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STMicroelectronics STripFET™ F7 series Transistors - FETs, MOSFETs - Single

Introduction, stock information and FAQs of STripFET™ F7 series Single MOSFETs Transistors

In this post, you will learn features, applications, PDF datasheets, substitute products and the latest stock and pricing information of STMicroelectronics STripFET™ F7 series Single MOSFETs Transistors.

Applications

Industrial transport (non-car & non-light truck)
Medical

Associated Products

Part Number	Description	Stock	RFQ
STFU24N60M2	MOSFET N-CH 600V 18A TO-220FP	400	RFQ
STI24N60M6	NCHANNEL 600 V 105 MOHM TYP. 22	92	RFQ
STW38N65M5-4	MOSFET N-CH 650V 30A TO247-4L	720	RFQ
STWA75N60M6	N-CHANNEL 600 V 32 MOHM TYP. 72	3850	RFQ
STWA68N60M6	N-CHANNEL 600 V 35 MOHM TYP. 63	9000	RFQ
STP130N8F7	MOSFET N-CHANNEL 80V 80A TO220	1000	RFQ
STWA70N65DM6	N-CHANNEL 650 V, 0.035 OHM TYP.,	558	RFQ
STH260N6F6-6	MOSFET POWER MOSFET	20000	RFQ
STFI13N95K3	MOSFET N CH 950V 10A I2PAKFP	4000	RFQ
STI34N65M5	MOSFET N-CH 650V 28A I2PAK	1033	RFQ
STFI24NM60N	MOSFET N-Ch 600V 0.168 Ohm 17A MDmesh II	1486	RFQ
STI400N4F6	MOSFET N-CH 40V 120A I2PAK	1042	RFQ
STP17N62K3	MOSFET N-CH 620V 15A TO-220	1082	RFQ
STWA75N60DM6	N-CHANNEL 600 V, 0.032 OHM TYP.,	40	RFQ
STL33N60DM6	N-CHANNEL 600 V, 125 MOHM TYP.,	0	RFQ
STH265N6F6-6AG	MOSFET N-CH 60V 180A H2PAK-6	20000	RFQ
STP140N4F6	MOSFET N-CHANNEL 40V 80A TO220	0	RFQ
STI20N60M2-EP	MOSFET N-CHANNEL 600V 13A TO220	0	RFQ
STW20N60M2-EP	MOSFET N-CHANNEL 600V 13A TO247	20000	RFQ
STFU14N80K5	N-CHANNEL 800 V, 0.400 OHM TYP.,	166000	RFQ

Technical Documents

Description

STMicroelectronics STripFET™ F7 series Transistors are a family of advanced power MOSFETs designed to provide superior performance in a wide range of applications. The F7 series features a low on-resistance, low gate charge, and low gate-source capacitance, making them ideal for high-efficiency power conversion applications. The F7 series also features a wide range of breakdown voltages, from 30V to 100V, allowing for a wide range of applications. Additionally, the F7 series is designed to provide excellent thermal performance, allowing for higher power density and improved reliability.

Features

• Low on-resistance

• Low gate charge

• Low input capacitance

• Low threshold voltage

• High current capability

• High avalanche energy

• High temperature operation

• High frequency operation

• High power dissipation

• Low gate-source voltage

• Low gate-drain voltage

• Low gate-drain leakage

• Low gate-source leakage

Applications

• DC-DC converters

• Motor control

• Power management

• Automotive applications

• High-efficiency power supplies

• High-frequency switching

• High-power switching

• High-temperature switching

• High-voltage switching

• Low-voltage switching

• Low-power switching

• Low-frequency switching

• Low-temperature switching

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Frequently Asked Questions

What are the Alternative Products of STMicroelectronics STripFET™ F7 series Transistors - FETs, MOSFETs - Single?

1. Infineon OptiMOS™ FETs 2. ON Semiconductor N-Channel MOSFETs 3. Vishay Siliconix N-Channel MOSFETs 4. Texas Instruments NexFET™ Power MOSFETs 5. Fairchild Semiconductor N-Channel MOSFETs 6. Diodes Incorporated N-Channel MOSFETs 7. ROHM Semiconductor N-Channel MOSFETs 8. Toshiba N-Channel MOSFETs 9. Renesas Electronics N-Channel MOSFETs 10. STMicroelectronics N-Channel MOSFETs

What are the differences between the types of STMicroelectronics STripFET™ F7 series Transistors - FETs, MOSFETs - Single?

The STMicroelectronics STripFET™ F7 series Transistors are available in three different types: FETs, MOSFETs, and Single.   FETs (Field Effect Transistors) are three-terminal devices that use an electric field to control the current flow between the source and drain terminals. FETs are used in a variety of applications, including amplifiers, switches, and voltage regulators.  MOSFETs (Metal Oxide Semiconductor Field Effect Transistors) are similar to FETs, but they use a metal oxide layer to control the current flow between the source and drain terminals. MOSFETs are used in a variety of applications, including power management, switching, and signal processing.  Single FETs are single-terminal devices that use an electric field to control the current flow between the source and drain terminals. Single FETs are used in a variety of applications, including amplifiers, switches, and voltage regulators.