-5 6

5 8

1

8

1

7

4

7

3

11

6

5 8

6

4

10

MKS3P(I)N-D-2

7

4

1

2

11

MKS3P(I)N1-5

5 9

1

MKS3P(I)N-D

10

1

8

11

9 2

7

4

10 1

6

5

8

11

MKS3P(I)1-D-2

7

3

10 1

8

2

8

9 2

6

4

5

7

3

7

4

6

8

11

MKS3P(I)1-D

5

3

MKS3P(I)-D-2

10

MKS3P(I)N-5

11

4

11

1

10

5 8

1

Models with Diode (DC Coil: Reverse Polarity)

2

7

4

2

8

9 1

MKS3P(I)-D

9 10

2

5 8

11

8

1

7

3

10 1

6

4

7

3

11

MKS3P(I)N1-2

5 8

6

4

10

2

7

4

2

8

9 1

MKS3P(I)N1

5

8

11

MKS3P(I)N-5

5

7

3

10

5

3

6

4

11

10 1

10

5 9

3

9 2

11

MKS3P(I)N-2

8

1

Models with LED Indicator and Diode (DC Coil: Reverse Polarity)

2

7

4

2

8

9

3 1

MKS3P(I)N

5

8

11

8

5

7

4

10

5

3

6

5

8

1

Models with Diode (DC Coil: Standard Polarity)

MKS3P(I)N-2

7

3

11

1

6

4

10

2

7

4

2

8

9

11

MKS3P(I)N

5

3

8

3

MKS3P(I)-5 5

7

4

9

3

6

5 8

1

Models with LED Indicator (AC Coil)

7

4

8

MKS3P(I)-2

7 8

4

9

3 2

10 1

11

7

MK-S

Models with Varistor (AC Coil)

MKS2P(I)-V 4

MKS2P(I)-V-2

5

4

5

3

6

3

6

2

7

2

7

1

8

1

MKS3P(I)-V 6

5 3

9

2

MKS2P(I)N-V 4

MKS2P(I)N-V-2

5

4 6

3

6

2

7

2

7

1

8

1

8

6

2

3

9 2

10 11

6

8 9

3 2

10 1

8 9

2

10

11

11

1

MKS3P(I)N-V-5 6

5

7

4

7

3

11

MKS3P(I)N-V-2

5 8

6

4

10 1

7

4

1

9

11

MKS3P(I)N-V

5

8

3

MKS3P(I)-V-5

5

7

4

10

5

3

6

5 8

1

Models with LED indicator and Varistor (AC Coil)

7

4

8

MKS3P(I)-V-2

7

4

8

3

9 2

10 1

11

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. Models with 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.

8

Power Relay

MM CSM_MM_DS_E_3_1

Stable Contact Reliability and Long Life • Easy to mount, wire, and use. • A large selection of models including various contact forms, DC-switching models, and open models. • Mechanical life: 5,000,000 operations; electrical life (under rated load): 500,000 operations. • Models also available with built-in diodes and for use as auxiliary power relays.

Refer to Safety Precautions for All Relays.

Ordering Information Type

Contact form

Open structure Solder terminals

Standard

DC-switching

With built-in diode DC-switching with built-in diode

Cased

Screw terminals

Plug-in (octal pins) terminals

DPDT

MM2

MM2B

MM2P

3PDT

MM3

MM3B

MM3P

4PDT

MM4

MM4B

MM4P

DPDT

MM2X

MM2XB

MM2XP

3PDT

MM3X

MM3XB

MM3XP

4PDT

MM4X

MM4XB

MM4XP

DPDT

---

---

MM2P-D

4PDT

---

---

MM4P-D

DPDT

---

---

MM2XP-D

4PDT

---

---

MM4XP-D

DPDT

---

---

MM2PN

3PDT

---

---

MM3PN

4PDT

---

---

MM4PN

DPDT

---

---

MM2XPN

3PDT

---

---

MM3XPN

4PDT

---

---

MM4XPN

Conforming to auxiliary power relay speci- 4PDT fications

---

---

MM4P-JD

---

---

MM4XP-JD

With operation indicator

DC-switching with operation indicator

■ Available Models Open Coils (with Solder Terminals) Type Standard

DC-switching

Contact form

Relay model

Available rated voltage

DP

MM2

6, 12, 24, 50, 100/(110), 200/(220) VAC 6, 12, 24, 48, 100/110, 200/220 VDC

3P

MM3

100/(110), 200/(220) VAC 6, 12, 24, 48, 200/220 VDC

4P

MM4

24, 100/(110), 200/(220) VAC 6, 12, 24, 48, 100/110, 200/220 VDC

DP

MM2X

100/(110), 200/(220) VAC 6, 12, 24, 48, 100/110, 200/220 VDC

3P

MM3X

100/(110), 200/(220) VAC 12, 24, 100/110 VDC

4P

MM4X

100/(110), 200/(220) VAC 12, 24, 48, 100/110 VDC

1

MM Open Coils (with Screw Terminals) Type Standard

DC-switching

Contact form

Relay model

Available rated voltage

DP

MM2B

6, 12, 24, 50, 100/(110), 200/(220) VAC 12, 24, 48, 100/110, 125, 200/220 VDC

3P

MM3B

6, 100/(110), 200/(220) VAC 12, 24, 100/110 VDC

4P

MM4B

6, 100/(110), 200/(220) VAC 12, 24, 48, 100/110 VDC

DP

MM2XB

24, 100/(110), 200/(220) VAC 12, 24, 48, 100/110, 125, 200/220 VDC

3P

MM3XB

100/(110), 200/(220) VAC 12, 24, 48, 100/110, 125, 200/220 VDC

4P

MM4XB

12, 24, 100/(110), 200/(220) VAC 6, 12, 24, 48, 100/110, 200/220 VDC

Cased Coils (Plug-in Terminals) Type Standard

Contact form

Relay model

Available rated voltage

DP

MM2P

6, 12, 24, 50, 100/(110), 200/(220) VAC 6, 12, 24, 48, 100/110, 125, 200/220 VDC

3P

MM3P

6, 24, 100/(110), 200/(220) VAC 6, 12, 24, 48, 100/110, 125, 200/220 VDC

4P

MM4P

6, 24, 50, 100/(110), 200/(220) VAC 12, 24, 48, 100/110, 125, 200/220 VDC

DP

MM2XP

6, 24, 100/(110), 125, 200/(220) VAC 6, 12, 24, 48, 100/110, 125, 200/220 VDC

3P

MM3XP

24, 50, 100/(110), 200/(220) VAC 12, 24, 48, 100/110, 125, 200/220 VDC

4P

MM4XP

12, 24, 50, 100/(110), 200/(220) VAC 6, 12, 24, 48, 100/110, 125, 200/220 VDC

With built-in diode

DP

MM2P-D MM4P-D

12, 24, 48, 100/110, 200/220 VDC 12, 24, 48, 100/110, 125, 200/220 VDC

DC-switching with built-in diode

DP

MM2XP-D MM4XP-D

12, 24, 48, 100/110, 125, 200/220 VDC 12, 24, 48, 100/110, 125, 200/220 VDC

With operation indicator

DP

MM2PN

6, 24, 100/(110), 200/(220) VAC 6, 12, 24, 48, 100/110, 125, 200/220 VDC

3P

MM3PN

100/(110), 200/(220) VAC 6, 12, 24, 48, 100/110, 200/220 VDC

4P

MM4PN

24, 100/(110), 200/(220) VAC 24, 48, 100/110, 125, 200/220 VDC

DP

MM2XPN

100/(110), 200/(220) VAC 12, 24, 48, 100/110, 125, 200/220 VDC

3P

MM3XPN

100/(110), 200/(220) VAC 24, 48, 100/110, 200/220 VDC

4P

MM4XPN

100/(110), 200/(220) VAC 12, 24, 48, 100/110, 125, 200/220 VDC

Conforming to auxiliary power relay specifications

4P

MM4P-JD

100/(110), 110, 115, 200/(220), 220 VAC 24, 100/110, 125, 200/220 VDC

Conforming to auxiliary power relay specifications for DC-switching

4P

MM4XP-JD

100/(110), 110, 115, 200/(220) VAC 24, 48, 100/110, 125, 200/220 VDC

DC-switching

DC-switching with operation indicator

Models Conforming to Auxiliary Power Relay Specifications The MM4P-JD and MM4XP-JD satisfy the ratings of auxiliary relays provided in JEC-2500 (1987) standards for power protective relays specified by the Japan Electromechanical Commission. Furthermore, the MM4P-JD and MM4XP-JD satisfy the ratings of multi-contact relays provided in JEC-174D (1979) standards for power auxiliary relays. These models work at operation level B specified by JEC-174D (1979) standards and the hot start of the relays is possible after the coils radiate heat. In accordance with JEC-2500 (1987) standards, the coil of each model withstands a 130% DC load or 115% AC load. Note: 1. When ordering, add the rated coil voltage to the model number. Rated coil voltages are given in the coil ratings table. Example: MM2, 6 VAC Rated coil voltage 2. Latching Relays based on the MM Series are also available. Refer to the MMK. 3. Models with built-in varistors (AC operation) are also available in addition to those with built-in diodes. Ask your OMRON representative for details.

2

MM Model Number Legend MM@@@@-@ 1

2

3 4

5

4. Operation Indicator None: Not provided N: Provided 5. Built-in Diode None: Not provided D: Provided

1. Contact Form 2: DPDT 3: 3PDT 4: 4PDT 2. Type (See Note.) None: Standard X: DC-switching 3. Terminal Shape None: Solder B: Screw P: Plug-in

Note: The suffix “JD” indicates models conforming to auxiliary power relay specifications.

■ Accessories (Order Separately) Mounting Brackets Mounting Bracket (S bracket)

R99-03MM

Sockets Relay model

DIN Track/Front-connecting Socket (screw terminals)

Back-connecting Socket (solder terminals)

MM2(X)P(-D)

8PFA

PL08

MM3P

11PFA

PL11

MM3XP, MM4(X)P(-D)

14PFA

PL15

MM4(X)P-JD

14PFA

---

3

MM

Specifications ■ Coil Ratings Open Coils (with Solder or Screw Terminals) Rated voltage (V)

Rated current (mA) DP 50 Hz

AC

DC

Coil resistance (Ω)

3P or 4P 60 Hz

50 Hz

DP

Mustoperate voltage

3P or 4P

60 Hz

Mustrelease voltage

Max. voltage

Power consumption (VA or W)

% of rated voltage

6

790

655

1,120

950

1.1

0.5

12

395

325

560

480

4.7

2.0

24

195

160

280

240

19

8.5

50

94

78

134

114

82

36

100/(110)

47

39/45

67

57/66

340

150

200/(220)

23.5

19.5/ 22.5 33.5

28.5/33

1,540

620

6

340

450

17.5

13.4

12

176

220

68

54

24

87

94

275

255

48

41

52

1,180

930

100/110

17/19

22/24.5

5,750

4,500

200/220

8.6/9.5

11/12

23,200

18,000

Initial

Rated

80% max. 30% min. 110% (60 Hz) 25% min. (50 Hz)

Approx. 4.1 (DP) Approx. 6.3 (3P or 4P)

Approx. 3.5 (DP) Approx. 5.1 (3P or 4P)

70% max. 10% min.

Approx. 2.1 (DP) Approx. 2.7 (3P or 4P)

Note: 1. The rated current and coil resistance are measured at a coil temperature of 23°C with tolerances of +15%/–20% for AC rated current and ±15% for DC coil resistance. 2. The AC coil resistance values are reference values. 3. Performance characteristic data are measured at a coil temperature of 23°C. 4. The maximum voltage is one that is applicable instantaneously to the Relay coil at an ambient temperature of 23°C and not continuously.

Cased Coils (Plug-in Terminals) The rated current may vary if the Relay has a built-in operating indicator (See note 4.). Rated voltage (V)

Rated current (mA) DP

AC

DC

3P or 4P

50 Hz

60 Hz

50 Hz

60 Hz

Coil resistance (Ω) DP

3P or 4P

Coil inductance (H) DP

3P or 4P

Contact Contact Contact Contact release operate release operate

6

690

590

975

850

1.1

0.5

0.02

0.02

0.01

0.03

12

345

295

490

430

4.7

2.0

0.07

0.01

0.04

0.07

24

170

145

245

210

19

8.5

0.28

0.41

0.18

0.28

50

82

70

117

102

82

36

1.2

1.7

0.75

1.2

100/(110) 41

35/40

58.5

51/58

340

150

4.8

6.7

3

4.5

200/(220) 20.5

17.5/ 20

29

25.5/ 29

1,540

620

20

25.6

12

19

6

340

450

17.5

13.4

0.2

0.36

0.23

0.35

12

176

220

68

54

0.74

1.0

0.87

1.4

24

87

94

275

255

4.2

5.8

5.6

9.2

48

41

52

1,180

930

20.4

26

27.3

45.5

100/110

17/19

22/24.5

5,750

4,500

81.6

92.5

61.4

96.5

200/220

8.6/9.5

11/12

23,200 18,000 340

380

158

250

Must- MustMax. operate release voltage voltage voltage % of rated voltage

Power consumption (VA or W) Initial

Rated Approx. 3.5 (DP) Approx. 5.1 (3P or 4P)

80% max.

110% 30% min. (60 Hz) 25% min. (50 Hz)

Approx. 4.1 (DP) Approx. 6.3 (3P or 4P)

70% max.

10% min.

Approx. 2.1 (DP) Approx. 2.7 (3P or 4P)

Note: 1. The rated current and coil resistance are measured at a coil temperature of 23°C with tolerances of +15%/–20% for AC rated current and ±15% for DC coil resistance. 2. The AC coil resistance and coil inductance values are for reference only. 3. Performance characteristic data are measured at a coil temperature of 23°C. 4. The maximum voltage is one that is applicable instantaneously to the Relay coil at an ambient temperature of 23°C and not continuously. 5. The rated current of a model with a built-in LED indicator at 6, 12, 24, or 50 VAC or 6, 12, 24, or 48 VDC increases by approx. 10 mA due to the current consumption of the LED. The rated current of a model with a built-in neon lamp indicator at 100/(110) or 200/(220) VAC or 100/110 or 200/220 VDC increases by approx. 0.2 mA due to the current consumption of the neon lamp.

4

MM Coils (Conforming to Auxiliary Power Relay Specifications) Rated voltage (V)

Rated current (mA)

50 Hz AC

DC

Coil Coil inductance (H) resistance (Ω)

60 Hz

Contact release

Mustoperate voltage

Contact operate

24

245

210

8.5

0.18

0.28

50

117

102

36

0.75

1.2

100/(110)

58.5

51/58

150

3

4.5

110

53

46

182

3.6

5.5

115

51

44

210

4

6.2

200/(220)

29

25.5/29

620

12

19

220

26.5

23

780

15

21

24

94

255

5.6

9.2

48

52

930

27.3

45.5

100/110

22/24.5

4,500

61.4

96.5

125

22

5,800

90

130

200/220

11/12

18,000

158

250

Mustrelease voltage

Max. voltage

Opera- Power consumption tion level (VA or W) (JEC174D) Initial Rated

% of rated voltage 80% max. 30% min. 110% (60 Hz) 25% min. (50 Hz)

B Hot start after coil heated

70% max. 10% min.

Approx. 6.3

Approx. 5.1

Approx. 2.7

Note: 1. The rated current and coil resistance are measured at a coil temperature of 23°C with tolerances of +15%/–20% for AC rated current and ±15% for DC coil resistance. 2. The AC coil resistance and coil inductance values are for reference only. 3. Performance characteristic data are measured at a coil temperature of 23°C. 4. The maximum voltage is one that is applicable instantaneously to the Relay coil at 23°C and not continuously.

■ Contact Ratings Standard Relays Item

Open Relays

Cased Relays

MM2(B), MM3(B), MM4(B)

MM2P(N, -D), MM3P(N), MM4P(N, -D)

Resistive load (cosφ = 1)

Inductive load (cosφ=0.4, L/R=7 ms)

Resistive load (cosφ = 1)

Contact type

Single

Contact material

Ag

Rated load

15 A at 220 VAC 10 A at 24 VDC

Rated carry current

15 A

7.5 A

Max. switching voltage

250 VAC, 250 VDC

250 VAC, 250 VDC

Max. switching current

15 A

7.5 A

Max. switching power (reference value)

3,300 VA at 240 W

1,700 VA at 120 W

Inductive load (cosφ=0.4, L/R=7 ms)

7.5 A at 220 VAC 5 A at 24 VDC

Minimum permissible load 5 VDC 10 mA (reference value) (See note.) Note: This value is measured at 60 operations/min.

DC-switching Relays/Built-in Diode Relays Item

Open Relays

Cased Relays

MM2X(B), MM3X(B), MM4X(B)

MM2XP(-D), MM3XP, MM4XP(-D)

Resistive load (cosφ = 1)

Inductive load (L/R=7 ms)

Resistive load (cosφ = 1)

Contact type

Single

Contact material

Ag

Rated load

10 A at 110 VDC

Rated carry current

15 A

Max. switching voltage

250 VAC, 250 VDC

250 VAC, 250 VDC

Max. switching current

15 A

7.5 A

Max. switching power (reference value)

1,200 W at 20 VA

7 A at 110 VDC

7 A at 110 VDC

Inductive load (L/R=7 ms)

6 A at 110 VDC

7.5 A

800 W at 20 VA

800 W at 20 VA

660 W at 20 VA

Minimum permissible load 5 VDC at 10 mA (reference value) (See note 3.) Note: 1. When switching DC inductive loads at 125 V or more, an unstable region exists for a contact current of between 0.5 and 2.5 A. The Relay will not turn OFF in this region. Use a contact current of 0.5 A or less when switching 125 VDC or more. 2. If L/R exceeds 7 ms when switching DC inductive loads, an arc-breaking time of up to 50 ms must be considered in application and the circuit must be designed to ensure that an arc-breaking time of 50 ms is not exceeded. 3. This value is measured at 60 operations/min.

5

MM Contacts (Conforming to Auxiliary Power Relay Specifications) Item

MM4P-JD Resistive load

MM4XP-JD

Inductive load (cosφ = 0.4, L/R = 7 ms)

Contact type

Single

Contact material

Ag

Rated load

5 A at 220 VAC, 5 A at 24 VDC

Rated carry current

5A

Max. switching voltage

250 VAC, 250 VDC

Max. switching current

5A

Max. switching power (reference value)

1,100 VA, 120 W, 30 W (L/R = 40 ms)

Resistive load

Inductive load (cosφ = 0.4, L/R = 7 ms)

5 A at 110 VDC

20 VA, 550 W, 40 W (L/R = 40 ms)

Note: 1. A model for DC loads is not in stable operation when switching an inductive load within a operating current range between 0.5 and 2.5 A at a minimum of 125 VDC, where the load cannot be switched. 2. If L/R exceeds 7 ms when switching DC inductive loads, an arc-breaking time of up to 50 ms must be considered in application and the circuit must be designed to ensure that an arc-breaking time of 50 ms is not exceeded.

■ Characteristics Standard Relays Item

Open Relays

Cased Relays

Contact resistance (See note 2.)

25 mΩ max.

50 mΩ max.

Operate time (See note 3.)

AC: 25 ms max. DC: 50 ms max.

Release time (See note 3.)

30 ms max. (100 ms max. for Built-in Diode Relays)

Max. operating frequency

Mechanical:7,200 operations/hr Electrical:1,800 operations/hr (under rated load)

Insulation resistance (See note 4.)

100 MΩ min. (at 500 VDC)

Dielectric strength

1,500 VAC, 50/60 Hz for 1 min between contacts of same polarity 2,000 VAC, 50/60 Hz for 1 min between contacts of different polarity (and between coil and contacts)

Vibration resistance

Destruction: 10 to 55 to 10 Hz, 0.75 mm single amplitude (1.5 mm double amplitude) Malfunction: 10 to 55 to 10 Hz, 0.5 mm single amplitude (1.0 mm double amplitude)

Shock resistance

Destruction: 1,000 m/s2 Malfunction: 100 m/s2

Endurance

Mechanical: 5,000,000 operations min. (at 7,200 operations/hr) Electrical: 500,000 operations min. (at 1,800 operations/hr under rated load) (See note 5.)

Ambient temperature

Operating:–10°C to 55°C (with no icing or condensation)

Ambient humidity

Operating:5% to 85%

Weight

Standard models: DC-switching models MM2 approx. 160 g MM2X approx. 165 g MM3 approx. 270 g MM3X approx. 275 g MM4 approx. 300 g MM4X approx. 310 g MM2P approx. 220 g MM3P approx. 360 g MM4P approx. 410 g

MM2XP approx. 225 g MM3XP approx. 395 g MM4XP approx. 420 g

Note: 1. The data shown above are initial values. 2. The contact resistance was measured with 1 A at 5 VDC using the voltage drop method. 3. The operate or release time was measured with the rated voltage imposed with any contact bounce ignored at an ambient temperature of 23°C. 4. The insulation resistance was measured with a 500-VDC megger applied to the same places as those used for checking the dielectric strength. 5. The electrical endurance was measured at an ambient temperature of 23°C.

6

MM Relays (Conforming to Auxiliary Power Relay Specifications) Item

Cased Relays

Contact resistance (See note 2.)

50 mΩ max.

Operate time (See note 3.)

AC: 25 ms max., DC: 50 ms max.

Release time (See note 3.)

30 ms max.

Max. operating frequency

Mechanical: Electrical:

1,800 operations/hr 1,800 operations/hr (under rated load)

Insulation resistance (See note 4.)

100 MΩ min.

Dielectric strength

Between coil and contact: 2,000 VAC, 50/60 Hz for 1 minute Between contacts of different polarity: 2,000 VAC, 50/60 Hz for 1 minute Between contacts of same polarity: 1,500 VAC, 50/60 Hz for 1 minute

Vibration resistance

Destruction: 10 to 55 to 10 Hz, 0.75 mm single amplitude (1.5 mm double amplitude) Malfunction: 10 to 22 to 10 Hz, 0.5 mm single amplitude (1.0 mm double amplitude)

Shock resistance

Destruction: 300 m/s2 Malfunction: 30 m/s2

Endurance

Mechanical: 5,000,000 operations min. (at 1,800 operations/hr) Electrical: 500,000 operations min. (at 1,800 operations/hr with rated load) (see note 5)

Error rate (level P) (Reference value) (See note 6.)

10 mA at 5 VDC

Ambient temperature

Operating: –10°C to 40°C (with no icing or condensation)

Ambient humidity

Operating: 5% to 85%

Weight

MM4P-JD: approx. 410 g MM4XP-JD: approx. 420 g

Note: 1. The data shown above are initial values. 2. The contact resistance was measured with 1 A at 5 VDC using the voltage drop method. 3. The operate or release time was measured with the rated voltage imposed with any contact bounce ignored at an ambient temperature of 23°C. 4. The insulation resistance was measured with a 500-VDC megger applied to the same places as those used for checking the dielectric strength. 5. The electrical endurance was measured at an ambient temperature of 23°C. 6. This value was measured at a switching frequency of 60 operations per minute.

Engineering Data ■ Standard Relays Maximum Switching Power Open Relays MM@(B)

Cased Relays

MM@P(N, -D)

AC inductive load (cosφ = 0.4)

DC inductive load L/R = 7 ms DC resistive load

Switching voltage (V)

Switching current (A)

Switching current (A)

AC resistive load AC resistive load

AC inductive load (cosφ = 0.4)

DC resistive load DC inductive load L/R = 7 ms

Switching voltage (V)

7

MM Endurance Curves Open Relays

Cased Relays MM@P(N, -D)

10,000 7,000 5,000

220 VAC resistive load inductive load (cosφ = 0.4)

3,000

1,000 700 500

24 VDC resistive load inductive load L/R = 7 ms

300

10,000 7,000

Endurance (x10 3operations)

Endurance (x103 operations)

MM@(B)

5,000 220 VAC resistive load inductive load (cosφ = 0.4)

3,000

1,000 700 500

24 VDC resistive load inductive load L/R = 7 ms

300

100

100

Switching current (A)

Switching current (A)

■ DC-switching Relays Maximum Switching Power Open Relays

Cased Relays

MM@X(B)

MM@XP(N, -D)

DC resistive load

Switching current (A)

Switching current (A)

DC resistive load

DC inductive load L/R = 7 ms

DC inductive load L/R = 7 ms

Switching voltage (V)

Endurance Curves Open Relays

Cased Relays

Endurance (x10 3 operations)

Endurance (x103 operations)

Switching voltage (V)

10,000 5,000 3,000

24 VDC resistive load 110 VDC resistive load

1,000 500 300

110 VDC inductive load L/R = 7 ms

100 50

10,000 5,000 3,000 1,000

110 VDC resistive load

500 300

110 VDC inductive load L/R = 7 ms

100 50

30

30

10

10

Switching current (A)

24 VDC resistive load

Switching current (A)

8

MM ■ Relays Conforming to Auxiliary Power Relay Specifications Maximum Switching Power MM4XP-JD

AC resistive load

AC inductive load cosφ = 0.4

Switching current (A)

Switching current (A)

MM4P-JD

DC resistive load

DC inductive load L/R = 7 ms

DC resistive load

DC inductive load L/R = 7 ms

Switching voltage (V)

Switching voltage (V)

Endurance Curves MM4XP-JD

220 VAC: resistive load inductive load cosφ = 0.4

Endurance (x 10 4 )

Endurance (x 10 4 )

MM4P-JD

110 VDC: resistive load inductive load L/R = 7 ms

24 VDC resistive load Inductive load L/R = 7 ms

Switching current (A)

Switching current (A)

9

MM Ambient Temperature vs. Must-operate and Must-release Voltage MM2P DC

Number of Relays: 5

Must-operate voltage Must-release voltage

Must-operate and reset voltage (%)

Must-operate and reset voltage (%)

MM2P AC (60 Hz)

Number of Relays: 5

Ambient temperature (°C)

Must-operate voltage Must-release voltage

Ambient temperature (°C)

Ambient Temperature vs. Coil Temperature Rise MM2P DC Coil temperature rise (° C)

Coil temperature rise ( ° C)

MM2P 110 VAC (60 Hz) Contact carry current

Number of Relays: 5

Ambient temperature (°C)

Malfunctioning Shock MM2P AC

Contact carry current

Number of Relays: 5

Ambient temperature (°C)

Contact Reliability (Improved Allen-Bradley Test Circuit)

Unit: m/s2

Number of samples: 5 Measurement conditions: Impose a shock of 100 m/s2 in the ±X, ±Y, and ±Z directions three times each with the Relay energized and not energized to check the shock values that cause the Relay to malfunction.

Contact load: 10 mA at 5 VDC (resistive load) Error rate l = 0.0202 x 10−6/operations (level Q)

Accumulated number of errors

NO contact NC contact

Accumulated number of errors

MM4P 24 VDC Contact load: 1 mA at 5 VDC (resistive load) Error rate l = 0.2794 x 10−6/operations (level N)

Shock direction

Number of switching operations (x 104 times)

Number of switching operations (x 104 times)

10

MM Relay Mounting Adjacent Distance vs. Coil Temperature Rise Coil temperature rise ( ° C)

MM4P 100 /(110) VAC Relay mounting position

Condition: The saturated coil temperature is measured with the rated carry current (7.5 A) at the rated coil voltage (100 VAC at 50 Hz).

Upper

Lower

Average of No. 2, 4, 6, and 8 Average of No. 1, 3, 7, and 9

Contact carry current (7.5 A)

No contact carry current Average of No. 2, 4, 6, and 8 Average of No. 1, 3, 7, and 9

Mounting adjacent distance l (mm)

Dimensions Note: All units are in millimeters unless otherwise indicated.

■ Standard Relays Open Relays Solder Terminals MM2(X), MM4(X), MM3(X)

MM3(X)

MM2(X) 2P

1P

3P

53.5 max.

MM4(X)

1P

4P

61.5 max.

Four, M4 mounting screw holes

MM2

2P

22 40 max.

3P

2P

Side View 1P

Common C Stationary A Stationary B

61.5 max.

28 50 max.

Four, M4 mounting screw holes

13 22 51 max.

34 63 max.

Four, M4 mounting screw holes

Note: Connect the common (C) of MM@X to positive (+).

Screw Terminals MM2(X)B, MM3(X)B, MM4(X)B

MM2(X)B 2P 1P

MM3(X)B

Eight, M3.5 x 5.5 screws 3P

2P

1P

Side View

MM4(X)B

Eleven, M3.5 x 5.5 screws

4P 3P

Fourteen, M3.5 x 5.5 screws 2P 1P

Common C Stationary A Stationary B

59.5 max. 67.5 max.

67.5 max.

22

MM2B

Four, M4 mounting screw holes

22

55 max. 28 Four, M4 mounting screw holes

60 max.

Four, M4 mounting screw holes

34 67 max.

18.5

56 max.

Note: Connect the common (C) of MM@XB to positive (+).

11

MM Mounting Holes (Bottom View) Direct mounting Four, 4.5-dia. mounting holes

22±0.2

Length of l DPDT: 22±0.2 3PDT: 28±0.2 4PDT: 34±0.2

Mounting Bracket (S Bracket) R99-03 (S KANAGU) FOR MM@ H

The S Bracket can be used to mount a Relay with open solder or screw terminals.

R99-03 (S KANAGU) R99-03 (S KANAGU) FOR MM3. 4 (61) FOR MM2 (611) 3PDT, 4PDT (DPDT)

W

22 ±0.2

58 ±0.2

22±0.2

l

22

28, 34

D

71 max.

71 max.

W 36 max.

46 max.

H

6 max.

44

6 max.

l

12

MM Cased Relays Case-protection plate

Plug-in Terminals MM2P(N, -D) MM2XP(N, -D)

80.5 max. 59.5 max.

7

3.5 24 47.5 max.

MM2P

73 max.

Note: As shown in the diagram, there are three 10-dia. holes in the side of the case for the MM2XP(N, -D). When a case-protection plate is attached, the width of the Relay will be 48 mm max.

Terminal Arrangement (Bottom View) l

MM2P

Make sure that all common connections have the same polarity for the MM2XP-N/-D. The markings of the common connections on the casing all show "+" but the polarity of the common connections can be either negative or positive as long as they are all the same.

MM2P-D

MM2PN

MM2PN

6, 12, 24, 50 VAC

MM2XP

MM2XP-D

6, 12, 24, 48 VDC

MM2XPN

6, 12, 24, 50 VAC

MM2XPN

6, 12, 24, 48 VDC

MM2PN

100/(110), 200/(220) VAC 100/110, 200/220 VDC

MM2XPN

100/(110), 200/(220) VAC 100/110, 200/220 VDC

Note: Wire the terminals correctly with no mistakes in coil polarity.

MM3P(N)

80.5 59.5 max. max.

3.5 24 61.5 max.

MM3P

7 81 max.

Terminal Arrangement (Bottom View) MM3P

MM3PN

6, 12, 24, 50 VAC

MM3PN

6, 12, 24, 48 VDC

MM3PN

100/(110), 200/(220) VAC 100/110, 200/220 VDC

Note: Wire the terminals correctly with no mistakes in coil polarity.

13

MM MM3PXP(N) MM4P(N, -D) MM4XP(N, -D)

Case-protection plate

80.5 59.5 max. max.

3.5 24 79.5 max. (See note 2.)

MM4P

7 81.5 max.

Note 1: As shown in the diagram, there are three 10-dia. holes in the side of the case for MM@XP(N, -D). 2: When a case-protection plate is attached, the width of the Relay will be 80 mm max.

Terminal Arrangement (Bottom View)

MM3XP

Make sure that all common connections have the same polarity for the MM@XP-N/-D. The markings of the common connections on the casing all show "+" but the polarity of the common connections can be either negative or positive as long as they are all the same. MM3XPN

MM3XPN

MM4P

MM4P-D

MM4PN

6, 12, 24, 50 VAC

MM4XP

MM3XPN

6, 12, 24, 48 VDC

6, 12, 24, 50 VAC

MM4XP-D

100/(110), 200/(220) VAC 100/110, 200/220 VDC

MM4PN

6, 12, 24, 48 VDC

MM4XPN

MM4XPN

6, 12, 24, 50 VAC

6, 12, 24, 48 VDC

MM4PN

100/(110), 200/(220) VAC 100/110, 200/220 VDC

MM4XPN

100/(110), 200/(220) VAC 100/110, 200/220 VDC

Note: Wire the terminals correctly with no mistakes in coil polarity.

14

MM MM4P-JD Terminal Arrangement (Bottom View) 70.5 max. 59.5 max.

81.5 max. 79.5 max.

MM4XP-JD

70.5 max. 59.5 max.

81.5 max. 80 max.

Note: Make sure that all common connections are the same in polarity. The markings of the common connections on the casing all show "+" but the polarity of the common connections can be either all negative or all positive.

â– Relays with Operation Indicators Dimensions are the same as those for standard Relays except that there are three 10-mm holes in the case as shown below.

Accessories â– Sockets Relay model

DIN Track/Front-connecting Socket (screw terminals)

Back-connecting Socket (solder terminals)

MM2(X)P(-D)

8PFA

PL08

MM3P

11PFA

PL11

MM3XP, MM4(X)P(-D)

14PFA

PL15

MM4(X)P-JD

14PFA

---

Note: When using the MM4(X)P-JD (i.e., a model conforming to auxiliary power relay specifications) by itself, the PL15 Back-connecting Socket cannot be used.

15

MM Height with Socket DIN Track/Front-connecting Socket

95.5 MM2(X)P

92

MM3XP 110 109.5 113.5 MM4(X) MM4(X)P-JD

MM3P

113

8PFA

Back-connecting Socket

11PFA

78

14PFA

MM2(X)P

86

PL08

MM3P

MM3XP 86.5 MM4(X)P

PL11

PL15

Safety Precautions Refer to Safety Precautions for All Relays.

■ Connection

■ MMXP

• Use proper crimp terminals or 1.2- to 2-mm-dia. single-conductor wire to connect screw terminals. • Connect loads to DC-switching Relays so that arcs from adjacent terminals will not strike each other. E.g., connect all common terminals to the same polarity. • Screw Terminal Model: Do not bend the coil terminals, otherwise the coil wire may be disconnected. Make sure that the tightening torque applied to each terminal is 0.78 to 1.18 N·m and the insertion force is 49 N for 10 s. • Do not reverse polarity when connecting open DC-switching Relays, including 3- and 4-pole models.

The MMXP has a hole in the Relay case to allow gas to escape. Do not use this Relay in locations subject to excessive dust.

■ Installation

The contact load should be greater than the power consumption of the coil. If it is less than this power consumption or if the Relay is operated very infrequently, the contact can change chemically thus causing unstable operation.

• Do not install the Relays where iron dust can adhere to the contacts or coil. Such dust can prevent the armature from moving freely and inhibit proper electrical contact. • Relays can generate arcs externally. Either install the Relay in a location where a nearby object will not burn or use a covered Relay. • DC-switching Relays contain a permanent magnet in the insulation base. Do not place a magnet or magnetic object near this base. Doing so will reduce the power of the permanent magnet, thus reducing Relay capacity. • Insert PL Back-mounting Sockets from the back of the panel. • To minimize the influence of heat, separate Relays from each other by at least 20 mm for cooling when mounting multiple Relays together. 20 mm min.

Top

MM

MM Mounting orientation

Bottom

• Relays should be mounted with the armature facing down.

■ Wiring When connecting a load to the contact terminals of a model for DC loads, consider the polarity of the contact terminals so that the generated arcs on the adjacent poles will not collide. If the common connections of the Relay are all positive or all negative, no arc collision will occur.

■ Contact Loads

■ Soldering When soldering solder terminals, do not let flux or other foreign matter adhere to contacts or do not let the coil terminals become bent. Also, solder as quickly as possible because excessive heat may damage the coil.

■ Diode Built into Relays A diode is built into the Relays to absorb reverse electromotive force from the relay coil. The diode will be destroyed if a large external surge voltage is applied. If there is a possibility of a large external surge voltage being applied, take suitable measures to absorb the surge.

■ Storage A model for DC loads incorporates a permanent magnetic for arc suppression. Keep floppy disks away from the Relay, otherwise the data on the floppy disk may be damaged.

■ Operating Environment Do not use the Relay in places with flammable gas, otherwise an explosion may result due to an arc generated from the Relay

ALL DIMENSIONS SHOWN ARE IN MILLIMETERS. To convert millimeters into inches, multiply by 0.03937. To convert grams into ounces, multiply by 0.03527. In the interest of product improvement, specifications are subject to change without notice.

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