Solid State Relays

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Part	Manufacturer	Optoelectronic Type	Mounting Feature	Terminal Finish	Configuration	Maximum Supply Voltage	Control Current	Maximum Forward Current	No. of Elements	Depth	Packing Method	Output Circuit Type	Sub-Category	Minimum Supply Voltage	Maximum Operating Temperature	Maximum On State Resistance	Height	Minimum Operating Temperature	Maximum Output Voltage	Maximum Isolation Voltage	Control Voltage	Input Type	Additional Features	Length	JESD-609 Code	Maximum On State Current
EL100D10-05	Crydom	TRANSISTOR OUTPUT SSR			SINGLE WITH BUILT-IN RESISTOR				1						80 Cel	.01 ohm		-30 Cel		2500 V			UL RECOGNIZED			10 A
PVDZ172NPBF	Infineon Technologies	TRANSISTOR OUTPUT SSR			SINGLE		.01 A	.025 A	1			MOSFET	Solid State Relays		85 Cel	.25 ohm	4.5 mm	-40 Cel		4000 V		DC	UL RECOGNIZED	9.4 mm		1.5 A
PLA192ESTR	Littelfuse	TRANSISTOR OUTPUT SSR
AQV210EHAZ	Panasonic	TRANSISTOR OUTPUT SSR		Tin/Bismuth (Sn/Bi)	SINGLE WITH BUILT-IN DIODE			.05 A	1		TR				85 Cel	35 ohm		-40 Cel		5000 V			UL RECOGNIZED		e6	.13 A
AQY214EHA	Panasonic	TRANSISTOR OUTPUT SSR		Matte Tin (Sn)	SINGLE			.05 A	1		TUBE	MOSFET	Solid State Relays		85 Cel	35 ohm	2.9 mm	-40 Cel		5000 V		DC	HIGH SENSITIVITY, UL RECOGNIZED	4.78 mm	e3	.12 A
CPC1978J	Littelfuse	TRANSISTOR OUTPUT SSR		MATTE TIN	SINGLE			.1 A	1						85 Cel	2.3 ohm		-40 Cel		2500 V			UL RECOGNIZED		e3	.75 A
CX241R	Crydom	TRIGGER OUTPUT SSR			SINGLE				1						80 Cel			-30 Cel		4000 V			UL RECOGNIZED, VDE APPROVED			1.5 A
PVN012SPBF	Infineon Technologies	TRANSISTOR OUTPUT SSR			SINGLE		.003 A	.025 A	1			MOSFET	Solid State Relays		85 Cel	.1 ohm	3.42 mm	-40 Cel		4000 V		DC	UL RECOGNIZED	8.63 mm		2.5 A
SSRT240D10	Potter & Brumfield											Triac	Solid State Relays		80 Cel		21 mm	-30 Cel			3 V	DC		44 mm
SSRT-240D10	TE Connectivity	TRIGGER OUTPUT SSR	CHASSIS MOUNT		COMPLEX	32 V		.014 A	1	57.8 mm				3 V	80 Cel		36.5 mm	-30 Cel	280 V	4000 V			UL RECOGNIZED	45 mm		10 A
1-2345984-6	TE Connectivity	TRIGGER OUTPUT SSR				32 V				37 mm				4 V	80 Cel		73.5 mm	-30 Cel	480 V					104 mm
2966634	Phoenix Contact	TRANSISTOR OUTPUT SSR
AQH3213	Panasonic	TRIGGER OUTPUT SSR			SINGLE			.02 A	1		TUBE				85 Cel			-30 Cel		5000 V			UL RECOGNIZED, VDE APPROVED, ZERO VOLTAGE CROSSING
AQV258H5A	Panasonic	TRANSISTOR OUTPUT SSR
AQW254AZ	Panasonic	TRANSISTOR OUTPUT SSR			SEPARATE, 2 ELEMENTS			.05 A	2		TR				85 Cel	16 ohm		-40 Cel		1500 V			HIGH SENSITIVITY			.16 A
G3MB-202PL-DC24	Omron	TRIGGER OUTPUT SSR			SINGLE			.02 A	1						80 Cel			-30 Cel		2500 V			UL RECOGNIZED			2 A
MCX241R	Crydom	TRIGGER OUTPUT SSR		Tin (Sn)	SINGLE				1						80 Cel			-40 Cel		4000 V			UL RECOGNIZED, VDE APPROVED		e3	1.5 A
AQV210E	Panasonic	TRANSISTOR OUTPUT SSR			SINGLE WITH BUILT-IN DIODE			.05 A	1		TUBE				85 Cel	35 ohm		-40 Cel		1500 V			UL RECOGNIZED			.13 A
AQV252G3S	Panasonic	TRANSISTOR OUTPUT SSR									TUBE
CMX60D5	Crydom	TRANSISTOR OUTPUT SSR		Tin (Sn) - with Nickel (Ni) barrier	SINGLE WITH BUILT-IN RESISTOR				1						80 Cel	.1 ohm		-30 Cel		2500 V			UL RECOGNIZED		e3	5 A
CSW2410	Crydom	TRIGGER OUTPUT SSR		Tin (Sn)			.01 A		1			SCR	Solid State Relays		80 Cel		22.9 mm	-40 Cel		4000 V	3 V	DC	UL RECOGNIZED, VDE APPROVED, ZERO VOLTAGE CROSSING	58.4 mm	e3	10 A
G3VM-201G	Omron	TRANSISTOR OUTPUT SSR			SINGLE			.015 A	1						60 Cel	50 ohm		25 Cel		1500 V						.04 A
G3VM-61ER1(TR)	Omron	TRANSISTOR OUTPUT SSR	SURFACE MOUNT		SINGLE WITH BUILT-IN DIODE			.025 A	1		TAPE	MOSFET			65 Cel	.07 ohm	3.65 mm	-20 Cel		2500 V		DC	UL RECOGNIZED	7.12 mm		3 A
G3VM-61QR2(TR05)	Omron	TRANSISTOR OUTPUT SSR
PLA134	Littelfuse	TRANSISTOR OUTPUT SSR	THROUGH HOLE MOUNT		SINGLE		.005 A	.005 A	1		TUBE	MOSFET			85 Cel	3 ohm	3.302 mm	-40 Cel		3750 V	.9 V	DC	UL RECOGNIZED	8.382 mm		.35 A
A1210	Crydom	TRIGGER OUTPUT SSR		Tin (Sn)	SINGLE WITH BUILT-IN RESISTOR		.002 A	.004 A	1			Back to Back SCR	Solid State Relays		80 Cel		22.9 mm	-40 Cel		4000 V	90 V	AC	UL RECOGNIZED, VDE APPROVED, ZERO VOLTAGE CROSSING	58.4 mm	e3	10 A
D2440DE-10	Crydom	TRIGGER OUTPUT SSR			SEPARATE, 2 ELEMENTS WITH BUILT-IN SNUBBER				2						80 Cel			-40 Cel		4000 V			UL APPROVED, VDE APPROVED			40 A
G3MB-202PEG-4-DC20MA	Omron	TRIGGER OUTPUT SSR			SINGLE			.02 A	1						80 Cel			-30 Cel		2500 V			ZERO VOLTAGE CROSSING			2 A
PFE240D25	Crydom	TRIGGER OUTPUT SSR							1						80 Cel			-30 Cel		4000 V			ZEROVOLTAGECROSSING,ULRECOGNIZED,VDEAPPROVED			25 A
PLA192ES	Littelfuse	TRANSISTOR OUTPUT SSR
PVT212SPBF	Infineon Technologies	TRANSISTOR OUTPUT SSR			SINGLE		.005 A	.025 A	1			MOSFET	Solid State Relays		85 Cel	.25 ohm	3.4 mm	-40 Cel		4000 V		DC	UL RECOGNIZED	8.63 mm		.825 A
SZD24CCW	Teledyne Technologies	TRANSISTOR OUTPUT SSR			SINGLE WITH BUILT-IN RESISTOR		.008 A	.02 A	1			MOSFET	Solid State Relays		105 Cel	1 ohm	4.45 mm	-55 Cel		1000 V	2 V	DC		9.91 mm		.5 A
AQW212EHAZ	Panasonic	TRANSISTOR OUTPUT SSR			SEPARATE, 2 ELEMENTS			.05 A	2		TR				85 Cel	2.5 ohm		-40 Cel		5000 V						.6 A
D53TP50CH-10	Crydom	TRIGGER OUTPUT SSR			COMPLEX			.035 A	1						80 Cel			-40 Cel		4000 V			UL RECOGNIZED			50 A
G3PJ-215BDC12-24	Omron	TRIGGER OUTPUT SSR
1-2345984-4	TE Connectivity	TRIGGER OUTPUT SSR				32 V				37 mm				4 V	80 Cel		73.5 mm	-30 Cel	480 V					104 mm
6-1618386-9	TE Connectivity	TRIGGER OUTPUT SSR	PANEL MOUNT			32 V		.016 A		25.4 mm	BOX; TRAY			3.8 V	95 Cel		22.9 mm	-55 Cel		1500 V			TTL COMPATIBLE, ZERO VOLTAGE CROSSING	50.8 mm		10 A
AQV212S	Panasonic	TRANSISTOR OUTPUT SSR	SURFACE MOUNT	TIN BISMUTH	SINGLE WITH BUILT-IN DIODE		.0007 A	.05 A	1		TUBE	MOSFET	Solid State Relays		85 Cel	.63 ohm	2.1 mm	-40 Cel		1500 V	1.25 V	AC/DC	UL RECOGNIZED	6.3 mm	e6	.5 A
AQY210KSZ	Panasonic	TRANSISTOR OUTPUT SSR	SURFACE MOUNT	Matte Tin (Sn)	SINGLE		.0011 A	.05 A	1		TR	MOSFET			85 Cel	35 ohm	2.1 mm	-40 Cel		1500 V	1.13 V	AC/DC	UL RECOGNIZED	4.4 mm	e3	.12 A
CN024D05	Crydom	TRANSISTOR OUTPUT SSR					.01 A		1			Transistor	Solid State Relays		80 Cel		15 mm	-20 Cel		2500 V	3 V	DC	UL RECOGNIZED	28 mm		3.5 A
G3VM-351A	Omron	TRANSISTOR OUTPUT SSR			SINGLE			.025 A	1						65 Cel	50 ohm		-20 Cel		2500 V			UL RECOGNIZED			.1 A
G3VM-401D	Omron	TRANSISTOR OUTPUT SSR			SINGLE			.025 A	1						65 Cel	35 ohm		-20 Cel		2500 V						.1 A
LCA110STR	Littelfuse	TRANSISTOR OUTPUT SSR		MATTE TIN	SINGLE		.002 A	.002 A	1		TR, EMBOSSED, 7 INCH	MOSFET	Solid State Relays		85 Cel	35 ohm	3.3 mm	-40 Cel		3750 V	.9 V	DC	CMOS COMPATIBLE, HIGH RELIABILITY, UL RECOGNIZED	8.36 mm	e3	.12 A
TLP3556A(TP1,F	Toshiba
2330274-3	TE Connectivity	TRANSISTOR OUTPUT SSR	CHASSIS MOUNT			32 V				58 mm				3.5 V	80 Cel		43.4 mm	-30 Cel	200 V					45 mm
DC60S7-B	Crydom	TRANSISTOR OUTPUT SSR		Tin (Sn)			.0022 A		1			BJT	Solid State Relays		80 Cel		23 mm	-30 Cel		4000 V	3.5 V	DC	UL RECOGNIZED	58.4 mm	e3	7 A
ESR5102401000Z	Excel Cell Electronic												Solid State Relays		80 Cel		27.1 mm	-20 Cel			3 V	DC		57 mm
PVT312LPBF	Infineon Technologies	TRANSISTOR OUTPUT SSR			SINGLE		.002 A	.025 A	1			MOSFET	Solid State Relays		85 Cel	15 ohm	3.4 mm	-40 Cel		4000 V		DC	UL RECOGNIZED	8.6 mm		.17 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.