Wolfspeed Logo

Main menu navigation

  • Explore Products

    • Power Modules
    • Discrete MOSFETs
    • Discrete Schottky Diodes
    • Bare Die MOSFETs
    • Bare Die Schottky Diodes
    • Reference Designs
    • Gate Driver Boards
    • Evaluation Kits
    • Materials Products

  • Explore Applications

    • Artificial Intelligence

      • Datacenter & Server Power Supplies
      • Uninterruptible Power Supplies

    • Automotive

      • EV Powertrain
      • On-Board Charger
      • On-Board DC/DC Converter

    • E-Mobility

      • Commercial, Construction & Agriculture Vehicles
      • E-Boats and E-Ships
      • Trains & Traction

    • Industrial Motor Drives

      • Low Voltage Motor Drives
      • Heat Pump & Air Conditioning
      • Servo Drives

    • Renewable Energy

      • Energy Storage Systems
      • Fast Charging
      • Residential & Light Commercial Solar Systems
      • Industrial & Commercial Solar Systems
      • Utility Scale Renewable Energy
    • Materials Applications
  • Tools & Support

  • Explore Company

    • About
    • Locations
    • Senior Leadership
    • Powerful Perspectives
    • Quality
    • Sustainability
    • News
    • Events
  • Careers
  • Investors
  • English
  • 简体中文 - Chinese (Simplified)
  • 繁體中文 - Chinese (Traditional)
Contact
    View Cart

    Breadcrumb Navigation

    • Home
    • Knowledge Center
    • Industrial
    • Silicon Carbide Enables Off-Line Switching Mode Power Supplies
    Industrial

    Silicon Carbide Enables Off-Line Switching Mode Power Supplies

    Sep 20, 2021
    • Share on LinkedIn
    • Share on Facebook
    • Share on Twitter
    • Share in an email

    Article

    Considering an offline PFC to today's 80+ highest efficiency standards or a 3 phase bidirectional grid tied active front end; maybe looking at a dc-dc switching at 1Mhz or debating going discrete or module. This webinar will walk through relevant Silicon Carbide (SiC) based system architectures to achieve such designs – all achieving higher efficiency, higher power density and lower system cost. 500W to 100kW we will consider it all with topology examples, results and design considerations. This webinar was part of the 2021 Wolfspeed Summer Series where Silicon Carbide experts covered a number of technical sessions intended to help design engineers build devices that will power tomorrow.

    Read the Supporting White Paper

    Support

    Technical SupportPower Applications Forum
    Request SamplesVisit the Sample Center
    SpeedFit Design SimulatorCreate a Design

    Footer

    Wolfspeed Logo

    Social Media

    • Instagram
    • X
    • LinkedIn
    • YouTube

    Footer Navigation

    • Contact
    • Where to Buy
    • Licensing
    • Suppliers & Contractors

    Legal

    • Privacy Policy
    • Cookie Policy
    • Terms Of Use
    • Accessibility
    Copyright © 2026 Wolfspeed, Inc.

    More Articles

    View All

    How Wolfspeed Power Modules are Revolutionizing 3-Phase Industrial Low Voltage Motor Drives

    Continue Reading  Technical Articles

    Gen 4 Silicon Carbide Technology:
    Redefining Performance and Durability in High-Power Applications

    Continue Reading  White Paper

    Practical Tools for Designing with Silicon Carbide in Industrial Motor Drives

    Simplify, accelerate and de-risk the design process when designing industrial motor drives with silicon carbide and easily access IE4 and IE5 efficiency standards.
    Continue Reading  Blog