G6J 6022H

**G6J-Y** 

## **Surface-mountin Rela g y** 

## **Ultra-compact and Slim DPDT Relay** 

- I Dimensions of 5.7 × 10.6 × 9 mm (W × L × H) represent a reduction of approximately 56% in mounting area compared with the OMRON G6S, for higher-density mounting. 

- I Dielectric strength of 1,500 VAC and an impulse withstand voltage of 2,500 V for 2 × 10 µs (conforms to North American Telcordia specifications (formerly Bellcore)). 

- I Conforms to FCC Part 68 (i.e., impulse withstand voltage of 1,500 V for 10 × 160 µs between coil and contacts and between contacts of the same polarity). 

- I Single-winding latching models to save energy. 

- I Conforms to UL60950 (File No. E41515)/CSA C22.2 No. 60950 (File No. LR31928). 

- RoHS Compliant Refer to pages 16 to 17 for details. 

- ~~[~~ 

## Orderin Information g 

|**Classification**|**Classification**|**Classification**|**Classification**|**Single-side stable**|**Single-winding latching**|
|---|---|---|---|---|---|
|**DPDT**|**Plastic sealed**|**PCB terminal**||G6J-2P-Y|G6JU-2P-Y|
|||**Surface mount terminal**|**Short**|G6J-2FS-Y|G6JU-2FS-Y|
||||**Long**|G6J-2FL-Y|G6JU-2FL-Y|



**Note: 1.** When ordering, add the rated coil voltage to the model number. Example: G6J-2P-Y 12 VDC 

Rated coil voltage 

**2.** When ordering tape packing, add “-TR” to the model number. Example: G6J-2P-Y-TR 12 VDC 

Tape packing 

Be sure since “-TR” is not part of the relay model number, it is not marked on the relay case. 

## **Model Number Legend:** 

## **G6J** @ **-** @@ **-** @ 

1      2  3     4 

**1. Relay function 3. Terminal shape** None: Single-side stable relay P: PCB terminals U: Single-winding latching relay FS: Surface-mounting terminals, short **2. Contact form** FL: Surface-mounting terminals, long 2: DPDT **4. Special function** Y: Improved product for soldering heat resistance 

## A lication Exam les pp p 

Telephones, communications equipment, measurement devices, office automation machines, and audio-visual products. 

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## S ecifications p 

## I **Standard Specifications** 

**Contact mechanism:** Crossbar twin Ag (Au-alloy contact) 

**Enclosure rating:** Plastic-sealed 

## I **Coil Ratings** 

## **Single-side Stable Relays (G6J-2P-Y, G6J-2FS-Y, G6J-2FL-Y)** 

|**Rated voltage**|3 VDC|4.5 VDC|5 VDC|12 VDC|24 VDC|
|---|---|---|---|---|---|
|**Rated current**|48.0 mA|32.6 mA|28.9 mA|12.3 mA|9.2 mA|
|**Coil resistance**|62.5Ω|137.9Ω|173.1Ω|976.8Ω|2,600.5Ω|
|**Must operate voltage**|75% max. of rated voltage|||||
|**Must release voltage**|10% min. of rated voltage|||||
|**Max. voltage**|150% of rated voltage|||||
|**Power consumption**|Approx. 140 mW||||Approx. 230 mW|



- **Note: 1.** The rated current and coil resistance are measured at a coil temperature of 23°C with a tolerance of ±10%. 

   **2.** The operating characteristics are measured at a coil temperature of 23°C. 

   **3.** The maximum voltage is the highest voltage that can be imposed on the Relay coil instantaneously. 

## **Single-winding Latching Relays (G6JU-2P-Y, G6JU-2FS-Y, G6JU-2FL-Y)** 

|**Rated voltage**|3 VDC|4.5 VDC|5 VDC|12 VDC|
|---|---|---|---|---|
|**Rated current**|33.7 mA|22.0 mA|20.4 mA|9.0 mA|
|**Coil resistance**|89.0Ω|204.3Ω|245.5Ω|1,329.2Ω|
|**Must set voltage**|75% max. of rated voltage||||
|**Must reset voltage**|75% max. of rated voltage||||
|**Max. voltage**|150% of rated voltage||||
|**Power consumption**|Approx. 100 mW||||



- **Note: 1.** The rated current and coil resistance are measured at a coil temperature of 23°C with a tolerance of ±10%. 

   **2.** The operating characteristics are measured at a coil temperature of 23°C. 

   **3.** The maximum voltage is the highest voltage that can be imposed on the Relay coil instantaneously. 

## I **Contact Ratings** 

|I **Contact Ratings**||
|---|---|
|**Load**|**Resistive load**|
|**Rated load**|0.3 A at 125 VAC, 1 A at 30 VDC|
|**Rated carry current**|1 A|
|**Max. switching voltage**|125 VAC, 110 VDC|
|**Max. switching current**|1 A|



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## I **Characteristics** 

|I **Characteristics**|I **Characteristics**|||
|---|---|---|---|
|**Item**||**Single-side Stable Relays**|**Single-winding Latching Relays**|
|||**G6J-2P-Y, G6J-2FS-Y, G6J-2FL-Y**|**G6JU-2P-Y, G6JU-2FS-Y, G6JU-2FL-Y**|
|Contact resistance (See note 1.)||100 mΩmax.||
|Operating(set) time (See note 2.)||3 ms max. (approx. 1.6 ms)||
|Release (reset) time (See note 2.)||3 ms max. (approx. 1.0 ms)|3 ms max. (approx. 0.9 ms)|
|Minimum set/reset signal width||---|10 ms|
|Insulation resistance (See note 3.)||1,000 MΩmin. (at 500 VDC)||
|Dielectric<br>strength|Coil and contacts|1,500 VAC, 50/60 Hz for 1 min||
||Contacts of<br>different polarity|1,000 VAC, 50/60 Hz for 1 min||
||Contacts of<br>same polarity|750 VAC, 50/60 Hz for 1 min||
|Impulse<br>withstand<br>voltage|Coil and contacts|2,500 VAC, 2 x 10µs||
||Contacts of<br>different polarity|1,500 VAC, 10 x 160µs||
||Contacts of<br>same polarity|||
|Vibration resistance||Destruction: 10-55-10 Hz 2.5-mm single amplitude (5-mm double amplitude)<br>Malfunction: 10-55-10 Hz 1.65-mm single amplitude (3.3-mm double amplitude)||
|Shock resistance||Destruction: 1,000 m/s2(approx. 100G)<br>Malfunction: 750 m/s2 (approx. 75G)||
|Life expectancy||Mechanical: 50,000,000 operations min. (at 36,000 operations/hour)<br>Electrical:<br>100,000 operations min.(with a rated load at 1,800 operations/hour)||
|Failure rate(P level) (See note 4.)||10µA at 10 mVDC||
|Ambient temperature||−40 to 85°C(with no icingor condensation)||
|Ambient humidity||5% to 85%||
|Weight||Approx. 1.0g||



**Note:** The above values are initial values. 

- **Note: 1.** The contact resistance was measured with 10 mA at 1 VDC with a fall-of-potential method. 

   **2.** Values in parentheses are actual values. 

   **3.** The insulation resistance was measured with a 500-VDC Megger Tester applied to the same parts as those for checking the dielectric strength. 

   **4.** This value was measured at a switching frequency of 120 operations/min and the criterion of contact resistance is 50 Ω. This value may vary depending on the operating frequency, operating conditions, expected reliability level of the relay, etc. Always double-check relay suitability under actual load conditions. 

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## En ineerin Data g g 

## **Maximum Switching Capacity** 

## **Ambient Temperature vs. Maximum Voltage** 

## **Ambient Temperature vs. Switching Current** 

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10 250 1.2<br>7<br>5 1<br>200<br>3<br>0.8<br>150<br>AC resistive load<br>1 0.6<br>0.7 100<br>0.5 DC resistive load 0.4<br>0.3<br>50<br>0.2<br>0.1 0 0<br>1 3 5 10 30 50 100 300 500 1,000 −40  −20  0  20  40  60  80  100 −40  −20  0  20  40  60  80  100<br>Switching voltage (V) Ambient temperature (°C) Ambient temperature (°C)<br>Note: “Maximum voltage” is the maximum voltage that can<br>be applied to the Relay coil.<br>Electrical Endurance Ambient Temperature vs. Must  Shock Malfunction<br>Operate or Must Release Voltage<br>1,000500 10090 Maximum estimated value Y1,000 Energized<br>max. 800<br>300 80 avg.<br>min. X 600 Not   Z<br>70 1,000 400 energized 1,000<br>100 30 VDC resistive load<br>Ambient temperature: 23°C  60 200<br>50 Switching frequency:<br>1,800 operations/hour 50<br>30<br>200<br>40<br>400<br>105 Switching frequency:  125 VAC resistive load  Ambient temperature: 23°C  3020 max.avg.min. Shock directions1,000X Z' X' 600800 1,000X'<br>3 1,800 operations/hour  10 Operating voltageRelease voltage Y Z 1,000Y' Unit: m/sSample: G6J-2P-Y [2]<br>10  0.2  0.4  0.6  0.8  1  1.2 −060  −40  −20  0  20  40  60  80 100 Y' Z' Number of Relays: 10<br>Switching current (A) Ambient temperature (°C) Conditions: Shock is applied in ±X, ±Y, and ±Z directions<br>three times each with and without energizing the Relays<br>to check the number of contact malfunctions.<br>Electrical Endurance (with  Electrical Endurance (Contact  Contact Reliability Test<br>Operate and Release Voltage)  resistance) (See note 1.) (See notes 1 and 2.)<br>(See note 1.)<br>100 Sample: G6J-2P-Y  1,000 1,000<br>80 Number of Relays: 10Test conditions: 1-A resistive load at  30 VDC with an operation rate of 50% Switching frequency: 1,800 operations/hour max. 500 Sample: G6J-2P-Y Number of Relays: 10Test conditions: 1-A resistive load at 30 VDC with an operation rate of 50% Switching frequency:  NO contactNC contact 500 Sample: G6J-2P-Y Number of Relays: 10Test conditions: 10 at 10 m VDC with an operation rate of 50% Switching frequency: 7,200 µA resistive load  NO contactNC contact<br>300 1,800 operations/hour 300 operations/hour<br>min.<br>60 Operate voltage<br>100 100<br>40 max. max. max.max.<br>min. 50 max.min. 50 min.<br>20 Release voltage 30 Contact resistance min. 30 Contact resistance min.<br>00.001 0.01  0.1  1  10  100  1,000 100.001 0.01  0.1  1  10  100  1,000 100.001 0.01  0.1  1  10  100  1,000<br>Operating frequency (x10 [3]  operations) Operating frequency (x10 [3]  operations) Operating frequency (x10 [5]  operations)<br>Switching current (A) Maximum voltage (%) Switching current (A)<br>4Switching operations (x10 operations)<br>Change rate on the basis of rated voltage (%)<br>)Ω )Ω<br>Contact resistance (m Contact resistance (m<br>On the basis of rated voltage (%)<br>**----- End of picture text -----**<br>


- **Note: 1.** The tests were conducted at an ambient temperature of 23°C. 

   **2.** The contact resistance data are periodically measured reference values and are not values from each monitoring operation. Contact resistance values will vary according to the switching frequency and operating environment, so be sure to check operation under the actual operating conditions before use. 

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## **Mutual Magnetic Interference** 

## **Mutual Magnetic Interference** 

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Initial   Installed in flush   Initial   Installed in flush<br>+30 stage configuration +30 stage configuration<br>+20 +20<br>+10 Sample +10<br>Sample 0 0<br>−10 −10<br>Not energized −−2030 Average  value Not energized −−2030 Average  value<br>Initial   Installed in flush   Initial   Installed in flush<br>+30 stage configuration +30 stage configuration<br>+20 +20<br>+10 +10<br>Sample 0 Sample 0<br>−10 −10<br>Energized −−2030 Average  value Energized −−2030 Average  value<br>Operate voltage Operate voltage<br>Release voltage Release voltage<br>External Magnetic Interference<br>+30 Average value +30 Average value +30 Average value<br>S N<br>S N S N<br>+20 +20 +20<br>+10 +10 +10<br>0 0 0<br>−10 −10 −10<br>−20 −20 −20<br>−−1,200  30 Sample: G6J-2P-YNumber of Relays: 5−800  −400  0  400 Operate voltageRelease voltage800 1,200 −−1,200  30 Sample: G6J-2P-YNumber of Relays: 5−800  −400  0  400 Operate voltageRelease voltage800 1,200 −−301,200  Sample: G6J-2P-YNumber of Relays: 5−800  −400  0  400 Operate voltageRelease voltage800 1,200<br>External magnetic field (A/m) External magnetic field (A/m) External magnetic field (A/m)<br>Change rate on the  basis of initial value (%) Change rate on the  basis of initial value (%)<br>Change rate on the  basis of initial value (%) Change rate on the  basis of initial value (%)<br>Change rate on the basis of initial value (%) Change rate on the basis of initial value (%) Change rate on the basis of initial value (%)<br>**----- End of picture text -----**<br>


**High-frequency Characteristics (Return Loss, V.SWR) (See notes 1 and 2.)** 

**High-frequency Characteristics High-frequency Characteristics (Isolation) (See notes 1 and 2.) (Insertion Loss) (See notes 1 and 2.)** 

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Average value Average value Average value<br>0 0 0 3.5<br>10<br>10 3<br>20 0.5<br>1 pole 20 2.5<br>30<br>2-pole return loss<br>2 poles<br>40 1 2 poles 30 1-pole return loss 2<br>50 1 pole<br>40 1.5<br>60 1.5<br>70 50 1<br>2-pole V.SWR<br>80 2 1-pole V.SWR<br>60 0.5<br>90<br>100 2.5 70 0<br>1 10 100 1,000 1 10 100 1,000 1 10 100 1,000<br>Frequency (MHz) Frequency (MHz) Frequency (MHz)<br>Isolation (dB) Insertion Loss (dB) Return loss (dB) V.SWR<br>**----- End of picture text -----**<br>


- **Note: 1.** The tests were conducted at an ambient temperature of 23°C. 

   **2.** High-frequency characteristics depend on the PCB to which the Relay is mounted. Always check these characteristics, including endurance, in the actual machine before use. 

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## **Operate and Release Time Distribution (See note.)** 

## **Operate and Release Bounce Vibration Resistance Time Distribution (See note.)** 

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40 Sample: G6J-2P-Y  Operate time 40 Operate bounce time 5.0<br>35 Number of Relays: 30 Release time 35 Release bounce time 4.0<br>3.0<br>30 30<br>2.0<br>25 25<br>1.0<br>Operate voltage<br>20 20 0.0<br>15 15 −1.0 Release voltage<br>−2.0<br>10 10<br>−3.0<br>5 5<br>Sample: G6J-2P-Y  −4.0<br>Number of Relays: 30 −5.0<br>0  0.5  1  1.5  2  2.5  3 0  0.5  1  1.5  2  2.5  3 Initial After<br>Time (ms) Time (ms)<br>Number of contacts Number of contacts<br>Change rate on the basis of rated value (%)<br>**----- End of picture text -----**<br>


**Note:** The tests were conducted at an ambient temperature of 23°C. 

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## Dimensions 

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

## **G6J-2P-Y G6JU-2P-Y** 

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Terminal Arrangement/<br>Mounting Dimensions<br>Internal Connections<br>(Bottom View)<br>(Bottom View)<br>10.6 5.7 Tolerance ±0.1 mm<br>G6J-2P-Y<br>7.6 Eight, 0.85-dia.  Orientation mark<br>5.4 holes<br>9<br>3.2 1 2 3 4<br>+<br>3.5 0.3 3.2<br>−<br>1.5 0.4 0.15<br>3.2 3.2 (1.5) (1.25) 8 7 6 5<br>5.4<br>7.6 Note: Each value has a tolerance of ±0.3 mm. G6JU-2P-Y<br>Orientation mark<br>1 2 3 4<br>+ −<br>S R<br>− +<br>8 7 6 5<br>**----- End of picture text -----**<br>


## **G6J-2FS-Y G6JU-2FS-Y** 

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Mounting Dimensions  Terminal Arrangement/<br>(Top View) Internal Connections<br>Tolerance ±0.1 mm (Top View)<br>G6J-2FS-Y<br>10.6 5.7 7.6<br>5.4 Orientation mark<br>3.2 2.35<br>8 7 6 5<br>10.0 max.<br>4.35 −<br>+<br>1.5 0.4 3.2 0.8 1 2 3 4<br>3.2 5.7 (1.5)<br>5.4 Note: Each value has a tolerance of ±0.3 mm. G6JU-2FS-Y<br>7.6<br>Orientation mark<br>8 7 6 5<br>− +<br>S R<br>+ −<br>1 2 3 4<br>**----- End of picture text -----**<br>


## **G6J-2FL-Y G6JU-2FL-Y** 

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Mounting Dimensions  Terminal Arrangement/<br>(Top View) Internal Connections<br>Tolerance ±0.1 mm (Top View)<br>7.6 G6J-2FL-Y<br>10.6 5.7 5.4 Orientation mark<br>3.2 3.2 8 7 6 5<br>10.0 max. −<br>5.2 +<br>1 2 3 4<br>1.5 0.4 3.2<br>3.2 7.4 0.8<br>5.4 (1.5) G6JU-2FL-Y<br>7.6 Note: Each value has a tolerance of ±0.3 mm. Orientation mark<br>8 7 6 5<br>− +<br>S R<br>+ −<br>1 2 3 4<br>**----- End of picture text -----**<br>


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## Stick Packin and Ta e Packin g p g 

## **1. Stick Packing** 

Relays in stick packing are arranged so that the orientation mark of each Relay is on the left side. 

Always confirm that the Relays are in the correct orientation when mounting the Relays to the PCBs. 

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Orientation of Relays<br>Stopper (gray) Stopper (green)<br>**----- End of picture text -----**<br>


Stick length: 555 mm (stopper not included) 

No. of Relays per stick: 50 

## **2. Tape Packing (Surface-mounting Terminal Relays)** 

When ordering Relays in tape packing, add the prefix “-TR” to the model number, otherwise the Relays in stick packing will be provided. 

Tape type: TB2412R (EIAJ (Electronic Industrial Association of Japan)) Reel type: R24D (EIAJ (Electronic Industrial Association of Japan)) 

Relays per reel: 400 

## **Direction of Relay Insertion** 

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Pulling Direction<br>Orientation mark<br>Pulling<br>direction<br>**----- End of picture text -----**<br>


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Top tape (cover tape)<br>Carrier tape Embossed tape<br>**----- End of picture text -----**<br>


## **Carrier Tape Dimensions** 

## **G6J-2FS-Y, G6JU-2FS-Y** 

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10.2± [0.1]<br>16± [0.1]<br>2± [0.1] 4± [0.1] A B 1.5      dia.+0.10 1.75± [0.1] 0.4± [0.05]<br>11.5± [0.1]<br>24± [0.2]<br>11.1± [0.1] 6.3± [0.1]<br>5° max.<br>B B-B Cross Section<br>A<br>6.2± [0.1] 8.3± [0.1]<br>5° max. 5° max.<br>A-A Cross Section<br>G6J-2FL-Y, G6JU-2FL-Y<br>**----- End of picture text -----**<br>


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10.2± [0.1]<br>16± [0.1]<br>2± [0.1] 4± [0.1] A B 1.5      dia.+0.10 1.75± [0.1] 0.4± [0.05]<br>11.5± [0.1]<br>24± [0.2]<br>11.1± [0.1] 6.3± [0.1]<br>5° max.<br>B B-B Cross Section<br>A<br>7.9± [0.1] 10± [0.1]<br>5° max. 5° max.<br>A-A Cross Section<br>**----- End of picture text -----**<br>


## **Reel Dimensions** 

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25.5± [0.5]<br>29.5± [1]<br>13± [0.2][ dia.]<br>2± [0.5] 21      dia.± [0.5]<br>A<br>330 80<br>R1<br>Enlarged View of Section A<br>**----- End of picture text -----**<br>


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## Recommended Solderin Method g 

**IRS Method (for Surface-mounting Terminal Relays)** 

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Top of cover (Peak): 255°C max.<br>Soldering<br>250 max.<br>230<br>180<br>150 Preheating<br>Surface of the<br>relay terminal<br>120 max. 30 max.<br>Time (s)<br>C)Temperature (°<br>**----- End of picture text -----**<br>


- The thickness of cream solder to be applied should be between 150 and 200 µm on OMRON's recommended PCB pattern. 

- In order to perform correct soldering, it is recommended that the correct soldering conditions be maintained as shown below on the left-hand side. 

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Correct Soldering Incorrect Soldering<br>Relay Insufficient  Excessive<br>amount of  amount of<br>Terminal solder solder<br>Solder<br>PCB Land<br>**----- End of picture text -----**<br>


Visually check that the Relay is properly soldered. 

**Note:** Temperatures are given for the surface of the terminal. 

## I **Approved Standards** 

UL approval: UL60950 (File No. E41515) CSA approval: C22.2 No. 60950 (File No. LR31928) 

|**Contact form**|**Coil rating**|**Contact rating**|**Number of test operations**|
|---|---|---|---|
|DPDT|G6J-2P-Y, 2FS-Y, 2FL-Y: 3 to 24 VDC<br>G6JU-2P-Y, 2FS-Y, 2FL-Y: 3 to 24 VDC|1 A at 30 VDC<br>0.5 A at 60 VDC<br>0.3 A at 125 VAC|6,000|



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## Precautions 

Refer to page 25 for information on general precautions. Be sure to read these precautions before using the Relay. 

## **Correct Use** 

- Long Term Current Carrying 

Under a long-term current carrying without switching, the insulation resistance of the coil goes down gradually due to the heat generated by the coil itself. Furthermore, the contact resistance of the Relay will gradually become unstable due to the generation of film on the contact surfaces. A Latching Relay can be used to prevent these problems. When using a single-side stable relay, the design of the fail-safe circuit provides protection against contact failure and open coils. 

## **Handling of Surface-mounting Relays** 

Use the Relay as soon as possible after opening the moistureproof package. If the Relay is left for a long time after opening the moisture-proof package, the appearance may suffer and seal failure may occur after the solder mounting process. To store the Relay after opening the moisture-proof package, place it into the original package and sealed the package with adhesive tape. 

When washing the product after soldering the Relay to a PCB, use a water-based solvent or alcohol-based solvent, and keep the solvent temperature to less than 40°C. Do not put the relay in a cold cleaning bath immediately after soldering. 

## **Soldering** 

Soldering temperature: Approx. 250°C (At 260°C if the DWS method is used.) 

Soldering time: Approx. 5 s max. (Approx. 2 s for the first time and approx. 3 s for the second time if the DWS method is used.) 

Be sure to adjust the level of the molten solder so that the solder will not overflow onto the PCB. 

## **Claw Securing Force During Automatic Insertion** 

During automatic insertion of Relays, make sure to set the securing force of the claws to the following values so that the Relay characteristics will be maintained. 

C B A Direction A: 4.90 N max. Direction B: 9.80 N max. Direction C: 9.80 N max. 

## **Mounting Latching Relays** 

Make sure that the vibration or shock that is generated from other devices, such as Relays in operation, on the same panel and imposed on the Latching Relays does not exceed the rated value, otherwise the Latching Relays that have been set may be reset or vice versa. The Latching Relays are reset before shipping. If excessive vibration or shock is imposed, however, the Latching Relays may be set accidentally. Be sure to apply a reset signal before use. 

## **Maximum Voltage** 

The maximum voltage of the coil can be obtained from the coil temperature increase and the heat-resisting temperature of coil insulating sheath material. (Exceeding the heat-resisting temperature may result in burning or short-circuiting.) The maximum voltage also involves important restrictions which include the following: 

- Must not cause thermal changes or deterioration of the insulating material. 

- Must not cause damage to other control devices. 

- Must not cause any harmful effect on people. 

- Must not cause fire. 

Therefore, be sure not to exceed the maximum voltage specified in the catalog. 

As a rule, the rated voltage must be applied to the coil. A voltage exceeding the rated value, however, can be applied to the coil provided that the voltage is less than the maximum voltage. It must be noted that continuous voltage application to the coil will cause a coil temperature increase thus affecting characteristics such as electrical life and resulting in the deterioration of coil insulation. 

## **Coating** 

Relays mounted on PCBs may be coated or washed. Do not apply silicone coating or detergent containing silicone, otherwise the silicone coating or detergent may remain on the surface of the Relays. 

## **Other Handling** 

Please don’t use the relay if it suffered the dropping shock. Because there is a possibility of something damage for initial performance. 

Secure the claws to the area indicated by shading. 

Do not attach them to the center area or to only part of the Relay. 

## **Environmental Conditions During Operation, Storage, and Transportation** 

Protect the Relays from direct sunlight and keep the Relays under normal temperature, humidity, and pressure. 

## **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. K125-E1-02 

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