G7J2A2BBDC24BYOMZ

## **Power Rela y** 

## **G7J** 

## **A High-capacity, High-dielectric-strength, Multi-pole Relay Used Like a Contactor** 

- Miniature hinge for maximum switching power for motor loads as well as resistive and inductive loads. 

- No contact chattering for momentary voltage drops up to 50% of rated voltage. 

- Withstanding more than 4 kV between contacts that are different in polarity and between the coil and contacts. 

- Flame-resistant materials (UL94V-0-qualifying) used for all insulation material. 

- Standard models approved by UL and CSA. 

## ~~RC~~ 

## ~~Ordering Information~~ 

|**Mounting type**|**Contact form**|**PCB terminals**|**Screw terminals**|**Quick-connect**<br>**terminals**|
|---|---|---|---|---|
|**PCB mounting**<br>~~Be~~<br>~~Sl~~|4PST-NO<br>~~Be~~|G7J-4A-P, G7J-4A-PZ|---|---|
||3PST-NO/SPST-NC<br>~~Be~~|G7J-3A1B-P, G7J-3A1B-PZ|---|---|
||DPST-NO/DPST-NC<br>~~Be~~<br>~~Sl————————~~|G7J-2A2B-P<br>~~————————~~|---|---|
|**W-bracket**<br>**(**<br>**t )**<br>**see no e**<br>~~Sl~~|4PST-NO<br>~~Sl————————~~|---<br>~~————————~~|G7J-4A-B, G7J-4A-BZ|G7J-4A-T, G7J-4A-TZ|
||3PST-NO/SPST-NC<br>~~Sl————————~~|---<br>~~————————~~|G7J-3A1B-B, G7J-3A1B-BZ|G7J-3A1B-T, G7J-3A1B-TZ|
||DPST-NO/DPST-NC<br>~~Sl————————~~|---<br>~~————————~~|G7J-2A2B-B|G7J-2A2B-T|



**Note:** These Relays need a W-bracket (sold separately) for mounting. When ordering specify the voltage. 

Example: G7J-4A-P 240 VAC 

Rated coil voltage 

## **Model Number Legend** 

**G7J - - - 1. Contact Form** ~~OOO~~ 4A: 4PST-NO **1 2 3** 3A1B: 3PST-NO/SPST-NC 2A2B: DPST-NO/DPST-NC 

## **PCB Terminals** 

|**Contact**<br>**form**|**Rated voltage (V)**|**Model**|
|---|---|---|
|4PST-NO|24, 50, 100 to 120,<br>200 to 240 VAC|G7J-4A-P|
||12, 24, 48, 100 VDC||
|3PST-NO/<br>**S**P**S**T-N**C**|24, 50, 100 to 120,<br>200 to 240 VAC|G7J-3A1B-P|
||12, 24, 48, 100 VDC||
|DPST-NO/<br>DP**S**T-N**C**|24, 50, 100 to 120,<br>200 to 240 VAC|G7J-2A2B-P|
||12, 24, VDC||



**2. Terminal Shape 3. Contact Structure** P: PCB terminals Z: Bifurcated contact B: Screw terminals None: Single contact T: Quick-connect terminals (#250 terminal) **Note:** For bifurcated 

**Note:** For bifurcated contact type, output is 1NO (4PST-NO) or 1NC (3PST-NO/SPST-NC). 

## **PCB Terminals (Bifurcated Contact)** 

|**Contact**<br>**form**|**Rated voltage (V)**|**Model**|
|---|---|---|
|4PST-NO|200 to 240 VAC<br>24 VDC|G7J-4A-PZ|
|3PST-NO/<br>SPST-NC|12, 24 VDC|G7J-3A1B-PZ|



1 

~~**G7J**~~ 

~~**G7J**~~ 

## **W-bracket Screw Terminals** 

## **Tab Terminals** 

|**Contact**<br>**form**|**Rated voltage (V)**|**Model**||**Contact**<br>**form**|**Rated voltage (V)**|**Model**|
|---|---|---|---|---|---|---|
|4PST-NO|24, 50, 100 to 120,<br>200 to 240 VAC|G7J-4A-B||4PST-NO|24, 50, 100 to 120,<br>200 to 240 VAC|G7J-4A-T|
||12, 24 VDC||||12, 24 VDC||
|3PST-NO/<br>**S**P**S**T-N**C**|24, 50, 100 to 120,<br>200 to 240 VAC|G7J-3A1B-B||3PST-NO/<br>**S**P**S**T-N**C**|24, 50, 100 to 120,<br>200 to 240 VAC|G7J-3A1B-T|
||12, 24 VDC||||12, 24 VDC||
|DPST-NO/<br>DP**S**T-N**C**|24, 50, 100 to 120,<br>200 to 240 VAC|G7J-2A2B-B||DPST-NO/<br>DP**S**T-N**C**|24, 50, 100 to 120,<br>200 to 240 VAC|G7J-2A2B-T|
||12, 24, VDC||||12, 24, VDC||



## **Screw Terminals (Bifurcated Contact)** 

|**Contact**<br>**form**|**Rated voltage (V)**|**Model**|
|---|---|---|
|4PST-NO|Under registration|G7J-4A-BZ|
|3PST-NO/<br>**S**P**S**T-N**C**|24, 50, 100 to 120,<br>200 to 240 VAC|G7J-3A1B-BZ|
||6, 12, 24, 48, 100, 110 VDC||



## **Tab Terminals (Bifurcated Contact)** 

|**Contact**<br>**form**|**Rated voltage (V)**|**Model**|
|---|---|---|
|4PST-NO|100 to 120, 200 to 240 VAC|G7J-4A-TZ|
|3PST-NO/<br>SPST-NC|Under registration|G7J-3A1B-TZ|



## **Accessories (Order Separately)** 

|**Name**|**Model**|**Applicable Relay**|
|---|---|---|
|**W-bracket**|R99-04 for G5F|G7J-4A-B<br>G7J-3A1B-B<br>G7J-2A2B-B<br>G7J-4A-T<br>G7J-3A1B-T<br>G7J-2A2B-T|



## ~~Application Examples~~ 

- ! Compressors for air conditioners and heater switching controllers. 

   - ! Power controllers for packers or food processing equipment. 

   - ! Power controllers for inverters. 

- ! Switching controllers for power tools or motors. 

- ! Lamp controls, motor drivers, and power supply switching controllers in copy machines, facsimile machines, and other office equipment. 

## ~~Specifications~~ 

## **Coil Ratings** 

|**Coil Ratings**|**Coil Ratings**|||||||
|---|---|---|---|---|---|---|---|
|**Rated voltage**||**Rated current**|**Coil resistance**|**Must-operate**<br>**voltage**|**Must-release**<br>**voltage**|**Max. voltage**|**Power**<br>**consumption**|
|**AC**|**24 VAC**|75 mA|---|75% max. of<br>**t** **d**<br>**lt**<br>ra e<br>vo age|15% min. of<br>**t** **d**<br>**lt**<br>ra e<br>vo age|110% of rated<br>**lt**<br>vo age|A**pp**rox. 1.8 to<br>**2** **6** **VA**<br>.|
||**50 VAC**|36 mA|---|||||
||**100 to 120 VAC**|18 to 21.6 mA|---|||||
||**200 to 240 VAC**|9 to 10.8 mA|---|||||
|**DC**|**6 VDC**|333 mA|18"||10% min. of<br>**t** **d**<br>**lt**<br>ra e<br>vo age||A**pp**rox. 2.0 W|
||**12 VDC**|167 mA|72"|||||
||**24 VDC**|83 mA|288"|||||
||**48 VDC**|42 mA|1,150"|||||
||**100 VDC**|20 mA|5,000"|||||



- **Note:** 1. Theratedcurrentandcoilresistancearemeasuredatacoiltemperatureof23#Cwithtolerances of+15%/--20% forACratedcurrent and $15% for DC coil resistance. (The values given for AC rated current apply at 50 Hz or 60 Hz.) 

   2. Performance characteristic data are measured at a coil temperature of 23#C. 

   3. The maximum voltage is one that is applicable to the Relay coil at 23#C. 

2 

~~**G7J**~~ 

~~**G7J**~~ 

## **Contact Ratings** 

|**Contact Ratings**||||
|---|---|---|---|
|**Item**|**Resistive load (cos**%**= 1)**|**Inductive load (cos**%**= 0.4)**|**Resistive load**|
|**Contact mechanism**|Double break|||
|**Contact material**|Ag alloy|||
|**Rated load**|NO: 25 A at 220 VAC (24 A at 230 VAC)<br>NC: 8 A at 220 VAC(7.5 A at 230 VAC)||NO: 25 A at 30 VDC<br>NC: 8 A at 30 VDC|
|**Rated carry current**|NO: 25 A (1 A)<br>NC: 8 A(1 A)|||
|**Max. switching voltage**|250 VAC||125 VDC|
|**Max. switching current**|NO: 25 A (1 A)<br>NC: 8 A(1 A)|||
|**Note:**<br>The values in parentheses indicate values for a bifurcated contact.<br>**Characteristics**||||
|**Contact resistance (see note 2)**|50 m"max.|||
|**Operate time (see note 3)**|50 ms max.|||
|**Release time (see note 3)**|50 ms max.|||
|**Max. operating frequency**|Mechanical: 1,800 operations/hr<br>Electrical:<br>1,800 operations/hr|||
|**Insulation resistance (see note 4)**|1,000 M"min. (at 500 VDC)|||
|**Dielectric strength**|4,000 VAC, 50/60 Hz for 1 min between coil and contacts<br>4,000 VAC, 50/60 Hz for 1 min between contacts of different polarity<br>2,000 VAC, 50/60 Hz for 1 min between contacts of same polarity|||
|**Impulse withstand voltage**|10,000 V between coil and contact (with 1.2 x 50&s impulse wave)|||
|**Vibration resistance**|Destruction: 10 to 55 Hz, 1.5-mm double amplitude<br>Malfunction: NO: 10 to 55 Hz, 1.5-mm double amplitude<br>NC: 10 to 26 Hz, 1.5-mm double amplitude|||
|**Shock resistance**|Destruction: 1,000 m/s2<br>Malfunction:NO: 100 m/s2<br>NC: 20 m/s2|||
|**Life expectancy**|Mechanical: 1,000,000 operations min. (at 1,800 operations/hr)<br>Electrical:<br>100,000 operations min.(at 1,800 operations/hr) (see note 5)|||
|**Error rate (see note 6)**|100 mA at 24 VDC (bifurcated contact: 24 VDC 10 mA)|||
|**Ambient temperature**|Operating: --25#C to 60#C (with no icing or condensation)<br>Storage:<br>--25#C to 60#C(with no icingor condensation)|||
|**Ambient humidity**|Operating: 35% to 85%<br>Storage:<br>35% to 85%|||
|**Weight**|PCB terminal:<br>approx. 140 g<br>Screw terminal:<br>approx. 165 g<br>Quick-connect terminal:<br>approx. 140 g|||



- **Note:** 1. The above values are all initial values. 

   2. The contact resistance was measured with 1 A at 5 VDC using the voltage drop method. 

   3. The operate and the release times were measured with the rated voltage imposed with any contact bounce ignored at an ambient temperature of 23#C. 

   4. Theinsulationresistancewas measured witha 500-VDCmegger appliedto thesame places as thoseused forchecking thedielectric strength. 

5. The electrical life expectancy was measured at an ambient temperature of 23#C. 

6. This value was measured at a switching frequency of 60 operations per minute. 

3 

~~**G7J**~~ 

~~**G7J**~~ 

## **Approved by Standards** 

The G7J satisfies the following international standards. Approval for some international markings and symbols are still pending, however, and information on them will be added when they are approved. 

## **UL (File No. E41643) CSA (File No. LR35535)** 

|**Coil ratings**||**Contact ratings**|**Number of test**<br>**operations**|
|---|---|---|---|
|24 to 265 VAC<br>**6** **t**<br>**110** **VDC**<br>o|NO contact|25 A 277 VAC, Resistive|30**,**000|
|||25 A 120 VAC, General Use||
|||25 A 277 VAC, General Use||
|||1.5 kW 120 VAC, Tungsten|6**,**000|
|||1.5 hp120 VAC||
|||3 hp240/265/277 VAC||
|||3-phase 3 hp240/265/277 VAC||
|||3-phase 5 hp240/265/277 VAC|30**,**000|
|||20FLA/120LRA 120 VAC||
|||17FLA/102LRA 277 VAC||
|||TV-10 120 VAC|25,000|
|||25 A 30 VDC, Resistive|30,000|
|||1 A 277 VAC, General Use|6,000|
||NC contact|8 A 277 VAC, Resistive|30**,**000|
|||8 A 120 VAC, General Use||
|||8 A 277 VAC, General Use||
|||8 A 30 VDC, Resistive||
|||1 A 277 VAC, General Use|6,000|



## **Reference** 

UL approval: UL508 for industrial control devices 

UL1950 for information processing equipment including business machines 

CSA approval: CSA C22.2 No. 14 for industrial control devices 

CSA C22.2 No. 950 for information processing equipment including business machines 

## **VDE (File No. 5381UG)** 

|**Model**|**Coil ratings**|**Contact ratings**|**Contact ratings**|
|---|---|---|---|
|||**NO contact**|**NC contact**|
|G7J-4A-B(P) (T) (Z)<br>G7J-2A2B(P) (T)<br>G7J-3A1B-B(P) (T) (Z)|6, 12, 24, 48, 100 VDC<br>24, 50, 100 to 120, 200 to 240 VAC|25 A 240 VAC cos%= 0.4<br>25 A 240 VAC cos%= 1<br>25 A 30 VDC L/R≧1<br>*1 A 240 VAC cos%= 0.4|8 A 240 VAC cos%= 0.4<br>8 A 240 VAC cos%= 1<br>8 A 30 VDC L/R≧1<br>*1 A 240 VAC cos%= 0.4|



**Note:** Add the suffix “-KM” to the model number when ordering. 

* These ratings are bifurcated contact ratings. 

## **Reference** 

VDE approval: VDE0435 for electromagnetic relays IEC255 for relays 

## **KEMA (File No. 97.9140.01)** 

|**KEMA (File No. 97.9140.01)**|||
|---|---|---|
|**Model**|**Coil ratings**|**Contact ratings**|
|||**NO contact**|
|G7J-4A-B(P) (T) (Z)<br>G7J-2A2B(P) (T)<br>G7J-3A1B-B(P) (T) (Z)|6, 12, 24, 48, 100 VDC<br>24, 50, 100 to 120, 200 to 240 VAC|Class AC1: 25 A at 220 VAC<br>11.5 A at 380 to 480 VAC<br>Class AC3: 11.5 A at 220 VAC and 8.5 A at<br>380 to 480 VAC<br>*Class AC 1 : 1 A at 220 VAC|



**Note:** Add the suffix “-KM” to the model number when ordering. 

- This rating is the bifurcated contact rating. 

## **Reference** 

KEMA approval: EN60947-4-1 for contacts IEC947-4-1 for contacts 

4 

~~**G7J**~~ 

~~**G7J**~~ 

## ~~Engineering Data~~ 

## **Maximum Switching Power** 

**==> picture [183 x 382] intentionally omitted <==**

**----- Start of picture text -----**<br>
10070}: |= Fe (NO contact)AC inductive load(cosAC resistive load(cos'' = 0.4) = 1) = AC resistive load(cosAC inductive load(cos(NC contact)'' = 1) = 0.4) Ft cI<br>a e Al<br>DC resistive<br>load (NO<br>AT contact) L YT<br>NU E ATT<br>7 eel oe Sea<br>E r<br>3|___[ace . eeHeo<br>DC resistive load<br>(NC contact) | A PRINN TIN Ce<br>1 IN‘ LETH<br>10 30 50 70 100 309 500 1,000<br>Switching voltage (V)<br>Malfunctioning Shock<br>G7J-2A2B<br>Y Terminals upwards<br>400<br>A1 downwards 400 Button downwards<br>x Zz<br>400<br>. /<br>400<br>A2 downwards<br>Zz 400 x<br>Button upwards Energized z7=———Z<br>400 Not energized Y<br>Terminals (Eh:<br>Unit: m/s [2] downwards<br>Shock direction<br>Switching current (A)<br>**----- End of picture text -----**<br>


## **Life Expectancy** 

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**----- Start of picture text -----**<br>
5,000 ee ee ee<br>3,000<br>Ppt<br>1,000 | | ff | fd<br>700 220 VAC (NO contact)<br>500 z a c ==<br>300 ee<br>~<br>PX {NEFf<br>100 eee<br>220 VAC (NC contact)<br>5070 0 Rs——— 5 10 15 20 —25<br>Switching current (A)<br>operations)<br>3<br>Life expectancy (x10<br>**----- End of picture text -----**<br>


Number of samples: 5 

Measurement conditions: Increase and decrease the specified shock gradually imposed in $X, $Y, and $Z directions three times each with the Relay energized and not energized to check the shock values that cause the Relay to malfunction. Criteria: There must not be any contact separation for 1 ms or greater with a shock of 100 m/s[2] imposed when the coil is energized or with a shock of 20 m/s[2] when the coil is not energized. 

5 

~~**G7J**~~ 

~~**G7J**~~ 

## **Ambient Temperature vs. Must-operate and Must-release Voltage** 

## **Ambient Temperature vs. Coil Temperature Rise** 

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**----- Start of picture text -----**<br>
G7J 100 to 120 VAC G7J-4A 100 to 120 VAC<br>Number of Relays: 5 Must-operate voltage Number of Relays: 5<br>Must-release voltage<br>" aa "<br>20 20<br>—40 —20 0 20 40 60 80 —40 —20 0 20 40 60 80<br>Ambient temperature (#C) Ambient temperature (#C)<br>G7J 24 VDC G7J-4A 24 VDC<br>100 Number of Relays: 5 Must-operate voltage 100 Number of Relays: 5<br>Must-release voltage<br>aaa L. |<br>Eas at<br>20 20<br>—-40 —20 0 20 40 60 80 —40 —20 0 20 40 60 80<br>Ambient temperature (#C) Ambient temperature (#C)<br>Motor Load<br>Item G7J-4A-P, G7J-3A1B-P, G7J-4A-B, G7J-3A1B-B, G7J-4A-T, G7J-3A1B-T<br>Load 3%, 220 VAC, 2.7 kW (with a inrush current of 78 A and a breaking current of 13 A)<br>Life expectancy Electrical: 100,000 operations min.<br>C)#<br>Coil temperature rise (<br>Must-operate and reset voltage (%)<br>C)#<br>Coil temperature rise (<br>Must-operate and reset voltage (%)<br>**----- End of picture text -----**<br>


## **Motor Load** 

6 

~~u~~ ~~**G7J** uOIRO u~~ ~~**G7J** Dimensions~~ **Note:** All units are in millimeters unless otherwise indicated. 

## **Screw Terminals with W-bracket** 

## **G7J-4A-B, G7J-4A-BZ, G7J-3A1B-B, G7J-3A1B-BZ, G7J-2A2B-B** 

Ten, M3.5 

**==> picture [346 x 149] intentionally omitted <==**

**----- Start of picture text -----**<br>
Mounting Holes<br>34.5 max.<br>Two, 4.5 dia. or M4<br>7.6 — y<br>H<br>4.3<br>35 + 0.1<br>aeeialaCl LI Dp = |! Hl| |‘<br>Ss L——| 64 max. l<br>55.2 —— 43.2 |<br>al Ch<br>51.5 max. sl 2 | CB)<br>**----- End of picture text -----**<br>


## **Quick-connect Terminals with W-bracket** 

## **G7J-4A-T, G7J-4A-TZ, G7J-3A1B-T, G7J-3A1B-TZ, G7J-2A2B-T** 

**==> picture [445 x 144] intentionally omitted <==**

**----- Start of picture text -----**<br>
34.5 max.<br>Mounting Holes<br>a 9.6 oT 64<br>Two, 4.5 dia. or M4<br>i 0 10 otro j POMOR c-- a<br>64 max.<br>Note: W-bracket is sold 7<br>separately.<br>FH 43.2 Lj 548 | | 35+0.1<br>51.5 max. 2<br>**----- End of picture text -----**<br>


## **PCB Terminals with PCB Mounting** 

## **G7J-4A-P, G7J-4A-PZ, G7J-3A1B-P, G7J-3A1B-PZ, G7J-2A2B-P** 

**==> picture [85 x 9] intentionally omitted <==**

**----- Start of picture text -----**<br>
Mounting Dimensions<br>**----- End of picture text -----**<br>


**==> picture [373 x 156] intentionally omitted <==**

**----- Start of picture text -----**<br>
33.5<br>max.<br>Two, 4.5 dia. or M4<br>: a pearl<br>14 {4 | +<br>0.8 soe fe 6 f<br>L td LE) LE) = ‘Tl | t] 11.6+01<br>20 8 ie oe NN m6 Tt | 21.201<br>p Lt LL I ae zeane.<br>51 max.<br>4<br>AA ) |<br>Lo 51.5 max. 2<br>**----- End of picture text -----**<br>


7 

~~**G7J**~~ 

~~**G7J**~~ 

## **Terminal Arrangement/Internal Connections** 

## **G7J-4A-P(B) (T) (Z)** 

## **G7J-3A1B-P(B) (T) (Z) G7J-2A2B-P(B) (T)** 

**==> picture [146 x 73] intentionally omitted <==**

**----- Start of picture text -----**<br>
14 13 14 13<br>24 23 24 23<br>34 33 34 33<br>44 43 42 41<br>A2 A1 A2 A1<br>**----- End of picture text -----**<br>


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14 13<br>Note: Terminals 43 and 44 of the<br>24 23 G7J-4A-P(B)(T)(Z) and contacts 41and 42 of the G7J-3A1B-P(B)(T)(Z)<br>are bifurcated contacts.<br>32 31<br>42 41<br>A2 A1<br>**----- End of picture text -----**<br>


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**----- Start of picture text -----**<br>
The coil has no polarity.<br>**----- End of picture text -----**<br>


## **Accessories (Order Separately)** 

**R99-04 W-bracket (for G5F)** 

**==> picture [310 x 118] intentionally omitted <==**

**----- Start of picture text -----**<br>
35 Two, M4 or 4.5 dia.<br>24 Mounting Holes<br>by I 9<br>Two, M4<br>30 28<br>9<br>29<br>35$0.1<br>7<br>a 44 4.4<br>**----- End of picture text -----**<br>


## ~~Precautions~~ 

Refer to page NO TAG for general precautions. 

## **Installation** 

PCB Terminal-equipped Relays weigh approximately 140 g. Be sure that the PCB is strong enough to support them. We recommend dual-side through-hole PCBs to reduce solder cracking from heat stress. 

Mount the G7J with its test button facing downwards. The Relay may malfunction due to shock if the test button faces upwards. Be careful not to press the test button by mistake because the contacts will go ON if the test button is pressed. 

Be sure to use the test button for test purposes only. The test button is used for Relay circuit tests, such as a circuit continuity test. Do not attempt to switch the load with the test button. 

## **Minute Loads** 

The G7J is used for switching power loads, such as motor, transformer, solenoid, lamp, and heater loads. Do not use the G7J for switching minute loads, such as signals. Use a Relay with a bifurcated contact construction for switching minute loads, in which case, however, only SPST-NO or SPST-NC output is obtained. 

## **Soldering PCB Terminals** 

Be sure to solder the PCB terminals manually only. In the case of automatic soldering, some flux may stick to the test button and the G7J. As a result, the G7J may malfunction. 

The G7J is not of enclosed construction. Therefore, donot washthe G7J with water or any detergent. 

## **Connecting** 

Refer to the following diagram when connecting a wire with a screw terminal to the G7J. 

**==> picture [115 x 71] intentionally omitted <==**

**----- Start of picture text -----**<br>
_— 7.6<br>7 8.8<br>4.5<br>M3.5<br>**----- End of picture text -----**<br>


Allow suitable slack on leads when wiring, and do not subject the terminals to excessive force. 

Tightening torque: 0.98 N S m 

Do not impose excessive external force on the G7J in the horizontal or vertical directions when inserting the G7J to the Faston receptacle or pulling the G7J out from the Faston receptacle. Do not attempt to insert or pull out more than one G7J Unit together. 

Do not solder the tab terminals. 

|Do not solder the tab terminals.|Do not solder the tab terminals.||
|---|---|---|
|**Terminal**|**Receptacle**|**Housing**|
|#250<br>terminal<br>(6.35 mm<br>in width)|AMP170333-1<br>(170327-1)<br>AMP170334-1<br>(170328-1)<br>AMP170335-1<br>(170329-1)|AMP172076-1: natural<br>AMP172076-4: yellow<br>AMP172076-5: green<br>AMP172076-6: blue|



**Note:** Numbers in parentheses are for air feed use. 

8 

~~**G7J**~~ 

~~**G7J**~~ 

## **Operating Coil** 

## **Internal Connections of Coils** 

**==> picture [104 x 95] intentionally omitted <==**

**----- Start of picture text -----**<br>
DC coil<br>A2 A1<br>AC coil<br>A2 A1<br>**----- End of picture text -----**<br>


If a transistor drives the G7J, check the leakage current, and connect a bleeder resistor if necessary. 

The AC coil is provided with a built-in full-wave rectifier. If a triac, such as an SSR, drives the G7J, the G7J may not release. Be sure toperformatrialoperationwiththeG7Jandthetriac beforeapplying them to actual use. 

## **ALL DIMENSIONS SHOWN ARE IN MILLIMETERS.** 

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

Cat. No. J088-E1-2A 

9