1000 V Silicon Carbide (SiC) power MOSFETs for fast switching power devices
Wolfspeed offers a series of 1000 V Silicon Carbide (SiC) MOSFETs optimized for fast switching devices such as electric-vehicle charging systems; industrial power supplies; and renewable energy systems.
The 1000 V Silicon Carbide MOSFETs address many power design challenges by providing a unique device with low on-Resistance; very low output capacitance; and low source inductance for a perfect blend of low switching losses and low conduction losses. Compared to silicon-based solutions; Wolfspeed silicon carbide power device technology enables increased system power density; higher switching frequencies; reduced component-count; and reduced size of components like inductors; capacitors; filters & transformers.
Minimum of 1kV Vbr across entire operating temperature range (no need to derate)
High-speed switching with low output capacitance
Fast intrinsic diode with low reverse recovery (Qrr)
Easy to parallel and simple to drive
Kelvin source pin to reduce switching losses and ringing
Benefits
Enables a reduction in overall system cost
Improves system efficiency while decreasing system-size
Enables a 30% reduction in component-count while achieving more than 3x increase in power density and a 33% increase in output power
Enables hard switching topologies
Applications
Industrial power supplies
Renewable energy systems
Fast electric vehicle charging systems
Onboard electric vehicle charging
Documents, Tools & Support
Technical & Sales Documents
Tools & Support
Compliance
Documents
Document Type
Document Name
Last Updated
Application Notes
01/2024
Application Notes
01/2024
Application Notes
12/2023
Application Notes
11/2023
Application Notes
05/2023
Application Notes
01/2023
Application Notes
10/2022
Application Notes
09/2022
Application Notes
11/2021
Test Report
03/2022
Data Sheets
01/2024
Data Sheets
01/2024
Data Sheets
01/2024
Data Sheets
01/2024
Product Catalog
02/2024
Sales Terms
This document details the production packaging details including container type, quantity, MOQ, and dimensions as well as the moisture sensitivity level (MSL) for discrete SiC Schottky Diodes and MOSFETs
Wolfspeed’s silicon carbide expert Guy Moxey kicks of Wolfspeed’s 2024 Designer’s Guide by exploring the proliferation of silicon carbide across applications, including electric vehicles, industrial motor drives and e-mobility, and ways Wolfspeed is meeting growing global demand.
Learn how designers new to silicon carbide can leverage Wolfspeed’s design support tools to generate models that solve system design challenges. During this session learn which Wolfspeed design tools are best suited to your application.