Datasheet G3MC-202PL-DC12, G3MC series Specification

Solid-state Relay G3MC

Compact, Thin-profile, Low-cost SSR
Switching 1 A (PCB-mounting)

Small bottom surface area (approx. 80% of the
conventional G3MB’s) and ideal for close PCB
mounting.

DC

input and AC output for an applicable load of 1 A

at 40°C.
Compact,

tion with an all-in-one frame incorporates a PCB,
terminals, and heat sink.

Approved by UL and CSA.
Conforms to VDE.

Note: Refer

Ordering Information

thin-profile SSR

to

Precautions

on page

of monoblock construc

229.

-

RCW

Isolation Zero-cross

Phototriac Yes No Yes

Note: When

available.

function

No 5 VDC G3MC-101PL(-VD)

Yes

No 5 VDC G3MC-201PL(-VD)

Yes

No 5 VDC G3MC-202PL(-VD)

ordering models conforming to VDE(basic insulation), add “-VD” to the model number

For details, contact your OMRON representative.

Indicator Snubber

circuit

Applicable output

load

1 A at 100 to 120 V

1 A at 100 to 240 V

2 A at 100 to 240 V

Rated input

voltage

AC 5 VDC G3MC-101P(-VD)

12 VDC
24 VDC

12 VDC
24 VDC

AC 5 VDC G3MC-201P(-VD)

12 VDC
24 VDC

12 VDC
24 VDC

AC 5 VDC G3MC-202P(-VD)

12 VDC
24 VDC

12 VDC
24 VDC

. Reinforced insulation models are also

Model

225

G3MC

Specifications

Ratings (Ambient Temperature 25°C)

Input

Rated

voltage

5 VDC
12 VDC
24 VDC

Note:

Each model has 5-VDC, 12-VDC, and 24-VDC input versions.

Output

Model

G3MC-101P
G3MC-101PL

G3MC-201P
G3MC-201PL

G3MC-202P(-VD)
G3MC-202PL(-VD)

Operating voltage

4 to 6 VDC

9.6 to 14.4 VDC

19.2 to 28.8 VDC

Rated load voltage Load voltage

100 to 120 V
50/60 Hz

100 to 240 V
50/60 Hz

100 to 240 V
50/60 Hz

AC

AC

AC

Impedance V

Must operate voltage

300 Ω

±20% 4 VDC max.

800 Ω

1.6 kΩ

±20%

±20%

75 to 132 V
50/60 Hz

75 to 264 V
50/60 Hz

75 to 264 V
50/60 Hz

AC

AC

AC

9.6 VDC max.

19.2 VDC max.

Applicable load

0.1 to 1 A

0.1 to 2 A

Load current

G3MC

oltage levels

Must dropout voltage

1 VDC min.

Inrush current

8 A (60 Hz, 1 cycle)

30 A (60 Hz, 1 cycle)

Characteristics

Item G3MC-101P

Operate

Release time
Output ON voltage drop
Leakage current
Insulation resistance
Dielectric strength
V
Shock resistance
Ambient temperature

Approved standards

Ambient humidity
Weight

time

ibration resistance

(-VD)

1/2 of load
power source
cycle + 1 ms

1/2 of load power source cycle + 1 ms)

1.6 V (RMS) max.
1 mA max. (at 100 V
1,000 MΩ min. (at 500 VDC)
2,500 V

AC, 50/60 Hz for 1 min
Malfunction: 10 to 55 Hz, 0.75-mm double amplitude
Malfunction: 1,000 m/s
Operating: –30°

Storage: –30°
UL508 File No. E64562, CSA C22.2 (No. 14, No. 950) File No.

LR35535, EN60950 File No. 5925UG (“-VD” type)
Operating: 45% to 85%
Approx. 2.5 g

G3MC-101PL

(-VD)

1 ms max.

AC)

2

C to 80°C (with no icing or condensation)
C to 100°C (with no icing or condensation)

G3MC-201P

(-VD)

1/2 of load
power source
cycle + 1 ms

1.5 mA max. (at 200 V

G3MC-201PL

1 ms max.

(-VD)

AC)

G3MC-202P

(-VD)

1/2 of load
power source
cycle + 1 ms

---

---

---

Approx. 5 g

G3MC-202PL

(-VD)

1 ms max.

226

G3MC

Engineering Data

Load Current vs. Ambient
Temperature Characteristics

Load current (A)

Ambient

temperature (

G3MC

°C)

Inrush Current Resistivity

Non-repetitive
the

read value if it occurs repeatedly

G3MC-202P(L) G3MC-101P(L),

Inrush peak current (A)

(Keep

the inrush current to half

Energizing

time (ms)

.)

Inrush Current Resistivity

Non-repetitive
half the read value if

Inrush peak current (A)

(Keep the

inrush current to

it occurs repeatedly

G3MC-201P(L)

Energizing time (ms)

.)

227

G3MC

Dimensions

Note:

All units are in millimeters unless otherwise indicated.

G3MC-101P(L)(-VD),
G3MC-201P(L)(-VD)

13.5

max.

24.5 max.

4.5 max.

PCB

Dimensions

(Bottom View)

Four, 1.0-dia. holes

G3MC

G3MC-202P(L)(-VD)

20.5 max.

0.8

3.5

4-1.6

2.54

24.5 max.

2.54

10.16

7.62

4-0.7

4.5 max.

1.2

1.95 max.

1.5 max.

0.25

1.3
5 dia.

Terminal

Arrangement

(Bottom View)

PCB Dimensions
(Bottom View)

Four, 1.0-dia. holes

10

T

erminal Arrangement

(Bottom View)

228

G3MC

Precautions

General Precautions

Be

sure to turn of

wise

an electric shock may be received.

Do

not touch the

to

the SSR. The terminals are charged with the power, and an elec

tric

shock may be received by touching the terminals.

The

built-in capacitor may have a residual voltage after the SSR is

turned

of
the terminals of the SSR, otherwise an electric shock may be re­ceived.

f. Be sure to discharge the residual voltage before touching

Mounting

1. Make

or flows to the input or output circuit of the SSR, otherwise the
SSR

2. Solder

soldering conditions. The SSR may be abnormally heated
and burn if power is supplied to the terminals soldered
incorrectly.

3. Do not short-circuit the load of the SSR while power is

supplied to the SSR. Do not short-circuit the power supply
through
burn

Correct Use

The

terminals of the SSR

must

be soldered within 10 s at 260°C or within 5 s at 350

The SSR is of a thin-profile construction. T
resistance
and PCB is 0.1 mm maximum. Lifting of the PCB can be prevented
by setting the hole diameter of the PCBs on both sides slightly
smaller

than the actual terminal dimension.

Select the model without the zero-cross function when using the
Unit

for phase control output.

The

casing works as a heat sink. When mounting two or more Units
closely, make sure that the Units are properly ventilated by taking
ambient temperature rises into consideration. If Units are closely
mounted
each

and used in places with no ventilation, the

Unit must be 1/2 of the rated load current.

f power to

terminals of the SSR while power is being supplied

sure that no excessive voltage or current is imposed on

may malfunction or burn.

the terminals of the SSR properly under the required

the SSR. The SSR may be damaged, malfunction, or

if the load or power supply is short-circuited.

of the SSR, make sure that the space between the SSR

the SSR before wiring the SSR, other

are highly heat-conductive. Each terminal

°C.

o maintain the vibration

load current of

-

-

G3MC

Fusing characteristics

The

G3MC has a
overcurrent
the G3MC, however, are not the same as those of a general-use
glass fuse. Machines that use the G3MC must be provided with a
safety

device, such as a fuse

circuit

tests must be implemented to

detailed influences. Users must determine test conditions and im-

tests on reliability as required by the machine.

plement

1.

Life test under continuous electric current

2. On-off cycle test

3.

Influence by ambient temperature

4.

Influence by power source frequency

5.

Influence by power source voltage fluctuation

Note: Contact your local OMRON sales office for more detailed

information.

Protective Element

No overvoltage absorption element is built in. Therefore, if the
G3MC is connected to an inductive load, be sure to connect the
overvoltage

G3MC-jjj

Input

G3MC-jjj

Input

function that forces an open mode failure when an

exceeds the rated value. The fusing characteristics of

or breaker

absorption element.

PL (without Zero cross function)

Phototriac

P (with Zero cross function)

Phototriac

, and ON-OFF tests or short-

confirm the following items and

Load

Protective
element
(MOV)

Load

Protective
element
(MOV)

Power
supply

Power
supply

ALL DIMENSIONS SHOWN ARE IN MILLIMETERS.

To

convert millimeters into inches, multiply by 0.03937. T

Cat. No. J108-E1-1B

o convert grams into ounces, multiply by 0.03527.

229