G3NA-240B-UTU DC5-24

**Solid State Relays G3NA** 

CSM_G3NA_DS_E_12_1 

## **Wide Lineup of General-purpose Solid State Relays with Applicable Loads of 5 to 90 A** 

- AC Output Relays with 75-A and 90-A output currents have been added to the G3NA Series. 

- All models feature the same compact dimensions to provide a uniform mounting pitch. 

- Built-in varistor effectively absorbs external surges. (except G3NA-D210B) 

- Operation indicator enables monitoring operation. 

- Protective cover for greater safety. 

- Standard models certified by UL and CSA and -UTU models by TÜV. 

- (except G3NA-410B, G3NA-420B, and G3NA-440B(-2)) 

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

Refer to _Safety Precautions for All Solid State Relays_ . 

## **Model Number Structure** 

## ■ **Model Number Legend** 

## **G3NA-** @@@@@ **-** @ **-** @ 

**1 2 3 4 5 6 7 8** 

## **1. Basic Model Name** 

G3NA: Solid State Relay 

## **2. Load Power Supply** 

Blank: AC output D: DC output 

**3. Rated Load Power Supply Voltage** 

   - 2: 200 VAC or 200 VDC 

   - 4: 400 VAC 

## **4. Rated Load Current** 

- 05: 5 A 10: 10 A 20: 20 A 40: 40 A 

## **5. Terminal Type** 

B: Screw terminals 

## **6. Zero Cross Function** 

Blank: Equipped with zero cross function (AC-output models only) 

## **7. Certification** 

Blank: Standard models (certified by UL and CSA) UTU: Certified by UL, CSA, and TÜV 

## **8. RoHS Conformance** 

Blank: Non RoHS conformance (G3NA-275B, -290B, -440B, -450B, -475B, -490B series only) 

   - 2: RoHs conformance 

- 50: 50 A 75: 75 A 90: 90 A 

**1** 

**G3NA** 

## **Orderin Information g** 

## ■ **List of Models** 

|**Isolation**|**Zero cross**<br>**function**|**Indicator**|**Applicable output load**<br>**(See note 1.)**|**Rated input**<br>**voltage**|**Model**|
|---|---|---|---|---|---|
|Phototriac Coupler|Yes|Yes<br>(Yellow)|5 A at 24 to 240 VAC<br>(See note 2.)|5 to 24 VDC|G3NA-205B DC5-24|
|Photocoupler||||100 to 120 VAC|G3NA-205B AC100-120|
|||||200 to 240 VAC|G3NA-205B AC200-240|
|Phototriac Coupler|||10 A at 24 to 240 VAC<br>(See note 2.)|5 to 24 VDC|G3NA-210B DC5-24|
|Photocoupler||||100 to 120 VAC|G3NA-210B AC100-120|
|||||200 to 240 VAC|G3NA-210B AC200-240|
|Phototriac Coupler|||20 A at 24 to 240 VAC<br>(See note 2.)|5 to 24 VDC|G3NA-220B DC5-24|
|Photocoupler||||100 to 120 VAC|G3NA-220B AC100-120|
|||||200 to 240 VAC|G3NA-220B AC200-240|
|Phototriac Coupler|||40 A at 24 to 240 VAC<br>(See note 2.)|5 to 24 VDC|G3NA-240B DC5-24|
|Photocoupler||||100 to 120 VAC|G3NA-240B AC100-120|
|||||200 to 240 VAC|G3NA-240B AC200-240|
|Phototriac Coupler|||75 A at 24 to 240 VAC<br>(See note 2.)|5 to 24 VDC|G3NA-275B-UTU-2 DC5-24|
|Photocoupler||||100 to 120 VAC|G3NA-275B-UTU-2 AC100-240|
|Phototriac Coupler|||90 A at 24 to 240 VAC<br>(See note 2.)|5 to 24 VDC|G3NA-290B-UTU-2 DC5-24|
|Photocoupler||||100 to 240 VAC|G3NA-290B-UTU-2 AC100-240|
||Yes||10 A at 200 to 480 VAC|5 to 24 VDC|G3NA-410B DC5-24|
|||||100 to 240 VAC|G3NA-410B AC100-240|
||||20 A at 200 to 480 VAC|5 to 24 VDC|G3NA-420B DC5-24|
|||||100 to 240 VAC|G3NA-420B AC100-240|
||||40 A at 200 to 480 VAC|5 to 24 VDC|G3NA-440B-2 DC5-24|
|||||100 to 240 VAC|G3NA-440B-2 AC100-240|
||||50 A at 200 to 480 VAC<br>(See note 2.)|5 to 24 VDC|G3NA-450B-2 DC5-24|
||||75 A at 200 to 480 VAC<br>(See note 2.)|5 to 24 VDC|G3NA-475B-UTU-2 DC5-24|
|||||100 to 240 VAC|G3NA-475B-UTU-2 AC100-240|
||||90 A at 200 to 480 VAC<br>(See note 2.)|5 to 24 VDC|G3NA-490B-UTU-2 DC5-24|
|||||100 to 240 VAC|G3NA-490B-UTU-2 AC100-240|
||---||10 A at 5 to 200 VDC|5 to 24 VDC|G3NA-D210B DC5-24|
|||||100 to 240 VAC|G3NA-D210B AC100-240|



- The standard models are certified by UL and CSA. 

To order a TÜV-certified model for G3NA-205BN/210B/220B/240B/D210B, add “-UTU” to the model number. 

**Note: 1.** The applicable load is the value for when the SSR is used with silicon grease applied to the specified heat sink. The applicable load depends on the ambient temperature.  Refer to _Load Current vs. Ambient Temperature_ in _Engineering Data_ on page 6 _._ 

**2.** Loss time increases under 75 VAC. (Refer to page 15.) Confirm operation with the actual load. 

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**2** 

**G3NA** 

# ■ **Accessories (Order Separately) - One touch Mounting Plates** 

**Model** 

**R99-12 FOR G3NA** 

## **Mounting Bracket** 

|**Mounting**|**Bracket**|
|---|---|
|**Model**|**Applicable SSR**|
|**R99-11**|G3NA-240B, G3NA-440B(-2)|



## **Heat Sinks** 

## **Slim Models Enabling DIN-track Mounting** 

|**Model**|**Applicable SSR**|
|---|---|
|**Y92B-N50**|G3NA-205B, G3NA-210B, G3NA-D210B,<br>G3NA-410B, G3NA-210T(L)|
|**Y92B-N100**|G3NA-220B, G3NA-420B, G3NA-220T(L)|
|**Y92B-N150**|G3NA-240B, G3NA-440B-2|
|**Y92B-P250**|G3NA-450B-2|
|**Y92B-P250NF**<br>**(See note.)**|G3NA-275B-UTU-2, G3NA-290B-UTU-2,<br>G3NA-475B-UTU-2, G3NA-490B-UTU-2|



## **Low-cost Models** 

|**Model**|**Applicable SSR**|
|---|---|
|**Y92B-A100**|G3NA-205B, G3NA-210B, G3NA-D210B,<br>G3NA-220B, G3NA-410B, G3NA-420B|
|**Y92B-A150N**|G3NA-240B-2, G3NA-440B-2|
|**Y92B-A250**|G3NA-440B-2|



**Note:** The Y92B-P250NF is scheduled for release on May 1, 2004. 

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**3** 

**G3NA** 

## **S ecifications p** 

## ■ **Ratings** 

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

|**Model**|**Rated voltage**|**Operating**<br>**voltage**|**Impedance**<br>**(See note 1.)**|**Voltage level**|**Voltage level**|
|---|---|---|---|---|---|
|||||**Must operate voltage**|**Must release voltage**|
|**G3NA-2**@@**B**|5 to 24 VDC|4 to 32 VDC|7 mA max. (See note 2.)|4 VDC max.|1 VDC min.|
||100 to 120 VAC|75 to 132 VAC|36 kΩ±20% (See note 4.)|75 VAC max. (See note 3.)|20 VAC min. (See note 3.)|
||200 to 240 VAC|150 to 264 VAC|72 kΩ±20%|150 VAC max. (See note 3.)|40 VAC min. (See note 3.)<br>(See note 5.)|
|**G3NA-4**@@**B**<br>**G3NA-D210B**|5 to 24 VDC|4 to 32 VDC|5 mA max. (See note 2.)|4 VDC max.|1 VDC min.|
||100 to 240 VAC|75 to 264 VAC|72 kΩ±20%|75 VAC max.|20 VAC min.|
|**G3NA-275B-UTU-2**<br>**G3NA-290B-UTU-2**|5 to 24 VDC|4 to 32 VDC|15 mA max.|4 VDC max.|1 VDC min.|
||100 to 240 VAC|75 to 264 VAC|72 kΩ±20%|75 VAC max.|20 VAC min.|
|**G3NA-475B-UTU-2**<br>**G3NA-490B-UTU-2**|5 to 24 VDC|4 to 32 VDC|7 mA max.|4 VDC max.|1 VDC min.|
||100 to 240 VAC|75 to 264 VAC|72 kΩ±20%|75 VAC max.|20 VAC min.|



- **Note: 1.** The input impedance is measured at the maximum value of the rated supply voltage (for example, with the model rated at 100 to 120 VAC, the input impedance is measured at 120 VAC). 

   **2.** With constant current input circuit system. The impedance for the G3NA-2@@B-UTU is 15 mA max. 

   **3.** Refer to _Temperature Characteristics (for Must Operate Voltage and Must Release Voltage)_ in _Engineering Data_ on page 7 for further details. 

   **4.** The G3NA-240B(-UTU) is 72kΩ±20%. 

   **5.** The G3NA-240B(-UTU) is 20 VAC min. 

## **Output** 

|**Model**|**Rated load**<br>**voltage**|**Load voltage**<br>**range**|<br>**Load current(See note 1.)**|<br>**Load current(See note 1.)**|**Inrush current**|**VDRM, VCEO**<br>**(reference value)**|
|---|---|---|---|---|---|---|
||||**With heat sink**<br>**(See note 2.)**|**Without heat sink**|||
|**G3NA-205B**|24 to 240 VAC|19 to 264 VAC|0.1 to 5 A (at 40°C)|0.1 to 3 A (at 40°C)|60 A (60 Hz, 1 cycle)|600 V (VDRM)|
|**G3NA-210B**|||0.1 to 10 A (at 40°C)|0.1 to 4 A (at 40°C)|150 A (60 Hz, 1 cycle)||
|**G3NA-220B**|||0.1 to 20 A (at 40°C)|0.1 to 4 A (at 40°C)|220 A (60 Hz, 1 cycle)||
|**G3NA-240B**|||0.1 to 40 A (at 40°C)|0.1 to 6 A (at 40°C)|440 A (60 Hz, 1 cycle)||
|**G3NA-410B**|200 to 480 VAC|180 to 528 VAC|0.2 to 10 A (at 40°C)|0.2 to 4 A (at 40°C)|150 A (60 Hz, 1 cycle)|1,200 V (VDRM)|
|**G3NA-420B**|||0.2 to 20 A (at 40°C)|0.2 to 4 A (at 40°C)|220 A (60 Hz, 1 cycle)||
|**G3NA-440B-2**|||0.2 to 40 A (at 40°C)|0.2 to 6 A (at 40°C)|440 A (60 Hz, 1 cycle)||
|**G3NA-D210B**|5 to 200 VDC|4 to 220 VDC|0.1 to 10 A (at 40°C)|0.1 to 4 A (at 40°C)|20 A (10 ms)|400 V (VCEO)|
|**G3NA-275B-UTU-2**|24 to 240 VAC|19 to 264 VAC|1 to 75 A (at 40°C)|1 to 7 A (at 40°C)|800 A (60 Hz, 1 cycle)|600 V (VDRM)|
|**G3NA-290B-UTU-2**|||1 to 90 A (at 40°C)|1 to 7 A (at 40°C)|1,000 A (60 Hz, 1 cycle)||
|**G3NA-475B-UTU-2**|200 to 480 VAC|180 to 528 VAC|1 to 75 A (at 40°C)|1 to 7 A (at 40°C)|800 A (60 Hz, 1 cycle)|1,200 V (VDRM)|
|**G3NA-490B-UTU-2**|||1 to 90 A (at 40°C)|1 to 7 A (at 40°C)|1,000 A (60 Hz, 1 cycle)||



- **Note: 1.** The load current varies depending on the ambient temperature. Refer to _Load Current vs. Ambient Temperature_ under _Engineering Data_ on page 6. 

   **2.** When an OMRON Heat Sink (refer to _Options_ ) or a heat sink of the specified size is used. 

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**4** 

**G3NA** 

## ■ **Characteristics** 

|**Item**|**G3NA-**<br>**205B**|**G3NA-**<br>**210B**|**G3NA-**<br>**220B**|**G3NA-**<br>**240B**|**G3NA-**<br>**410B**|**G3NA-**<br>**420B**|**G3NA-**<br>**440B-2**|**G3NA-**<br>**450B-2**|**G3NA-**<br>**D210B**|**G3NA-**<br>**275B-**<br>**UTU-2**|**G3NA-**<br>**290B-**<br>**UTU-2**|**G3NA-**<br>**475B-**<br>**UTU-2**|**G3NA-**<br>**490B-**<br>**UTU-2**|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|**Operate time**|1/2 of load power source cycle + 1 ms max. (DC input)<br>3/2 of load power source cycle + 1 ms max. (AC input)||||||||1 ms<br>max. (DC<br>input)<br>30 ms<br>max. (AC<br>input)|1/2 of load power source cycle + 1 ms<br>max. (DC input)<br>3/2 of load power source cycle + 1 ms<br>max. (AC input)||||
|**Release time**|1/2 of load power source cycle + 1 ms max. (DC input)<br>3/2 of load power source cycle + 1 ms max. (AC input)||||||||5 ms<br>max. (DC<br>input)<br>30 ms<br>max. (AC<br>input)|1/2 of load power source cycle + 1 ms<br>max. (DC input)<br>3/2 of load power source cycle + 1 ms<br>max. (AC input)||||
|**Output ON**<br>**voltage drop**|1.6 V (RMS) max.||||1.8 V (RMS) max.||||1.5 V<br>max.|1.6 V (RMS) max.||1.8 V (RMS) max.||
|**Leakage**<br>**current**|5 mA max. (at 100 VAC)<br>10 mA max. (at 200 VAC)||||10 mA max. (at 200 VAC)<br>20 mA max. (at 400 VAC)||||5 mA<br>max.<br>(at 200<br>VDC)|5 mA max. (at<br>100 VAC)<br>10 mA max. (at<br>200 VAC)||10 mA max. (at<br>200 VAC)<br>20 mA max. (at<br>400 VAC)||
|**Insulation**<br>**resistance**|100 MΩmin. (at 500 VDC)|||||||||||||
|**Dielectric**<br>**strength**|2,500 VAC, 50/60 Hz for 1 min|||||||||4,000 VAC, 50/60 Hz for 1 min||||
|**Vibration**<br>**resistance**|Destruction: 10 to 55 to 10 Hz, 0.75-mm single amplitude (1.5-mm double amplitude)|||||||||||||
|**Shock**<br>**resistance**|Destruction: 1,000 m/s2|||||||||||||
|**Ambient**<br>**temperature**|Operating:<br>–30°C to 80°C (with no icing or condensation)<br>Storage:<br>–30°C to 100°C (with no icingor condensation)|||||||||||||
|**Ambient**<br>**humidity**|Operating: 45% to 85%|||||||||||||
|**Weight**|Approx. 60 g|||Approx.<br>70g|Approx. 80 g||||Approx.<br>70g|Approx. 120 g||||



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**5** 

**G3NA** 

## **En ineerin Data g g** 

## **Load Current vs. Ambient Temperature** 

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G3NA-205B G3NA-210B/410B G3NA-220B/420B<br>TOOL 20 .<br>16<br>With standard heat sink  10<br>(Y92B-A100 or  With standard heat sink  With standard heat sink<br>a Y92B-N50) or aluminum  — [ (Y92B-A100 or  TELL (Y92B-A100 or<br>plate measuring 75 mm x 75 mm x t3.2 mm  8 Y92B-N50) or aluminum plate measuring 150 mm  Y92B-N100) or aluminum plate measuring 200 mm<br>Po (W x H x t) x 150 mm x t3.2 mm  PX x 200 mm x t3.2 mm  PE<br>Without heat sink 6 (W x H x t) (W x H x t)<br>5 With iron plate measuring  With iron plate measuring<br>4 100 x 100 x t0.8 (W x H x t) 100 x 100 x t0.8 (W x H x t)<br>| NN Without heat sink N "0 \<br>2<br>Without heat sink<br>Hoh S 0 aN EES |<br>Ambient temperature (°C) Ambient temperature (°C) Ambient temperature (°C)<br>G3NA-240B  G3NA-440B-2 G3NA-450B-2<br>50  50  60<br>45  45  With Y92B-A250<br>or heat sink with a<br>40  40  radiation efficiency of 1°C/W.  50  With standard heat sink<br>With standard heat  (Y92B-P250)<br>sink (Y92B-A150N or  40<br>30  HP Y92B-N150)   EE d 30  —— With standard heat  ee<br>sink (Y92B-A150N<br>or Y92B-N150)  30<br>20  20  \ OO P<br>20<br>With iron plate measuring  With iron plate measuring<br>12  100 x 100 x t0.8 (W x H x t)  12  100 x 100 x t0.8 (W x H x t)<br>10 6 4  Without heat sink  10 6 4  Without heat sink  10 6  Without heat sink<br>−2 0 30  io −20  0  20  ns 40  60  80  100  −2 0 30  == −20  0  20  40  60  80  100  −0 30  Po −20  0  20  40  60  o 80  100<br>°<br>° ° Ambient temperature ( C)<br>Ambient temperature ( C)  Ambient temperature ( C)<br>G3NA-275B-UTU-2 G3NA-290B-UTU-2<br>G3NA-475B-UTU-2 G3NA-490B-UTU-2 G3NA-D210B<br>80  100  20<br>75<br>70  0.6°C/W with  90<br>Heat Sink  0.3°C/W with<br>80  Heat Sink  10<br>60<br>70  With standard heat sink<br>(Y92B-A100 or Y92B-N50)<br>50  mo N 60  feceSEE) PA or aluminum plate measuring  E<br>150 mm x 150 mm x t3.2 mm<br>40  Using the Y92B-P250NF  50  Using the Y92B-P250NF  6  (W x H x t)<br>40  5  With iron plate measuring<br>30  APA 35  ee 4  [S 100 x 100 x t0.8 (W x H x t)  S E<br>30  Without heat sink<br>20  With iron plate measuring<br>100 x 100 x t0.8 (W x H x t)  20  With iron plate measuring<br>12  100 x 100 x t0.8 (W x H x t)  2<br>10  J) 12  peel) GE S<br>2 −7 030  EH −20 Without heat sink 0  20  40  60 70 80 4A 100  2 −7 030  =| −20  Without heat sink  0  20  40  60 70 80 4A 100  −0 30  Tee −20  0  20  40  60  | 80  100<br>Ambient temperature (°C)  Ambient temperature (°C)  Ambient temperature (°C)<br>Note:  The ambient operating temperature of the Y92B-P250NF is<br>−30 to 70°C. Be sure the operating temperature is within this range.<br>Load current (A) Load current (A) Load current (A)<br>Load current (A)  Load current (A)  Load current (A)<br>Load current (A)  Load current (A)  Load current (A)<br>**----- End of picture text -----**<br>


**6** omRON ~~a~~ 

**G3NA** 

## **One Cycle Surge Current** 

The values shown by the solid line are for non-repetitive inrush currents. Keep the inrush current below the values shown by the dotted line if it occurs repetitively. 

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G3NA-210B G3NA-220B G3NA-240B<br>G3NA-205B G3NA-410B G3NA-420B G3NA-440B-2/-450B-2<br>60 150<br>200 400<br>150 300<br>40 100<br>100 200<br>20 50<br>50 100<br>010 30 50 100 200 500 1,000 5,000 010 30 50 100 200 500 1,000 5,000 010 30 50 100 200 500 1,000 5,000 010 30 50 100 200 500 1,000 5,000<br>Energized time (ms) Energized time (ms) Energized time (ms) Energized time (ms)<br>G3NA-275B-UTU-2 G3NA-290B-UTU-2<br>G3NA-D210B G3NA-475B-UTU-2 G3NA-490B-UTU-2<br>30 900 1,200<br>28<br>26 800<br>24 700 1,000<br>22<br>20 600 800<br>18<br>16 500<br>600<br>14 400<br>12<br>10 300 400<br>8<br>6 200<br>4 100 200<br>2<br>0 0 0<br>10 20 30 50 70 100 200 300 500 1,000 2,000 10 30 50 100 300 1,000 10 30 50 100 300 1,000<br>Energized time (ms) Energized time (ms) Energized time (ms)<br>Temperature<br>Characteristics<br>(for Must Operate<br>Voltage and Must  Heat Sink Area<br>Release Voltage) vs. Load Current<br>G3NA-2 @@ B AC input G3NA-220B<br>40 3,000<br>2,000 Ambient  Ambient<br>temperature 80°C temperature 40°C<br>1,000<br>20 700<br>500<br>Note:  The heat sink area refers to the combined area<br>300<br>0 200 of the sides of the heat sink that radiate heat.<br>Aluminum plate  For example, when a current of 18 A is allowed<br>−20 1007050 3.2 mm thick to flow through the SSR at 40shows that the heat sink area is about 450 cm°C, the graph  [2] .<br>30 Therefore, if the heat sink is square, one side of<br>20<br>−40 the heat sink must be 15 cm (                      ) or 450 (cm [2] )/2<br>−30 −20 0 Ambient temperature (20 40 60 80 °100C) 0 2 4 6 8 10 12 14 16 18 20 22 24 longer.<br>Load current (A)<br>Inrush current (A peak) Inrush current (A peak) Inrush current (A peak) Inrush current (A peak)<br>Inrush current (A peak) Inrush current (A peak) Inrush current (A peak)<br>Variation rate (%) Heat sink area (cm2)<br>**----- End of picture text -----**<br>


## **Thermal Resistance Rth (Back of Junction SSR) (Examples)** 

|**Model**|**Rth (**°**C/W)**|
|---|---|
|G3NA-205B|3.22|
|G3NA-210B|2.62|
|G3NA-220B|1.99|
|G3NA-240B|0.45|
|G3NA-275B-UTU-2<br>G3NA-475B-UTU-2<br>G3NA-290B-UTU-2<br>G3NA-490B-UTU-2|0.45|
|G3NA-D210B|2.62|



## **Thermal Resistance Rth of Heat Sinks (Examples)** 

|**(Examples)**||
|---|---|
|**Model**|**Rth (**°**C/W)**|
|Y92B-N50|2.8|
|Y92B-N100|1.63|
|Y92B-N150|1.38|
|Y92B-A100|1.63|
|Y92B-A150N|1.37|
|Y92B-A250|1.00|
|Y92B-P250NF|0.46|



**Note:** When using a commercially available heat sink, use one with a thermal resistance equal to or less that the OMRON Heat Sink. 

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**7** 

**G3NA** 

## **Dimensions** 

## ■ **Relays** 

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

## **G3NA-D210B, G3NA-205B, G3NA-210B, G3NA-220B** 

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11.9 Four, M4 x 8<br>4.5 dia. screws<br>m<br>58 max. 47.5 44<br>Operating  15.8<br>4.5 —! indicator 25 max.<br>25 27 max.<br>43 max.<br>Note:  The load can be connected to either the positive or negative side.<br>**----- End of picture text -----**<br>


## **G3NA-240B, G3NA-275B-UTU-2, G3NA-290B-UTU-2, G3NA-440B-2, G3NA-475B-UTU-2, G3NA-490B-UTU-2** 

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11.9<br>4.5 dia. Two, M5 x 12 screws<br>58 min. 47.5 44<br>Operating<br>indicator<br>ahbe 18.9<br>4.5  28 max.<br>25  ~ Two,<br>43 max.  M 4 x 8  30 max.<br>**----- End of picture text -----**<br>


## **G3NA-410B, G3NA-420B** 

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11.9 Four, M4 x 8<br>4.5 dia. screws<br>m<br>oa<br>58 max. 47.5 44<br>Operating  18.9<br>4.5 _ indicator 28 max.<br>25<br>30 max.<br>43 max.<br>**----- End of picture text -----**<br>


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Mounting Holes<br>(Same for all models.)<br>**----- End of picture text -----**<br>


## **Terminal Arrangement/ Internal Connections** 

(Top View) 

## **DC load** 

## **AC load** 

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(G3NA-D210B(-UTU) only) (All models except those given on the left.)<br>(See Note.)<br>Two, 4.3-dia.  Load Load<br>Lf or M4 holes | Load  L _] Load<br>power  power<br>supply supply<br>Output Output<br>1 2 1 2<br>− +<br>47.6±0.2<br>(−) (+) (−) (+)<br>I 4 3 ; 4 3 |<br>Input Input<br>Note: When connecting the load, either the<br>positive or negative side of the load<br>terminals can be connected.<br>**----- End of picture text -----**<br>


**8** 

**G3NA** 

## ■ **Options (Order Separately) -** ~~ee~~ **One touch Mounting Plate** 

The One-touch Mounting Plate is used to mount the GN3A to a DIN Track. 

To mount the Relay to DIN Track, first mount it to the One-touch Mounting Plate and then attach it to the DIN Track as shown in the diagram. 

## **R99-12 FOR G3NA (for the G3NA and G3NE)** 

**==> picture [133 x 280] intentionally omitted <==**

**----- Start of picture text -----**<br>
Four, M4 mounting<br>holes for the G3NA<br>44 13.5<br>30 1.6<br>81 47.5 35<br>Two, M3 mounting<br>holes for the G3NE<br>16<br>8<br>5<br>12.5  |<br>21<br>4  Ht 4.6<br>**----- End of picture text -----**<br>


## **Mounting Bracket** 

**R99-11 (for the G3NA-240B, G3NA-440B-2)** 

Use Mounting Bracket R99-11 so that the G3NA-240B/-440B can be mounted with the same pitch as that of the G3N-240B. 

To remove the Relay from the DIN Track, pull down on the tab with a screwdriver in the direction of the arrow. 

- When a Relay is mounted to DIN Track, use it within the rating for a Relay without a heat sink. 

- Use the following DIN Tracks: PFP-100N or PFP-100N2. 

**==> picture [8 x 6] intentionally omitted <==**

**----- Start of picture text -----**<br>
56<br>**----- End of picture text -----**<br>


## **Heat Sinks** 

**Y92B-N50 Heat Sink (for the G3NA-205B, G3NA-210B, G3NA-D210B, G3NA-410B, G3NE-210T(L))** For surface mounting, a 30% derating of the load current is required (from the _Load Current vs. Ambient Temperature_ graphs). For mounting method, refer to "Precautions for Correct Use". 

**==> picture [226 x 233] intentionally omitted <==**

**----- Start of picture text -----**<br>
35 Mounting Holes<br>30.5 Two, 4.4-dia.<br>±0.3 or M4 holes<br>4.6 dia.<br>100  77<br>max. max.<br>90±0.4<br>90±0.3 47.6 Two, M3 holes<br>Two, M4 holes<br>5.6 35±0.2<br>Weight: approx. 200 g<br>44<br>max.<br>5 30<br>Two, 3.2-dia. holes<br>51<br>6<br>max.<br>4.5 47<br>max.<br>**----- End of picture text -----**<br>


**9** omrRON ~~a~~ 

**G3NA** 

## **Y92B-N100 Heat Sink (for the G3NA-220B, G3NA-420B, G3NE-220T(L))** 

For surface mounting, a 30% derating of the load current is required (from the _Load Current vs. Ambient Temperature_ graphs). For mounting method, refer to "Precautions for Correct Use". 

**==> picture [343 x 242] intentionally omitted <==**

**----- Start of picture text -----**<br>
35 Mounting Holes<br>30.5 Two, 4.4-dia.<br>±0.3 or M4 holes<br>4.6 dia.<br>100  77<br>max. max.<br>90±0.4<br>90 47.6<br>±0.3 Two, M3 holes<br>Two, M4 holes<br>w T<br>5.6 35±0.2<br>71 max. Weight: approx. 400 g<br>30<br>28 Two, 3.2-dia. holes<br>100<br>max.<br>5<br>13<br>4.5 75 max.<br>**----- End of picture text -----**<br>


## **Y92B-N150 Heat Sink (for the G3NA-240B, G3NA-440B-2)** 

For surface mounting, a 30% derating of the load current is required (from the _Load Current vs. Ambient Temperature_ graphs). For mounting method, refer to "Precautions for Correct Use". 

**==> picture [253 x 236] intentionally omitted <==**

**----- Start of picture text -----**<br>
Mounting Holes<br>35<br>Two, 4.4-dia.<br>4.6 dia. or M4 holes<br>100  77<br>max. max.<br>47.6<br>90 56<br>±0.3 ±0.3<br>Three,<br>M4 holes<br>5.6<br>100 max. Weight: approx. 560 g<br>30<br>Two, 3.2-dia. holes<br>28<br>100<br>max.<br>5<br>13<br>H U<br>4.5 104 max.<br>**----- End of picture text -----**<br>


## **Y92B-P250NF Heat Sink (for the G3NA-275B-UTU(-2), G3NA-475B-UTU(-2), G3NA-290B-UTU(-2), G3NA-490B-UTU(-2))** 

For mounting method, refer to "Precautions for Correct Use". 

**==> picture [394 x 141] intentionally omitted <==**

**----- Start of picture text -----**<br>
Mounting Holes<br>Fan power supply, 200 VAC  50/60 Hz<br>1 72 max. 133.4 64 [±][0.3]<br>166 max. 1 20 max. —~ _f7<br>120 105<br>M4 130 [±][0.3]<br>80 max. 64 110max.<br>Two, 4.6-dia. holes<br>47.6 Two, M4 holes ThermostatNC contact, 90°C Weight: approx. 2.5 kg Two, 4.5-dia. or M4 holes<br>**----- End of picture text -----**<br>


**10** omRON ~~a~~ 

**G3NA** 

**==> picture [416 x 214] intentionally omitted <==**

**----- Start of picture text -----**<br>
Y92B-P250 ae<br>Two, M4 Depth 10 Four, M4 Mounting Holes<br>Four, 4.5 dia. or M4<br>47.6 190.5 max.<br>La li =<br>Four, R2.5<br>130.5 max.<br>as<br>70 max.<br>**----- End of picture text -----**<br>


**==> picture [489 x 257] intentionally omitted <==**

**----- Start of picture text -----**<br>
Y92B-A100 Heat Sink<br>(for the G3NA-205B,<br>G3NA-210B,<br>G3NA-220B,  Y92B-A150N Heat Sink  Y92B-A250 Heat Sink<br>G3NA-410B,  (for the G3NA-240B,  (for the G3NA-440B-2)<br>G3NA-420B,  G3NA-440B-2)<br>G3NA-D210B)  Three, M4 holes  Three, M4 holes<br>Two, M4 holes<br>102 max.<br>80.5 max.<br>R2.2  47.6  R2.2  47.6  1.5<br>9.6<br>2<br>47.6  50±0.1  50±0.1  1.5<br>S 50 S ±0.1  S S S 56±0.5  S Se 56±0.5  45.5 max. 30<br>100 max.  150 max.  250 max.<br>Weight: approx. 210 g  Weight: approx. 310 g  Weight: approx. 510 g<br>i Mounting Holes  e s l e st<br>Y92B-A100<br>Y92B-A150<br>Y92B-A250<br>0.1  0.1 ± 0.1 ±<br>± 90 90<br>90<br>**----- End of picture text -----**<br>


**==> picture [82 x 7] intentionally omitted <==**

**----- Start of picture text -----**<br>
Four, 4.3-dia. or M4 holes<br>**----- End of picture text -----**<br>


For surface mounting, a 30% derating of the load current is required (from the _Load Current vs. Ambient Temperature_ graphs). For mounting method, refer to "Precautions for Correct Use". 

**11** omRON ~~a~~ 

**G3NA** 

## **Safet Precautions y** 

Refer to _Safety Precautions for All Solid State Relays_ . 

## ! **CAUTION** 

Touching the charged section may occasionally cause minor electric shock. Do not touch the G3NA terminal section (the charged section) when the power supply is ON. Be sure to attach the cover before use. 

## ! **CAUTION** 

The G3NA and heat sink will be hot and may occasionally cause minor burns. Do not touch the G3NA or the heat sink either while the power supply is ON, or immediately after the power is turned OFF. 

## ! **CAUTION** 

The internal snubber circuit is charged and may occasionally cause minor electric shock. Do not touch the G3NA’s main circuit terminals immediately after the power is turned OFF. 

## ! **CAUTION** 

Be sure to conduct wiring with the power supply turned OFF, and always attach the terminal cover after completing wiring. Touching the terminals when they are charged may occasionally result in minor electric shock. 

## ! **CAUTION** 

Do not apply a short-circuit to the load side of the G3NA. The G3NA may rupture. To protect against short-circuit accidents, install a protective device, such as a quick-burning fuse, on the power supply line. 

## ■ **Precautions for Safe Use** 

Although OMRON continuously strives to improve the quality and reliability of our relays, the G3NA contains semiconductors, which are generally prone to occasional malfunction and failure. Maintaining safety is particularly difficult if a relay is used outside of its ratings. Always use the G3NA within the rated values. When using the G3NA, always design the system to ensure safety and prevent human accidents, fires, and social damage even in the event of G3NA failure, including system redundancy, measures to prevent fires from spreading, and designs to prevent malfunction. 

**1.** G3NA malfunction or fire damage may occasionally occur. Do not apply excessive voltage or current to the G3NA terminals. 

**2.** Heat Dissipation 

   - Do not obstruct the airflow to the G3NA or heat sink. Heat generated from an G3NA error may occasionally cause the output element to short, or cause fire damage. 

   - Be sure to prevent the ambient temperature from rising due to the heat radiation of the G3NA. If the G3NA is mounted inside a panel, install a fan so that the interior of the panel is fully ventilated. 

   - Mount the G3NA in the specified orientation. If the G3NA is mounted in any other orientation, abnormal heat generation may cause output elements to short or may cause burning. 

   - Do not use the G3NA if the heat sink fins are bent, e.g., as the result of dropping the G3NA. Heat dissipation characteristics will be reduced, possibly causing G3NA failure. 

**3.** Wire the G3NA and tighten screws correctly, observing the following precautions 

   - Heat generated by a terminal error may occasionally result in fire damage. Do not operate if the screws on the output terminal are loose. 

   - Abnormal heat generated by wires may occasionally result in fire damage. Use wires suitable for the load current. 

   - Abnormal heat generated by terminals may occasionally result in fire damage. Do not operate if the screws on the output terminal are loose. 

Tightening Torque 

|**Screw size**|**Tightening torque**|
|---|---|
|M4|1.2 N⋅m|
|M5|2.0 N⋅m|



   - Abnormal heat generated by terminals may occasionally result in fire damage. When tightening terminal screws, be sure that no non-conductive foreign matter is caught in screw. 

   - For GN3A Relays of 40 A or higher, use crimp terminals of an appropriate size for the wire diameter for M5 terminals. 

   - Do not use any wires with damaged sheaths. These may cause electric shock or leakage. 

   - Do not place wiring in the same conduit or duct as high-voltage lines. Induction may cause malfunction or damage. 

   - Use wires of an appropriate length, otherwise malfunction and damage may result due to induction. 

   - Mount the DIN Track securely. Otherwise, the DIN Track may fall. 

   - Be sure that the G3NA clicks into place when mounting it to DIN Track. The G3NA may fall if it is not mounted correctly. 

   - Do not mount the G3NA when your hands are oily or dirty, e.g., with metal powder. These may cause G3NA failure. 

   - Tighten the G3NA screws securely. Tightening torque: 0.78 to 0.98 N⋅m 

   - Tighten the heat sink screws securely. Tightening torque: 0.98 to 1.47 N⋅m 

**4.** Preventing Overheating 

When using the High-capacity Heat Sink (Y92B-P250NF), always use a thermostat or other method to protect from overheating in the event that the fan stops. 

**5.** Do Not Touch Fan Blades 

When the fan is operating, do not touch the fan blades with any part of your body or allow foreign matter to come into contact with the blades. Always attach the enclosed finger guard when using the G3NA. 

   **6.** Operating Conditions 

      - Only use the G3NA with loads that are within the rated values. Using the G3NA with loads outside the rated values may result in malfunction, damage, or burning. 

      - Use a power supply within the rated frequency range. Using a power supply outside the rated frequency range may result in malfunction, damage, or burning. 

   **7.** Do not transport the G3NA under the following conditions. Failure or malfunction may occur. 

      - Conditions under which the G3NA will be exposed to water 

      - High temperatures or high humidity 

      - Without proper packing 

- Apply a thin layer of Momentive Performance Materials’s YG6260 or Shin-Etsu Chemical’s G747, or a similar product to the heat sink before mounting 

- If a material with high thermal resistance, such as wood, is used, heat generated by the G3NA may occasionally cause fire or burning. When installing the G3NA directly into a control panel so that the panel can be used as a heat sink, use a panel material with low thermal resistance, such as aluminum or steel. 

- Use the specified heat sink or one with equivalent or better characteristics. 

**==> picture [539 x 34] intentionally omitted <==**

**12** 

**G3NA** 

## **Operating and Storage Locations** 

Do not use or store the G3NA in the following locations. Doing so may result in damage, malfunction, or deterioration of performance characteristics. 

- Do not use or store in locations subject to direct sunlight. 

- Do not use in locations subject to ambient temperatures outside the range –20 to 60°C. 

- Do not use in locations subject to relative humidity outside the range 45% to 85% or locations subject to condensation as the result of severe changes in temperature. 

- Do not store in locations subject to ambient temperatures outside the range –30 to 70°C. 

- Do not use or store in locations subject to corrosive or flammable gases. 

- Do not use or store in locations subject to dust (especially iron dust) or salts. 

- Do not use or store in locations subject to shock or vibration. 

- Do not use or store in locations subject to exposure to water, oil, or chemicals. 

- Do not use or store in locations subject to high temperatures or high humidity. 

- Do not use or store in locations subject to salt damage. 

- Do not use or store in locations subject to rain or water drops. 

## ■ **Precautions for Correct Use** 

Please observe the following precautions to prevent failure to operate, malfunction, or undesirable effect on product performance. 

## **Before Actual Operation** 

**1.** The G3NA in operation may cause an unexpected accident. Therefore it is necessary to test the G3NA under the variety of conditions that are possible. As for the characteristics of the G3NA, it is necessary to consider differences in characteristics between individual SSRs. 

**2.** Unless otherwise specified, 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 88 and 106 kPa (standard test conditions according to JIS C5442). 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 G3NAs. 

## **Mounting Method** 

**Note:** The same method in case not use heatsink. 

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

The correct mounting direction is vertical as below figure. 

**==> picture [180 x 138] intentionally omitted <==**

**----- Start of picture text -----**<br>
Duct<br>—_—_—OE<br>60 mm min.<br>SSR o| ()<br>\C_]<br>Vertical direction<br>30 mm min.<br>E r ae +<br>80 mm min.<br>| Cc<br>**----- End of picture text -----**<br>


## **Relationship between SSRs and Duct Height** 

**==> picture [241 x 174] intentionally omitted <==**

**----- Start of picture text -----**<br>
Incorrect Example Countermeasure 1 Countermeasure 2<br>50 mm max.<br>Duct  (A height of no<br>more than half Duct<br>the SSR's height<br>is recommended.)<br>: £—100mm— SSR SSR Airflow SR<br>Vertical Base<br>direction<br>Duct  Duct  Duct<br>Do not surround the SSR  Use short ducts. If the ducts cannot be<br>with ducts, otherwise the  shortened, place the SSR on<br>heat radiation of the SSR  a metal base so that it is not<br>will be adversely affected. surrounded by the ducts.<br>Mounting surface Mounting surface Mounting surface<br>**----- End of picture text -----**<br>


## **Ventilation Outside the Control Panel** 

**==> picture [185 x 115] intentionally omitted <==**

**----- Start of picture text -----**<br>
Be aware of airflow<br>Duct<br>Ventilation<br>outlet<br>(axial fan)<br>(2) S<br>7 EISR|- SsSR 0<br>| oy<br>Air inlet<br>**----- End of picture text -----**<br>


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. 

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

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

- Please reduce the ambient temperature of SSRs. 

- The rated load current of an SSR is measured at an ambient temperature of 40°C. 

- An SSR uses a semiconductor in the output element. This causes the temperature inside the control panel to increase due to heating resulting from the passage of electrical current through the load. To restrict heating, attach a fan to the ventilation outlet or air inlet of the control panel to ventilate the panel. This will reduce the ambient temperature of the SSRs and thus increase reliability. (Generally, each 10 °C reduction in temperature will double the expected life.) 

|**Load current (A)**|**5 A**|**10 A**|**20 A**|**40 A**|**75 A**|**90 A**|
|---|---|---|---|---|---|---|
|**Required number**<br>**of fans per SSR**|0.08|0.16|0.31|0.62|1.2<br>1.44|1.44|



Example: For 10 SSRs with load currents of 10 A, 0.16 x 10 = 1.6 

Thus, 2 fans would be required. 

Size of fans: 92 mm[2] , Air volume: 0.7 m[3] /min, Ambient temperature of control panel: 30 °C 

If there are other instruments that generate heat in the control panel other than SSRs, additional ventilation will be required. 

**13** 

**G3NA** 

## **- - High capacity Heat Sink (Y92B P250NF)** 

## **DIN-track Mounting** 

- Assembled DIN Tracks are heavy. Mount the DIN Tracks securely. Be sure that the Heat Sink is securely locked to the DIN Track. 

- Attach End Plates (PFP-M, order separately) to both ends of the Units on the DIN Track to hold them in place. 

- To mount a Heat Sink to a DIN Track, press down at the point indicated by arrow 1 in the diagram and then press in the Heat Sink at the point indicated by arrow 2. 

**==> picture [116 x 109] intentionally omitted <==**

**----- Start of picture text -----**<br>
Vertical<br>**----- End of picture text -----**<br>


## **Applicable DIN Track** 

Mounting is possible on TE35-15Fe (IEC 60715) DIN tracks. DIN tracks from the following manufacturers can be used. 

|**Manufacturer**|**Thickness: 1.5 mm**|**Thickness: 2.3 mm**|
|---|---|---|
|Schneider|AM1-DE2000|---|
|WAGO|210-114 or 210-197|210-118|
|PHOENIX|N35/15|N35/15/15-2.3|



## **Direct Mounting** 

- Prepare mounting holes as shown in the diagram. Tightening torque: 0.98 to 1.47 N⋅m 

**==> picture [89 x 103] intentionally omitted <==**

**----- Start of picture text -----**<br>
64 [±][0.3]<br>130 [±][0.3]<br>Four, 4.5 dia. or M4 holes<br>**----- End of picture text -----**<br>


- When mounting a Heat Sink directly, first remove the Fan Unit, then mount the Heat Sink by itself before attaching the Fan Unit again. (Remove the two screws shown in the following diagram.) 

|||Remove|screws|screws|screws|screws|screws||||Fan Unit|Fan Unit||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|||||||||||||||||||||
|||||||||||||||||||||
|||||||||||||||||||||
|||||||||||||||||||||
|||||||||||||||||||||
|||||||||||||||||||||
|||||||||||||||||||||
|||||||||||||||||||||
||||Heat|||Sink||||||||||||||



- First, temporarily mount the Heat Sink with the bottom two screws and then attach the top two screws with the mounting bracket sandwiched between the Heat Sink and mounting surface. Finally, tighten all four screws. 

## **- Ratings and Characteristics of High - capacity Heat Sink (Y92B P250NF)** 

## **Fan Ratings** 

|**Rated voltage**|200 V|
|---|---|
|**Operating voltage**|85% to 110% of rated voltage|
|**Frequency**|50/60 Hz|
|**Rated current**<br>**(See note.)**|0.061 A at 50 Hz<br>0.052 A at 60 Hz|
|**Rated speed**<br>**(See note.)**|2,600 r/min at 50 Hz<br>3,050 r/min at 60 Hz|



**Note:** Average values. 

## **Thermostat Ratings** 

|**Operating temperature**|**Operating temperature**|Approx. 90°C|
|---|---|---|
|**Contact ratings**||8 A at 250 VAC, resistive load<br>5 A at 30 VDC, resistive load|
|**Fan Characteristics**|||
|**Motor type**|Single-phase shading coil induction motor<br>(2-pole, open type)||
|**Terminal type**|Terminals||
|**Insulation class**|IEC class B (130°C)<br>UL class A (105°C)<br>CSA class A (105°C)||
|**Insulation**<br>**resistance**|100 MΩmin. (at 500 VDC) between all power<br>supplyconnections and uncharged metal parts.||
|**Insulation**<br>**withstand voltage**|2,000 VAC (1 minute) between all power supply<br>connections and uncharged metal parts.||
|**Ambient operating**<br>**temperature**|−30 to 70°C (no icing)||
|**Ambient storage**<br>**temperature**|−40 to 85°C (no icing)||
|**Ambient humidity**|25 to 85%||
|**Protection**|Impedance protection||
|**Materials**|Frame : Die-cast aluminum<br>Blades : Glass polycarbonate||
|**Bearings**|Ball bearings||
|**Weight**|Approx. 300g||
|**Compliant standards**|PSE, EN/IEC 60335 (CE markingcompliant)||
|**Certified standards**|UL/CSA (pending)||



- Use a commercial power supply (50/60 Hz) for the Fan. 

- Be sure to turn OFF the power supply and wait for the blades to stop before inspecting the Fan. 

- High-precision ball bearings are used in the fan and these may be damaged if the Fan is dropped or otherwise subjected to shock. The life and characteristics of the Fan will be reduced if the bearings are damaged. Do not subject the Fan to shock. 

- The life of the Fan depends on the ambient temperature, As a guideline, the Fan life is 40,000 hours for continuous usage at 40°C. 

- Be sure there are no objects near the air vents that would restrict air flow and no loose objects, such as electrical lines. 

- The Fan is an OMRON R87F-A4A-93HP (200 VAC) Fan. Use the same model of Fan for replacement. 

- The recommended tightening torque for the Fan is 0.44 N⋅m. 

- Terminals equivalent to Faston #110 are used for the Fan power supply terminals. 

- Refer to the following table for the OMRON Fan power supply plug cables (order separately). 

|**Cable**<br>**length**|**UL certified**|**Complies with Electrical Appliance**<br>**and Material Safety Law (Japan)**|
|---|---|---|
|1 m|R87F-PC|R87F-PCJT|
|2 m|R87F-PC-20|R87F-PCJT-20|



- Connect the ground screw hole on the fan to **PE** . 

**==> picture [539 x 34] intentionally omitted <==**

**14** 

**G3NA** 

## **- Preventing Overheating with a High - capacity Heat Sink (Y92B P250NF)** 

- When the High-capacity Heat Sink is used, high-capacity switching at 75 A or 90 A requires forced cooling with a fan. Connect the Fan to a power supply according to its ratings specifications. 

- If the Fan stops due to a power supply error, due to foreign matter in the power supply connection, or due to aging, the Heat Sink will heat to high temperatures, possibly resulting in failure of the SSR or adverse affects on other devices. Implement an overheating prevention measure, such as turning OFF the load current, if the Heat Sink overheats. 

- A thermostat is provided to detect overheating. The thermostat uses a NC contact, i.e., the circuit will be opened for overheating. This thermostat can be used to stop the operation of the SSR. Implement an overheating prevention measure by using this signal to output an alarm or perform another response applicable to the system. Also, confirm that there is no problem with the overall system. 

- Do not connect the thermostat directly to the load power supply. Connect it to a contactor or other shutoff device connected above the SSR. 

- Terminals equivalent to Faston #187 are used for the thermostat terminals. 

- Do not place heat-dissipating silicon grease on the thermostat. 

- Do not solder the thermostat terminals. 

- The following diagram shows a protective circuit example. 

**==> picture [235 x 89] intentionally omitted <==**

**----- Start of picture text -----**<br>
Circuit breaker<br>(contact side)<br>Circuit breaker<br>(coil side) Thermostat Y92B-P250NF Load<br>Coil  (NC contact)<br>power<br>supply G3NA Load side<br>Input side<br>Circuit<br>breaker<br>**----- End of picture text -----**<br>


## **- Ventilating a High capacity Heat Sink - (Y92B P250NF)** 

- Refer to _Ventilation Outside the Control Panel_ . 

## **Operating Conditions** 

- Do not apply currents exceeding the rated current otherwise, the temperature of the G3NA may rise excessively. 

- As protection against accidents due to short-circuiting, be sure to install protective devices, such as fuses and no-fuse breakers, on the power supply side. 

- Do not apply overvoltages to the input circuit or output circuit. Failure or burning may result. 

- Do not drop the G3NA or otherwise subject it to abnormal shock. Malfunction or failure may result. 

- Keep the cooling system running continuously during the ON/OFF operation of the SSR. This is to allow residual heat to dissipate while the SSR is OFF. (load current 75 A, 90 A models) 

- The Y92B-P250NF is a Class 1 device. 

If compliance with EU standards is required, ground the Y92B-P250NF. 

- Use the ground terminal on the Heat Sink. Screw size: M5 Tightening torque: 2 N·m Do not use the ground terminal on the fan. 

## **2.** DC-switching models 

**==> picture [163 x 48] intentionally omitted <==**

**----- Start of picture text -----**<br>
Less than 3 m<br>Lo a d<br>Input G3NA-UTU Output<br>• The input cable must be less than 3 m.<br>**----- End of picture text -----**<br>


## **Loss Time** 

The loss time will increase when the G3NA is used at a low applied voltage or current. Be sure that this does not cause any problems. 

**==> picture [164 x 71] intentionally omitted <==**

**----- Start of picture text -----**<br>
Loss time<br>**----- End of picture text -----**<br>


## **Using DC Loads** 

For a DC or L load, a diode should be connected in parallel the load to absorb the counter electromotive force of the load. 

**==> picture [202 x 48] intentionally omitted <==**

**----- Start of picture text -----**<br>
Load<br>Input SSR Load power<br>supply<br>**----- End of picture text -----**<br>


## **Fuses** 

Connect a quick-break fuse in series with the load as a short-circuit protection measure. Use one of the fuses in the following table or one with equivalent or better characteristics. 

## **Recommended Fuses** 

|**G3NA rated**<br>**load current**|**Fuse model**|**Manufacturer**|**Applicable SSR**|
|---|---|---|---|
|5 A|60LFF5|HINODE ELECTRIC<br>CO.,LTD.|G3NA-205B|
|8 A|60LFF8||G3NA-210B|
|10 A|60LFF10|||
|15 A|60LFF15||G3NA-220B|
|20 A|60LFF20<br>50SHA20|||
|25 A|60PFF25<br>50SHA25||G3NA-240B|
|30 A|60PFF30<br>50SHA30|||
|40 A|50SHA40|||
|45 A|50SHA45|||
|50 A|50SHA50||G3NA-275B-UTU(-2)|
|75 A|50SHA75|||
|80 A|50SHA80||G3NA-290B-UTU(-2)|
|100 A|50SHB100|||



## **Reverse Connection** 

## **- EMC Directive Compliance (For UTU type)** 

EMC directives can be complied with under the following conditions. 

**1.** AC-switching 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 [243 x 82] intentionally omitted <==**

**----- Start of picture text -----**<br>
Troidal core<br>Load<br>Input G3NA Output<br>3 m max.<br>Recommended Capacitor : 0.05μF, 500 VAC (Load)<br>0.1μF,  250 VAC (Input)<br>Recommended Varistor : 470 V, 1750 A<br>Recommended Troidal core : NEC/TOKIN:ESD-R-25B or equivalent<br>**----- End of picture text -----**<br>


The output terminal side of the G3NA-D210B is connected to a builtin diode to protect the SSR from damage that may result from reverse connection. The SSR, however, cannot withstand one minute or more if the wires are connected in reverse. Therefore, pay the utmost attention not to make polarity mistakes on the load side. 

## **Installation and Mounting** 

- Mount the G3NA securely with screws. Keep the screws tightened to a torque of 0.78 to 0.98 N·m. 

- Mount the Heat Sink securely with screws. Keep the screws tightened to a torque of 0.98 to 1.47 N·m. 

**==> picture [539 x 34] intentionally omitted <==**

**15** 

**G3NA** 

## ■ **Precautions on Operating and Storage Environments** 

## **1. Operating Ambient Temperature** 

The rated value for the ambient operating temperature of the G3NA is for when there is no heat build-up. For this reason, under conditions where heat dissipation is not good due to poor ventilation, and where heat may build up easily, the actual temperature of the G3NA may exceed the rated value resulting in malfunction or burning. 

When using the G3NA, design the system to allow heat dissipation sufficient to stay below the _Load Current vs. Ambient Temperature_ characteristic curve. Note also that the ambient temperature of the G3NA may increase as a result of environmental conditions (e.g., climate or air-conditioning) and operating conditions (e.g., mounting in an airtight panel). 

## **2. Transportation** 

When transporting the G3NA, observe the following points. Not doing so may result in damage, malfunction, or deterioration of performance characteristics. 

## **3. Vibration and Shock** 

Do not subject the G3NA to excessive vibration or shock. Otherwise the G3NA may malfunction and internal components may be deformed or damaged, resulting in failure of the G3NA to operate. 

To prevent the G3NA from abnormal vibration, do not install the G3NA in locations or by means that will subject it to vibration from other devices, such as motors. 

## **4. Solvents** 

Do not allow the G3NA or the resin portion of the Fan’s thermostat to come in contact with solvents, such as thinners or gasoline. Doing so will dissolve the markings on the G3NA. 

## **5. Oil** 

Do not allow the G3NA terminal cover to come in contact with oil. Doing so will cause the cover to crack and become cloudy. 

- Do not drop the G3NA or subject it to severe vibration or shock. 

- Do not transport the G3NA if it is wet. 

- Do not transport the G3NA under high temperatures or humidity. 

- Do not transport the G3NA without packing it properly. 

## ■ **Operation** 

## **1. Leakage Current** 

A leakage current flows through a snubber circuit in the G3NA even when there is no power input. Therefore, always turn OFF the power to the input or load and check that it is safe before replacing or wiring the G3NA. 

**==> picture [175 x 66] intentionally omitted <==**

**----- Start of picture text -----**<br>
Switch element Snubber circuit<br>Leakage current<br>Varistor<br>Input circuit Trigger circuit<br>**----- End of picture text -----**<br>


## **2. Screw Tightening Torque** 

Tighten the G3NA terminal screws properly. If the screws are not tight, the G3NA will be damaged by heat generated when the power is ON. Perform wiring using the specified tightening torque. 

## **3. Handling Relays** 

Do not mount the G3NA when your hands are oily or dirty, e.g., with metal powder. These may cause G3NA failure. 

## **4. Do Not Drop** 

Be careful not to drop a Relay or Heat Sink onto any part of your body while working. Injury may result. This is particularly true for the High-capacity Heat Sink (Y92B-P250NF), which weighs 2.5 kg. 

ALL DIMENSIONS SHOWN ARE IN MILLIMETERS. 

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

**==> picture [539 x 34] intentionally omitted <==**

To convert millimeters into inches, multiply by 0.03937. To convert grams into ounces, multiply by 0.03527. 

**16** 

## 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. 

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

## **OMRON Corporation** 

## **Industrial Automation Company** 

2016.9 

**http://www.ia.omron.com/** 

(c)Copyright OMRON Corporation 2016 All Right Reserved.