Contact
中文
Home
1700 V Industrial Qualified Bare Die Silicon Carbide MOSFETs – Gen 3

1700 V Industrial Qualified Bare Die Silicon Carbide MOSFETs – Gen 3

Wolfspeed Power CPM3-1700-0020E
Wolfspeed's Industrial qualified Gen 3 1700 V Silicon Carbide MOSFETs are optimized for high power applications

Wolfspeed continues to lead in Silicon Carbide (SiC) with our first Industrial Gen3 1700 V Bare Die SiC MOSFETs. The product is fully industrial qualified, with high blocking voltage (1700 V) with the industry-leading low RDS(ON) over temperature stability, enabling low conduction losses and highest figures of merit in the most demanding applications. These devices are optimized for use in high power applications such as locomotive traction, solid state circuit breakers, solar power, uninterruptible power supply, and more.

Based on the latest 3rd generation technology; Wolfspeed’s 1700 V Bare Die Silicon Carbide MOSFETs include a range of on-resistance and package options that enable designers to select the right part for their application. The 1700 V MOSFETs are designed for low RDS(ON), are easy to parallel and compatible with standard gate drive design. The efficiency gained by moving from a silicon-based solution to Silicon Carbide can help reduce system size, weight, and cooling requirements. Back side metallization provides better solution to module designers in choice of assembly process and module layout.

Product SKU
Buy Online
Data Sheet
Blocking Voltage
RDS(ON) at 25°C
Current Rating
Gate Charge Total
Output Capacitance
Reverse Recovery Charge (Qrr)
Reverse Recovery Time (Trr)
Maximum Junction Temperature
Generation
Recommended For New Design?
CPM3-1700-R020E
1700 V
17.5 mΩ
120 A
249 nC
188 pF
2557 nC
43 ns
175 °C
Gen 3
Yes
Features
  • Industrial Qualified
  • High blocking voltage with industry leading low RDS(on) over temperature stability
  • Resistant to latch-up
  • High gate resistance for drives
Benefits
  • Improves System Efficiency with lower switching and conduction losses
  • Reduces System Size, Weight, and Cooling Requirements
  • Enables high switching frequency operation
  • Easy to parallel and compatible with standard gate drive design
Applications
  • Trains traction
  • Solar power
  • Uninterruptible power system (UPS)
  • Wind power
Apply Filters
Document Type
Document Name
Application Notes
Data Sheets
Product Catalog
Sales Terms
Technical Support
Power Applications Forum
Sales Support
Stay Informed

Knowledge Center

View All
Power
|
Motors & Motion

Meet the Latest Energy-Efficiency Standards with Wolfspeed Silicon Carbide

This article highlights the direct impact of new global efficiency standards and the undisputed need for Silicon Carbide as the enabling semiconductor technology that has the capacity to meet these standards for high efficiency and reliability. Wolfspeed not only helps designers meet the latest standards but plan for upcoming requirements in their development roadmaps across key applications, including motors, switch-mode power supplies and EV charging infrastructures.
Continue Reading 
 Technical Articles

Simplifying Global Equipment Designs by Utilizing Silicon Carbide

Astrodyne TDI (ATDI) is leveraging Wolfspeed’s Silicon Carbide technology to address key challenges when designing equipment for a global market. Read on to see how ATDI’s Kodiak power supply and Wolfspeed’s Silicon Carbide gives customers the ability to use the same control and power topology across different utility voltage levels, ensuring high performance regardless of the input voltage level.
Continue Reading 
 Technical Articles

Finding the Right Technology to Solve the Datacenter Power Challenge

Datacenters consume close to one percent of global electricity, a number that is only expected to grow. While increasing renewable energy contribution is a step in the right direction, global standards for energy efficiency is another area of focus that targets nearly 40 percent of datacenter operational costs due to energy consumption by servers and their cooling systems. Wolfspeed’s new 3.6 kW totem-pole PFC reference design is aimed at solving the datacenter and server power supply challenge by offering flexibility with high efficiency, lower cost, while meeting global efficiency standards.
Continue Reading 
 Technical Articles
Wolfspeed Logo
FacebookTwitterLinkedInYouTube
  • Contact
  • Where to Buy
  • Document Library
  • Knowledge Center
  • News
  • Events
  • Privacy Policy
  • Terms of Use
Copyright © 2022 Wolfspeed, Inc.