Solid State Relays

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Part	Manufacturer	Optoelectronic Type	Mounting Feature	Terminal Finish	Configuration	Control Current	Maximum Forward Current	No. of Elements	Output Circuit Type	Maximum Response Time	Sub-Category	Maximum Operating Temperature	Maximum On State Resistance	Height	Minimum Operating Temperature	Maximum Isolation Voltage	Control Voltage	Input Type	Additional Features	Length	JESD-609 Code	Maximum Forward Voltage	Maximum On State Current
TSS16H11S	Toshiba					.02 A			SCR		Solid State Relays	80 Cel		52 mm	-30 Cel		6 V	DC		74 mm
TSS12J48SR	Toshiba	TRIGGER OUTPUT SSR			SINGLE		.03 A	1				80 Cel			-20 Cel	3750 V			TTL COMPATIBLE, WITH SNUBBER NETWORK, WITH ZERO CROSSOVER CIRCUIT				12 A
TSZ1J48S	Toshiba	TRIGGER OUTPUT SSR			SINGLE		.03 A	1				80 Cel			-20 Cel	2000 V			TTL COMPATIBLE; WITH SNUBBER NETWORK				1 A
TSZ2G48	Toshiba	TRIGGER OUTPUT SSR			SINGLE		.03 A	1				80 Cel			-20 Cel	2000 V			TTL COMPATIBLE				2 A
TSS16J47S	Toshiba	TRIGGER OUTPUT SSR			SINGLE		.025 A	1				80 Cel			-30 Cel	2060 V			TTL COMPATIBLE, WITH ZERO CROSSOVER CIRCUIT				16 A
TSZ16G48S	Toshiba	TRIGGER OUTPUT SSR			SINGLE		.03 A	1				80 Cel			-20 Cel	2500 V			TTL COMPATIBLE; WITH SNUBBER NETWORK				16 A
TLP596B(LF2)	Toshiba	TRANSISTOR OUTPUT SSR			SINGLE WITH BUILT-IN DIODE		.05 A	1				80 Cel	4 ohm		-20 Cel	2500 V			BI-DIRECTIONAL, UL RECOGNIZED				.2 A
TSS1J48S	Toshiba	TRIGGER OUTPUT SSR			SINGLE		.03 A	1				80 Cel			-20 Cel	2000 V			TTL COMPATIBLE, WITH SNUBBER NETWORK, WITH ZERO CROSSOVER CIRCUIT				1 A
TLP797J(V4)	Toshiba	TRANSISTOR OUTPUT SSR
TLP595B(TP1)	Toshiba	TRANSISTOR OUTPUT SSR		Tin/Lead (Sn/Pb)	SINGLE WITH BUILT-IN DIODE		.03 A	1				80 Cel	4 ohm		-20 Cel	2500 V			BI-DIRECTIONAL, UL RECOGNIZED		e0		.2 A
TSS1H44	Toshiba			Tin/Lead (Sn/Pb)		.02 A			SCR		Solid State Relays	80 Cel		15 mm	-30 Cel		6 V	DC		30 mm	e0
TSS2D44	Toshiba			Tin/Lead (Sn/Pb)		.02 A			SCR		Solid State Relays	80 Cel		15 mm	-30 Cel		6 V	DC		30 mm	e0
TLP597G(TP5)	Toshiba	TRANSISTOR OUTPUT SSR			SINGLE WITH BUILT-IN DIODE		.05 A	1				65 Cel	35 ohm		-20 Cel	2500 V			UL RECOGNIZED				.12 A
TSS16J41S	Toshiba	TRIGGER OUTPUT SSR			SINGLE		.02 A	1				80 Cel			-30 Cel	2060 V			WITH ZERO CROSSOVER CIRCUIT				16 A
TLP595B(LF1)	Toshiba	TRANSISTOR OUTPUT SSR		Tin/Lead (Sn/Pb)	SINGLE WITH BUILT-IN DIODE		.03 A	1				80 Cel	4 ohm		-20 Cel	2500 V			BI-DIRECTIONAL, UL RECOGNIZED		e0		.2 A
TSS1H42	Toshiba					.02 A			SCR		Solid State Relays	80 Cel		15 mm	-30 Cel		6 V	DC		30 mm
TSS16D41S	Toshiba					.02 A			SCR		Solid State Relays	80 Cel		30 mm	-30 Cel		6 V	DC		70 mm
TLP598A(IFT2)	Toshiba	TRANSISTOR OUTPUT SSR		Tin/Lead (Sn/Pb)	SINGLE WITH BUILT-IN DIODE		.02 A	1				85 Cel	2 ohm		-40 Cel	2500 V			UL RECOGNIZED, BI-DIRECTIONAL		e0		.3 A
TSS8J48S	Toshiba	TRIGGER OUTPUT SSR			SINGLE		.03 A	1				80 Cel			-20 Cel	2500 V			TTL COMPATIBLE, WITH SNUBBER NETWORK, WITH ZERO CROSSOVER CIRCUIT				8 A
TLP796G(LF1)	Toshiba	TRANSISTOR OUTPUT SSR			SINGLE WITH BUILT-IN DIODE		.05 A	1				80 Cel	30 ohm		-20 Cel	4000 V			BI-DIRECTIONAL				.12 A
TLP597A	Toshiba	TRANSISTOR OUTPUT SSR			SINGLE		.025 A	1				65 Cel	2 ohm		-20 Cel	2500 V			UL RECOGNIZED				.4 A
TSS1G47	Toshiba	TRIGGER OUTPUT SSR			SINGLE		.02 A	1				80 Cel			-30 Cel	2060 V			TTL COMPATIBLE, WITH ZERO CROSSOVER CIRCUIT				1 A
TSZ1J2A44S	Toshiba	TRIGGER OUTPUT SSR			SINGLE		.02 A	1				80 Cel			-30 Cel	2060 V							1 A
TLP597A(F)	Toshiba	TRANSISTOR OUTPUT SSR	THROUGH HOLE MOUNT		SINGLE WITH BUILT-IN DIODE		.025 A	1		.002 s	Optocoupler - Transistor Outputs	65 Cel	2 ohm		-20 Cel	2500 V			UL RECOGNIZED			1.3 V	.4 A
TSS2J47S	Toshiba	TRIGGER OUTPUT SSR			SINGLE		.02 A	1				80 Cel			-30 Cel	2060 V			TTL COMPATIBLE, WITH SNUBBER NETWORK, WITH ZERO CROSSOVER CIRCUIT				2 A
TLP797J	Toshiba	TRANSISTOR OUTPUT SSR			SINGLE WITH BUILT-IN DIODE		.025 A	1				65 Cel	45 ohm		-20 Cel	5000 V							.1 A
TSZ16J48S	Toshiba	TRIGGER OUTPUT SSR			SINGLE		.03 A	1				80 Cel			-20 Cel	2500 V			TTL COMPATIBLE; WITH SNUBBER NETWORK				16 A
TSS10J45S	Toshiba	TRIGGER OUTPUT SSR			SINGLE		.02 A	1				80 Cel			-30 Cel	1500 V			TTL COMPATIBLE, WITH SNUBBER NETWORK, WITH ZERO CROSSOVER CIRCUIT				10 A
TLP621-2(D4-GR-LF2)	Toshiba	TRANSISTOR OUTPUT SSR
TLP596B(IFT2-TP1)	Toshiba	TRANSISTOR OUTPUT SSR			SINGLE WITH BUILT-IN DIODE		.05 A	1				80 Cel	4 ohm		-20 Cel	2500 V			BI-DIRECTIONAL, UL RECOGNIZED				.2 A
TSS2H41	Toshiba					.02 A			SCR		Solid State Relays	80 Cel		15 mm	-30 Cel		6 V	DC		30 mm
TLP596B(LF5)	Toshiba	TRANSISTOR OUTPUT SSR			SINGLE WITH BUILT-IN DIODE		.05 A	1				80 Cel	4 ohm		-20 Cel	2500 V			BI-DIRECTIONAL, UL RECOGNIZED				.2 A
TLP595B(LF2)	Toshiba	TRANSISTOR OUTPUT SSR		Tin/Lead (Sn/Pb)	SINGLE WITH BUILT-IN DIODE		.03 A	1				80 Cel	4 ohm		-20 Cel	2500 V			BI-DIRECTIONAL, UL RECOGNIZED		e0		.2 A
TSZ1J45S	Toshiba	TRIGGER OUTPUT SSR			SINGLE		.02 A	1				80 Cel			-30 Cel	2060 V			TTL COMPATIBLE; WITH SNUBBER NETWORK				1 A
TSS10G45S	Toshiba	TRIGGER OUTPUT SSR			SINGLE		.02 A	1				80 Cel			-30 Cel	1500 V			TTL COMPATIBLE, WITH SNUBBER NETWORK, WITH ZERO CROSSOVER CIRCUIT				10 A
TLP596G(IFT2-TP1)	Toshiba	TRANSISTOR OUTPUT SSR			SINGLE WITH BUILT-IN DIODE		.05 A	1				80 Cel	30 ohm		-20 Cel	2500 V			BI-DIRECTIONAL, UL RECOGNIZED				.12 A
TLP596B(TP4)	Toshiba	TRANSISTOR OUTPUT SSR			SINGLE WITH BUILT-IN DIODE		.05 A	1				80 Cel	4 ohm		-20 Cel	2500 V			BI-DIRECTIONAL, UL RECOGNIZED				.2 A
TSS16G48S	Toshiba	TRIGGER OUTPUT SSR			SINGLE		.03 A	1				80 Cel			-20 Cel	2500 V			TTL COMPATIBLE, WITH SNUBBER NETWORK, WITH ZERO CROSSOVER CIRCUIT				16 A
TSS8G47S	Toshiba	TRIGGER OUTPUT SSR			SINGLE		.025 A	1				80 Cel			-30 Cel	2060 V			TTL COMPATIBLE, WITH SNUBBER NETWORK, WITH ZERO CROSSOVER CIRCUIT				8 A
TSS1J45S	Toshiba	TRIGGER OUTPUT SSR			SINGLE		.02 A	1				80 Cel			-30 Cel	2060 V			TTL COMPATIBLE, WITH SNUBBER NETWORK, WITH ZERO CROSSOVER CIRCUIT				1 A
TLP595A(IFT2-TP4)	Toshiba	TRANSISTOR OUTPUT SSR			SINGLE WITH BUILT-IN DIODE		.03 A	1				80 Cel	2 ohm		-20 Cel	2500 V			BI-DIRECTIONAL, UL RECOGNIZED				.3 A
TLP595A	Toshiba	TRANSISTOR OUTPUT SSR		Tin/Lead (Sn/Pb)	SINGLE WITH BUILT-IN DIODE		.03 A	1				80 Cel	2 ohm		-20 Cel	2500 V			BI-DIRECTIONAL, UL RECOGNIZED		e0		.3 A
TLP597G(LF4)	Toshiba	TRANSISTOR OUTPUT SSR			SINGLE WITH BUILT-IN DIODE		.05 A	1				65 Cel	35 ohm		-20 Cel	2500 V			UL RECOGNIZED				.12 A
TLP796G(LF5)	Toshiba	TRANSISTOR OUTPUT SSR			SINGLE WITH BUILT-IN DIODE		.05 A	1				80 Cel	30 ohm		-20 Cel	4000 V			BI-DIRECTIONAL				.12 A
TLP596G	Toshiba	TRANSISTOR OUTPUT SSR		Tin/Lead (Sn/Pb)	SINGLE WITH BUILT-IN DIODE		.05 A	1				80 Cel	30 ohm		-20 Cel	2500 V			BI-DIRECTIONAL, UL RECOGNIZED		e0		.12 A
TLP4590AF(TP4,F	Toshiba	TRANSISTOR OUTPUT SSR
TLP4222G	Toshiba	TRANSISTOR OUTPUT SSR			SINGLE WITH BUILT-IN DIODE		.025 A	1				65 Cel	50 ohm		-20 Cel	2500 V			UL RECOGNIZED				.1 A
TSS16G11S	Toshiba	TRIGGER OUTPUT SSR			SINGLE		.02 A	1				80 Cel			-30 Cel	2060 V			WITH ZERO CROSSOVER CIRCUIT				16 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.