76 W Power Field Effect Transistors (FET) 7

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Part	Manufacturer	Polarity or Channel Type	Configuration	Surface Mount	Maximum Power Dissipation (Abs)	Package Body Material	Transistor Application	Minimum DS Breakdown Voltage	Terminal Form	Package Shape	Operating Mode	No. of Elements	Maximum Pulsed Drain Current (IDM)	Avalanche Energy Rating (EAS)	Maximum Drain Current (Abs) (ID)	No. of Terminals	Package Style (Meter)	Sub-Category	Field Effect Transistor Technology	Maximum Operating Temperature	Transistor Element Material	Minimum Operating Temperature	Terminal Finish	Maximum Drain-Source On Resistance	Maximum Drain Current (ID)	Terminal Position	JESD-30 Code	Moisture Sensitivity Level (MSL)	Case Connection	Qualification	Additional Features	JEDEC-95 Code	JESD-609 Code	Maximum Time At Peak Reflow Temperature (s)	Peak Reflow Temperature (C)	Maximum Feedback Capacitance (Crss)	Reference Standard
TW107N65C,S1F(S	Toshiba	N-CHANNEL	SINGLE WITH BUILT-IN DIODE	NO	76 W	PLASTIC/EPOXY	SWITCHING	650 V	THROUGH-HOLE	RECTANGULAR	ENHANCEMENT MODE	1	45 A			3	FLANGE MOUNT		METAL-OXIDE SEMICONDUCTOR	175 Cel	SILICON CARBIDE			.145 ohm	20 A	SINGLE	R-PSFM-T3		DRAIN			TO-247				3.7 pF
NVTYS005N06CLTWG	Onsemi	N-CHANNEL	SINGLE WITH BUILT-IN DIODE	YES	76 W	PLASTIC/EPOXY		60 V	UNSPECIFIED	RECTANGULAR	ENHANCEMENT MODE	1	430 A	155 mJ		8	SMALL OUTLINE		METAL-OXIDE SEMICONDUCTOR	175 Cel	SILICON	-55 Cel	MATTE TIN	.0073 ohm	18 A	DUAL	R-PDSO-X8	1	DRAIN				e3	30	260	11 pF	AEC-Q101
NTD5C648NLT4G	Onsemi	N-CHANNEL	SINGLE WITH BUILT-IN DIODE	YES	76 W	PLASTIC/EPOXY		60 V	GULL WING	RECTANGULAR	ENHANCEMENT MODE	1	550 A	223 mJ	91 A	2	SMALL OUTLINE		METAL-OXIDE SEMICONDUCTOR	175 Cel	SILICON	-55 Cel	Matte Tin (Sn) - annealed	.0057 ohm	91 A	SINGLE	R-PSSO-G2	1	DRAIN				e3	30	260	28 pF
IPD60R170CFD7	Infineon Technologies	N-CHANNEL	SINGLE WITH BUILT-IN DIODE	YES	76 W	PLASTIC/EPOXY	SWITCHING	600 V	GULL WING	RECTANGULAR	ENHANCEMENT MODE	1	51 A	60 mJ	14 A	2	SMALL OUTLINE		METAL-OXIDE SEMICONDUCTOR	150 Cel	SILICON	-55 Cel	TIN	.17 ohm	14 A	SINGLE	R-PSSO-G2	1	DRAIN		HIGH RELIABILTY	TO-252	e3
BSC205N10LSG	Infineon Technologies	N-CHANNEL	SINGLE WITH BUILT-IN DIODE	YES	76 W	PLASTIC/EPOXY	SWITCHING	100 V	FLAT	RECTANGULAR	ENHANCEMENT MODE	1	180 A	60 mJ	45 A	8	SMALL OUTLINE	FET General Purpose Power	METAL-OXIDE SEMICONDUCTOR	150 Cel	SILICON		MATTE TIN	.0205 ohm	7.4 A	DUAL	R-PDSO-F8	1	DRAIN	Not Qualified	LOGIC LEVEL COMPATIBLE		e3		260
TW107N65C	Toshiba	N-CHANNEL	SINGLE WITH BUILT-IN DIODE	NO	76 W	PLASTIC/EPOXY	SWITCHING	650 V	THROUGH-HOLE	RECTANGULAR	ENHANCEMENT MODE	1	45 A			3	FLANGE MOUNT		METAL-OXIDE SEMICONDUCTOR	175 Cel	SILICON CARBIDE			.145 ohm	20 A	SINGLE	R-PSFM-T3		DRAIN			TO-247				3.7 pF
SSF80N06A	Samsung	N-CHANNEL	SINGLE WITH BUILT-IN DIODE	NO	76 W	PLASTIC/EPOXY	SWITCHING	60 V	THROUGH-HOLE	RECTANGULAR	ENHANCEMENT MODE	1	192 A	3370 mJ	55 A	3	FLANGE MOUNT	FET General Purpose Power	METAL-OXIDE SEMICONDUCTOR	175 Cel	SILICON			.01 ohm	55 A	SINGLE	R-PSFM-T3		ISOLATED	Not Qualified

Power Field Effect Transistors (FET)

Power Field Effect Transistors (FET) are electronic devices used in power electronics to control and switch high current and voltage levels. They are commonly used in applications such as motor drives, power supplies, and switching regulators.

The Power FET is a three-terminal device that works by controlling the flow of majority charge carriers (electrons or holes) between the source and drain regions through a gate electrode. The gate electrode is insulated from the channel region by a thin oxide layer, which can be controlled by applying a voltage to the gate terminal. When a voltage is applied to the gate electrode, it creates an electric field that modifies the conductivity of the channel, allowing current to flow between the source and drain.

Power FETs are designed to handle high current and voltage 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.

Power FETs are available in various types and configurations, including N-channel and P-channel FETs, and can handle power levels ranging from a few watts to several kilowatts. They are subject to various standards and regulations, such as UL (Underwriters Laboratories) and CE (Conformité Européenne), to ensure their safety and performance.