G3PE-535B-3N DC12-24

## **Solid State Relays for Heaters G3PE-Single-phase** 

**Compact, Slim-profile SSRs with Heat Sinks. Models with No Zero Cross for a Wide Range of Applications.** 

- RoHS compliant. 

- Models also available with no zero cross 

- Surge pass protection improved surge dielectric strength for output currents. (OMRON testing) 

- Compact with a slim profile. 

- Mount to DIN Track or with screws. 

- Conforms to UL, CSA, and EN standards (TÜV certification). 

**Refer to** _**Safety Precautions**_ **on page 18.** 

For the most recent information on models that have been certified for safety standards, refer to your OMRON website. 

## **Ordering Information** 

## **List of Models** 

|**Number of**<br>**phases**|**Insulation**<br>**method**<br>~~ee~~|**Operation**<br>**indicator**|**Rated input**<br>**voltage**|**Zero cross**<br>**function**<br>~~|~~|**Applicable load***<br>~~|~~|**Model**|
|---|---|---|---|---|---|---|
|Single-phase|Phototriac<br>coupler<br>~~ee~~|Yes (yellow)|12 to 24 VDC<br>~~—~~<br>~~=~~|Yes<br>~~|~~<br>~~—Po~~<br>~~Pp~~|15 A, 100 to 240 VAC<br>~~|~~<br>~~Po~~|**G3PE-215B DC12-24**|
||||||25 A, 100 to 240 VAC<br>~~|~~<br>~~Po~~|**G3PE-225B DC12-24**|
||||||35 A, 100 to 240 VAC<br>~~Po~~<br>~~Pp~~|**G3PE-235B DC12-24**|
||||||45 A, 100 to 240 VAC<br>~~Po~~<br>~~Pp~~|**G3PE-245B DC12-24**|
|||||No<br>~~Pp=~~<br>~~||~~|15 A, 100 to 240 VAC<br>~~Pp=~~|**G3PE-215BL DC12-24**|
||||||25 A, 100 to 240 VAC<br>~~=~~<br>~~|~~|**G3PE-225BL DC12-24**|
||||||35 A, 100 to 240 VAC<br>~~=~~<br>~~||~~|**G3PE-235BL DC12-24**|
||||||45 A, 100 to 240 VAC<br>~~=~~<br>~~||~~|**G3PE-245BL DC12-24**|
|||||Yes<br>~~=~~<br>~~|Po~~<br>~~Po~~<br>~~Po~~<br>~~|~~|15 A, 200 to 480 VAC<br>~~=~~<br>~~|~~|**G3PE-515B DC12-24**|
||||||25 A, 200 to 480 VAC<br>~~Po~~|**G3PE-525B DC12-24**|
||||||35 A, 200 to 480 VAC<br>~~Po~~|**G3PE-535B DC12-24**|
||||||45 A, 200 to 480 VAC<br>~~Po~~<br>~~|~~|**G3PE-545B DC12-24**|
|||||No<br>~~|Po~~<br>~~|~~|15 A, 200 to 480 VAC<br>~~|~~|**G3PE-515BL DC12-24**|
||||||25 A, 200 to 480 VAC<br>~~|~~|**G3PE-525BL DC12-24**|
||||||35 A, 200 to 480 VAC<br>~~Po~~<br>~~|~~|**G3PE-535BL DC12-24**|
||||||45 A, 200 to 480 VAC<br>~~|~~|**G3PE-545BL DC12-24**|



* The applicable load current depends on the ambient temperature. For details, refer to _Load Current vs. Ambient Temperature_ in _Engineering Data_ on page 3. 

**1** 

## **G3PE-Single-phase Specifications** 

## **Certification** 

UL508, CSA22.2 No.14, and EN60947-4-3 

## **Ratings** 

## **Input (at an Ambient Temperature of 25** ° **C)** 

|**Item**<br>**Model**|**Rated voltage**|**Operating voltage**<br>**range**|**Rated input current**|**Voltage level**|**Voltage level**|
|---|---|---|---|---|---|
|||||**Must operate voltage**|**Must release voltage**|
|G3PE-@@@B|12 to 24 VDC|9.6 to 30 VDC|7 mA max.|9.6 VDC max.|1.0 VDC max.|
|G3PE-@@@BL|||15 mA max.|||



## **Output** 

|**Model**|**G3PE-215B(L)**|**G3PE-225B(L)**|**G3PE-235B(L)**|**G3PE-245B(L)**|**G3PE-515B(L)**|**G3PE-525B(L)**|**G3PE-535B(L)**|**G3PE-545B(L)**|
|---|---|---|---|---|---|---|---|---|
|**Item**|||||||||
|**Rated load voltage**|100 to 240 VAC (50/60 Hz)||||200 to 480 VAC (50/60 Hz)||||
|**Load voltage range**|75 to 264 VAC (50/60 Hz)||||180 to 528 VAC (50/60 Hz)||||
|**Applicable load current**<br>*|0.1 to 15 A<br>(at 40°C)|0.1 to 25 A<br>(at 40°C)|0.5 to 35 A<br>(at 25°C)|0.5 to 45 A<br>(at 25°C)|0.1 to 15 A<br>(at 40°C)|0.1 to 25 A<br>(at 40°C)|0.5 to 35 A<br>(at 25°C)|0.5 to 45 A<br>(at 25°C)|
|**Inrush current**<br>**resistance**|150 A<br>(60 Hz,<br>1 cycle)|220 A<br>(60 Hz,<br>1 cycle)|440 A<br>(60 Hz, 1 cycle)||150 A<br>(60 Hz,<br>1 cycle)|220 A<br>(60 Hz,<br>1 cycle)|440 A<br>(60 Hz, 1 cycle)||
|**Permissible I2t **<br>**(reference value)**|121A2s|260A2s|1,260A2s||128A2s|1,350A2s||6,600A2s|
|**Applicable load**<br>**(resistive load)**|3 kW<br>(at 200 VAC)|5 kW<br>(at 200 VAC)|7 kW<br>(at 200 VAC)|9 kW<br>(at 200 VAC)|6 kW<br>(at 400 VAC)|10 kW<br>(at 400 VAC)|14 kW<br>(at 400 VAC)|18 kW<br>(at 400 VAC)|



* The applicable load current depends on the ambient temperature. For details, refer to _Load Current vs. Ambient Temperature_ in _Engineering Data_ on page 3. 

## **Characteristics** 

|**Model**|**G3PE**<br>**-215B**|**G3PE**<br>**-225B**|**G3PE**<br>**-235B**|**G3PE**<br>**-245B**|**G3PE**<br>**-215BL**|**G3PE**<br>**-225BL**|**G3PE**<br>**-235BL**|**G3PE**<br>**-245BL**|
|---|---|---|---|---|---|---|---|---|
|**Item**|||||||||
|**Operate time**|1/2 of load power source cycle + 1 ms max.||||1 ms max.||||
|**Release time**|1/2 of load power source cycle + 1 ms max.||||||||
|**Output ON voltage drop**|1.6 V (RMS) max.||||||||
|**Leakage current**|10 mA max. (at 200 VAC)||||||||
|**Insulation resistance**|100 MΩmin. (at 500 VDC)||||||||
|**Dielectric strength**|2,500 VAC, 50/60 Hz for 1 min||||||||
|**Vibration resistance**|10 to 55 to10 Hz, 0.375-mm single amplitude (0.75-mm double amplitude) (Mounted to DIN track)||||||||
|**Shock resistance**|Destruction: 294 m/s2(Mounted to DIN track)||||||||
|**Ambient storage**<br>**temperature**|−30 to 100°C (with no icing or condensation)||||||||
|**Ambient operating**<br>**temperature**|−30 to 80°C (with no icing or condensation)||||||||
|**Ambient operating**<br>**humidity**|45% to 85%||||||||
|**Weight**|Approx. 240 g||Approx. 400 g||Approx. 240 g||Approx. 400 g||
||||||||||
|**Model**|**G3PE**<br>**-515B**|**G3PE**<br>**-525B**|**G3PE**<br>**-535B**|**G3PE**<br>**-545B**|**G3PE**<br>**-515BL**|**G3PE**<br>**-525BL**|**G3PE**<br>**-535BL**|**G3PE**<br>**-545BL**|
|**Item**|||||||||
|**Operate time**|1/2 of load power source cycle + 1 ms max.||||1 ms max.||||
|**Release time**|1/2 of load power source cycle + 1 ms max.||||||||
|**Output ON voltage drop**|1.8 V (RMS) max.||||||||
|**Leakage current**|20 mA max. (at 480 VAC)||||||||
|**Insulation resistance**|100 MΩmin. (at 500 VDC)||||||||
|**Dielectric strength**|2,500 VAC, 50/60 Hz for 1 min||||||||
|**Vibration resistance**|10 to 55 to10 Hz, 0.375-mm single amplitude (0.75-mm double amplitude) (Mounted to DIN track)||||||||
|**Shock resistance**|Destruction: 294 m/s2(Mounted to DIN track)||||||||
|**Ambient storage**<br>**temperature**|−30 to 100°C (with no icing or condensation)||||||||
|**Ambient operating**<br>**temperature**|−30 to 80°C (with no icing or condensation)||||||||
|**Ambient operating**<br>**humidity**|45% to 85%||||||||
|**Weight**|Approx. 240 g||Approx. 400 g||Approx. 240 g||Approx. 400 g||



**2** 

**G3PE-Single-phase** 

## **Engineering Data** 

## **Input Voltage vs. Input Impedance and Input Voltage vs. Input Current G3PE-2** @@ **B G3PE-2** @@ **BL** 

## **G3PE-5** @@ **B** 

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10 Ta = 25°C 15 Ta = 25°C 10 Ta = 25°C<br>14<br>9 9<br>13<br>8 12 8<br>7 11 Input current  7<br>10<br>6 9 6<br>8<br>5 Input current  7 5 Input current<br>4 6 4<br>5<br>3 3<br>4 Input impedance<br>2 3 2<br>1 Input impedance  2 1 Input impedance<br>1<br>0 0 0<br>0  5 10  15  20  25  30  35 0  5 10  15  20  25  30  35 0  5 10  15  20  25  30  35<br>Input voltage (V) Input voltage (V) Input voltage (V)<br>G3PE-5 @@ BL<br>15 Ta = 25°C<br>14<br>13<br>12<br>11 Input current<br>10<br>9<br>8<br>7<br>6<br>5<br>4 Input impedance<br>3<br>2<br>1<br>0<br>0  5 10  15  20  25  30  35<br>Input voltage (V)<br>Load Current vs. Ambient Temperature<br>G3PE-215B(L), G3PE-225B(L) G3PE-235B(L), G3PE-245B(L)<br>G3PE-515B(L), G3PE-525B(L) G3PE-535B(L), G3PE-545B(L)<br>30 50 G3PE-245B(L)<br>45 G3PE-545B(L)<br>25<br>G3PE-225B(L) 40<br>G3PE-525B(L) 35 G3PE-235B(L)<br>20<br>30<br>15<br>G3PE-215B(L)G3PE-515B(L) 1820 G3PE-535B(L)<br>10 17<br>14<br>7<br>10<br>0 0<br>−30  −20 0  20  40  60  80  100 −30  −20 0  20  25 40  60  80  100<br>Ambient temperature (°C) Ambient temperature (°C)<br>)Ω Input current (mA) )Ω Input current (mA) )Ω Input current (mA)<br>Input impedance (k Input impedance (k Input impedance (k<br>)Ω Input current (mA)<br>Input impedance (k<br>Load current (A) Load current (A)<br>**----- End of picture text -----**<br>


## **G3PE-5** @@ **BL** 

## **Inrush Current Resistance: Non-repetitive** 

Keep the inrush current to below the inrush current resistance value (i.e., below the broken line) if it occurs repetitively. **G3PE-215B(L), G3PE-515B(L) G3PE-225B(L), G3PE-525B(L)** 

## **G3PE-235B(L), G3PE-245B(L) G3PE-535B(L), G3PE-545B(L)** 

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250 250 500<br>200 200 400<br>150 150 300<br>100 100 200<br>50 50 100<br>0 0 0<br>10  30 50  100  300 500 1,000 3,000  5,000 10  30 50  100  300 500 1,000 3,000  5,000 10  30 50  100  300 500 1,000 3,000  5,000<br>Energized time (ms) Energized time (ms) Energized time (ms)<br>Inrush current (A. Peak) Inrush current (A. Peak) Inrush current (A. Peak)<br>**----- End of picture text -----**<br>


**3** 

**G3PE-Single-phase** 

## **Close Mounting (3 or 8 SSRs)** 

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G3PE-215B(L) G3PE-225B(L) G3PE-235B(L) G3PE-245B(L)<br>20 30 40 50<br>1513 3 Relays 2520 3 Relays 302826 3 Relays 4031 3 Relays<br>12 19 30<br>10 15 8 Relays 20 8 Relays 29<br>8 Relays 8 Relays<br>20<br>10<br>5.7 8 11<br>5 7 10 11<br>5 10<br>0 0 0 0<br>−40  −20 0  20  40  60  80 100 −40  −20 0  20  40  60  80 100 −40  −20 0  20  25 40  60  80 100 −40  −20 0  20  25 40  60  80 100<br>Ambient temperature (°C) Ambient temperature (°C) Ambient temperature (°C) Ambient temperature (°C)<br>G3PE-515B(L) G3PE-525B(L) G3PE-535B(L) G3PE-545B(L)<br>20 30 40 50<br>3 Relays 25 3 Relays 40<br>15 30 3 Relays<br>13 20 3 Relays 2826 31<br>12 17 30<br>10 1516 20 8 Relays 29<br>8 Relays 8 Relays 20 8 Relays<br>10<br>5.7 7 11<br>5 6 10 11<br>5 10<br>0 0 0 0<br>−40  −20 0  20  40  60  80 100 −40  −20 0  20  40  60  80 100 −40  −20 0  20  25 40  60  80 100 −40  −20 0  20  25 40  60  80 100<br>Ambient temperature (°C) Ambient temperature (°C) Ambient temperature (°C) Ambient temperature (°C)<br>Close Mounting Example<br>DIN Track<br>Load current (A) Load current (A) Load current (A) Load current (A)<br>Load current (A) Load current (A) Load current (A) Load current (A)<br>**----- End of picture text -----**<br>


**4** 

**G3PE-Single-phase** 

## **Dimensions** 

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

## **Solid State Relays** 

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G3PE-215B(L)G3PE-225B(L) Two, M4 10 13 [0.2] 4.6 dia.Two,<br>G3PE-515B(L) ae |<br>G3PE-525B(L)<br>7<br>ole + al \<br>100 max.<br>68 24 90 [0.2]<br>84<br>I [| (J 10<br>Two,<br>M3.5<br>4.2 4.6  5.6 4.5<br>elliptical hole<br>6.3 22.5 max.<br>Note:  Without terminal cover. Note:  With terminal cover.<br>Mounting Holes13 [0.3] Terminal Arrangement/Internal Circuit Diagram<br>G3PE-5@@B G3PE-2@@B<br>1 (+) 1 (+)<br>A1 A1<br>PG (100) rest Rs<br>90 [0.3] (85) (90)<br>I Fe ed |] peed]<br>A2 A2<br>2 2<br>Three, 4.5 dia.<br>or M4<br>G3PE-235B(L) 13 25 [0.2] 4.6 dia.<br>G3PE-245B(L) Two, M5<br>G3PE-535B(L)<br>G3PE-545B(L) 7<br>100 max.<br>68 24<br>90 [0.2]<br>84<br>Se je | | 3p | Ls 7 f<br>Two,<br>M3.5<br>13.5 4.6  5.6<br>6 elliptical hole 44.5 max.<br>Note:  Without terminal cover. Note:  With terminal cover.<br>Mounting Holes<br>Terminal Arrangement/Internal Circuit Diagram<br>25 [0.3]<br>G3PE-5@@B G3PE-2@@B<br>save aa 1 (+) _ —_ 1 . (+)<br>A1 A1<br>(100) Be FS Tog<br>90 [0.3] (85) (90)<br>A2 A2<br>Three, 4.5 dia.  2 2<br>or M4<br>ZN | Be l<br>Output side tiuric rgirTceg tiucric tunIp Input side Output side tiuric rgirTceg tiucric tunIp Input side<br>Output side tiuric rgirTceg tiucric tunIp Input side Output side tiuric rgirTceg tiucric tunIp Input side<br>) ( ) (<br>) ( ) (<br>**----- End of picture text -----**<br>


**5** 

## **Solid State Contactors for Heaters G3PE-Three-phase** 

## **Compact, Slim-profile SSRs with Heat Sinks. Solid State Contactors for Three-phase Heaters Reduced Installation Work with DIN Track Mounting.** 

- RoHS compliant. 

- Surge pass protection improved surge dielectric strength for output currents. (OMRON testing) 

- Slim design with 3-phase output and built-in heat sinks. 

- DIN Track mounting types and screw mounting types are available. All DIN Track mounting types mount to DIN Track (applicable DIN Track: TR35-15Fe (IEC 60715)). 

**==> picture [214 x 15] intentionally omitted <==**

**----- Start of picture text -----**<br>
For the most recent information on models that have been certified for<br>safety standards, refer to your OMRON website.<br>**----- End of picture text -----**<br>


- Conforms to UL, CSA, and EN standards (TÜV certification). 

**Refer to** _**Safety Precautions**_ **on page 18.** 

## **Ordering Information** 

## **List of Models** 

## **Models with Built-in Heat Sinks** 

|**Number of**<br>**phases**|**Insulation**<br>**method**|**Operation**<br>**indicator**|**Rated input**<br>**voltage**|**Zero cross**<br>**function**|**Type**|**Applicable load***1|**Number of**<br>**poles**|**Model**|
|---|---|---|---|---|---|---|---|---|
|Three-phase|Phototriac<br>coupler|Yes (yellow)|12 to 24 VDC|Yes|DIN track<br>mounting*2<br>~~oo~~|15 A, 100 to 240 VAC<br>~~Es~~<br>~~oo~~|3<br>~~s~~|**G3PE-215B-3N DC12-24**|
||||||||2<br>~~s~~<br>~~||~~<br>|**G3PE-215B-2N DC12-24**<br>|
|||||||25 A, 100 to 240 VAC<br>~~Es~~<br>~~oo ~~|3<br>~~s~~<br>~~||~~<br>~~E~~|**G3PE-225B-3N DC12-24**<br>~~E~~|
||||||||2<br>~~||~~<br> ~~E~~<br>~~|~~|**G3PE-225B-2N DC12-24**<br>~~E~~<br>~~|~~|
|||||||35 A, 100 to 240 VAC<br>~~oo ~~<br>~~4~~|3<br>~~||~~<br> <br>~~4~~|**G3PE-235B-3N DC12-24**<br>|
||||||||2<br>~~4~~<br>~~|~~|**G3PE-235B-2N DC12-24**<br>~~|~~|
|||||||45 A, 100 to 240 VAC<br>~~4~~|3<br>~~4~~|**G3PE-245B-3N DC12-24**|
||||||||2<br>~~4~~<br>~~|~~|**G3PE-245B-2N DC12-24**|
|||||||15 A, 200 to 480 VAC<br>~~Es~~|3<br>~~Es~~|**G3PE-515B-3N DC12-24**|
||||||||2<br>~~Es~~<br>~~|~~|**G3PE-515B-2N DC12-24**|
|||||||25 A, 200 to 480 VAC<br>~~pf~~|3<br>~~pf~~|**G3PE-525B-3N DC12-24**|
||||||||2<br>~~pf~~<br>~~|~~|**G3PE-525B-2N DC12-24**|
|||||||35 A, 200 to 480 VAC<br>~~pf~~|3<br>~~f~~|**G3PE-535B-3N DC12-24**|
||||||||2<br>~~f~~<br>~~||~~|**G3PE-535B-2N DC12-24**|
|||||||45 A, 200 to 480 VAC<br>~~pf~~<br>~~4~~|3<br>~~f~~<br>~~||~~<br>~~4~~|**G3PE-545B-3N DC12-24**|
||||||||2<br>~~4~~<br>~~|~~|**G3PE-545B-2N DC12-24**<br>~~|~~|
||||||Screw<br>mounting<br>~~oo~~|15 A, 100 to 240 VAC<br>~~4~~|3<br>~~4~~|**G3PE-215B-3 DC12-24**|
||||||||2<br>~~4~~<br>~~|~~|**G3PE-215B-2 DC12-24***3<br>~~|~~|
|||||||25 A, 100 to 240 VAC<br>~~4~~|3<br>~~4~~|**G3PE-225B-3 DC12-24**|
||||||||2<br>~~4~~<br>~~|~~|**G3PE-225B-2 DC12-24**|
|||||||35 A, 100 to 240 VAC<br>~~Es~~|3<br>~~Es~~|**G3PE-235B-3 DC12-24**|
||||||||2<br>~~Es~~<br>~~|~~|**G3PE-235B-2 DC12-24**|
|||||||45 A, 100 to 240 VAC<br>~~pf~~|3<br>~~pf~~|**G3PE-245B-3 DC12-24**|
||||||||2<br>~~pf~~<br>~~|~~|**G3PE-245B-2 DC12-24**|
|||||||15 A, 200 to 480 VAC<br>~~pf~~<br>~~oo~~|3<br>~~pf~~|**G3PE-515B-3 DC12-24**|
||||||||2<br>~~pf~~<br>~~||~~<br>|**G3PE-515B-2 DC12-24***3<br>|
|||||||25 A, 200 to 480 VAC<br>~~oo ~~|3<br>~~||~~<br> ~~E~~|**G3PE-525B-3 DC12-24**<br>~~E~~|
||||||||2<br>~~||~~<br> <br>~~|~~|**G3PE-525B-2 DC12-24**<br><br>~~|~~|
|||||||35 A, 200 to 480 VAC<br>~~oo ~~<br>~~4~~|3<br>~~||~~<br> <br>~~4~~|**G3PE-535B-3 DC12-24**<br>|
||||||||2<br>~~4~~<br>~~|~~|**G3PE-535B-2 DC12-24**|
|||||||45 A, 200 to 480 VAC<br>~~PE~~|3<br>~~PE~~|**G3PE-545B-3 DC12-24**|
||||||||2<br>~~PE~~<br>~~|~~|**G3PE-545B-2 DC12-24**|



- *1. The applicable load current depends on the ambient temperature. For details, refer to _Load Current vs. Ambient Temperature_ in _Engineering Data_ on page 10. 

- *2. The applicable DIN Track is the TR35-15Fe (IEC 60715). For details, refer to the mounting information in the _Safety Precautions for All G3PE Models_ . 

- *3. DIN Track or Screw mounting. 

**6** 

**G3PE-Three-phase** 

## **Models with Externally Attached Heat Sinks** 

|**Number of**<br>**phases**|**Insulation**<br>**method**|**Operation**<br>**indicator**|**Rated input**<br>**voltage**|**Zero cross**<br>**function**|**Type**|**Applicable load***|**Number**<br>**of poles**|**Model**|
|---|---|---|---|---|---|---|---|---|
|Three-phase|Phototriac<br>coupler|Yes (yellow)|12 to 24 VDC|Yes|Externally<br>attached heat<br>sinks|15 A, 100 to 240 VAC|3|**G3PE-215B-3H DC12-24**|
||||||||2|**G3PE-215B-2H DC12-24**|
|||||||25 A, 100 to 240 VAC|3|**G3PE-225B-3H DC12-24**|
||||||||2|**G3PE-225B-2H DC12-24**|
|||||||35 A, 100 to 240 VAC|3|**G3PE-235B-3H DC12-24**|
||||||||2|**G3PE-235B-2H DC12-24**|
|||||||45 A, 100 to 240 VAC|3|**G3PE-245B-3H DC12-24**|
||||||||2|**G3PE-245B-2H DC12-24**|
|||||||15 A, 200 to 480 VAC|3|**G3PE-515B-3H DC12-24**|
||||||||2|**G3PE-515B-2H DC12-24**|
|||||||25 A, 200 to 480 VAC|3|**G3PE-525B-3H DC12-24**|
||||||||2|**G3PE-525B-2H DC12-24**|
|||||||35 A, 200 to 480 VAC|3|**G3PE-535B-3H DC12-24**|
||||||||2|**G3PE-535B-2H DC12-24**|
|||||||45 A, 200 to 480 VAC|3|**G3PE-545B-3H DC12-24**|
||||||||2|**G3PE-545B-2H DC12-24**|



- The rated load current depends on the heat sink or radiator that is mounted. It also depends on the ambient temperature. For details, refer to _Load Current vs. Ambient Temperature_ . 

## **Accessories (Order Separately) Heat Sink** 

|**Heat resistance Rth (s-a) (**°**C/W)**|**Model**|
|---|---|
|1.67|**Y92B-P50**|
|1.01|**Y92B-P100**|
|0.63|**Y92B-P150**|
|0.43|**Y92B-P200**|
|0.36|**Y92B-P250**|



**7** 

**G3PE-Three-phase Specifications** 

## **Certification** 

UL508, CSA22.2 No.14, and EN60947-4-3 

## **Ratings (at an Ambient Temperature of 25** ° **C) Operating Circuit (All Models)** 

|**ItemModel**|**Same for all models**|
|---|---|
|Rated operatingvoltage|12 to 24 VDC|
|Operatingvoltage range|9.6 to 30 VDC|
|Rated input current (impedance)|10 mA max. (24 VDC)|
|Must-operate voltage|9.6 VDC max.|
|Must-release voltage|1 VDC min.|
|Insulation method|Phototriac|
|Operation indicator|Yellow LED|



## **Main Circuit of Models with Built-in Heat Sinks** 

|**Model**|**G3PE-**<br>**215B-**<br>**3(N)**|**G3PE-**<br>**215B-**<br>**2(N)**|**G3PE-**<br>**225B-**<br>**3(N)**|**G3PE-**<br>**225B-**<br>**2(N)**|**G3PE-**<br>**235B-**<br>**3(N)**|**G3PE-**<br>**235B-**<br>**2(N)**|**G3PE-**<br>**245B-**<br>**3(N)**|**G3PE-**<br>**245B-**<br>**2(N)**|**G3PE-**<br>**515B-**<br>**3(N)**|**G3PE-**<br>**515B-**<br>**2(N)**|**G3PE-**<br>**525B-**<br>**3(N)**|**G3PE-**<br>**525B-**<br>**2(N)**|**G3PE-**<br>**535B-**<br>**3(N)**|**G3PE-**<br>**535B-**<br>**2(N)**|**G3PE-**<br>**545B-**<br>**3(N)**|**G3PE-**<br>**545B-**<br>**2(N)**|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|**Item**|||||||||||||||||
|**Rated load voltage**|100 to 240 VAC||||||||200 to 480 VAC||||||||
|**Operating voltage**<br>**range**|75 to 264 VAC||||||||180 to 528 VAC||||||||
|**Rated load current*1**|15 A (at 40°C)||25 A (at 40°C)||35 A (at 25°C)||45 A (at 25°C)||15 A (at 40°C)||25 A (at 40°C)||35 A (at 25°C)||45 A (at 25°C)||
|**Minimum load current**|0.2 A||||0.5 A||||||||||||
|**Inrush current**<br>**resistance (peak**<br>**value)**|150 A<br>(60 Hz, 1 cycle)||220 A<br>(60 Hz, 1 cycle)||440 A<br>(60 Hz, 1 cycle)||||220 A<br>(60 Hz, 1 cycle)||||440 A<br>(60 Hz, 1 cycle)||||
|**Permissible I2t **<br>**(reference value)**|121A2s||260A2s||1,260A2s||||260A2s||||1,260A2s||||
|**Applicable load**<br>**(resistive load: AC1**<br>**class)*2**|5.1 kW<br>(at 200 VAC)||8.6 kW<br>(at 200 VAC)||12.1 kW<br>(at 200 VAC)||15.5 kW<br>(at 200 VAC)||12.5 kW<br>(at 480 VAC)||20.7 kW<br>(at 480 VAC)||29.0 kW<br>(at 480 VAC)||37.4 kW<br>(at 480 VAC)||



*1. The applicable load current depends on the ambient temperature. For details, refer to _Load Current vs. Ambient Temperature_ in _Engineering Data_ on page 10. 

- *2. Applicable Load 

Use the following formula to calculate the maximum total capacity of a heater load for a three-phase balanced load with delta connections. Maximum load capacity = Load current × Load voltage × √3 Example: 15 A × 200 V × √3 = 5,196 W ≅ 5.1 kW 

Example: 15 A × 400 V × √3 = 10,392 W ≅ 10.3 kW 

## **Main Circuit of Models with Externally Attached Heat Sinks** 

|**Model**|**G3PE-**<br>**215B-**<br>**3H**|**G3PE-**<br>**215B-**<br>**2H**|**G3PE-**<br>**225B-**<br>**3HH**|**G3PE-**<br>**225B-**<br>**2H**|**G3PE-**<br>**235B-**<br>**3H**|**G3PE-**<br>**235B-**<br>**2H**|**G3PE-**<br>**245B-**<br>**3H**|**G3PE-**<br>**245B-**<br>**2H**|**G3PE-**<br>**515B-**<br>**3H**|**G3PE-**<br>**515B-**<br>**2H**|**G3PE-**<br>**525B-**<br>**3H**|**G3PE-**<br>**525B-**<br>**2H**|**G3PE-**<br>**535B-**<br>**3H**|**G3PE-**<br>**535B-**<br>**2H**|**G3PE-**<br>**545B-**<br>**3H**|**G3PE-**<br>**545B-**<br>**2H**|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|**Item**|||||||||||||||||
|**Rated load voltage**|100 to 240 VAC||||||||200 to 480 VAC||||||||
|**Operating voltage**<br>**range**|75 to 264 VAC||||||||180 to 528 VAC||||||||
|**Rated load current***|15 A (at 40°C)||25 A (at 40°C)||35 A (at 25°C)||45 A (at 25°C)||15 A (at 40°C)||25 A (at 40°C)||35 A (at 25°C)||45 A (at 25°C)||
|**Minimum load current**|0.2 A||||0.5 A||||||||||||
|**Inrush current**<br>**resistance (peak**<br>**value)**|150 A<br>(60 Hz, 1 cycle)||220 A<br>(60 Hz, 1 cycle)||440 A<br>(60 Hz, 1 cycle)||||220 A<br>(60 Hz, 1 cycle)||||440 A<br>(60 Hz, 1 cycle)||||
|**Permissible I2t **<br>**(reference value)**|121A2s||260A2s||1,260A2s||||260A2s||||1,260A2s||||
|**Applicable load**<br>**(resistive load: AC1**<br>**class)**|Refer to_Engineering Data_on page 10.||||||||||||||||



* The rated load current depends on the heat sink or radiator that is mounted. It also depends on the ambient temperature. For details, refer to _Load Current vs. Ambient Temperature_ in _Engineering Data_ on page 10. 

**8** 

**G3PE-Three-phase** 

## **Characteristics** 

## **Models with Built-in Heat Sinks** 

|**Model**|**G3PE-**<br>**215B-**<br>**3(N)**|**G3PE-**<br>**215B-**<br>**2(N)**|**G3PE-**<br>**225B-**<br>**3(N)**|**G3PE-**<br>**225B-**<br>**2(N)**|**G3PE-**<br>**235B-**<br>**3(N)**|**G3PE-**<br>**235B-**<br>**2(N)**|**G3PE-**<br>**245B-**<br>**3(N)**|**G3PE-**<br>**245B-**<br>**2(N)**|**G3PE-**<br>**515B-**<br>**3(N)**|**G3PE-**<br>**515B-**<br>**2(N)**|**G3PE-**<br>**525B-**<br>**3(N)**|**G3PE-**<br>**525B-**<br>**2(N)**|**G3PE-**<br>**535B-**<br>**3(N)**|**G3PE-**<br>**535B-**<br>**2(N)**|**G3PE-**<br>**545B-**<br>**3(N)**|**G3PE-**<br>**545B-**<br>**2(N)**|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|**Item**|||||||||||||||||
|**Operate time**|1/2 of load power source cycle + 1 ms max.||||||||||||||||
|**Release time**|1/2 of load power source cycle + 1 ms max.||||||||||||||||
|**Output ON**<br>**voltage drop**|1.6 V (RMS) max.||||||||1.8 V (RMS) max.||||||||
|**Leakage**<br>**current***|10 mA max. (at 200 VAC)||||||||20 mA max. (at 480 VAC)||||||||
|**Insulation**<br>**resistance**|100 MΩmin. (at 500 VDC)||||||||||||||||
|**Dielectric**<br>**strength**|2,500 VAC, 50/60 Hz for 1 min||||||||||||||||
|**Vibration**<br>**resistance**|•DIN Track mounting: 10 to 55 to 10 Hz, 0.175-mm single amplitude (0.35-mm double amplitude)<br>•Screw mounting: 10 to 55 to 10 Hz, 0.375-mm single amplitude (0.75-mm double amplitude)||||||||||||||||
|**Shock**<br>**resistance**|294 m/s2(reverse mounting: 98 m/s2)||||||||||||||||
|**Ambient**<br>**storage**<br>**temperature**|−30 to 100°C (with no icing or condensation)||||||||||||||||
|**Ambient**<br>**operating**<br>**temperature**|−30 to 80°C (with no icing or condensation)||||||||||||||||
|**Ambient**<br>**operating**<br>**humidity**|45% to 85%||||||||||||||||
|**Weight**|Approx. 1.25 kg||Approx.<br>1.45 kg|Approx.<br>1.25 kg|Approx.<br>1.65 kg|Approx.<br>1.45 kg|Approx.<br>2.0 kg|Approx.<br>1.65 kg|Approx. 1.25 kg||Approx.<br>1.45 kg|Approx.<br>1.25 kg|Approx.<br>1.65 kg|Approx.<br>1.45 kg|Approx.<br>2.0 kg|Approx.<br>1.65 kg|



* The leakage current of phase S will be approximately √3 times larger if the 2-element model is used. 

## **Models with Externally Attached Heat Sinks** 

|**Model**|**G3PE-**<br>**215B-**<br>**3H**|**G3PE-**<br>**215B-**<br>**2H**|**G3PE-**<br>**225B-**<br>**3H**|**G3PE-**<br>**225B-**<br>**2H**|**G3PE-**<br>**235B-**<br>**3H**|**G3PE-**<br>**235B-**<br>**2H**|**G3PE-**<br>**245B-**<br>**3H**|**G3PE-**<br>**245B-**<br>**2H**|**G3PE-**<br>**515B-**<br>**3H**|**G3PE-**<br>**515B-**<br>**2H**|**G3PE-**<br>**525B-**<br>**3H**|**G3PE-**<br>**525B-**<br>**2H**|**G3PE-**<br>**535B-**<br>**3H**|**G3PE-**<br>**535B-**<br>**2H**|**G3PE-**<br>**545B-**<br>**3H**|**G3PE-**<br>**545B-**<br>**2H**|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|**Item**|||||||||||||||||
|**Operate time**|1/2 of load power source cycle + 1 ms max.||||||||||||||||
|**Release time**|1/2 of load power source cycle + 1 ms max.||||||||||||||||
|**Output ON**<br>**voltage drop**|1.6 V (RMS) max.||||||||1.8 V (RMS) max.||||||||
|**Leakage**<br>**current***|10 mA max. (at 200 VAC)||||||||20 mA max. (at 480 VAC)||||||||
|**Insulation**<br>**resistance**|100 MΩmin. (at 500 VDC)||||||||||||||||
|**Dielectric**<br>**strength**|2,500 VAC, 50/60 Hz for 1 min||||||||||||||||
|**Vibration**<br>**resistance**|10 to 55 to 10 Hz, 0.375-mm single amplitude (0.75-mm double amplitude)||||||||||||||||
|**Shock**<br>**resistance**|Destruction: 294 m/s2||||||||||||||||
|**Ambient**<br>**storage**<br>**temperature**|−30 to 100°C (with no icing or condensation)||||||||||||||||
|**Ambient**<br>**operating**<br>**temperature**|−30 to 80°C (with no icing or condensation)||||||||||||||||
|**Ambient**<br>**operating**<br>**humidity**|45% to 85%||||||||||||||||
|**Weight**|Approx. 300 g||||||||||||||||



* The leakage current of phase S will be approximately √3 times larger if the 2-element model is used. 

## **Heat Sinks** 

|**Model**|**Weight**|
|---|---|
|**Y92B-P50**|Approx. 450 g|
|**Y92B-P100**|Approx. 450 g|
|**Y92B-P150**|Approx. 600 g|
|**Y92B-P200**|Approx. 850 g|
|**Y92B-P250**|Approx. 1,200 g|



**9** 

**G3PE-Three-phase Engineering Data** 

**==> picture [485 x 645] intentionally omitted <==**

**----- Start of picture text -----**<br>
Input Voltage vs. Input Impedance and Input Voltage vs. Input Current<br>G3PE-2 @@ B- @@ G3PE-5 @@ B- @@<br>10 15 Ta = 25°C<br>9 14<br>13<br>8 12<br>11<br>7<br>10<br>6 9<br>Input current  8<br>5 7 Input current<br>4 6<br>5<br>3 Input impedance<br>4<br>2 Input impedance  3<br>2<br>1 1<br>0<br>0 5  10  15  20  25  30  35 0  5 10  15  20  25  30  35<br>Input voltage (V) Input voltage (V)<br>Load Current vs. Ambient Temperature<br>Models with Built-in Heat Sinks<br>G3PE-215B-3(N), G3PE-225B-3(N) G3PE-235B-3(N), G3PE-245B-3(N)<br>G3PE-215B-2(N), G3PE-225B-2(N) G3PE-235B-2(N), G3PE-245B-2(N)<br>G3PE-515B-3(N), G3PE-525B-3(N) G3PE-535B-3(N), G3PE-545B-3(N)<br>G3PE-515B-2(N), G3PE-525B-2(N) G3PE-535B-2(N), G3PE-545B-2(N)<br>30 50<br>45  G3PE-245B-3(N)<br>25 G3PE-245B-2(N)<br>G3PE-225B-3(N) 40  G3PE-545B-3(N)<br>G3PE-225B-2(N) G3PE-545B-2(N)<br>G3PE-525B-3(N) 35<br>20 G3PE-525B-2(N) G3PE-235B-3(N)<br>30  G3PE-235B-2(N)<br>G3PE-535B-3(N)  *<br>15 G3PE-535B-2(N)<br>G3PE-215B-3(N)<br>G3PE-215B-2(N) 20<br>10 G3PE-515B-3(N)G3PE-515B-2(N) 18 * The dotted lines in the charts are<br>14 the UL derating curves for the<br>7 1210  G3PE-235B-3(N), G3PE-245B-3(N),<br>G3PE-235B-2(N), G3PE-245B-2(N),<br>G3PE-535B-3(N), G3PE-545B-3(N),<br>0 0  G3PE-535B-2(N), G3PE-545B-2(N).<br>−30  −20  0  20  40  60  80  100 −30  −20  0  20 25  40  60  80  100<br>Ambient temperature (°C) Ambient temperature (°C)<br>Models with Externally Attached Heat Sinks<br>G3PE-215B-3H(-2H) G3PE-235B-3H(-2H)<br>G3PE-225B-3H(-2H) G3PE-245B-3H(-2H)<br>G3PE-515B-3H(-2H) G3PE-535B-3H(-2H)<br>G3PE-525B-3H(-2H) G3PE-545B-3H(-2H)<br>10 10 G3PE-235B-3H(-2H)<br>G3PE-245B-3H(-2H)<br>G3PE-535B-3H(-2H)<br>G3PE-545B-3H(-2H)<br>8 8<br>G3PE-225B-3H(-2H)<br>G3PE-525B-3H(-2H)<br>6 6<br>5<br>G3PE-215B-3H(-2H)<br>4 G3PE-515B-3H(-2H) 4<br>2 2<br>0 0<br>−30  −20  0  20  40  60  80  100 −30  −20  0  20 25 40  60  80  100<br>Ambient temperature (°C) Ambient temperature (°C)<br>)Ω Input current (mA) )Ω Input current (mA)<br>Input impedance (k Input impedance (k<br>Load current (A) Load current (A)<br>Load current (A) Load current (A)<br>**----- End of picture text -----**<br>


**10** 

**G3PE-Three-phase** 

## **Inrush Current Resistance: Non-repetitive** 

## Keep the inrush current to below the inrush current resistance value (i.e., below the broken line) if it occurs repetitively. **G3PE-215B-3(N)(H) G3PE-225B-3(N)(H), G3PE-525B-3(N)(H) G3PE-215B-2(N)(H) G3PE-225B-2(N)(H), G3PE-525B-2(N)(H)** 

**==> picture [515 x 384] intentionally omitted <==**

**----- Start of picture text -----**<br>
G3PE-215B-3(N)(H) G3PE-225B-3(N)(H), G3PE-525B-3(N)(H) G3PE-235B-3(N)(H), G3PE-535B-3(N)(H)<br>G3PE-215B-2(N)(H) G3PE-225B-2(N)(H), G3PE-525B-2(N)(H) G3PE-235B-2(N)(H), G3PE-535B-2(N)(H)<br>G3PE-515B-3(N)(H),  G3PE-245B-3(N)(H), G3PE-545B-3(N)(H)<br>G3PE-515B-2(N)(H),  G3PE-245B-2(N)(H), G3PE-545B-2(N)(H)<br>250 250 500<br>200 200 400<br>150 150 300<br>100 100 200<br>50 50 100<br>0 0 0<br>10  30 50  100  300 500 1,000  3,000 5,000 10  30 50  100  300 500 1,000  3,000 5,000 10  30 50  100  300 500 1,000  3,000 5,000<br>Energized time (ms) Energized time (ms) Energized time (ms)<br>Heat Sink Area vs. Load Current (40 ° C and 80 ° C)<br>G3PE-225B-3H G3PE-525B-3H<br>50,000 50,000<br>30,000 30,000<br>Ambient temperature + 80°C Ambient temperature + 40°C Ambient temperature + 80°C Ambient temperature + 40°C<br>10,000 10,000<br>5,000 5,000 Note:  The heat sink area is the combined<br>3,000 3,000 area of all surfaces of the heat sink<br>that radiate heat.<br>Aluminum plate t = 3.0  Aluminum plate t = 3.0<br>For the G3PE-525B-3H, when a<br>1,000 1,000 current of 18 A flows through the SSR<br>500 500 at 40°C, the graph shows that a heat °C, the graph shows that a heat C, the graph shows that a heat<br>300 300 sink area of about 2,500 cm [[2]]  would<br>be required. Therefore, if the heat<br>sink is square, one side of an<br>100 0  10  20  30  40 100 0  10  20  30  40 aluminum plate in the heat sink must be 36 cm or longer (√2,500 (cmbe 36 cm or longer (√2,500 (cm√2,500 (cm2,500 (cm (cm [[2]] )/2 =<br>Load current (A) Load current (A)<br>Inrush current (A. Peak) Inrush current (A. Peak) Inrush current (A. Peak)<br>2)Heat sink area (cm 2)Heat sink area (cm<br>**----- End of picture text -----**<br>


For the G3PE-525B-3H, when a current of 18 A flows through the SSR at 40°C, the graph shows that a heat °C, the graph shows that a heat C, the graph shows that a heat sink area of about 2,500 cm[[2]] would be required. Therefore, if the heat sink is square, one side of an aluminum plate in the heat sink must be 36 cm or longer (√2,500 (cmbe 36 cm or longer (√2,500 (cm√2,500 (cm2,500 (cm (cm[[2]] )/2 = 36 cm (rounded to a whole number)). 

## **Models with Externally Attached Heat Sinks Heat Resistance Rth (Junction/SSR Back Surface)** 

|**Model**|**Rth (**°**C/W)**|
|---|---|
|**G3PE-215B-3H**|1.05|
|**G3PE-225B-3H**|0.57|
|**G3PE-235B-3H**|0.57|
|**G3PE-245B-3H**|0.57|



## **Heat Resistance of Heat Sinks** 

|**Model**|**Rth (**°**C/W)**|
|---|---|
|**Y92B-P50**|1.67|
|**Y92B-P100**|1.01|
|**Y92B-P150**|0.63|
|**Y92B-P200**|0.43|
|**Y92B-P250**|0.36|



**Note:** If a commercially available heat sink is used, use one that has a heat resistance equal to or lower than a standard OMRON Heat Sink. 

**11** 

**G3PE-Three-phase Dimensions** 

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

## **Solid State Relays** 

**==> picture [481 x 674] intentionally omitted <==**

**----- Start of picture text -----**<br>
Models with  Two, 4.6-dia. mounting holes Four, 8 dia.<br>13<br>DIN Track Mounting Two, M3.5<br>G3PE-215B-3N 7<br>G3PE-215B-2N<br>G3PE-225B-2N Two, R2.3  24 68  max.84.5 [90]  max.100<br>G3PE-515B-3N mounting holes<br>G3PE-515B-2N<br>G3PE-525B-2N 0.5 64<br>20 20<br>32.2 Six, M4  80 max.<br>68<br>Note: Without terminal cover. Note: With terminal cover.<br>Mounting Holes<br>35<br>64 [0.3] 19.1 23.2  max.<br>90 [0.3]<br>120 max.<br>Four, 4.5 dia. or M4<br>Terminal Arrangement/Internal Circuit Diagram<br>G3PE-215B-3N G3PE-2@5B-2N G3PE-515E-3N G3PE-5@5B-2N<br>L1/R L2/S L3/T (+) L1/R L2/S L3/T (+) L1/R L2/S L3/T (+) L1/R L2/S L3/T (+)<br>A1 A1 A1 A1<br>A2 A2 A2 A2<br>etd T1/U T2/V T3/W (−) s T1/U ]ti T2/V T3/W lt (−) p T1/U eedl T2/V T3/W (−) elel T1/U T2/V T3/W (−)<br>Models with  Two, 4.6-dia. mounting holes<br>Four, 8 dia.<br>DIN Track Mounting 13<br>G3PE-225B-3N Two, M3.5<br>G3PE-235B-2N 7<br>G3PE-525B-3N<br>G3PE-535B-2N 24 68  max.84.5 100 110  max.120<br>Two, R2.3<br>mounting<br>holes<br>cl<br>0.5<br>20 20 Six, M5 (35-A type) 64<br>32.2 Six, M4 (25-A type) 80 max.<br>68<br>Note: Without terminal cover. Note: With terminal cover.<br>Mounting Holes 35<br>64 [0.3] 19.1 23.2  max.<br>110 [0.3]<br>120 max.<br>Four, 4.5 dia. or M4<br>- i ¢¥ SS<br>Terminal Arrangement/Internal Circuit Diagram<br>G3PE-225B-3N G3PE-235B-2N G3PE-525B-3N G3PE-535B-2N<br>L1/R L2/S L3/T (+) L1/R L2/S L3/T (+) L1/R L2/S L3/T (+) L1/R L2/S L3/T (+)<br>A1 A1 A1 A1<br>A2 A2 A2 A2<br>etd T1/U T2/V T3/W (−) a] T1/U T2/V T3/W (−) tiltpeedl T1/U T2/V T3/W (−) ele! T1/U T2/V T3/W (−)<br>Input circuit  Input circuit  Input circuit  Input circuit<br>Input circuit  Input circuit  Input circuit  Input circuit<br>**----- End of picture text -----**<br>


**12** ~~i~~ 

**G3PE-Three-phase** 

**==> picture [507 x 720] intentionally omitted <==**

**----- Start of picture text -----**<br>
Models with  Two, 4.6-dia. mounting holes<br>DIN Track Mounting Four, 8 dia.<br>G3PE-235B-3N 13 Two, M3.5<br>G3PE-245B-2N 7<br>G3PE-535B-3N<br>G3PE-545B-2N ae 24 68 Se  max.84.5 120 130 r  max.140 na<br>Two, R2.3<br>mounting  one)<br>holes<br>0.5 20 20 Six, M5 64<br>p< = 32.2 i 80 max.<br>68<br>Note: Without terminal cover. Note: With terminal cover.<br>Mounting Holes<br>64 [0.3] 35<br>19.1 23.2  max.<br>130 [0.3] 120 max.<br>Four, 4.5 dia. or M4<br>ii<br>Terminal Arrangement/Internal Circuit Diagram<br>G3PE-235B-3N G3PE-245B-2N G3PE-535B-3N G3PE-545B-2N<br>L1/R L2/S L3/T (+) L1/R L2/S L3/T (+) L1/R L2/S L3/T (+) L1/R L2/S L3/T (+)<br>A1 A1 A1 A1<br>A2 A2 A2 A2<br>Ate T1/U T2/V T3/W (−) T1/U T2/V T3/W tE (−) resee T1/U T2/V T3/W d (−) re T1/U l T2/V ie T3/W d (−)<br>Models with  Two, 4.6-dia. mounting holes<br>DIN Track Mounting Four, 8 dia.  Two, M3.5<br>G3PE-245B-3N 13<br>G3PE-545B-3N<br>7<br>Two, R2.3 mounting  24 68  max.84.5 120 130  max.140<br>holes<br>cy : [melt cM<br>0.5 Six, M5<br>64<br>20 20<br>80 max.<br>32.2<br>68 110 max.<br>Note: Without terminal cover. Note: With terminal cover.<br>ee<br>Mounting Holes<br>35<br>64 [0.3] 19.1 23.2  max.<br>130 [0.3] | 120 max.<br>+ Four, 4.5 dia. or M4 Tt Terminal Arrangement/Internal Circuit Diagram<br>G3PE245B-3N G3PE-545B-3N<br>L1/R L2/S L3/T (+) L1/R L2/S L3/T (+)<br>A1 A1<br>A2 A2<br>ti T1/U T2/V T3/W (−) the T1/U T2/V T3/W (−)<br>[0.00 *} LO.9 0.7<br>Input circuit  Input circuit  Input circuit  Input circuit<br>Input circuit  Input circuit<br>**----- End of picture text -----**<br>


**13** omrROnNn ~~a~~ 

**G3PE-Three-phase** 

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Models with Screw Mounting 13 50 4.6 dia.<br>G3PE-215B-2<br>G3PE-515B-2<br>7<br>24 68 84.5 max. 90 100 max.<br>“4 c Two, M3.5<br>0.5 Six, M4  80 max .<br>20 20 4.6  5.6<br>32.2 elliptical hole<br>Note: With terminal cover.<br>= 68<br>we Note: Fecoicala Without terminal cover. oe<br>DIN Track or screw mounting<br>Mounting Holes<br>Two, 4.5 dia. or M4<br>35<br>19.1 23.2  max.<br>90 [0.3] 55 max.<br>_, 50 [0.3]<br>**----- End of picture text -----**<br>


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Terminal Arrangement/Internal Circuit Diagram<br>**----- End of picture text -----**<br>


**==> picture [504 x 321] intentionally omitted <==**

**----- Start of picture text -----**<br>
G3PE-215B-2 G3PE-515B-2<br>L1/R L2/S L3/T (+) L1/R L2/S L3/T (+)<br>A1 A1<br>A2 A2<br>ti T1/U T2/V T3/W (−) ki! T1/U T2/V T3/W (−)<br>Models with Screw Mounting<br>G3PE-215B-3 Four, R2.5 13 5<br>G3PE-225B-2<br>G3PE-515B-3 7<br>G3PE-525B-2 24 68 60 80.5 [84.5]<br>max.<br>0.5 Two, M3.5 80 max.<br>20 20 Six, M4  90<br>32.2 100<br>68 1 10.5 max .<br>Note: Without terminal cover. Note: With terminal cover.<br>Mounting Holes<br>Four, 4.5 dia. or M4  19.1 23.2  max.35<br>For screw mounting only<br>M 60 [0.3] (ooo 70 max.<br>100 [0.3]<br>Input circuit  Input circuit<br>**----- End of picture text -----**<br>


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Terminal Arrangement/Internal Circuit Diagram<br>**----- End of picture text -----**<br>


G3PE-215B-3 G3PE-225B-2 G3PE-515B-3 G3PE-525B-2 L1/R L2/S L3/T (+) L1/R L2/S L3/T (+) L1/R L2/S L3/T (+) L1/R L2/S L3/T (+) A1 A1 A1 A1 A2 A2 A2 A2 ~~RIESE~~ T1/U T2/V T3/W (−) T1/U T2/V T3/W (−) T1/U T2/V T3/W (−) T1/U T2/V T3/W (−) 

**14** ~~i~~ 

**G3PE-Three-phase** 

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**----- Start of picture text -----**<br>
Models with  Four, R2.5 5<br>Screw Mounting 13<br>G3PE-225B-3 7<br>G3PE-235B-2<br>G3PE-525B-3 24 68 84.5 max. [90] 110.5 max.<br>G3PE-535B-2<br>ao<br>Two, M3.5<br>0.5 Six, M5 80 max.<br>20 232.20 (G3PE-Six, M4 (G3PE-@@35B-2)25B-3) 10090<br>68 110.5 max.<br>Note: Without terminal cover. Note: With terminal cover.<br>Mounting Holes<br>Four, 4.5 dia. or M4<br>For screw mounting only 19.1 23.2  max.35<br>90 [±0.3]<br>70 max.<br>ML<br>| 100 [±0.3] ie<br>Terminal Arrangement/Internal Circuit Diagram<br>G3PE-225B-3 G3PE-235B-2 G3PE-525B-3 G3PE-535B-2<br>L1/R L2/S L3/T (+) L1/R L2/S L3/T (+) L1/R L2/S L3/T (+) L1/R L2/S L3/T (+)<br>A1 A1 A1 A1<br>A2 A2 A2 A2<br>nee T1/U T2/V T3/W (−)  de T1/U T2/V T3/W (−) ine T1/U T2/V T3/W (−) taba T1/U T2/V T3/W (−)<br>Models with  Four, R2.5 5<br>Screw Mounting 13<br>G3PE-235B-3<br>’ oie) 7 ‘ : $6 6 fr r<br>G3PE-245B-2<br>G3PE-535B-3G3PE-545B-2 24 68 84.5 max. [90] 130.5 max.<br>Two, M3.5<br>0.5 Six, M5 80 max.<br>20 20<br>110<br>32.2<br>120<br>68<br>z=! 130.5 max.<br>Note: Without terminal cover. Note: With terminal cover.<br>Mounting Holes<br>Four, 4.5 dia. or M4  35<br>ca’ SE (EST 19.1 23.2  max. E E<br>For screw mounting only<br>70 max.<br>| 90 [0.3] —<br>Jj, 120 [0.3] —___.|<br>Terminal Arrangement/Internal Circuit Diagram<br>G3PE-235B-3 G3PE-245B-2 G3PE-535B-3 G3PE-545B-2<br>L1/R L2/S L3/T (+) L1/R L2/S L3/T (+) L1/R L2/S L3/T (+) L1/R L2/S L3/T (+)<br>A1 A1 A1 A1<br>A2 A2 A2 A2<br>nee T1/U T2/V T3/W (−)  ae T1/U T2/V T3/W (−) tna T1/U T2/V T3/W (−) l T1/U ieb T2/V T3/W e (−)<br>Input circuit  Input circuit  Input circuit  Input circuit<br>Input circuit  Input circuit  Input circuit  Input circuit<br>**----- End of picture text -----**<br>


**15** omRON ~~a~~ 

**G3PE-Three-phase** 

**Models with Screw Mounting G3PE-245B-3** Four, R2.5 **G3PE-545B-3** 

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G3PE-245B-3 Four, R2.5 5<br>G3PE-545B-3<br>q A A a<br>13<br>7<br>24 68 84.5 190.5<br> max.  [150]  max.<br>wy lcs<br>Two, M3.5<br>— ani Six, M5 e+ @ . | LL<br>0.5 80 max.<br>20 20<br>110<br>32.2 120<br>68 ——l 130.5 max.<br>Note: Without terminal cover. Note: With terminal cover.<br>Mounting Holes<br>35<br>For screw mounting only Four, 4.5 dia. or M4  19.1 23.2  max.<br>70 max.<br>| | ULL<br>150 [0.3] Terminal Arrangement/Internal Circuit Diagram<br>G3PE-245B-3 G3PE-545B-3<br>L1/R L2/S L3/T (+) L1/R L2/S L3/T (+)<br>A1 A1<br>120 [0.3]<br>A2 A2<br>"H i l T1/U T2/V T3/W (−) pond T1/U T2/V T3/W (−)<br>Models with Externally Attached Heat Sinks<br>G3PE-215B-3H Four, 4.5 dia. 13 Four, 8 dia. 9<br>G3PE-215B-2H RII — 7 & Pees 8 dia.<br>G3PE-225B-3H 4.5 dia.<br>G3PE-225B-2H 24 68 80 84.5 max.<br>G3PE-235B-3H<br>G3PE-235B-2H<br>G3PE-245B-3H Two, M3.5<br>0.5 80 max.<br>G3PE-245B-2H 20 20<br>Note: With terminal cover.<br>G3PE-515B-3H = 32.2 Ley & | | led<br>Six, M4<br>G3PE-515B-2H 68 (G3PE-@15B-@H/-@25B-@H)<br>G3PE-525B-3H Note: Without terminal cover. Six, M5(G3PE-@35B-@H/-@45B-@H)<br>G3PE-525B-2H Mounting Holes<br>G3PE-535B-3H Four,  4.5 dia. or M4<br>G3PE-535B-2H 19.1 23.2  max.35<br>G3PE-545B-3H<br>G3PE-545B-2H Sen 68 [±0.3]<br>Li 68 [±0.3] Terminal Arrangement/Internal Circuit Diagram<br>G3PE-2@5B-3H G3PE-2@5B-2H G3PE-5@5B-3H G3PE-5@5B-2H<br>L1/R L2/S L3/T (+) L1/R L2/S L3/T (+) L1/R L2/S L3/T (+) L1/R L2/S L3/T (+)<br>A1 A1 A1 A1<br>A2 A2 A2 A2<br>ee T1/U T2/V T3/W (−)  ebi T1/U T2/V T3/W (−) esa T1/U T2/V T3/W (−) t T1/U ere T2/V T3/W (−)<br>Input circuit  Input circuit<br>Input circuit  Input circuit  Input circuit  Input circuit<br>**----- End of picture text -----**<br>


**16** ~~a~~ 

**G3PE-Three-phase** 

## **Accessories (Order Separately)** 

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Heat Sink  Heat Sink<br>Y92B-P50 (Mounts to DIN Track.) Y92B-P100<br>For G3PE-215B-2H and For G3PE-215B-3H,<br>G3PE-515B-2H G3PE-225B-2H,<br>G3PE-515B-3H, and<br>Mounting Holes<br>50 4.6 dia. Two, 4.5 dia. or M4 G3PE-525B-2H<br>Four, M4 Mounting Holes<br>100 Four, 4.5 dia. or M4<br>68 4.6 × 5.6 80.5 max. 90 100 max. 90 [±0.3] 5<br>elliptical hole 68 60 80.5 max. 60 [±0.3]<br>68 50 [±0.3] 100 [±0.3]<br>80 max. Four, R2.5 68<br>1 10.5 max.<br>55 max.<br>70 max.<br>Heat Sink Heat Sink Heat Sink<br>Y92B-P150 Y92B-P200 Y92B-P250<br>For G3PE-225B-3H,  For G3PE-235B-3H,  For G3PE-245B-3H and<br>G3PE-235B-2H,  G3PE-245B-2H,  G3PE-545B-3H<br>G3PE-525B-3H, and G3PE-535B-3H, and 120<br>G3PE-535B-2H G3PE-545B-2H<br>Four, M4 120<br>100 5<br>Four, M4 M4-D10 Four, M4<br>5 5<br>68 90 110.5 max. 68 90 [130.5]  max. 68 47.6 150 190.5 max.<br>M4-D10<br>Four,  68 Four,<br>R2.5 110.5 max. R2.5 68<br>120<br>Four,<br>130.5 max. R2.5 68<br>120<br>130.5 max.<br>70 max. 70 max. 70 max.<br>Mounting Holes Mounting Holes Mounting Holes<br>Four, 4.5 dia. or M4<br>Four, 4.5 dia. or M4<br>Four, 4.5 dia. or M4<br>90 [±][0.3] 90 [±][0.3] 150 [±][0.3]<br>100 [±][0.3] 120 [±][0.3]<br>120 [±][0.3]<br>**----- End of picture text -----**<br>


**17** 

**G3PE** 

## **Safety Precautions** 

## **Refer to** _**Safety Precautions for All Solid State Relays**_ **.** 

## ! **CAUTION** 

**Minor electrical shock may occasionally occur. Do not touch the G3PE terminal section (i.e., currentcarrying parts) while the power is being supplied. Also, always attach the cover terminal.** 

**The G3PE may rupture if short-circuit current flows. As protection against accidents due to shortcircuiting, be sure to install protective devices, such as fuses and no-fuse breakers, on the power supply side.** 

**Minor electrical shock may occasionally occur. Do not touch the main circuit terminals on the G3PE immediately after the power supply has been turned OFF. Shock may result due to the electrical charge stored in the built-in snubber circuit.** 

**Minor burns may occasionally occur. Do not touch the G3PE or the heat sink while the power is being supplied or immediately after the power supply has been turned OFF. The G3PE and heat sink become extremely hot.** 

## **Precautions for Safe Use** 

OMRON constantly strives to improve quality and reliability. SSRs, however, use semiconductors, and semiconductors may commonly malfunction or fail. In particular, it may not be possible to ensure safety if the SSRs are used outside the rated ranges. Therefore, always use the SSRs within the ratings. When using an SSR, always design the system to ensure safety and prevent human accidents, fires, and social harm in the event of SSR failure. System design must include measures such as system redundancy, measures to prevent fires from spreading, and designs to prevent malfunction. 

## **Transport** 

Do not transport the G3PE under the following conditions. Doing so may result in damage, malfunction, or deterioration of performance characteristics. 

- Conditions in which the G3PE may be subject to water. 

- Conditions in which the G3PE may be subject to high temperature or high humidity. 

- Conditions in which the G3PE is not packaged. 

## **Operating and Storage Environments** 

Do not use or store the G3PE in the following locations. Doing so may result in damage, malfunction, or deterioration of performance characteristics. 

- Locations subject to rainwater or water splashes. 

- Locations subject to exposure to water, oil, or chemicals. 

- Locations subject to high temperature or high humidity. 

- Do not store in locations subject to ambient storage temperatures outside the range −30 to 100°C. 

- Do not use in locations subject to relative humidity outside the range 45% to 85%. 

- Locations subject to corrosive gases. 

- Locations subject to dust (especially iron dust) or salts. 

- Locations subject to direct sunlight. 

- Locations subject to shock or vibration. 

## **Installation and Handling** 

- Do not block the movement of the air surrounding the G3PE or heat sink. Abnormal heating of the G3PE may result in shorting failures of the output elements or burn damage. 

- Do not use the G3PE if the heat radiation fins have been bent by being dropped. Doing so may result in malfunction due to a reduction in the heat radiation performance. 

- Do not handle the G3PE with oily or dusty (especially iron dust) hands. Doing so may result in malfunction. 

- Attach a heat sink or radiator when using an SSR. Not doing so may result in malfunction due to a reduction in the heat radiation performance. 

## **Installation and Mounting** 

- Mount the G3PE in the specified direction. Otherwise excessive heat generated by the G3PE may cause short-circuit failures of the output elements or burn damage. 

- Make sure that there is no excess ambient temperature rise due to the heat generation of the G3PE. If the G3PE is mounted inside a panel, install a fan so that the interior of the panel is fully ventilated. 

- Make sure the DIN track is securely mounted. Otherwise, the G3PE may fall. 

- When mounting the heat sink, do not allow any foreign matter between the heat sink and the mounting surface. Foreign matter may cause malfunction due to a reduction in the heat radiation performance. 

- If the G3PE is mounted directly in a control panel, use aluminum, steel plating, or similar material with a low heat resistance as a substitute for a heat sink. Using the G3PE mounted in wood or other material with a high heat resistance may result in fire or burning due to heat generated by the G3PE. 

## **Installation and Wiring** 

- Use wires that are suited to the load current. Otherwise, excessive heat generated by the wires may cause burning. 

- Do not use wires with a damaged outer covering. 

- Otherwise, it may result in electric shock or ground leakage. 

- Do not wire any wiring in the same duct or conduit as power or high-tension lines. Otherwise, inductive noise may damage the G3PE or cause it to malfunction. 

- When tightening terminal screws, prevent any non-conducting material from becoming caught between the screws and the tightening surface. Otherwise, excessive heat generated by the terminal may cause burning. 

- Do not use the G3PE with loose terminal screws. Otherwise, excessive heat generated by the wire may cause burning. 

- For the G3PE models with a carry current of 35 A or larger, use M5 crimp terminals that are an appropriate size for the diameter of the wire. 

- Always turn OFF the power supply before performing wiring. Not doing so may cause electrical shock. 

## **Installation and Usage** 

- Select a load within the rated values. Not doing so may result in malfunction, failure, or burning. 

- Select a power supply within the rated frequencies. Not doing so may result in malfunction, failure, or burning. 

- If a surge voltage is applied to the load of the Contactor, a surge bypass(*) will function to trigger the output element. The G3PE therefore cannot be used for motor loads. Doing so may result in load motor malfunction. 

- Surge Bypass 

This circuit protects the output circuit from being destroyed. This suppresses the surge energy applied inside the SSR in comparison with a varistor for the main circuit protection. By alleviating electrical stress on the electronic components of the SSR's output circuit, failure and destruction due to surge voltage are suppressed. 

Reference value: Surge dielectric strength of 30 kV min. (Test conditions: 1.2 ✕ 50 μs standard voltage waveform, peak voltage of 30 kV, repeated 50 times according to JIS C5442) 

**18** 

**G3PE** 

## **Precautions for Correct Use** 

The SSR in operation may cause an unexpected accident. Therefore it is necessary to test the SSR under the variety of conditions that are possible. As for the characteristics of the SSR, it is necessary to consider differences in characteristics between individual SSRs. 

The ratings in this catalog are tested values in a temperature range between 15°C and 30°C, a relative humidity range between 25% and 85%, and an atmospheric pressure range between 86 and 106 kPa. It will be necessary to provide the above conditions as well as the load conditions if the user wants to confirm the ratings of specific SSRs. 

## **Causes of Failure** 

- Do not drop the G3PE or subject it to abnormal vibration or shock during transportation or mounting. Doing so may result in deterioration of performance, malfunction, or failure. 

- Tighten each terminal to the torque specified below. Improper tightening may result in abnormal heat generation at the terminal, which may cause burning. 

|**Terminals**|**Screw terminal diameter**|**Tightening torque**|
|---|---|---|
|Input terminals|M3.5|0.59 to 1.18 N·m|
|Output<br>terminals|M4|0.98 to 1.47 N·m|
||M5|1.57 to 2.45 N·m|



- Do not supply overvoltage to the input circuits or output circuits. Doing so may result in failure or burning. 

- Do not use or store the G3PE in the following conditions. Doing so may result in deterioration of performance. 

- Locations subject to static electricity or noise 

- Locations subject to strong electric or magnetic fields 

- Locations subject to radioactivity 

## **Mounting** 

- The G3PE is heavy. Firmly mount the DIN Track and secure both ends with End Plates for DIN Track mounting models. When mounting the G3PE directly to a panel, firmly secure it to the panel. 

- Screw diameter: M4 Tightening torque: 0.98 to 1.47 N·m 

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Mounted on a Mounted on a<br>vertical surface horizontal surface<br>Vertical<br>Direction<br>Panel<br>Panel<br>**----- End of picture text -----**<br>


- **Note:** Make sure that the load current is 50% of the rated load current when the G3PE is mounted horizontally. For details on close mounting, refer to the related information under performance characteristics. 

   - Mount the G3PE in a direction so that the markings read 

naturally. 

- The G3PE-2N/-3N (DIN Track mounting models) can be mounted on the following TR35-15Fe (IEC 60715) DIN Tracks. 

|**Manufacturer**<br>**Thickness**|**1.5 mm**|**2.3 mm**|
|---|---|---|
|**Schneider**|AM1-DE200|---|
|**WAGO**|210-114,<br>210-197|210-118|
|**PHOENIX**|NS35/15|NS35/15-2.3|



## **Wiring** 

- When using crimp terminals, refer to the terminal clearances shown below. 

## **Output Terminal Section for Three-phase Models** 

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7 mm<br>13 mm<br>12 mm<br>M4 (15 A, 25 A)<br>M5 (35 A, 45 A)<br>Output Terminal Section for Single-phase Models<br>15-A and 25-A Models 35-A and 45-A Models<br>1 0 mm 13 mm<br>12.4 mm 12.9 mm<br>M4 (15 A, 25 A) M5 (35 A, 45 A)<br>**----- End of picture text -----**<br>


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Input Terminal Section<br>**----- End of picture text -----**<br>


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7.0 mm<br>10 mm<br>M3.5<br>**----- End of picture text -----**<br>


- Make sure that all lead wires are thick enough for the current. 

- For three-element and two-element models, the output terminal will be charged even when the Relay is OFF. Touching the terminal may result in electric shock. To isolate the Relay from the power supply, install an appropriate circuit breaker between the power supply and the Relay. 

- Always turn OFF the power supply before wiring the Unit. 

- Terminal L2 and terminal T2 of a 2-element model are internally connected to each other. Connect terminal L2 to the ground terminal of the power supply. 

- If terminal L2 is connected to a terminal other than the ground terminal, cover all the charged terminals, such as heater terminals, to prevent electric shock and ground faults. 

## **Fuses** 

- Use a quick-burning fuse on the output terminals to prevent accidents due to short-circuiting. Use a fuse with equal or greater performance than those given in the following table. 

## **Recommended Fuse Capacity** 

|**Rated G3PE output**<br>**current**|**Applicable SSR**|**Fuse**<br>**(IEC 60269-4)**|
|---|---|---|
|15 A|G3PE@15B Series|32 A|
|25 A|G3PE@25B Series||
|35 A|G3PE@35B Series|63 A|
|45 A|G3PE@45B Series||



**19** 

**G3PE** 

## **EMC Ditective Compliance** 

EMC direcives can be complied with under the following conditions. 

1. Single phase 240V (2@@B) models 

- A capacitor must be connected to the load power supply. 

- The input cable must be less than 3 m. 

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LOAD<br>INPUT G3PE OUTPUT<br>3 m Max. Recommended Capacitor (Film capacitor) : 1µF , 250VAC<br>**----- End of picture text -----**<br>


2. Single phase 480V (5@@B) models 

- A capacitor must be connected to the input power supply. 

- A capacitor, varistor and toroidal core must be connected to the load power supply. 

- The input cable must be less than 3 m. 

**==> picture [227 x 79] intentionally omitted <==**

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Troidal core<br>LOAD<br>INPUT G3PE OUTPUT<br>3 m Max. Recommended Capacitor (Film capacitor) : 0.05µF , 500VAC (LOAD)<br>0.1µF ,  250VAC (INPUT)<br>Recommended Varistor : 470V, 1750A<br>Recommended Troidal core : NEC/TOKIN:ESD-R-25B or equivalent<br>**----- End of picture text -----**<br>


3. Three phases models 

- A capacitor must be connected to the input power supply. 

- A capacitor and toroidal core must be connected to the load power supply. 

- The input cable must be less than 3 m. 

**==> picture [224 x 120] intentionally omitted <==**

**----- Start of picture text -----**<br>
Troidal core<br>LOAD<br>INPUT G3PE OUTPUT<br>3 m Max.<br>Recommended Capacitor (Film capacitor) : 1µF , 250VAC (240V LOAD)<br>0.05µF , 500VAC (480V LOAD)<br>0.1µF , 250VAC (INPUT)<br>Recommended Troidal core : NEC/TOKIN:ESD-R-25B or equivalent<br>**----- End of picture text -----**<br>


## **EMI** 

This is a Class A product (for industrial environments). In a domestic environment, the G3PE may cause radio interference, in which case the user may be required to take appropriate measures. 

## **Noise and Surge Effects** 

If noise or an electrical surge occurs that exceeds the malfunction withstand limit for the G3PE output circuit, the output will turn ON for a maximum of one half cycle to absorb the noise or surge. Confirm that turning the output ON for a half cycle will not cause a problem for the device or system in which the G3PE is being used prior to actual use. The G3PE malfunction withstand limit is shown below. 

## **Mounting to Control Panel** 

The G3PE is heavy. Firmly mount the DIN track and secure both ends with End Plates for DIN-track-mounting models. When mounting the G3PE directly to a panel, firmly secure it to the panel. 

If the panel is airtight, heat from the SSR will build up inside, which may reduce the current carry ability of the SSR or adversely affect other electrical devices. Be sure to install ventilation holes on the top and bottom of the panel. 

## **SSR Mounting Pitch (Panel Mounting)** 

- Single-phase Model 

**==> picture [208 x 396] intentionally omitted <==**

**----- Start of picture text -----**<br>
Duct or other object blocking airflow<br>Between duct and<br>G3PE<br>10 mm min.<br>SSR<br>60 mm min.<br>Mounting direction<br>Vertical Direction<br>Between duct and<br>G3PE<br>Host and slave<br>30 mm min.<br>80 mm min.<br>Three-phase Models<br>Between duct and<br>Duct or other object   G3PE<br>blocking airflow<br>10 mm min<br>80 mm min.<br>G3PE  G3PE<br>Host and slave<br>80 mm min<br>G3PE G3PE<br>Between duct and<br>G3PE<br>80 mm min.<br>30 mm min. Duct or other object<br>blocking airflow<br>**----- End of picture text -----**<br>


   - Three-phase Models 

- Malfunction withstand limit (reference value): 500 V 

**Note:** This value was measured under the following conditions. Noise duration: 100 ns and 1 μs Repetition period: 100 Hz Noise application time: 3 min 

## **Mounting Models with Externally Attached Heat Sinks** 

- Before attaching an external Heat Sink or Radiator to the Unit, always apply silicone grease, such as Momentive Performance Material’s YG6260 or Shine-Etsu Chemical’s G747, to the mounting surface to enable proper heat radiation. 

- Tighten the screws to the following torque to secure the Unit and external Heat Sink or Radiator to enable proper heat dissipation. Tightening torque: 2.0 N·m 

**20** 

**G3PE** 

## **Relationship between the G3PE and Ducts or Other Objects Blocking Airflow** 

**==> picture [244 x 177] intentionally omitted <==**

**----- Start of picture text -----**<br>
Incorrect Example Countermeasure 1 Countermeasure 2<br>Duct or other object blocking airflow 50 mm max. Duct<br>(No more<br>than 1/2<br>the SSR<br>depth is<br>recom-<br>mended.)  Airflow<br>Duct<br>Vertical<br>Base<br>Direction<br>SSR SSR<br>SSR<br>Duct Duct Duct<br>If the depth direction of  Use ducts that have a  If the ducts cannot be made<br>the G3PE is obstructed by  shallow depth, to provide  lower, place the G3PE on a<br>ducts, the heat radiation  a sufficient ventilation  metal base so that it is not<br>will be adversely affected. area.  surrounded by the ducts.<br>Mounting surface Mounting surface Mounting surface<br>**----- End of picture text -----**<br>


## **Ventilation Outside the Control Panel** 

Duct or other object blocking airflow 

**==> picture [238 x 117] intentionally omitted <==**

**----- Start of picture text -----**<br>
Be aware of airflow<br>Ventilation<br>outlet<br>SSR (Axial Fan) SSR<br>SSR<br>Air inlet<br>**----- End of picture text -----**<br>


- **Note: 1.** If the air inlet or air outlet has a filter, clean the filter regularly to prevent it from clogging to ensure an efficient flow of air. 

   **2.** Do not locate any objects around the air inlet or air outlet, otherwise the objects may obstruct the proper ventilation of the control panel. 

   **3.** A heat exchanger, if used, should be located in front of the G3PE to ensure the efficiency of the heat exchanger. 

## **G3PE Ambient Temperature** 

The rated current of the G3PE is measured at an ambient temperature of 40°C. 

The G3PE uses a semiconductor to switch the load. This causes the temperature inside the control panel to increase due to heating resulting from the flow of electrical current through the load. The G3PE reliability can be increased by adding a ventilation fan to the control panel to dispel this heat, thus lowering the ambient temperature of the G3PE. 

(Arrhenius's law suggests that life expectancy is doubled by each 10°C reduction in ambient temperature.) 

|**rated current (A)**<br>15|A<br>25 A|35 A|
|---|---|---|
|**ired number of**<br>**per SSR**<br>0.2|3<br>0.39|0.54|



Example: For 10 G3PE SSRs with load currents of 15 A, 

0.23 × 10 = 2.3 

Thus, 3 fans would be required. 

- **Note: 1.** Size of fans: 92 mm × 92 mm, Air volume: 0.7 m[3] /min, Ambient temperature of control panel: 30°C 

   **2.** If there are other instruments that generate heat in the control panel in addition to SSRs, more ventilation will be required. 

   **3.** Ambient temperature: The temperature that will allow the SSR to cool by convection or other means. 

**21** 

**MEMO** 

**22** 

## **Terms and Conditions Agreement** 

## **Read and understand this catalog.** 

Please read and understand this catalog before purchasing the products. Please consult your OMRON representative if you have any questions or comments. 

## **Warranties.** 

(a) Exclusive Warranty. Omron’s exclusive warranty is that the Products will be free from defects in materials and workmanship for a period of twelve months from the date of sale by Omron (or such other period expressed in writing by Omron). Omron disclaims all other warranties, express or implied. 

(b) Limitations. OMRON MAKES NO WARRANTY OR REPRESENTATION, EXPRESS OR IMPLIED, ABOUT NON-INFRINGEMENT, MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE OF THE PRODUCTS. BUYER ACKNOWLEDGES THAT IT ALONE HAS DETERMINED THAT THE PRODUCTS WILL SUITABLY MEET THE REQUIREMENTS OF THEIR INTENDED USE. 

Omron further disclaims all warranties and responsibility of any type for claims or expenses based on infringement by the Products or otherwise of any intellectual property right. (c) Buyer Remedy. Omron’s sole obligation hereunder shall be, at Omron’s election, to (i) replace (in the form originally shipped with Buyer responsible for labor charges for removal or replacement thereof) the non-complying Product, (ii) repair the non-complying Product, or (iii) repay or credit Buyer an amount equal to the purchase price of the non-complying Product; provided that in no event shall Omron be responsible for warranty, repair, indemnity or any other claims or expenses regarding the Products unless Omron’s analysis confirms that the Products were properly handled, stored, installed and maintained and not subject to contamination, abuse, misuse or inappropriate modification. Return of any Products by Buyer must be approved in writing by Omron before shipment. Omron Companies shall not be liable for the suitability or unsuitability or the results from the use of Products in combination with any electrical or electronic components, circuits, system assemblies or any other materials or substances or environments. Any advice, recommendations or information given orally or in writing, are not to be construed as an amendment or addition to the above warranty. 

See http://www.omron.com/global/ or contact your Omron representative for published information. 

## **Limitation on Liability; Etc.** 

OMRON COMPANIES SHALL NOT BE LIABLE FOR SPECIAL, INDIRECT, INCIDENTAL, OR CONSEQUENTIAL DAMAGES, LOSS OF PROFITS OR PRODUCTION OR COMMERCIAL LOSS IN ANY WAY CONNECTED WITH THE PRODUCTS, WHETHER SUCH CLAIM IS BASED IN CONTRACT, WARRANTY, NEGLIGENCE OR STRICT LIABILITY. 

Further, in no event shall liability of Omron Companies exceed the individual price of the Product on which liability is asserted. 

## **Suitability of Use.** 

Omron Companies shall not be responsible for conformity with any standards, codes or regulations which apply to the combination of the Product in the Buyer’s application or use of the Product. At Buyer’s request, Omron will provide applicable third party certification documents identifying ratings and limitations of use which apply to the Product. This information by itself is not sufficient for a complete determination of the suitability of the Product in combination with the end product, machine, system, or other application or use. Buyer shall be solely responsible for determining appropriateness of the particular Product with respect to Buyer’s application, product or system. Buyer shall take application responsibility in all cases. 

NEVER USE THE PRODUCT FOR AN APPLICATION INVOLVING SERIOUS RISK TO LIFE OR PROPERTY OR IN LARGE QUANTITIES WITHOUT ENSURING THAT THE SYSTEM AS A WHOLE HAS BEEN DESIGNED TO ADDRESS THE RISKS, AND THAT THE OMRON PRODUCT(S) IS PROPERLY RATED AND INSTALLED FOR THE INTENDED USE WITHIN THE OVERALL EQUIPMENT OR SYSTEM. 

## **Programmable Products.** 

Omron Companies shall not be responsible for the user’s programming of a programmable Product, or any consequence thereof. 

## **Performance Data.** 

Data presented in Omron Company websites, catalogs and other materials is provided as a guide for the user in determining suitability and does not constitute a warranty. It may represent the result of Omron’s test conditions, and the user must correlate it to actual application requirements. Actual performance is subject to the Omron’s Warranty and Limitations of Liability. 

## **Change in Specifications.** 

Product specifications and accessories may be changed at any time based on improvements and other reasons. It is our practice to change part numbers when published ratings or features are changed, or when significant construction changes are made. However, some specifications of the Product may be changed without any notice. When in doubt, special part numbers may be assigned to fix or establish key specifications for your application. Please consult with your Omron’s representative at any time to confirm actual specifications of purchased Product. 

## **Errors and Omissions.** 

Information presented by Omron Companies has been checked and is believed to be accurate; however, no responsibility is assumed for clerical, typographical or proofreading errors or omissions. 

**OMRON Corporation      Industrial Automation Company Authorized Distributor: Tokyo, JAPAN Contact:  www.ia.omron.com** 

_**Regional Headquarters**_ **OMRON EUROPE B.V. OMRON ELECTRONICS LLC** Wegalaan 67-69, 2132 JD Hoofddorp 2895 Greenspoint Parkway, Suite 200 The Netherlands Hoffman Estates, IL 60169 U.S.A Tel: (31)2356-81-300/Fax: (31)2356-81-388 Tel: (1) 847-843-7900/Fax: (1) 847-843-7787 

**OMRON ASIA PACIFIC PTE. LTD. OMRON (CHINA) CO., LTD.** No. 438A Alexandra Road # 05-05/08 (Lobby 2), Room 2211, Bank of China Tower, Alexandra Technopark, 200 Yin Cheng Zhong Road, Singapore 119967 PuDong New Area, Shanghai, 200120, China Tel: (65) 6835-3011/Fax: (65) 6835-2711 Tel: (86) 21-5037-2222/Fax: (86) 21-5037-2200 

© OMRON Corporation 2008-2021 All Rights Reserved. In the interest of product improvement, specifications are subject to change without notice. **CSM_2_1** Printed in Japan **Cat. No. J174-E1-03** 1021(0808)