COMMON ANODE, 2 ELEMENTS Silicon Controlled Rectifiers (SCR) 396

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Part	Manufacturer	Trigger Device Type	Package Style (Meter)	Surface Mount	Terminal Position	Configuration	Case Connection	Package Body Material	Maximum DC Gate Trigger Current	Non Repetitive Peak On-state Current	Terminal Form	Package Shape	Maximum On-state Current	No. of Elements	Repetitive Peak Reverse Voltage	No. of Terminals	Sub-Category	Maximum Operating Temperature	Minimum Operating Temperature	Maximum RMS On-state Current	JESD-30 Code	Qualification	Repetitive Peak Off-state Voltage	Minimum Critical Rate of Rise of Off-state Voltage	Nominal Circuit Commutated Turn-off Time	Maximum Time At Peak Reflow Temperature (s)	Peak Reflow Temperature (C)
TT122N24KOF-A	Infineon Technologies	SCR	FLANGE MOUNT	NO	UPPER	COMMON ANODE, 2 ELEMENTS	ISOLATED	UNSPECIFIED	200 mA	2900 A	UNSPECIFIED	RECTANGULAR	122 A	2	2400 V	7	Silicon Controlled Rectifiers	125 Cel		220 A	R-XUFM-X7	Not Qualified	2400 V
TT122N24KOC-A	Infineon Technologies	SCR	FLANGE MOUNT	NO	UPPER	COMMON ANODE, 2 ELEMENTS	ISOLATED	UNSPECIFIED	200 mA	2900 A	UNSPECIFIED	RECTANGULAR	122 A	2	2400 V	7	Silicon Controlled Rectifiers	125 Cel		220 A	R-XUFM-X7	Not Qualified	2400 V
TT122N22KOF-A	Infineon Technologies	SCR	FLANGE MOUNT	NO	UPPER	COMMON ANODE, 2 ELEMENTS	ISOLATED	UNSPECIFIED	200 mA	2900 A	UNSPECIFIED	RECTANGULAR	122 A	2	2200 V	7	Silicon Controlled Rectifiers	125 Cel		220 A	R-XUFM-X7	Not Qualified	2200 V	1000 V/us	300 us
TT122N20KOF-A	Infineon Technologies	SCR	FLANGE MOUNT	NO	UPPER	COMMON ANODE, 2 ELEMENTS	ISOLATED	UNSPECIFIED	200 mA	2900 A	UNSPECIFIED	RECTANGULAR	122 A	2	2000 V	7	Silicon Controlled Rectifiers	125 Cel		220 A	R-XUFM-X7	Not Qualified	2000 V	1000 V/us	300 us
VCA105-06IO7	Littelfuse	SCR	FLANGE MOUNT	NO	UPPER	COMMON ANODE, 2 ELEMENTS		UNSPECIFIED			UNSPECIFIED	RECTANGULAR		2	600 V	11		125 Cel		180 A	R-XUFM-X11	Not Qualified	600 V			NOT SPECIFIED	NOT SPECIFIED
MDA500-18IO1	Littelfuse	SCR	FLANGE MOUNT	NO	UNSPECIFIED	COMMON ANODE, 2 ELEMENTS	ISOLATED	UNSPECIFIED	300 mA		UNSPECIFIED	RECTANGULAR		2	1800 V	7				1294 A	R-XXFM-X7	Not Qualified	1800 V			NOT SPECIFIED	NOT SPECIFIED
MCA431-24IO2	Littelfuse	SCR	FLANGE MOUNT	NO	UPPER	COMMON ANODE, 2 ELEMENTS	ISOLATED	PLASTIC/EPOXY	250 mA		UNSPECIFIED	RECTANGULAR		2	2400 V	7		125 Cel	-40 Cel		R-PUFM-X7		2400 V
MDA500-12IO1	Littelfuse	SCR	FLANGE MOUNT	NO	UNSPECIFIED	COMMON ANODE, 2 ELEMENTS	ISOLATED	UNSPECIFIED	300 mA		UNSPECIFIED	RECTANGULAR		2	1200 V	7				1294 A	R-XXFM-X7	Not Qualified	1200 V			NOT SPECIFIED	NOT SPECIFIED
MCA431-22IO2	Littelfuse	SCR	FLANGE MOUNT	NO	UPPER	COMMON ANODE, 2 ELEMENTS	ISOLATED	PLASTIC/EPOXY	250 mA		UNSPECIFIED	RECTANGULAR		2	2200 V	7		125 Cel	-40 Cel		R-PUFM-X7		2200 V
MCA431-20IO2	Littelfuse	SCR	FLANGE MOUNT	NO	UPPER	COMMON ANODE, 2 ELEMENTS	ISOLATED	PLASTIC/EPOXY	250 mA		UNSPECIFIED	RECTANGULAR		2	2000 V	7		125 Cel	-40 Cel		R-PUFM-X7		2000 V
MDA500-16IO1	Littelfuse	SCR	FLANGE MOUNT	NO	UNSPECIFIED	COMMON ANODE, 2 ELEMENTS	ISOLATED	UNSPECIFIED	300 mA		UNSPECIFIED	RECTANGULAR		2	1600 V	7				1294 A	R-XXFM-X7	Not Qualified	1600 V			NOT SPECIFIED	NOT SPECIFIED
MDA500-14IO1	Littelfuse	SCR	FLANGE MOUNT	NO	UNSPECIFIED	COMMON ANODE, 2 ELEMENTS	ISOLATED	UNSPECIFIED	300 mA		UNSPECIFIED	RECTANGULAR		2	1400 V	7				1294 A	R-XXFM-X7	Not Qualified	1400 V			NOT SPECIFIED	NOT SPECIFIED

Silicon Controlled Rectifiers (SCR)

Silicon Controlled Rectifiers (SCRs) are semiconductor devices that are used to control the flow of electrical current in high-power applications. They are also known as thyristors, which are a family of devices that includes SCRs, triacs, and diacs.

SCRs consist of four layers of alternating p-type and n-type semiconductor material, forming three p-n junctions. The device has three terminals: the anode (A), the cathode (K), and the gate (G). The SCR is designed to conduct current only in one direction, from the anode to the cathode.

SCRs work by applying a positive voltage to the anode, which causes current to flow into the device. The gate terminal is used to control the flow of current by applying a small voltage pulse to trigger the device. Once triggered, the SCR conducts current until the voltage across the device drops below a certain level, at which point it turns off.

SCRs are commonly used in high-power applications such as motor control, lighting control, and power supplies. They are often used in conjunction with other components such as capacitors, inductors, and diodes to form complete electronic circuits.

Proper selection and use of SCRs are critical to ensure safe and reliable operation of power control circuits. Factors such as the maximum voltage rating, maximum current rating, and operating temperature range should be considered when selecting an SCR for a particular application.