Omron Solid State Relays 1,483

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Part	Manufacturer	Optoelectronic Type	Mounting Feature	Configuration	Maximum Forward Current	No. of Elements	Packing Method	Output Circuit Type	Maximum Operating Temperature	Maximum On State Resistance	Height	Minimum Operating Temperature	Maximum Isolation Voltage	Input Type	Additional Features	Length	Maximum On State Current
G3VM-61UV	Omron	TRANSISTOR OUTPUT SSR
G3VM-201DR(TR05)	Omron	TRANSISTOR OUTPUT SSR	SURFACE MOUNT	SINGLE WITH BUILT-IN DIODE	.025 A	1	TAPE	MOSFET	110 Cel	2 ohm	3.65 mm	-40 Cel	2500 V	DC	UL RECOGNIZED	6.4 mm	.7 A
G3VM-21ER	Omron	TRANSISTOR OUTPUT SSR	SURFACE MOUNT	SINGLE WITH BUILT-IN DIODE	.025 A	1	TUBE	MOSFET	65 Cel	.05 ohm	3.65 mm	-20 Cel	2500 V	DC	UL RECOGNIZED	7.12 mm	4 A
G3VM-21ER(TR)	Omron	TRANSISTOR OUTPUT SSR	SURFACE MOUNT	SINGLE WITH BUILT-IN DIODE	.025 A	1	TAPE	MOSFET	65 Cel	.05 ohm	3.65 mm	-20 Cel	2500 V	DC	UL RECOGNIZED	7.12 mm	4 A
SE-KQ2EN	Omron	TRIGGER OUTPUT SSR
SE-KP1AN	Omron	TRIGGER OUTPUT SSR
SE-KQ2N	Omron	TRIGGER OUTPUT SSR
SE-KQP2AN	Omron	TRIGGER OUTPUT SSR
SE-K1EN	Omron	TRIGGER OUTPUT SSR
SE-KQP2EN	Omron	TRIGGER OUTPUT SSR
SE-KQ1N	Omron	TRIGGER OUTPUT SSR
SE-KQ4N	Omron	TRIGGER OUTPUT SSR
SE-KQ1AN	Omron	TRIGGER OUTPUT SSR
SE-K4EN	Omron	TRIGGER OUTPUT SSR
SE-KP2EN	Omron	TRIGGER OUTPUT SSR
SE-KQ2AN	Omron	TRIGGER OUTPUT SSR
SE-K2AN	Omron	TRIGGER OUTPUT SSR
SE-K1AN	Omron	TRIGGER OUTPUT SSR
SE-KQP1N	Omron	TRIGGER OUTPUT SSR
SE-KP2AN	Omron	TRIGGER OUTPUT SSR
SE-K4N	Omron	TRIGGER OUTPUT SSR
SE-KP2N	Omron	TRIGGER OUTPUT SSR
SE-K1N	Omron	TRIGGER OUTPUT SSR
SE-KP1EN	Omron	TRIGGER OUTPUT SSR
SE-KQP1EN	Omron	TRIGGER OUTPUT SSR
SE-K2EN	Omron	TRIGGER OUTPUT SSR
SE-KQ4EN	Omron	TRIGGER OUTPUT SSR
SE-KQ1EN	Omron	TRIGGER OUTPUT SSR
SE-KQP2N	Omron	TRIGGER OUTPUT SSR
SE-KQP1AN	Omron	TRIGGER OUTPUT SSR
SE-K2N	Omron	TRIGGER OUTPUT SSR
SE-KP1N	Omron	TRIGGER OUTPUT SSR
G3M-202P-USDC12	Omron	TRIGGER OUTPUT SSR				1			80 Cel			-30 Cel	2000 V		UL RECOGNIZED, ZERO VOLTAGE CROSSING		2 A
G3M-205PDC12	Omron	TRIGGER OUTPUT SSR				1			80 Cel			-30 Cel	2500 V		UL RECOGNIZED, ZERO VOLTAGE CROSSING		5 A
G3M-102PL-USDC12	Omron	TRIGGER OUTPUT SSR				1			80 Cel			-30 Cel	2000 V		UL RECOGNIZED		2 A
G3TA-OA202SZ-USDC12	Omron	TRIGGER OUTPUT SSR		SINGLE WITH BUILT-IN LED DISPLAY		1			80 Cel			-30 Cel	4000 V		UL RECOGNIZED, ZERO VOLTAGE CROSSING		2 A
G3NA-425B-100TO240VAC	Omron	TRIGGER OUTPUT SSR				1			80 Cel			-30 Cel	2500 V		UL RECOGNIZED, ZERO VOLTAGE CROSSING		25 A
G3NA-205B	Omron	TRIGGER OUTPUT SSR				1			80 Cel			-30 Cel	2500 V				.003 A
G3M-205PL-4DC12-VD	Omron	TRIGGER OUTPUT SSR				1			80 Cel			-30 Cel	2500 V		UL RECOGNIZED, VDE APPROVED		5 A
G3R-OA202SLNDC5-24	Omron	TRIGGER OUTPUT SSR
G3RV-SL700-LAC/DC48	Omron	TRIGGER OUTPUT SSR
G3M-202PL-UTUDC12	Omron	TRIGGER OUTPUT SSR				1			80 Cel			-30 Cel	2000 V		UL RECOGNIZED		2 A
G3TC-ODC15ADC15	Omron	TRANSISTOR OUTPUT SSR		COMPLEX	.018 A	1			80 Cel			-30 Cel	4000 V		UL RECOGNIZED		1 A
G3TB-OA203PZ-US	Omron	TRIGGER OUTPUT SSR		COMPLEX	.005 A	1			80 Cel			-30 Cel	4000 V		UL RECOGNIZED		3 A
G3TC-OAC15DC15	Omron	TRIGGER OUTPUT SSR		COMPLEX	.018 A	1			80 Cel			-30 Cel	4000 V		UL RECOGNIZED		3 A
G3M-205PL-4DC24-VD	Omron	TRIGGER OUTPUT SSR				1			80 Cel			-30 Cel	2500 V		UL RECOGNIZED, VDE APPROVED		5 A
G3M-205P-4	Omron	TRIGGER OUTPUT SSR
G3M-202P-UTUDC24	Omron	TRIGGER OUTPUT SSR				1			80 Cel			-30 Cel	2000 V		UL RECOGNIZED, ZERO VOLTAGE CROSSING		2 A

Solid State Relays

Solid state relays (SSRs) are electronic devices that are used to switch or control electrical loads without using any moving parts. They consist of a control circuit and a switching device, which are both made from semiconductor materials. SSRs are widely used in a variety of applications, including in industrial control systems, home automation, and power management.

The control circuit of an SSR typically consists of a light-emitting diode (LED) and a phototransistor or a photothyristor. The LED is used to control the phototransistor or photothyristor, which is used to switch the load. When the LED is turned on, it produces light that is detected by the phototransistor or photothyristor, which then switches the load.

One of the advantages of SSRs is their ability to switch high loads without the use of any mechanical components. They are also able to switch loads quickly and precisely, making them suitable for applications that require fast response times or precise control.

Another advantage of SSRs is their durability and reliability. They do not have any moving parts that can wear out or break, and they are not affected by vibrations or shocks.

One of the disadvantages of SSRs is their cost. They are generally more expensive than electromechanical relays, which use mechanical components to switch loads.