MOSFET

Product

Contact us

Address: Tangxia Town, Dongguan City, 101 Avenue
Contact person: Mr.Wen
Phone:13632396789
The main:Provide all kinds of active devices, passive components and electrical components and other electronic components

Fairchild is a leader in MOSFET technology for both power delivery and power conversion applications. We offer a substantial portfolio of MOSFET devices that includes high-voltage (>250V) and low-voltage (<250V) and multiple range of innovative packaging options as well as strong technical support. More OEMs choose Fairchild because we continue to provide leading edge MOSFET technologies for AC-DC and DC-DC designs.
Our advanced silicon technology provides smaller die sizes, which we incorporate into multiple industry-standard and thermally-enhanced packages. This capability yields industry-leading power densities (amps delivered per cm² board space) and superior thermal performance.
Our Featured MOSFETs Technologies Include:

Planar: UniFET? MOSFETs
Super Junction: SuperFET? II MOSFETs
Trench: PowerTrench? MOSFETs

View Discrete MOSFET Products by Voltages

N-Channel <= 250V Family	N-Channel > 250V Family	NP-Channel MOSFETs <=250
P-Channel <= 250V Family	P-Channel > 250V Family

Why Choose Our MOSFET Products

Power delivery solutions are part of Fairchild's core business, and we have continuously delivered leading power semiconductors for more than 50 years.
Combined MOSFET and gate driver IP to create application-optimized solutions that minimize both conversion and conduction losses associated with the overall system.
Ability to mix and match MOSFETs, controller and PWM driver IP with advanced processing and packaging capabilities to provide optimized component choices.
Our MOSFETs provide superior design reliability from reduced voltage spikes and overshoot, to lower junction capacitance and reverse recovery charge, to elimination of additional external components to keep systems up and running longer.

Application Guide

Application Guide	Features / products	Explain
AN-9015	MOSFET, FET, The negative voltage linear regulator, positive voltage linear regulator, rectifier, Schottky diodes and rectifiers, shunt regulator, small signal diode , 1N4148, 1N4148WS, 1N4148WT,	A180W, 100KHz Forward Converter Using QFET?
AN-9008	FET, Positive voltage linear regulator, rectifier, small signal diode, 1N4148, 1N4148WS, 1N4148WT, 1N4937,	The Use of QFET? in Flyback Converter
AN-9013	MOSFET, FET, Small signal diodes, small signal BJT, 1N4148, 1N4148WS, 1N4148WT, FQP10N20C,	Reducing Switching Losses with QFET? in a Step-up Converter
AN-7510	MOSFET, FET, 2N7000, 2N7000BU, 2N7000TA, 2N7002,	A New PSPICE Subcircuit for the Power MOSFET Featuring Global Temperature Options
AN-9065	MOSFET, FET, TV & Monitor, 2N7000, 2N7000BU, 2N7000TA, 2N7002,	AN-9065 Synchronous rectification FRFET?
AN-558	MOSFET, FET, 2N7000, 2N7000BU, 2N7000TA, 2N7002,	Introduction to Power MOSFETs and their Applications
AN-9034	Vehicle N channel MOSFET, car P channel MOSFET, MOSFET, FET, Power management, Central Inverter System, Micro Converter System, Micro Inverter System, Welding Machine, 2N7000,	AN-9034 Power MOSFET avalanche Application Guide
AN-9010	Vehicle N channel MOSFET, car P channel MOSFET, MOSFET, FET, power management , 2N7000, 2N7000BU, 2N7000TA,	MOSFET Basics
AN-7515	Vehicle N channel MOSFET, car P channel MOSFET, MOSFET, FET, power management , 2N7000, 2N7000BU, 2N7000TA,	AN-7515 single pulse and repetitive UIS mixed evaluation system
AN-7533	MOSFET, FET, 2N7000, 2N7000BU, 2N7000TA, 2N7002,	A Revised MOSFET Model With Dynamic Temperature Compensation
AN-8039	MOSFET, Signal, sensing and timing, FET, NAND gate, Power Distribution Center & Body Load Control, 74VHC00, FDD8896_F085,	Using the FDDS100H06_F085 in Automotive Systems
AN-1029	All drives, automobile half bridge driver, automotive products, MOSFET, FET, FAN7080_GF085, FAN7081_GF085, FAN7083_GF085,	Maximum Power Enhancement Techniques for SO-8 Power MOSFETs
AN-1032	All drives, automotive products, FET half bridge driver, vehicle, high-end drive, FAN7080_GF085, FAN7081_GF085, FAN7083_GF085,	Performance Restrictions Associated with 3.5 Watts SO-8 Power MOSFETs
AN-9068	MOSFET, FET, Power management, Telecom LLC, Telecom Phase-shift Full Bridge, FCA16N60N, FCA22N60N, FCA36N60NF,	SupreMOS?Gate resistance design guide
AN-9067	MOSFET, FET, Power management, SuperFET? II and SuperFET? II Easy-Drive MOSFETs, Telecom LLC, Telecom Phase-shift Full Bridge, FCA20N60F, FCA47N60F,	LLC Analysis of MOSFET failure modes of resonant converters
AN-5232	MOSFET, FET, SuperFET? II and SuperFET? II Easy-Drive MOSFETs, FCD380N60E, FCD600N60Z, FCD900N60Z,	High efficiency of a new generation of super node MOSFET、SuperFET? II 和 SuperFET? II Easy Drive MOSFE(low switching noise
AN-9066	MOSFET, FET, Power factor correction, rectifier, TV & Monitor, FDA16N50_F109, FDA18N50, FDA20N50F,	UniFET? Optimized Switch for Discontinuous Current Mode Power Factor Correction
AN-7514	MOSFET, FET, FDB8444	AN-7514 Single pulse non clamped inductive switching: rating system
AN-9757	MOSFET, FET, FDB9403_F085	Determination of Maximum Current Rating for Low RDSON DPAK and D2PAK MOSFETs
AN-7536	MOSFET, FET, Central Inverter System, Micro Converter System, Micro Inverter System, Telecom LLC, Telecom Phase-shift Full Bridge, Welding Machine, FDH45N50F,	FCS Fast Body Diode MOSFET for Phase-Shifted ZVS PWM Full Bridge DC/DC Converter
AN-9055	MOSFET, FET, FDMA1023PZ, FDMA1024NZ, FDMA1025P, FDMA1027P,	Assembly Guidelines for MicroFET? 2x2 Dual Packaging
AN-5233	MOSFET, FET, FDMA530PZ, FDMA8878, FDMA908PZ, FDMC510P,	Consideration of Power MOSFETs in Fast Charger Design
AN-7526	MOSFET, FET, FDMB2307NZ	Single Channel MicroFET? 3x2 Power MOSFET Recommended Land Pattern and Thermal Performance
AN-9056	MOSFET, FET, Offline and isolation DC-DC, Central Inverter System, Micro Converter System, Micro Inverter System, Welding Machine, FDMC2512SDC,	Using Fairchild Semiconductor Dual Cool? MOSFETs
AN-4158	MOSFET, FET, FDMS8090	Symmetric Dual N-Channel Shielded Gate PowerTrench? MOSFETs for Half-Bridge DC-DC Converter in Telecommunication Brick Module Application
AN-7534	MOSFET, FET, FDP038AN06A0	A New PSPICE Electro-Thermal Subcircuit For Power MOSFETs
AN-7532	MOSFET, FET, FDP038AN06A0	A New PSPICE Electro-Thermal Subcircuit For Power MOSFETs
AN-7004	MOSFET, FET, FDS2670	Power Converter Topology and MOSFET Selection for 48-V Telecom Applications
AN-7517	MOSFET, FET, Central Inverter System, Digital Power Generator, Micro Converter System, Micro Inverter System, Welding Machine, RFD16N05LSM,	Practical Aspects of Using PowerMOS Transistors to Drive Inductive Loads
AN-4161	MOSFET, FET, Power management, PowerTrench? MOSFETs	AN-4161 The practical considerations to achieve stability channel MOSFET in linear mode
AN-7506	FET	Spicing-Up Spice II Software For Power MOSFET Modeling
AN-9014	FET	Fairchild QFET? for Synchronous Rectification DC to DC Converters
AN-7016	FET	The Road to 200 Ampere VRM
AN-7017	FET, Central Inverter System, Digital Power Generator, Micro Converter System, Micro Inverter System, Welding Machine	Reducing Power Losses in MOSFETs by Controlling Gate Parameters
AN-7018	FET	Segmented Voltage Regulator Modules (VRM) as a Solution for CPU Core Voltage
AN-7503	FET	The Application Of Conductivity-Modulated Field-Effect Transistors
AN-7500	FET, TV & Monitor	Understanding Power MOSFETs
AN-7502	FET	Power MOSFET Switching Waveforms: A New Insight

Seminars

Board Level Evaluation of Power Quad Flat No-Lead (PQFN) Packages
Evaluations in surface mount board assembly are conducted for two advanced packages, the PQFN3x3 and PQFN5x6. (2008-2009)

Applying Power MOSFETs in an Unclamped Inductive Switching Environment (2006)
Online seminar explains Unclamped Inductive Switching (UIS) , why it's important to the designer, and understanding the UIS failure mechanism with a power MOSFET. (2006)

Understanding Modern Power MOSFETs
Driven by new energy efficiency regulations, system designers are increasingly adopting synchronous Buck controllers and half-bridge structures. This presents the designer with new challenge of designing with power MOSFETs. This presentation provides a basic understanding of MOSFETs with more detailed explanation of synchronous Buck and half-bridge structures. (2006)

Tips and Tricks to get More out of your SPICE Simulations
Circuit simulation tools are useful supplements to breadboarding for gaining fast and detailed design insight. This seminar provides a collection of tips and tricks used by the Fairchild GPRC team. (2007)

Using MOSFET Selection to Minimize Losses in Low-Output-Voltage DC-DC Converters
This paper highlights the role of the Power MOSFET in achieving high efficiency converter design. The MOSFET-to-circuit interaction is discussed in detail with the aid of TCAD mixed-mode simulations. (2008-2009)

Driving and Layout Requirements for Fast Switching MOSFETs
The objective of this paper is to describe the driving methods and layout requirements for fast switching MOSFETs. Power MOSFET technology continues to evolve towards higher cell density for lower on-resistance. However, there are silicon limits for a significant reduction in the on-resistance with the conventional planar MOSFET technology due to the exponential increase in onresistance with increasing breakdown voltage. One approach to overcome this limitation is to use Super-Junction technology in high voltage power MOSFETs. This technology dramatically reduces both on-resistance and parasitic capacitances. With smaller parasitic capacitances, these Super-Junction MOSFETs have extremely fast switching characteristics and as a result, reduced switching losses. This switching behavior occurs with greater dv/dt and di/dt that affects switching performance through parasitic components in the devices and on the printed circuit board and influences the EMI performance of the entire system.

Product

Contact us

FETs

FET Portfolio

Why Choose Our MOSFET Products

Application Guide #talbes td{border-right:1px solid #2c2c2c; border-bottom:1px solid #2c2c2c;}

Seminars

Application Guide