The models in this table are UL/CSA certified. This is indicated with a certification mark on the products.
(This does not include models with high contact reliability or plastic sealed, latching, or hermetically sealed models.)
2.
Models with an asterisk (*) next to them are new versions.
3.
The standard models with plug-in terminals, models with coil surge absorption diodes, and models with coil surge absorption CR circuits were used in
combination with the PYF-E and PYFS (2-pole and 4-pole) for the EC Declaration of Conformity. These products display the CE Marking.
4.
Products cannot be manufactured for the cells with a diagonal line. Ask your OMRON representative for details on manufacturing products for cells containing
“---” in the above table.
2
4
MYQ4Z
MY2K
MY4H
MYQ4Z-02
MY2K-02
MY4H-0
4 Bifurcated
4
MYQ4N
---
Without operation
indicator
MY2*
MY2Z
MY3
MY4*
MY4Z*
MY2-D*
MY2Z-D
MY3-D
MY4-D*
MY4Z-D*
MY2-CR*
MY4-CR*
MY4Z-CR*
MY4Z-CBG
MYQ4
MYQ4-02
MY4IN-CR(S)*
MY4ZIN-CR(S)*
---
MY4IN-D2(S)*
MY4ZIN-D2(S)*
---
---
MY4IN(S)*
MY4ZIN(S)*
MY2IN-D2(S)*
MY3-02
MY4-02
MY4Z-02
MY3F
MY4F
MY4ZF
With latching lever
MY2IN(S)*
MY2-02
MY2F
PCB terminals
Case-surface
mounting
Refer to
Connection Socket and Mounting Bracket Selection Table on page 33
in
Options
for information on the
possible combinations of Models with Plug-in Terminals and Sockets.
1
MY
Miniature Power Relays: MY2
Refer to the standards certifications and compliance
section of your OMRON website for the latest
information on certified models.
Ordering Information
Classification
When your order, specify the rated voltage.
Rated voltage (V)
Standard products
12, 24, 100/110, or 200/220 VAC
12, 24, 48, or 100/110 VDC
12, 24, 100/110, 110/120, 200/220, or 220/240 VAC
12, 24, 48, or 100/110 VDC
12, 24, or 100/110 VDC
12, 24, 48, or 100/110 VDC
100/110 or 200/220 VAC
100/110 or 200/220 VAC
110/120 or 220/240 VAC
110/120 or 220/240 VAC
48 VDC
Made-to-order items
110/120 or 220/240 VAC
Model
Standard models
MY2
Models with built-in operation indicators
Models with built-in diodes
Models with built-in diodes and operation
indicators
Models with built-in CR circuits
Models with built-in CR circuits and operation
indicators
MY2N
MY2-D
MY2N-D2
MY2-CR
MY2N-CR
Note: 1.
Ask your OMRON representative for details on the time required to deliver made-to-order products.
2.
Ask your OMRON representative for details on product specifications and the ability to manufacture products with voltages other than
the above coil specifications.
3.
The above models and specifications are new versions in the MY Series.
4.
Except for MY2(N)-CR Relays with the above voltage specifications, all Relays have a height of 53 mm or less.
If Mounting Brackets are required, refer to page 33 for selection information.
Ratings and Specifications
Ratings
Operating Coils (Standard Models)
Item
Rated
voltage (V)
12
24
AC
100/110
110/120
200/220
220/240
12
DC
24
48
100/110
Rated current (mA)
50 Hz
106.5
53.8
11.7/12.9
9.9/10.8
6.2/6.8
4.8/5.3
72.7
36.3
17.6
8.7/9.6
60 Hz
91
46
10/11
8.4/9.2
5.3/5.8
4.2/4.6
Coil resistance
(Ω)
46
180
3,750
4,430
12,950
18,790
165
662
2,725
11,440
Coil inductance (H)
Armature
OFF
0.17
0.69
14.54
19.2
54.75
83.5
0.73
3.2
10.6
45.6
Armature
ON
0.33
1.3
24.6
32.1
94.07
136.4
1.37
5.72
21.0
86.2
10% min.
*2
Approx. 0.9
80% max.
*1
30% min.
*2
110% of rated
voltage
Approx. 0.9 to 1.1
(at 60 Hz)
Must-
operate
voltage (V)
Must-
release
voltage (V)
Maximum
voltage (V)
Power consumption
(VA, W)
Approx. 1.0 to 1.2
(at 60 Hz)
Note: 1.
The rated current and coil resistance are measured at a coil temperature of 23°C with tolerances of +15%/−20% for the AC rated current and ±15% for the
DC coil resistance.
2.
The AC coil resistance and inductance values are reference values only (at 60 Hz).
3.
Operating characteristics were measured at a coil temperature of 23°C.
4.
The maximum voltage capacity was measured at an ambient temperature of 23°C.
*1.
There is variation between products, but actual values are 80% max.
To ensure operation, apply at least 80% of the rated value (at a coil temperature of +23° C).
*2.
There is variation between products, but actual values are 30% minimum for AC and 10% minimum for DC. To ensure release, use a value that is lower than the
specified value.
Contact Ratings
Load
Item
Rated load
Rated carry current
Maximum contact voltage
Maximum contact current
Contact configuration
Contact structure
Contact materials
Resistive load
5 A at 220 VAC
5 A at 24 VDC
5A
250 VAC, 125 VDC
5A
DPDT
Single
Ag
Inductive load
(cos
φ
= 0.4, L/R = 7 ms)
2 A at 220 VAC
2 A at 24 VDC
Type
Item
Ambient
operating
temperature
*1
Ambient
operating
humidity
Standard
models
−55
to 70°C
Model with built-in operation
indicator, diode, or CR circuit
−55
to 60°C
*2
5% to 85%
*1.
With no icing or condensation.
*2.
This limitation is due to the diode junction temperature and elements used.
2
MY
Characteristics
Item
Contact resistance
*1
Operation time
Release time
*2
Maximum
operating
frequency
Mechanical
Rated load
*2
Type
Standard
models
50 mΩ max.
20 ms max.
20 ms max.
Models with built-
in operation
indicators
Models with
built-in CR
circuits
Models with
built-in
diodes
Model with built-in
operation indicator
and diode
Model with built-in
operation indicator
and CR circuit
18,000 operations/h
1,800 operations/h
100 MΩ min.
2,000 VAC at 50/60 Hz for 1 min.
Insulation resistance
*3
Between coil and contacts
Dielectric
strength
Between contacts of
different polarity
Between contacts of the
same polarity
Vibration
resistance
Shock
resistance
Destruction
Malfunction
Destruction
Malfunction
Mechanical
Endurance
Electrical
*4
1,000 VAC at 50/60 Hz for 1 min.
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)
Measurement conditions: 1 A at 5 VDC using the voltage drop method.
*2.
Measurement conditions: With rated operating power applied.
Ambient temperature condition: 23° C
*3.
Measurement conditions: For 500 VDC applied to the same location as for dielectric strength
measurement.
*4.
Ambient temperature condition: 23°C
*5.
This value was measured at a switching frequency of 120 operations per minute.
Dimensions
MY2, MY2N, MY2-D, MY2N-D2, MY2-CR,
and MY2N-CR
Terminal Arrangement/In-
ternal Connections
(Bottom View)
Standard Models
MY2N
DC Models
(Unit: mm)
AC Models
2.6
Eight, 1.2-dia. × 2.2 oval holes
0.5
28 max.
(The coil has no polarity.)
36 max.
6.4
21.5 max.
Check the coil polarity when wiring
and wire all connections correctly.
(The coil has no polarity.)
Note: 1.
An AC model has coil disconnection self-
diagnosis.
2.
For the DC models, check the coil polarity when
wiring and wire all connections correctly.
3.
The indicator is red for AC and green for DC.
4.
The operation indicator indicates the
energization of the coil and does not represent
contact operation.
MY2-D
MY2N-D2
MY2-CR
MY2N-CR
Check the coil polarity when wiring
and wire all connections correctly.
Check the coil polarity when wiring
and wire all connections correctly.
(The coil has no polarity.)
(The coil has no polarity.)
3
MY
Miniature Power Relays: MY2Z
Refer to the standards certifications and compliance
section of your OMRON website for the latest
information on certified models.
Ordering Information
Classification
When your order, specify the rated voltage.
Rated voltage (V)
Standard products
100/110 or 200/220 VAC
12 or 24 VDC
100/110 or 200/220 VAC
24 VDC
24 VDC
24 or 100/110 VDC
Made-to-order items
12, 24, 100/120, or 200/240 VAC
48 or 100/110 VDC
12, 24, 100/120, or 200/240 VAC
12, 48, or 100/110 VDC
12 or 100/110 VDC
12 VDC
100/110 or 200/220 VAC
100/110 VAC
200/220 VAC
Model
Standard models
MY2Z
Models with built-in operation indicators
Models with built-in diodes
Models with built-in diodes and operation
indicators
Models with built-in CR circuits
Models with built-in CR circuits and operation
indicators
MY2ZN
MY2Z-D
MY2ZN-D2
MY2Z-CR
MY2ZN-CR
Note: 1.
Ask your OMRON representative for details on the time required to deliver made-to-order products.
2.
Ask your OMRON representative for details on product specifications and the ability to manufacture products with voltages other than
the above coil specifications.
Ratings and Specifications
Ratings
Operating Coil (Standard Models)
Item
Rated
voltage (V)
12
24
AC
100/110
110/120
200/220
220/240
12
DC
24
48
100/110
Rated current (mA)
50 Hz
106.5
53.8
11.7/12.9
9.9/10.8
6.2/6.8
4.8/5.3
75
36.9
18.5
9.1/10
60 Hz
91
46
10/11
8.4/9.2
5.3/5.8
4.2/4.6
Coil resistance
(Ω)
46
180
3,750
4,430
12,950
18,790
160
650
2,600
11,000
Coil inductance (H)
Armature
OFF
0.17
0.69
14.54
19.2
54.75
83.5
0.73
3.2
10.6
45.6
Armature
ON
0.33
1.3
24.6
32.1
94.07
136.4
1.37
5.72
21.0
86.2
10% min.
*2
Approx. 0.9
80% max.
*1
30% min.
*2
110% of rated
voltage
Approx. 0.9 to 1.1
(at 60 Hz)
Must-
operate
voltage (V)
Must-
release
voltage (V)
Maximum
voltage (V)
Power consumption
(VA, W)
Approx. 1.0 to 1.2
(at 60 Hz)
Note: 1.
The rated current and coil resistance are measured at a coil temperature of 23°C with tolerances of +15%/−20% for the AC rated current and ±15% for the
DC coil resistance.
2.
The AC coil resistance and inductance values are reference values only (at 60 Hz).
3.
Operating characteristics were measured at a coil temperature of 23°C.
4.
The maximum voltage capacity was measured at an ambient temperature of 23°C.
*1.
There is variation between products, but actual values are 80% max.
To ensure operation, apply at least 80% of the rated value
*2.
There is variation between products, but actual values are 30% minimum for AC and 10% minimum for DC. To ensure release, use a value that is lower than the
specified value.
Contact Ratings
Load
Item
Rated load
Rated carry current
Maximum contact voltage
Maximum contact current
Contact configuration
Contact structure
Contact materials
Resistive load
5 A at 220 VAC
5 A at 24 VDC
5A
250 VAC, 125 VDC
5A
DPDT
Bifurcated
Au plating + Ag
Inductive load
(cos
φ
= 0.4, L/R = 7 ms)
2 A at 220 VAC
2 A at 24 VDC
Type
Item
Ambient
operating
temperature
*1
Ambient
operating
humidity
Standard
models
−55
to 70° C
Model with built-in operation
indicator, diode, or CR circuit
−55
to 60° C
*2
5% to 85%
*1.
With no icing or condensation.
*2.
This limitation is due to the diode junction temperature and elements used.
4
MY
Characteristics
Item
Contact resistance
*1
Operation time
Release time
*2
Maximum
operating
frequency
Mechanical
Rated load
*2
Type
Standard
models
50 mΩ max.
20 ms max.
20 ms max.
Models with built-
in operation
indicators
Models with
built-in
diodes
Model with built-in
operation indicator
and diode
Models with
built-in CR
circuits
Models with built-in
CR circuits and
operation indicators
18,000 operations/h
1,800 operations/h
100 MΩ min.
2,000 VAC at 50/60 Hz for 1 min.
Insulation resistance
*3
Between coil and contacts
Dielectric
strength
Between contacts of
different polarity
Between contacts of the
same polarity
Vibration
resistance
Shock
resistance
Endurance
Destruction
Malfunction
Destruction
Malfunction
Mechanical
Electrical
*4
2 poles
1,000 VAC at 50/60 Hz for 1 min.
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)
1,000 m/s
2
200 m/s
2
50,000,000 operations min. (operating frequency: 18,000 operations/h)
200,000 operations min. (rated load, switching frequency: 1,800 operations/h)
Item
Number of poles
Failure rate P value
(reference value)
*5
Weight
Note:
These are initial values.
*1.
Measurement conditions: 1 A at 5 VDC using the voltage drop method.
100 µA at 1 VDC
*2.
Measurement conditions: With rated operating power applied.
Ambient temperature condition: 23° C
*3.
Measurement conditions: For 500 VDC applied to the same location as for dielectric strength measurement.
Approx. 35 g
*4.
Ambient temperature condition: 23°C
*5.
This value was measured at a switching frequency of 120 operations per minute.
I want to add an arp command to the embedded 2.4 kernel. I downloaded net-tools-1.60 and had problems compiling it. Is there any simple code for compiling?...
0 1 xz 0 0 0 0 0 1 1 1 1 1 xx 1 xx zx 1 xx Should they all be symmetric matrices? Or their two input terminals must be fair. I see that the truth tables of other gates are all symmetric....
[i=s]This post was last edited by paulhyde on 2014-9-15 03:01[/i] How many points are needed to be eligible for a national award! How can I find out how many points I have in total to be eligible for ...
[size=4] By setting three baud rate related registers, namely the baud rate integer UxBR1, UxBR0, and the baud rate trim register UxMCTL, the baud rate control parameters are calculated using the foll...
Is pure electric vehicles a false proposition for long-distance driving? At least from my personal perspective, based on current technological and infrastructure standards, I believe so. Below, I'l...[Details]
Topics: Bring Your Own Device (BYOD) trends; the impact of using employees' own mobile devices to control access to work facilities and equipment on information security; and ways to securely imple...[Details]
For autonomous vehicles to safely navigate the road, they must identify far more complex objects than just traffic lights, pedestrians, and other familiar objects. Among these obstacles is a crucia...[Details]
Have you ever heard stories about "crazy appliances"? Think of microwaves that turn on automatically or ovens that preheat without any human input? With radios and electromagnetic interfaces ubiqui...[Details]
With the increasing number of new energy vehicles on the road, the deployment of supporting facilities for these vehicles has accelerated, and new energy vehicles have gradually entered the vision ...[Details]
A patent disclosed by Ford proposes replacing traditional segmented side curtain airbags with integrated full-width side curtain airbags that span the side of the vehicle and can be deployed simult...[Details]
With the growth of the Internet of Things (IoT), wearable, and portable devices, consumers are growing weary of cluttered cables and the need for frequent battery recharges. The benefits of wireles...[Details]
Silicon Labs (also known as "Silicon Labs"), an innovative leader in low-power wireless connectivity, will showcase its cutting-edge artificial intelligence (AI) and Internet of Things (IoT) solu...[Details]
As automotive technology develops at an ever-increasing pace, the performance requirements for automotive internal structures, components, and accessories are becoming increasingly demanding. The d...[Details]
As my country's industrialization continues to improve, environmental pollution is also facing tremendous pressure. In recent years, national environmental protection policies have become increasin...[Details]
Thoughts triggered by the Wuhan Radish Run incident
It's so hot, even Ferraris spontaneously combust. A recent incident on a Wuhan overpass: a red Ferrari...[Details]
In the first half of 2025, Chinese companies demonstrated overwhelming advantages in the world's four major material fields: in the global loading of positive electrode materials, Chinese companies...[Details]
According to foreign media reports, due to the massive expansion of Chinese companies in the global electric vehicle market, the capacity utilization rate of South Korea's three major battery manuf...[Details]
The question of the benefits and drawbacks of DC and AC charging for electric vehicles is a common concern among electric vehicle users. Currently, there are two types of charging stations and meth...[Details]
The World Conference (WC 2025) recently opened in Shanghai. This year's event, covering over 70,000 square meters for the first time, attracted over 800 exhibitors, showcasing large models, AI term...[Details]
ARM Technology
京公网安备 11010802033920号
EEWORLD
