TRIGGER OUTPUT SSR Solid State Relays 1,570

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Part	Manufacturer	Optoelectronic Type	Mounting Feature	Terminal Finish	Maximum On State Voltage	Configuration	Maximum Supply Voltage	Control Current	Peak Surge Current	Maximum Forward Current	No. of Elements	Nominal Supply Voltage	Depth	Packing Method	Output Circuit Type	Sub-Category	Minimum Supply Voltage	Maximum Operating Temperature	Height	Minimum Operating Temperature	Maximum Reverse Leakage Current	Maximum Output Voltage	Maximum Isolation Voltage	Maximum Input Trigger Current	Control Voltage	Repetitive Off-state Voltage (Peak)	Input Type	Additional Features	Length	JESD-609 Code	Maximum On State Current
PR22MA11NTZF	Sharp Corporation	TRIGGER OUTPUT SSR		Tin/Copper (Sn/Cu)		SINGLE				.05 A	1							85 Cel		-30 Cel			5000 V					HIGH RELIABILITY		e2	.15 A
RGS1A60D50KGE	Carlo Gavazzi Holding Ag	TRIGGER OUTPUT SSR
RGS1A60D50KGEHT	Carlo Gavazzi Holding Ag	TRIGGER OUTPUT SSR
RSSDN-50A	Idec	TRIGGER OUTPUT SSR				COMPLEX				.01 A	1												4000 V					UL RECOGNIZED			50 A
SPFE380D25	Crydom	TRIGGER OUTPUT SSR									1							80 Cel		-30 Cel			4000 V					UL APPROVED			10 A
SPFE380D25R	Crydom	TRIGGER OUTPUT SSR									1							80 Cel		-30 Cel			4000 V					UL APPROVED			10 A
TLP224GA-2(F)	Toshiba	TRIGGER OUTPUT SSR
6-1393028-7	TE Connectivity	TRIGGER OUTPUT SSR	PANEL MOUNT				18 V					15 V	15.2 mm				9 V	80 Cel	31.7 mm	-30 Cel		280 V							43.1 mm
861SSR210-DC-1	Magnecraft	TRIGGER OUTPUT SSR
AQH0223	Panasonic	TRIGGER OUTPUT SSR				SINGLE				.05 A	1			TUBE				85 Cel		-30 Cel			5000 V					UL RECOGNIZED
CTRD6025-10	Crydom	TRIGGER OUTPUT SSR
CWA2425-10	Crydom	TRIGGER OUTPUT SSR		Tin (Sn)				.024 A			1				SCR	Solid State Relays		80 Cel	33 mm	-40 Cel			4000 V		18 V		AC	UL RECOGNIZED, VDE APPROVED, ZERO VOLTAGE CROSSING	58.4 mm	e3	25 A
DR6760A30RP	Sensata Technologies	TRIGGER OUTPUT SSR
DR6760D30RP	Sensata Technologies	TRIGGER OUTPUT SSR
G3MB-102PL-DC24	Omron	TRIGGER OUTPUT SSR				SINGLE					1							80 Cel		-30 Cel			2500 V					UL RECOGNIZED			2 A
G3MC-202P-VD-DC12	Omron	TRIGGER OUTPUT SSR									1							80 Cel		-30 Cel			2500 V					UL RECOGNIZED, ZERO VOLTAGE CROSSING, VDE APPROVED			2 A
G3MC-202P-VD-DC24	Omron	TRIGGER OUTPUT SSR									1							80 Cel		-30 Cel			2500 V					UL RECOGNIZED, ZERO VOLTAGE CROSSING, VDE APPROVED			2 A
G3MC-202P-VD-DC5	Omron	TRIGGER OUTPUT SSR									1							80 Cel		-30 Cel			2500 V					UL RECOGNIZED, ZERO VOLTAGE CROSSING, VDE APPROVED			2 A
G3MC-202PL-VD-1-DC12	Omron	TRIGGER OUTPUT SSR									1							80 Cel		-30 Cel			2500 V					UL RECOGNIZED, VDE APPROVED			2 A
HA4850F	Crydom	TRIGGER OUTPUT SSR				SINGLE		.002 A			1				Back to Back SCR	Solid State Relays		80 Cel		-40 Cel			4000 V		90 V		AC	UL RECOGNIZED, VDE APPROVED, ZERO VOLTAGE CROSSING			50 A
OACM-5	TE Connectivity	TRIGGER OUTPUT SSR	PANEL MOUNT				8 V	.02 A			1	5 V	10.3 mm		Triac	Solid State Relays	3 V	80 Cel	25.5 mm	-30 Cel		280 V	4000 V		3 V		DC		43.6 mm
PF380D25	Crydom	TRIGGER OUTPUT SSR		Tin (Sn)							1							80 Cel		-30 Cel			4000 V					ZEROVOLTAGECROSSING,ULRECOGNIZED,VDEAPPROVED		e3	25 A
S202T01F	Sharp Corporation	TRIGGER OUTPUT SSR		Tin/Copper (Sn/Cu)		SINGLE				.05 A	1							100 Cel		-25 Cel			3000 V					UL RECOGNIZED, HIGH RELIABILITY		e2	2 A
SO942860	Celduc Relais	TRIGGER OUTPUT SSR
SO942960	Celduc Relais	TRIGGER OUTPUT SSR
SSR-480D25	TE Connectivity	TRIGGER OUTPUT SSR	CHASSIS MOUNT			COMPLEX	32 V			.015 A	1		57.8 mm				3 V	80 Cel	36.5 mm	-30 Cel		660 V	4000 V					WITH ZERO CROSS OVER CIRCUIT, UL RECOGNIZED	45 mm		25 A
TLP3502	Toshiba	TRIGGER OUTPUT SSR				SINGLE				.025 A	1							85 Cel		-25 Cel			2500 V					UL RECOGNIZED			.5 A
S208T02	Sharp Corporation	TRIGGER OUTPUT SSR		Tin/Lead (Sn/Pb)		SINGLE				.05 A	1							100 Cel		-25 Cel			3000 V					UL RECOGNIZED		e0	8 A
S216S02	Sharp Corporation	TRIGGER OUTPUT SSR		Tin/Lead (Sn/Pb)		SINGLE				.05 A	1							100 Cel		-25 Cel			4000 V					UL RECOGNIZED, HIGH RELIABILITY, WITH ZERO CROSSOVER CIRCUIT		e0	16 A
S202S01	Sharp Corporation	TRIGGER OUTPUT SSR		Tin/Lead (Sn/Pb)		SINGLE				.05 A	1							100 Cel		-25 Cel			4000 V					UL RECOGNIZED, HIGH RELIABILITY		e0	8 A
AQJ116V	Panasonic	TRIGGER OUTPUT SSR									1			BOX				80 Cel		-30 Cel			3000 V					UL RECOGNIZED			10 A
PS2401	Littelfuse	TRIGGER OUTPUT SSR		Matte Tin (Sn)		SINGLE				.1 A	1				Back to Back SCR	Solid State Relays		85 Cel	6 mm	-40 Cel			3750 V		.9 V		DC	UL RECOGNIZED, CMOS COMPATIBLE, WITH ZERO CROSSOVER CIRCUIT	19 mm	e3	1 A
S102S11F	Sharp Corporation	TRIGGER OUTPUT SSR		Tin/Copper (Sn/Cu)		SINGLE WITH BUILT-IN SNUBBER				.05 A	1							80 Cel		-20 Cel			4000 V					UL RECOGNIZED, HIGH RELIABILITY		e2	8 A
S202S12	Sharp Corporation	TRIGGER OUTPUT SSR		Tin/Lead (Sn/Pb)		SINGLE WITH BUILT-IN SNUBBER				.05 A	1							80 Cel		-20 Cel			4000 V					UL RECOGNIZED, HIGH RELIABILITY, WITH ZERO CROSSOVER CIRCUIT		e0	8 A
CPC1966B	Littelfuse	TRIGGER OUTPUT SSR
AQG12205	Panasonic	TRIGGER OUTPUT SSR				SINGLE					1			BOX	Triac	Solid State Relays		80 Cel	13.5 mm	-30 Cel			3000 V		1 V		DC	UL RECOGNIZED, VDE APPROVED	24.5 mm		1 A
CPC1943G	Littelfuse	TRIGGER OUTPUT SSR	THROUGH HOLE MOUNT	Matte Tin (Sn)		SINGLE				.1 A	1					Optocoupler - Trigger Device Outputs		85 Cel		-40 Cel	.001 A		3750 V	.1 A		400 V		CMOS COMPATIBLE, UL RECOGNIZED, ZERO VOLTAGE CROSSING		e3	.5 A
S116S02F	Sharp Corporation	TRIGGER OUTPUT SSR		Tin/Copper (Sn/Cu)		SINGLE				.05 A	1							100 Cel		-25 Cel			4000 V					UL RECOGNIZED, HIGH RELIABILITY, WITH ZERO CROSSOVER CIRCUIT		e2	16 A
S202SE2	Sharp Corporation	TRIGGER OUTPUT SSR		Tin/Lead (Sn/Pb)		SINGLE				.05 A	1							100 Cel		-25 Cel			3000 V					UL RECOGNIZED, HIGH RELIABILITY		e0	8 A
MOC2A40-10	Motorola	TRIGGER OUTPUT SSR	THROUGH HOLE MOUNT	Tin/Lead (Sn/Pb)	1.3 V	SINGLE			60 A	.05 A	1					Optocoupler - Trigger Device Outputs		100 Cel		-40 Cel	.0001 A		3750 V	.01 A		400 V		ZERO VOLTAGE CROSSING		e0	2 A
S201S05V	Sharp Corporation	TRIGGER OUTPUT SSR		Tin/Lead (Sn/Pb)		SINGLE				.05 A	1							100 Cel		-25 Cel			3000 V					UL RECOGNIZED		e0	3 A
S202T02F	Sharp Corporation	TRIGGER OUTPUT SSR		Tin/Copper (Sn/Cu)		SINGLE				.05 A	1							100 Cel		-25 Cel			3000 V					UL RECOGNIZED, WITH ZERO CROSSOVER CIRCUIT		e2	2 A
S21MA01	Sharp Corporation	TRIGGER OUTPUT SSR		Tin/Lead (Sn/Pb)		SINGLE				.05 A	1							80 Cel		-25 Cel			5000 V					UL RECOGNIZED		e0	.1 A
TLP3555(TP1,F)	Toshiba	TRIGGER OUTPUT SSR
PR33MF51NSZF	Sharp Corporation	TRIGGER OUTPUT SSR		Tin/Copper (Sn/Cu)		SINGLE				.05 A	1							85 Cel		-30 Cel			4000 V					UL RECOGNIZED, HIGH RELIABILITY, WITH ZERO CROSS OVER CIRCUIT		e2	.3 A
S101S05V	Sharp Corporation	TRIGGER OUTPUT SSR		Tin/Lead (Sn/Pb)		SINGLE				.05 A	1							100 Cel		-25 Cel			3000 V					UL RECOGNIZED, HIGH RELIABILITY		e0	3 A
S102S11	Sharp Corporation	TRIGGER OUTPUT SSR		Tin/Lead (Sn/Pb)		SINGLE WITH BUILT-IN SNUBBER				.05 A	1							80 Cel		-20 Cel			4000 V					UL RECOGNIZED, HIGH RELIABILITY		e0	8 A
S201S06V	Sharp Corporation	TRIGGER OUTPUT SSR		Tin/Lead (Sn/Pb)		SINGLE				.05 A	1							100 Cel		-25 Cel			3000 V					UL RECOGNIZED, HIGH RELIABILITY, WITH ZERO CROSSOVER CIRCUIT		e0	3 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.