MOSFETs

A MOSFET is a field effect transistor (it uses an electric field to control current flow) fabricated as a metal oxide semiconductor, the most widely used production technology. In the power MOSFET field, silicon carbide (SiC) is also used, as it is ideal for higher performance and efficiency required for power supplies, inverters and other applications. Toshiba has developed and produced of MOSFETs for many years, and our extensive lineup or low medium and high withstand voltage devices deliver features that include low loss, high speed, low on-resistance and small packages—a MOSFET for every application.

Lineup

12V - 300V MOSFETs
Toshiba has used each successive generation of trench-gate structures and fabrication processes to steadily reduce the drain-source on-resistance, RDS(ON), of its low-voltage power MOSFETs.
400V - 900V MOSFETs
Toshiba offers super-junction MOSFET series suitable for high-output power supply applications and D-MOS (double-diffused) MOSFET series suitable for low-output power supply applications.
Automotive MOSFETs
Toshiba offers an extensive line of power devices such as power MOSFETs for various automotive applications, including 12V battery and motor control systems.
MOSFET Gate Driver ICs
Toshiba MOSFET Gate Driver ICs are very small N-channel MOSFET drivers with protection circuits. With external N-channel MOSFET, this solution acheives small size and low loss power line.
SiC MOSFETs
Toshiba’s 1200V SiC MOSFET offers high-speed switching and low ON-resistance making it excellent for high-power, high-efficiency industrial power supplies, low-loss solar inverters and UPS.
SiC MOSFET Modules
Our SiC MOSFET modules have high-speed switching properties, and use SiC (silicon carbide), a new material optimized for low-loss and miniaturization of power converters for the industry, such as inverters and converters for railway vehicles and photovoltaic inverters.

You can narrow down the search for applicable products by selecting specifications.

Polarity
VDSS(V)
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Package name (Toshiba)
RDS(ON)Max(Ω)|VGS|=10V
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RDS(ON)Max(Ω)|VGS|=4.5V
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RDS(ON)Max(Ω)|VGS|=2.5V
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AEC-Q101
(*) For more information please contact the sales representative.
Results:

You can narrow down your search for applicable products by package type or number of pins.

unit:

All package dimensions are guaranteed in millimeters as mentioned on datasheet. Package dimension in inches is round to 2 significant digits converted with 1mm=0.0393701inch.

About information presented in this cross reference

The information presented in this cross reference is based on TOSHIBA's selection criteria and should be treated as a suggestion only. Please carefully review the latest versions of all relevant information on the TOSHIBA products, including without limitation data sheets and validate all operating parameters of the TOSHIBA products to ensure that the suggested TOSHIBA products are truly compatible with your design and application.
Please note that this cross reference is based on TOSHIBA's estimate of compatibility with other manufacturers' products, based on other manufacturers' published data, at the time the data was collected.
TOSHIBA is not responsible for any incorrect or incomplete information. Information is subject to change at any time without notice.

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Reference Design

Automotive Brushed DC Motor Control Circuit Using TB9103FTG
The Automotive Brushed DC Motor Control Circuit Using TB9103FTG can control two motors in half-bridge mode or one motor in H-bridge mode. The Motor can be controlled using onboard switches or an external MCU. This reference design provides design guide, data, and other contents.
This is a picture of Gate Drive for SiC MOSFET Module.
Gate Drive for SiC MOSFET Module
In recent years, SiC MOSFET modules have become popular compared to conventional IGBT modules as they have a smaller size and lower loss, which is useful in power conversion applications such as industrial motor drives and railway inverters. This is a gate drive circuit with various protection functions which can safely drive a SiC MOSFET module.This design uses the TLP5231 pre-driver coupler, which is capable of high-current gate drive with external buffer MOSFETs and has various built-in protection functions to implement the isolated-gate drive of a high-current/high-voltage SiC MOSFET module. It consists of two channels, high-side and low-side, on a 62mm x 100mm board and can be installed on Toshiba dual MOSFET modules. Design tips on each portion of the circuit, method of operation, and design information such as circuit diagrams and PCB patterns are available, please use them for your design.
PCB Photo (example)
48 V Bus Compatible 1.2 V/100 A Double Step-Down DC-DC Converter
In recent years, saving energy in servers has become an urgent issue because of the rapid increase in server power consumption. To resolve the issue, Toshiba has developed this 48V bus compatible DC-DC converter with 1.2V/100A output.This design is a two-stage DC-DC converter capable of delivering 1.2V/100A to various devices from the 48V bus line. Since each stage uses Toshiba power MOSFETs that have good balance between on-resistance and charge characteristics, it achieves high efficiency. Design tips on each portion of the circuit, method of operation, and design information such as circuit diagrams and PCB patterns are available, please use them for your design.
PCB Photo (example)
1.6 kW Server Power Supply (Upgraded)
Thanks to Toshiba’s latest power devices and digital isolator, this 1U size and 12 V output 1.6 kW server power supply achieves higher efficiency at whole load than the existing reference design which uses the same circuit topology. Design files and guides for circuit design and operation are available as reference design.
PCB photo example of Power multiplexer circuit
Power Multiplexer Circuit Using Common-Drain MOSFET
This power multiplexer circuit with 2 inputs and 1 output is realized on a small board. A new power multiplexer circuit usign common-drain MOSFET has been added to the already developed power multiplexer circuit reference design. These reference circuits allow switching between BBM and MBB modes by combining optimal devices such as MOSFET gate driver ICs and zener diodes from our diverse product lineup.
3-Phase Inverter Using SiC MOSFET
This reference design provides design guide, data and other contents of the 3-phase inverter using 1200 V SiC MOSFET. It drives AC 440V motors.
Automotive Buck-Boost DC-DC Converter for USB PD
This reference design provides design guide, data and other contents of Automotive Buck-Boost DC-DC Converter for USB PD.
PCB Photo (example)
3-Phase Multi-Level Inverter using MOSFET
This reference design provides design guide, data and other contents of the 3-Phase Multi-Level Inverter with 5 level output. It uses 150 V MOSFETs to drive AC 200 V Motor.
PCB Photo (example)
1 kW Non-Isolated Buck-Boost DC-DC Converter for Telecommunication Equipment
This reference design provides design guide, data and other contents of 1 kW Non-Isolated Buck-Boost DC-DC Converter for Telecommunication Equipment.
1.6 kW T-Type 3-Level PFC Power Supply
1.6 kW T-Type 3-Level PFC Power Supply
This reference design provides design guide, data and other contents of 1.6kW AC-DC converter power supply using T-Type 3-Level power factor correction (PFC) circuit.
PCB photo example of Power multiplexer circuit
Power multiplexer circuit
In this reference design, a Power multiplexer circuit with 2 input and 1 output is implemented on a small PCB. MOSFET gate driver ICs, eFuse ICs, zener diodes and small package MOSFETs selected from Toshiba's diverse lineup are used create ideal diode like characteristics with BBM and MBB switching.
Board photo of 100 W LLC DC-DC Converter
100 W LLC DC-DC Converter
This reference design provides design guide, data and other contents of 100 W LLC DC-DC Converter which uses Zero Volt Switching implemented using LLC resonance.
Exterior photo of 200 W active clamp forward DC-DC converter.
200 W Active Clamp Forward DC-DC Converter
This reference design provides design guide, data and other contents of 1 kW server power supply using phase shifetd full-bridge DC-DC converter.
Photo of non-isolated buck DC-DC converter.
Non-Isolated Buck DC-DC Converter
This reference design provides design guide, data and other contents of multiple non-isolated buck DC-DC converter power supplies. Multiple variations of the power supply are optimized for various outputs, loads and board mounting areas.
Photo of Matrix LED Headlight
Matrix LED Headlight
This reference design provides design guide, data and other contents of LED Matrix Headlight. It controls the lighting of multiple LEDs independently according to the situation.
Features of 500 W server power supply using TOLL package DTMOS.
500 W Server Power Supply using TOLL Package DTMOS
This reference design provides design guide, data and other contents of 500 W server power supply using continuous current mode PFC and LLC DC-DC converter. Using TOLL package MOSFET in the PFC circuit, decreases the overall size and increases the power density.
Photo of 100 W power supply for LED Lighting.
100 W Power Supply for LED Lighting
This reference design provides design guide, data and other contents of the constant current 100 W Power Supply for LED Lighting with PFC and a wide range of input voltage i.e. AC90V to 264V.
Exterior photo of 1 kW full-bridge DC-DC converter.
1 kW Full-Bridge DC-DC Converter
This reference design provides design guide, data and other contents of 1 kW server power supply using phase shifetd full-bridge DC-DC converter.
Exterior photo of 1.6 kW 48 V output telecommunication equipment power supply.
1.6 kW 48 V Output Telecommunication Equipment Power Supply
This reference design provides design guide, data and other contents of 1.6 kW 48 V output power supply using semi-bridgeless PFC and isolated phase-shift full-bridge DC-DC converter.
Circuit of active clamp forward DC-DC power supply basic simulation circuit.
Active Clamp Forward DC-DC Power Supply Basic Simulation Circuit
This reference design provides OrCAD® based simulation circuit, simulation results and design guide. This is for designing Active Clamp Forward topology of DC-DC power supply.
Circuit of active clamp forward AC-DC power supply basic simulation circuit.
Active Clamp Forward AC-DC Power Supply Basic Simulation Circuit
This reference design provides OrCAD® based simulation circuit, simulation results and design guide. This is for designing Active Clamp Forward topology of AC-DC power supply.
Circuit of Full-Bridge DC-DC power supply basic simulation circuit.
Full-Bridge DC-DC Power Supply Basic Simulation Circuit
This reference design provides OrCAD® based simulation circuit, simulation results and design guide. This is for designing Full-Bridge topology of DC-DC power supply.
Circuit of Full-Bridge AC-DC power supply basic simulation circuit.
Full-Bridge AC-DC Power Supply Basic Simulation Circuit
This reference design provides OrCAD® based simulation circuit, simulation results and design guide. This is for designing Full-Bridge topology of AC-DC power supply.
Circuit of Non-isolated Synchronous Buck DC-DC power supply basic simulation circuit.
Non-isolated Synchronous Buck DC-DC Power Supply Basic Simulation Circuit
This reference design provides OrCAD® based simulation circuit, simulation results and design guide. This is for designing Non-isolated Synchronous Buck DC-DC power supply.
Circuit of Half-Bridge (HB) AC-DC power supply basic simulation circuit.
Half-Bridge (HB) AC-DC Power Supply Basic Simulation Circuit
This reference design provides OrCAD® based simulation circuit, simulation results and design guide. This is for designing Half-Bridge (HB) topology of AC-DC power supply.
Circuit of Half-Bridge (HB) DC-DC power supply basic simulation circuit.
Half-Bridge (HB) DC-DC Power Supply Basic Simulation Circuit
This reference design provides OrCAD® based simulation circuit, simulation results and design guide. This is for designing Half-Bridge (HB) topology of DC-DC power supply.
HVAC application of photovoltaic-output photocoupler and MOSFET as replacement for mechanical relay.
Photovoltaic-Output Photocoupler and MOSFET as Replacement for Mechanical Relay
Solid state relay with photovoltaic-output coupler, TLP3906, and MOSFET, TPH1R306PL. Describes design guidance of solid state relay circuit as replacement of mechanical relay.
Features of 1.2V/100A output DC-DC converter compliant with 48V bus voltage.
1.2V/100A Output DC-DC Converter Compliant with 48V Bus Voltage
This reference design provides specification, block diagram and PCB layout data of 1.2V/100A output isolated DC-DC converter which convert 48V bus voltage to 1.2V directly.
Circuit of phase-shift full bridge (PSFB) AC-DC power supply basic simulation circuit.
Phase-Shift Full Bridge (PSFB) AC-DC Power Supply Basic Simulation Circuit
This reference design provides OrCAD® based simulation circuit, simulation results and design guide. This is for designing phase-shift full bridge (PSFB) topology of AC-DC power supply.
Circuit of flyback DC-DC power supply basic simulation circuit.
Flyback DC-DC Power Supply Basic Simulation Circuit
This reference design provides OrCAD® based simulation circuit, simulation results and design guide. This is for designing flyback topology of DC-DC power supply.
Circuit of flyback AC-DC power supply basic simulation circuit.
Flyback AC-DC Power Supply Basic Simulation Circuit
This reference design provides OrCAD® based simulation circuit, simulation results and design guide. This is for designing flyback topology of AC-DC power supply.
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300W Isolated DC-DC Converter
This reference design provides specification, block diagram and PCB layout data of 300W isolated DC-DC converter which is small size and suitable for consumer applications.
Circuit diagram of single phase PFC power supply basic simulation circuit.
Single Phase PFC Power Supply Basic Simulation Circuit
This reference design provides OrCAD® based simulation circuit, simulation results and design guide. This is for designing single phase PFC power supply.
Circuit diagram of interleaved PFC power supply basic simulation circuit.
Interleaved PFC Power Supply Basic Simulation Circuit
This reference design provides OrCAD® based simulation circuit, simulation results and design guide. This is for designing interleaved PFC power supply.
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Bridgeless PFC Power Supply Basic Simulation Circuit
This reference design provides OrCAD® based simulation circuit, simulation results and design guide. This is for designing bridgeless PFC power supply.
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200W AC-DC Power Supply
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MOSFET Driver IC Application and Circuit of the TCK401G
This reference design provides technical information on slew rate control, auto discharge and other built-in functions for designing load switch circuit suitable for USB-PD.
Battery charger circuit of MOSFET Driver IC application and circuit of the TCK402G.
MOSFET Driver IC Application and Circuit of the TCK402G
This reference design provides technical information on slew rate control, auto discharge and other built-in functions for designing load switch circuit suitable for USB-PD.
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Parallel Operation of MOSFET(TPH1R306PL) Application Circuit
This reference design provides example of simulation models/circuit and results for parallel operation using 60V MOSFET to increase output power.
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Parallel Operation of MOSFET(TK62N60X) Application Circuit
This reference design provides example of simulation models/circuit and results for parallel operation using 600V MOSFET to increase output power.
Device and prastic inductance of PCB trace of MOSFET 4 leads package TO-247-4L(TK25Z60X) application circuit.
MOSFET 4 Leads Package TO-247-4L(TK25Z60X) Application Circuit
This reference design provides example circuit for maximize switching performance and efficiency using 4 lead MOSFET package (TO-247-4L) which reduces package inductance.
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MOSFET4 Leads Package DFN8x8(TK25V60X) Application Circuit
This reference design provides example circuit for maximize switching performance and efficiency using 4 lead MOSFET package (DFN8x8) which reduces package inductance.
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Single-Output High-Side N-Channel Power MOSFET Gate Driver Application and Circuit of the TPD7104AF
This reference design provides examples of application circuit and simulation for TPD7104AF which features short load protection, reverse power connection protection and others.
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This reference design provides design guide, data and other contents of 1.6kW 80Plus Platinum class power supply using Semi-bridgeless/Isolated phase shift full bridge.

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