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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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Innovation Centre

At the Toshiba Innovation Centre we constantly strive to inspire you with our technologies and solutions. Discover how to place us at the heart of your innovations.

12V - 300V MOSFETs

Toshiba offers an extensive portfolio of 12- to 300-VDSS MOSFETs in various packages ranging from ultra-small packages for small-signal applications to packages for large current applications. Toshiba's MOSFET offers high-speed, low drain-source on-resistance characteristics and low-spike type with snubber constants optimized. Toshiba's MOSFETs with low noise and low switching loss are used for server AC-DC switched-mode power supplies and base station DC-DC converters that require high efficiency. We also offer products suitable for various applications, including smartphones, wearable devices, and IoT equipment, which are required to be lightweight and compact.

Product Highlight

U-MOS IX-H Low-spike-type 40V N-channel Power MOSFET

U-MOS IX-H Low-spike-type 40V N-channel Power MOSFET

Reduction of EMI in switching power supply applications

TPHR7404PU's low-spike capability reduces overshoot in switching applications, making it ideal for secondary synchronous rectification in switching power supply applications.  It contributes to reduced EMI while maintaining an extremely low on-resistance of just 0.74mΩ (max) at a VGS of 10V.  The TPHR7404PU features a new cell structure, using a parasitic snubber, thereby limiting noise and ringing during switching. This results in a lower peak voltage when switching, and reduced signal ringing. Available in a 5 x 6mm SOP Advance package it's suitable for efficiency-focused, compact power solutions such as high-efficiency DC-DC converters, motor drivers, and switching voltage regulators.

TPHR7404PU Specifications

TPHR7404PU Datasheet

Low Voltage MOSFETs Features, Advantages, Benefits (FAB) sheet

Lineup

Polarity
VDSS(V)
-
Package name (Toshiba)
Generation
RDS(ON)Max(Ω)|VGS|=10V
-
RDS(ON)Max(Ω)|VGS|=4.5V
-
RDS(ON)Max(Ω)|VGS|=2.5V
-
Results:
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.

Documents

Name Date

Technical topics

Applications

Inverter/Servo
Motion Detector
LED Lighting
Solid State Drive
Multi Function Printer
Wireless Charger
Cordless Power Tool
Robot Cleaner
Body Composition Analyzer
IH Cooking Heater
Wireless Earphones
Cordless cleaner
Action Camera
Microwave Oven
IH Rice Cooker
Electric Shaver
Server
Surveillance Camera
Mega-solar Inverters
Smart Plug
Tablet Device
Programmable Logic Controller
Thermostat
Warm Water Bidet
Refrigerator
Smart Speaker
Electronic Sphygmomanometer
Smart Watch
Electric Toothbrush

Reference Design

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.
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.
Power multiplexer circuit / 2 input and 1 output
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This reference design provides design guide, data and other contents of 200 W active clamp forward DC-DC converter using Nch MOSFET for clamp switch.
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Power Supply
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Reference Design Center
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.
Simulation Circuit / Editable on OrCAD®
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.
Simulation Circuit / Editable on OrCAD®
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.
Simulation Circuit / Editable on OrCAD®
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 (FB) topology of AC-DC power supply.
Simulation Circuit / Editable on OrCAD®
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.
Non-isolated / Synchronous / Buck / DC-DC / Power Supply
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.
Half-Bridge / DC-DC / Power / Supply
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.
Half-Bridge / AC-DC / Power / Supply
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.
Photovoltaic / Output / Photocoupler / MOSFET / Replacement / Mechanical Relay

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