ROHM Insulated Gate Bipolar Transistors (IGBT) 14

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Part	Manufacturer	Polarity or Channel Type	Configuration	Surface Mount	Maximum Power Dissipation (Abs)	Maximum Collector Current (IC)	Package Body Material	Transistor Application	Maximum VCEsat	Terminal Form	Package Shape	No. of Elements	Nominal Turn Off Time (toff)	No. of Terminals	Package Style (Meter)	Maximum Operating Temperature	Transistor Element Material	Maximum Collector-Emitter Voltage	Minimum Operating Temperature	Maximum Gate-Emitter Voltage	Maximum Gate-Emitter Threshold Voltage	Terminal Finish	Terminal Position	JESD-30 Code	Case Connection	JEDEC-95 Code	JESD-609 Code	Maximum Time At Peak Reflow Temperature (s)	Peak Reflow Temperature (C)	Nominal Turn On Time (ton)	Reference Standard
RGS30TSX2DGC11	ROHM	N-CHANNEL	SINGLE WITH BUILT-IN DIODE	NO		30 A	PLASTIC/EPOXY	POWER CONTROL	2.1 V	THROUGH-HOLE	RECTANGULAR	1	189 ns	3	FLANGE MOUNT	175 Cel	SILICON	1200 V	-40 Cel	30 V	7 V	TIN	SINGLE	R-PSFM-T3		TO-247	e3			39 ns
RGTH40TK65DGC11	ROHM	N-CHANNEL	SINGLE WITH BUILT-IN DIODE	NO		23 A	PLASTIC/EPOXY	POWER CONTROL		THROUGH-HOLE	RECTANGULAR	1	141 ns	3	FLANGE MOUNT		SILICON	650 V				TIN	SINGLE	R-PSFM-T3	ISOLATED		e3			47 ns
RGTH60TK65GC11	ROHM	N-CHANNEL	SINGLE	NO		28 A	PLASTIC/EPOXY	POWER CONTROL		THROUGH-HOLE	RECTANGULAR	1	179 ns	3	FLANGE MOUNT		SILICON	650 V				TIN	SINGLE	R-PSFM-T3	ISOLATED		e3			67 ns
RGTH40TS65GC11	ROHM	N-CHANNEL	SINGLE	NO		40 A	PLASTIC/EPOXY	POWER CONTROL		THROUGH-HOLE	RECTANGULAR	1	141 ns	3	FLANGE MOUNT		SILICON	650 V					SINGLE	R-PSFM-T3		TO-247		NOT SPECIFIED	NOT SPECIFIED	47 ns
RGTH60TS65DGC11	ROHM	N-CHANNEL	SINGLE WITH BUILT-IN DIODE	NO		58 A	PLASTIC/EPOXY	POWER CONTROL		THROUGH-HOLE	RECTANGULAR	1	179 ns	3	FLANGE MOUNT		SILICON	650 V					SINGLE	R-PSFM-T3		TO-247		NOT SPECIFIED	NOT SPECIFIED	67 ns
RGT50TM65DGC9	ROHM	N-CHANNEL	SINGLE WITH BUILT-IN DIODE	NO		21 A	PLASTIC/EPOXY	POWER CONTROL		THROUGH-HOLE	RECTANGULAR	1	210 ns	3	FLANGE MOUNT		SILICON	650 V	-40 Cel			TIN	SINGLE	R-PSFM-T3	ISOLATED	TO-220AB	e3			65 ns
RGTV60TS65DGC11	ROHM	N-CHANNEL	SINGLE WITH BUILT-IN DIODE	NO		60 A	PLASTIC/EPOXY	POWER CONTROL		THROUGH-HOLE	RECTANGULAR	1	201 ns	3	FLANGE MOUNT		SILICON	650 V	-40 Cel			TIN	SINGLE	R-PSFM-T3		TO-247	e3			45 ns
RGW60TK65GVC11	ROHM	N-CHANNEL	SINGLE	NO		33 A	PLASTIC/EPOXY	POWER CONTROL		THROUGH-HOLE	RECTANGULAR	1	209 ns	3	FLANGE MOUNT		SILICON	650 V	-40 Cel			TIN	SINGLE	R-PSFM-T3	ISOLATED		e3			50 ns
RGTVX6TS65DGC11	ROHM	N-CHANNEL	SINGLE WITH BUILT-IN DIODE	NO		144 A	PLASTIC/EPOXY	POWER CONTROL		THROUGH-HOLE	RECTANGULAR	1	298 ns	3	FLANGE MOUNT	175 Cel	SILICON	650 V	-40 Cel			TIN	SINGLE	R-PSFM-T3		TO-247	e3			83 ns
RGS50TSX2DHRC11	ROHM	N-CHANNEL	SINGLE WITH BUILT-IN DIODE	NO	395 W	50 A	PLASTIC/EPOXY	POWER CONTROL	2.1 V	THROUGH-HOLE	RECTANGULAR	1	450 ns	3	FLANGE MOUNT	175 Cel	SILICON	1200 V	-40 Cel	30 V	7 V	TIN	SINGLE	R-PSFM-T3		TO-247	e3			53 ns	AEC-Q101
RGS80TSX2HRC11	ROHM	N-CHANNEL	SINGLE	NO	555 W	80 A	PLASTIC/EPOXY	POWER CONTROL	2.1 V	THROUGH-HOLE	RECTANGULAR	1	629 ns	3	FLANGE MOUNT	175 Cel	SILICON	1200 V	-40 Cel	30 V	7 V	TIN	SINGLE	R-PSFM-T3		TO-247	e3			89 ns	AEC-Q101
RGS60TS65DHRC11	ROHM	N-CHANNEL	SINGLE WITH BUILT-IN DIODE	NO	223 W	56 A	PLASTIC/EPOXY	POWER CONTROL	2.1 V	THROUGH-HOLE	RECTANGULAR	1	290 ns	3	FLANGE MOUNT	175 Cel	SILICON	650 V	-40 Cel	30 V	7 V	TIN	SINGLE	R-PSFM-T3		TO-247	e3			46 ns	AEC-Q101
RGS30TSX2HRC11	ROHM	N-CHANNEL	SINGLE	NO	267 W	30 A	PLASTIC/EPOXY	POWER CONTROL	2.1 V	THROUGH-HOLE	RECTANGULAR	1	189 ns	3	FLANGE MOUNT	175 Cel	SILICON	1200 V	-40 Cel	30 V	7 V	TIN	SINGLE	R-PSFM-T3		TO-247	e3			39 ns	AEC-Q101
RGW80TS65CHRC11	ROHM	N-CHANNEL	SINGLE WITH BUILT-IN DIODE	NO	214 W	81 A	PLASTIC/EPOXY	POWER CONTROL	1.9 V	THROUGH-HOLE	RECTANGULAR	1	185 ns	3	FLANGE MOUNT	175 Cel	SILICON	650 V	-40 Cel	30 V	7 V		SINGLE	R-PSFM-T3		TO-247				54 ns	AEC-Q101

Insulated Gate Bipolar Transistors (IGBT)

Insulated Gate Bipolar Transistors (IGBT) are electronic devices used in power electronics to control and switch high voltage and high current levels. They are commonly used in applications such as motor drives, power supplies, and welding equipment.

The IGBT is a three-terminal device that combines the high-speed switching capability of a MOSFET (Metal-Oxide-Semiconductor Field-Effect Transistor) with the low conduction losses of a bipolar transistor. The IGBT consists of a p-type and n-type semiconductor material, which are sandwiched between two electrodes, and an insulated gate electrode.

The IGBT is operated by applying a voltage to the gate electrode, which creates a conductive channel between the p-type and n-type material, allowing current to flow through the device. The IGBT is turned off by reducing the gate voltage, which reduces the conductivity of the channel and stops the flow of current.

IGBTs are designed to handle high voltage and high current levels, and have a low on-resistance and high switching speed. They are typically used in applications that require efficient and precise control of power, such as motor drives and power supplies.

IGBTs are subject to various standards and regulations, such as UL (Underwriters Laboratories) and CE (Conformité Européenne), to ensure their safety and performance. Proper selection and use of IGBTs are critical to ensure reliable and efficient operation of power electronics systems. IGBTs are often used in conjunction with other components, such as diodes and capacitors, to form complete power electronics circuits.