Fairchild Semiconductor's Power Supply WebDesigner 

Adds Power Train Discrete Device Power Loss and Efficiency Analysis Tools 

 


Design Tools

Fairchild offers a number of design support tools; all design tools listed below are web-based unless otherwise indicated. You may directly access the tool you are interested in below or see the summary section for descriptions of each tool.

Note that MyFairchild Registration is required to access these tools.



Power Train Discrete - Device Power Loss and Analysis

Online Power Discrete, Device Power Loss and Efficiency Analysis Tools for Various Switching Power Supply Topologies

The ability to dramatically accelerate discrete component selection and design for power supplies is now Available with Fairchild's Power Supply WebDesigner (PSW). Our power train discrete modules automatically Selects design-appropriate devices such as MOSFET, IGBT, rectifier and diode (depending on the module) Based on your on your electrical and mechanical input specifications. Power engineers can then optimize component selections for their particular design by varying Fairchild device combinations as the software program quickly displays the new performance analyses and output results. Weeks of bench time can now be accomplished in a matter of minutes, at no expense.



Power Factor Correction; AC Input
Power Factor CorrectionPower Factor Correction (CCM PFC and CrCM/BCM) – Online power factor correction (PFC) power discrete (MOSFET, IGBT, rectifier) device power loss analysis tool for evaluating device junction temperature (Tj), power train power loss, and efficiency. Simply enter system input and output requirements – the tool will recommend the power discrete device part numbers and display a dashboard view for device junction temperatures, power loss analysis, and efficiency.

Offline & Isolated DC-DC; AC Input
Phase-shifted Full Bridge & Synchronous Rectification (PSFB+SR) – Online power factor correction (PFC) power discrete (MOSFET, IGBT, rectifier) device power loss analysis tool for evaluating device junction temperature (Tj), power train power loss, and efficiency. Simply enter system input and output requirements – the tool will recommend the power discrete device part numbers and display a dashboard view for device junction temperatures, power loss analysis, and efficiency.

Non-Isolated DC-DC; DC Input
Synchronous Buck [formerly FETBench] – Online design tool for buck regulator power train. This online design tool provides an environment for evaluating the most popular Fairchild MOSFET Devices. This tool uses electrical and thermal simulation to provide custom datasheet graphs and to evaluate the device in an array of DC/DC power train discrete applications. Evaluate the MOSFET performance in the application using online simulation and analysis tools

Boost [formerly FETBench] – Online design tool for boost regulator power train. This online design tool provides an environment for evaluating the most popular Fairchild MOSFET Devices. This tool uses electrical and thermal simulation to provide custom datasheet graphs and to evaluate the device in an array of DC/DC power train discrete applications. Evaluate the MOSFET performance in the application using online simulation and analysis tools.

Active Clamp Forward Converter – Online design tool for Active Clamp Forward Converters power train. This online design tool provides an environment for evaluating the most popular Fairchild MOSFET Devices and uses electrical and thermal simulation to provide custom datasheet graphs and to evaluate the device in an array of DC/DC power train discrete applications. Evaluate the MOSFET performance in the application using online simulation and analysis tools

Featured Collateral
PSW Power Train Discrete-Device Power Loss and Analysis Product Overview
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Step-by-Step User Guides
Power Factor Correction Step-by-Step Guide
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MOSFET Synchronous Buck Step-by-Step Guide
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MOSFET Boost Step-by-Step Guide
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Active Clamp Forward Step-by-Step Guide
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