IN-LINE Triode For Alternating Current (TRIAC) 557

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Part	Manufacturer	Trigger Device Type	Package Style (Meter)	Surface Mount	Terminal Position	Configuration	Case Connection	Maximum On-state Voltage	Package Body Material	Maximum DC Gate Trigger Current	Terminal Form	Package Shape	No. of Elements	Maximum Leakage Current	Repetitive Peak Reverse Voltage	Maximum Repetitive Peak Off-state Leakage Current	No. of Terminals	Sub-Category	Maximum Operating Temperature	Minimum Operating Temperature	Terminal Finish	Maximum RMS On-state Current	JESD-30 Code	Moisture Sensitivity Level (MSL)	Maximum DC Gate Trigger Voltage	Qualification	Repetitive Peak Off-state Voltage	Minimum Critical Rate of Rise of Commutation Voltage	Minimum Critical Rate of Rise of Off-state Voltage	Maximum Holding Current	Additional Features	JEDEC-95 Code	JESD-609 Code	Maximum Time At Peak Reflow Temperature (s)	Peak Reflow Temperature (C)	Reference Standard
SM8G48A	Toshiba	TRIAC	IN-LINE	NO	SINGLE	SINGLE			PLASTIC/EPOXY	20 mA	THROUGH-HOLE	RECTANGULAR	1			20 uA	3	TRIACs	125 Cel	-40 Cel		8 A	R-PSIP-T3		1.5 V	Not Qualified	400 V	4 V/us		50 mA				NOT SPECIFIED	NOT SPECIFIED
SM16J48	Toshiba	4 QUADRANT LOGIC LEVEL TRIAC	IN-LINE	NO	SINGLE	SINGLE			PLASTIC/EPOXY	30 mA	THROUGH-HOLE	RECTANGULAR	1			20 uA	3	TRIACs	125 Cel	-40 Cel		16 A	R-PSIP-T3		1.5 V	Not Qualified	600 V	10 V/us		50 mA				NOT SPECIFIED	NOT SPECIFIED
SM3J48	Toshiba	TRIAC	IN-LINE	NO	SINGLE	SINGLE			PLASTIC/EPOXY	20 mA	THROUGH-HOLE	RECTANGULAR	1			20 uA	3	TRIACs	125 Cel	-40 Cel		3 A	R-PSIP-T3		1.5 V	Not Qualified	600 V	10 V/us		30 mA				NOT SPECIFIED	NOT SPECIFIED
SM6J44	Toshiba	TRIAC	IN-LINE	NO	DUAL	SINGLE			PLASTIC/EPOXY	30 mA	THROUGH-HOLE	RECTANGULAR	1			10 uA	4		125 Cel	-40 Cel		6 A	R-PDIP-T4		2 V	Not Qualified	600 V			50 mA
SM6G44	Toshiba	TRIAC	IN-LINE	NO	DUAL	SINGLE			PLASTIC/EPOXY	30 mA	THROUGH-HOLE	RECTANGULAR	1			10 uA	4		125 Cel	-40 Cel		6 A	R-PDIP-T4		2 V	Not Qualified	400 V			50 mA
SM2G44	Toshiba	TRIAC	IN-LINE	NO	DUAL	SINGLE			PLASTIC/EPOXY	5 mA	THROUGH-HOLE	RECTANGULAR	1			10 uA	4		125 Cel	-40 Cel		2 A	R-PDIP-T4		2 V	Not Qualified	400 V			25 mA
SM6J48	Toshiba	TRIAC	IN-LINE	NO	SINGLE	SINGLE			PLASTIC/EPOXY	30 mA	THROUGH-HOLE	RECTANGULAR	1			20 uA	3	TRIACs	125 Cel	-40 Cel		6 A	R-PSIP-T3		1.5 V	Not Qualified	600 V	10 V/us		50 mA				NOT SPECIFIED	NOT SPECIFIED
SM12J48A	Toshiba	TRIAC	IN-LINE	NO	SINGLE	SINGLE			PLASTIC/EPOXY	20 mA	THROUGH-HOLE	RECTANGULAR	1			20 uA	3	TRIACs	125 Cel	-40 Cel		12 A	R-PSIP-T3		1.5 V	Not Qualified	600 V	4 V/us		50 mA				NOT SPECIFIED	NOT SPECIFIED
SM6G48	Toshiba	TRIAC	IN-LINE	NO	SINGLE	SINGLE			PLASTIC/EPOXY	30 mA	THROUGH-HOLE	RECTANGULAR	1			20 uA	3	TRIACs	125 Cel	-40 Cel		6 A	R-PSIP-T3		1.5 V	Not Qualified	400 V	10 V/us		50 mA				NOT SPECIFIED	NOT SPECIFIED
AC03DJM	Renesas Electronics	TRIAC	IN-LINE	NO	SINGLE	SINGLE	MAIN TERMINAL 2		PLASTIC/EPOXY	12 mA	THROUGH-HOLE	RECTANGULAR	1	1 mA			3	TRIACs	125 Cel	-40 Cel	TIN LEAD	3 A	R-PSIP-T3		1.5 V	Not Qualified	400 V	5 V/us					e0
AC05DJM	Renesas Electronics	TRIAC	IN-LINE	NO	SINGLE	SINGLE	MAIN TERMINAL 2		PLASTIC/EPOXY	10 mA	THROUGH-HOLE	RECTANGULAR	1	.1 mA			3	TRIACs	125 Cel	-40 Cel	Tin/Lead (Sn/Pb)	5 A	R-PSIP-T3		1.5 V	Not Qualified	400 V	5 V/us					e0
AC05FJM	Renesas Electronics	TRIAC	IN-LINE	NO	SINGLE	SINGLE	MAIN TERMINAL 2		PLASTIC/EPOXY	10 mA	THROUGH-HOLE	RECTANGULAR	1	.1 mA			3	TRIACs	125 Cel	-40 Cel	Tin/Lead (Sn/Pb)	5 A	R-PSIP-T3		1.5 V	Not Qualified	600 V	5 V/us					e0
BCR5AS-12A-A1#B00	Renesas Electronics	TRIAC	IN-LINE	NO	SINGLE	SINGLE	MAIN TERMINAL 2	1.8 V	PLASTIC/EPOXY	30 mA	THROUGH-HOLE	RECTANGULAR	1			2000 uA	3	TRIACs	125 Cel	-40 Cel		5 A	R-PSIP-T3		1.5 V		600 V	5 V/us						NOT SPECIFIED	NOT SPECIFIED
AC03FJM	Renesas Electronics	TRIAC	IN-LINE	NO	SINGLE	SINGLE	MAIN TERMINAL 2		PLASTIC/EPOXY	12 mA	THROUGH-HOLE	RECTANGULAR	1	1 mA			3	TRIACs	125 Cel	-40 Cel	TIN LEAD	3 A	R-PSIP-T3		1.5 V	Not Qualified	600 V	5 V/us					e0
Q8004V3TP	Littelfuse	TRIAC	IN-LINE	NO	SINGLE	SINGLE	MAIN TERMINAL 2	1.6 V	PLASTIC/EPOXY	10 mA	THROUGH-HOLE	RECTANGULAR	1	2 mA	800 V	2000 uA	3		125 Cel	-40 Cel	MATTE TIN	4 A	R-PSIP-T3		1.3 V	Not Qualified	800 V	40 V/us		20 mA		TO-251AA	e3	40	265	UL RECOGNIZED
L2004F514	Littelfuse	4 QUADRANT LOGIC LEVEL TRIAC	IN-LINE	NO	DUAL	SINGLE	MAIN TERMINAL 2		PLASTIC/EPOXY		THROUGH-HOLE	RECTANGULAR	1				3		110 Cel	-40 Cel	MATTE TIN	4 A	R-PDIP-T3	2		Not Qualified	200 V						e3
Q2006F414	Littelfuse	TRIAC	IN-LINE	NO	DUAL	SINGLE	MAIN TERMINAL 2		PLASTIC/EPOXY		THROUGH-HOLE	RECTANGULAR	1				3		125 Cel	-40 Cel	MATTE TIN	6 A	R-PDIP-T3	2		Not Qualified	200 V						e3
L6006V656	Littelfuse	4 QUADRANT LOGIC LEVEL TRIAC	IN-LINE	NO	SINGLE				PLASTIC/EPOXY		THROUGH-HOLE	RECTANGULAR					3		125 Cel	-40 Cel	MATTE TIN		R-PSIP-T3			Not Qualified						TO-251AA	e3
Q4004V4RP	Littelfuse	4 QUADRANT LOGIC LEVEL TRIAC	IN-LINE	NO	SINGLE	SINGLE	MAIN TERMINAL 2		PLASTIC/EPOXY		THROUGH-HOLE	RECTANGULAR	1				3		125 Cel	-40 Cel	MATTE TIN	4 A	R-PSIP-T3	2		Not Qualified	400 V				HIGH RELIABILITY	TO-251AA	e3
Q4004F312	Littelfuse	TRIAC	IN-LINE	NO	SINGLE	SINGLE	MAIN TERMINAL 2		PLASTIC/EPOXY		THROUGH-HOLE	RECTANGULAR	1				3				MATTE TIN	4 A	R-PSIP-T3	2		Not Qualified	400 V						e3
L6006V8	Littelfuse	4 QUADRANT LOGIC LEVEL TRIAC	IN-LINE	NO	SINGLE	SINGLE	MAIN TERMINAL 2		PLASTIC/EPOXY	20 mA	THROUGH-HOLE	RECTANGULAR	1	.5 mA			3	TRIACs	110 Cel	-65 Cel	MATTE TIN	6 A	R-PSIP-T3	2	2 V	Not Qualified	600 V	2 V/us	30 V/us	20 mA	HIGH RELIABILITY	TO-251	e3	40	260
Q6008VH3	Littelfuse	ALTERNISTOR TRIAC	IN-LINE	NO	SINGLE	SINGLE	MAIN TERMINAL 2		PLASTIC/EPOXY	10 mA	THROUGH-HOLE	RECTANGULAR	1	2 mA			3	TRIACs	125 Cel	-40 Cel	MATTE TIN	8 A	R-PSIP-T3	2	1.3 V	Not Qualified	600 V	20 V/us		15 mA	HIGH RELIABILITY	TO-251	e3	40	260
Q4008VH3TP	Littelfuse	ALTERNISTOR TRIAC	IN-LINE	NO	SINGLE	SINGLE	MAIN TERMINAL 2		PLASTIC/EPOXY	10 mA	THROUGH-HOLE	RECTANGULAR	1	2 mA			3	TRIACs	125 Cel	-40 Cel	MATTE TIN	8 A	R-PSIP-T3	2	1.3 V	Not Qualified	400 V	20 V/us	75 V/us	15 mA	HIGH RELIABILITY	TO-251AA	e3	40	260
L6004V6TP	Littelfuse	4 QUADRANT LOGIC LEVEL TRIAC	IN-LINE	NO	SINGLE	SINGLE	MAIN TERMINAL 2	1.6 V	PLASTIC/EPOXY	10 mA	THROUGH-HOLE	RECTANGULAR	1	.2 mA	600 V	200 uA	3		110 Cel	-40 Cel	MATTE TIN	4 A	R-PSIP-T3		1.3 V	Not Qualified	600 V			10 mA		TO-251AA	e3	40	260	UL RECOGNIZED
L6004F312RP	Littelfuse	4 QUADRANT LOGIC LEVEL TRIAC	IN-LINE	NO	SINGLE	SINGLE			PLASTIC/EPOXY		THROUGH-HOLE	RECTANGULAR	1				3		110 Cel	-40 Cel	MATTE TIN	4 A	R-PSIP-T3	2		Not Qualified	600 V						e3
L4004F312	Littelfuse	4 QUADRANT LOGIC LEVEL TRIAC	IN-LINE	NO	SINGLE	SINGLE	MAIN TERMINAL 2		PLASTIC/EPOXY		THROUGH-HOLE	RECTANGULAR	1				3				MATTE TIN	4 A	R-PSIP-T3	2		Not Qualified	400 V						e3
Q7004V4	Littelfuse	4 QUADRANT LOGIC LEVEL TRIAC	IN-LINE	NO	SINGLE	SINGLE	MAIN TERMINAL 2		PLASTIC/EPOXY		THROUGH-HOLE	RECTANGULAR	1				3		125 Cel	-40 Cel	MATTE TIN	4 A	R-PSIP-T3	2		Not Qualified	700 V				HIGH RELIABILITY	TO-251AA	e3
L4004V6RP	Littelfuse	4 QUADRANT LOGIC LEVEL TRIAC	IN-LINE	NO	SINGLE	SINGLE	MAIN TERMINAL 2		PLASTIC/EPOXY		THROUGH-HOLE	RECTANGULAR	1				3		110 Cel	-40 Cel	MATTE TIN	4 A	R-PSIP-T3	2		Not Qualified	400 V				HIGH RELIABILITY	TO-251AA	e3
L4006V8	Littelfuse	4 QUADRANT LOGIC LEVEL TRIAC	IN-LINE	NO	SINGLE	SINGLE	MAIN TERMINAL 2		PLASTIC/EPOXY	20 mA	THROUGH-HOLE	RECTANGULAR	1	.5 mA			3	TRIACs	110 Cel	-65 Cel	MATTE TIN	6 A	R-PSIP-T3	2	2 V	Not Qualified	400 V	2 V/us	40 V/us	20 mA	HIGH RELIABILITY	TO-251	e3	40	260
Q2010F5141	Littelfuse	TRIAC	IN-LINE	NO	DUAL	SINGLE	MAIN TERMINAL 2		PLASTIC/EPOXY		THROUGH-HOLE	RECTANGULAR	1				3		125 Cel	-40 Cel	MATTE TIN	10 A	R-PDIP-T3	2		Not Qualified	200 V						e3
Q4004F412	Littelfuse	TRIAC	IN-LINE	NO	SINGLE	SINGLE	MAIN TERMINAL 2		PLASTIC/EPOXY		THROUGH-HOLE	RECTANGULAR	1				3				MATTE TIN	4 A	R-PSIP-T3	2		Not Qualified	400 V						e3
Q4006VH4RP	Littelfuse	ALTERNISTOR TRIAC	IN-LINE	NO	SINGLE	SINGLE	MAIN TERMINAL 2		PLASTIC/EPOXY		THROUGH-HOLE	RECTANGULAR	1				3		125 Cel	-40 Cel	MATTE TIN	6 A	R-PSIP-T3	2		Not Qualified	400 V				HIGH RELIABILITY	TO-251AA	e3
QK008VH3TP	Littelfuse	ALTERNISTOR TRIAC	IN-LINE	NO	SINGLE	SINGLE	MAIN TERMINAL 2		PLASTIC/EPOXY		THROUGH-HOLE	RECTANGULAR	1				3		125 Cel	-40 Cel	MATTE TIN	8 A	R-PSIP-T3	2		Not Qualified	1000 V				HIGH RELIABILITY	TO-251AA	e3	40	260
L4004F6126	Littelfuse	4 QUADRANT LOGIC LEVEL TRIAC	IN-LINE	NO	SINGLE	SINGLE			PLASTIC/EPOXY		THROUGH-HOLE	RECTANGULAR	1				3		110 Cel	-40 Cel	MATTE TIN	4 A	R-PSIP-T3	2		Not Qualified	400 V						e3
L2008V8	Littelfuse	4 QUADRANT LOGIC LEVEL TRIAC	IN-LINE	NO	SINGLE	SINGLE	MAIN TERMINAL 2		PLASTIC/EPOXY	20 mA	THROUGH-HOLE	RECTANGULAR	1	.5 mA			3	TRIACs	110 Cel	-40 Cel	MATTE TIN	8 A	R-PSIP-T3	2	2 V	Not Qualified	200 V	2 V/us	45 V/us	20 mA	HIGH RELIABILITY	TO-251	e3	40	260
Q2006VH4RP	Littelfuse	ALTERNISTOR TRIAC	IN-LINE	NO	SINGLE	SINGLE	MAIN TERMINAL 2		PLASTIC/EPOXY		THROUGH-HOLE	RECTANGULAR	1				3		125 Cel	-40 Cel	MATTE TIN	6 A	R-PSIP-T3	2		Not Qualified	200 V				HIGH RELIABILITY	TO-251AA	e3
Q6006VH456	Littelfuse	ALTERNISTOR TRIAC	IN-LINE	NO	SINGLE				PLASTIC/EPOXY		THROUGH-HOLE	RECTANGULAR					3		125 Cel	-40 Cel	MATTE TIN		R-PSIP-T3			Not Qualified						TO-251AA	e3
L4004F3123	Littelfuse	4 QUADRANT LOGIC LEVEL TRIAC	IN-LINE	NO	SINGLE	SINGLE			PLASTIC/EPOXY		THROUGH-HOLE	RECTANGULAR	1				2		110 Cel	-40 Cel	MATTE TIN	4 A	R-PSIP-T2	2		Not Qualified	400 V						e3
L4004V3RP	Littelfuse	4 QUADRANT LOGIC LEVEL TRIAC	IN-LINE	NO	SINGLE	SINGLE	MAIN TERMINAL 2		PLASTIC/EPOXY		THROUGH-HOLE	RECTANGULAR	1				3		110 Cel	-40 Cel	MATTE TIN	4 A	R-PSIP-T3	2		Not Qualified	400 V				HIGH RELIABILITY	TO-251AA	e3
Q6008VH3RP	Littelfuse	ALTERNISTOR TRIAC	IN-LINE	NO	SINGLE	SINGLE	MAIN TERMINAL 2		PLASTIC/EPOXY		THROUGH-HOLE	RECTANGULAR	1				3		125 Cel	-40 Cel	MATTE TIN	8 A	R-PSIP-T3	2		Not Qualified	600 V				HIGH RELIABILITY	TO-251AA	e3
L6006V5RP	Littelfuse	4 QUADRANT LOGIC LEVEL TRIAC	IN-LINE	NO	SINGLE	SINGLE	MAIN TERMINAL 2		PLASTIC/EPOXY		THROUGH-HOLE	RECTANGULAR	1				3		110 Cel	-40 Cel	MATTE TIN	6 A	R-PSIP-T3	2		Not Qualified	600 V				HIGH RELIABILITY	TO-251AA	e3
QK008VH3RP	Littelfuse	ALTERNISTOR TRIAC	IN-LINE	NO	SINGLE	SINGLE	MAIN TERMINAL 2		PLASTIC/EPOXY		THROUGH-HOLE	RECTANGULAR	1				3		125 Cel	-40 Cel	MATTE TIN	8 A	R-PSIP-T3	2		Not Qualified	1000 V				HIGH RELIABILITY	TO-251AA	e3
L4004F8141	Littelfuse	4 QUADRANT LOGIC LEVEL TRIAC	IN-LINE	NO	DUAL	SINGLE	MAIN TERMINAL 2		PLASTIC/EPOXY		THROUGH-HOLE	RECTANGULAR	1				3		110 Cel	-40 Cel	MATTE TIN	4 A	R-PDIP-T3	2		Not Qualified	400 V						e3
LK004V5TP	Littelfuse	4 QUADRANT LOGIC LEVEL TRIAC	IN-LINE	NO	SINGLE				PLASTIC/EPOXY		THROUGH-HOLE	RECTANGULAR					3		110 Cel	-40 Cel	Matte Tin (Sn)		R-PSIP-T3			Not Qualified						TO-251AA	e3	40	265
L2008V8RP	Littelfuse	4 QUADRANT LOGIC LEVEL TRIAC	IN-LINE	NO	SINGLE	SINGLE	MAIN TERMINAL 2		PLASTIC/EPOXY		THROUGH-HOLE	RECTANGULAR	1				3		110 Cel	-40 Cel	MATTE TIN	8 A	R-PSIP-T3	2		Not Qualified	200 V				HIGH RELIABILITY	TO-251AA	e3
L4004V8	Littelfuse	4 QUADRANT LOGIC LEVEL TRIAC	IN-LINE	NO	SINGLE	SINGLE	MAIN TERMINAL 2		PLASTIC/EPOXY	20 mA	THROUGH-HOLE	RECTANGULAR	1	.2 mA			3	TRIACs	110 Cel	-65 Cel	MATTE TIN	4 A	R-PSIP-T3	2	2 V	Not Qualified	400 V	2 V/us	35 V/us	15 mA	HIGH RELIABILITY	TO-251	e3	40	260
L6004V6	Littelfuse	4 QUADRANT LOGIC LEVEL TRIAC	IN-LINE	NO	SINGLE	SINGLE	MAIN TERMINAL 2		PLASTIC/EPOXY	10 mA	THROUGH-HOLE	RECTANGULAR	1	.2 mA			3	TRIACs	110 Cel	-65 Cel	MATTE TIN	4 A	R-PSIP-T3	2	2 V	Not Qualified	600 V	1 V/us	20 V/us	10 mA	HIGH RELIABILITY	TO-251	e3	40	260
Q2004F3123	Littelfuse	TRIAC	IN-LINE	NO	SINGLE	SINGLE			PLASTIC/EPOXY		THROUGH-HOLE	RECTANGULAR	1				2		125 Cel	-40 Cel	MATTE TIN	4 A	R-PSIP-T2	2		Not Qualified	200 V						e3

Triode For Alternating Current (TRIAC)

A Triode for Alternating Current (TRIAC) is a semiconductor device that is used to control the flow of electrical current in AC circuits. It is a bidirectional device that can conduct current in both directions, making it useful for AC power control applications.

TRIACs consist of a bidirectional switching element that allows for the control of AC current in both directions. They are typically used in applications where AC voltage needs to be controlled, such as in lighting control, motor speed control, and power supplies.

TRIACs work by applying a small current or voltage to the gate terminal, which allows current to flow through the device. Once the current reaches a certain level, the TRIAC turns on and conducts current in both directions until the current drops below a certain threshold, at which point the TRIAC turns off.

TRIACs are commonly used in conjunction with other components such as capacitors, inductors, and diodes to form complete electronic circuits. They are often used in power control circuits that require precise control of AC voltage or current.