Third generation 1200V SiC MOSFETs from Toshiba boost industrial power-conversion efficiency

30 AUGUST 2022

New discrete MOSFETs combine superior RDS(on) x QGD figure of merit with proven Toshiba innovations for reliability and stability

Toshiba Electronics Europe GmbH (“Toshiba”) has launched five 1200V silicon-carbide (SiC) MOSFETs that leverage the Company’s third generation SiC technology to boost the energy efficiency of high-voltage industrial applications. They are used in equipment such as EV charging stations, photovoltaic inverters, industrial power supplies, uninterruptible power supplies (UPS), and bidirectional or half-bridge DC-DC converters.

By improving the on-resistance x gate-drain charge (RDS(on) x QGD) figure of merit by more than 80%, Toshiba’s latest SiC technology elevates both conduction and switching performance in power-conversion topologies.

In addition, the new devices contain the innovative embedded Schottky barrier diode (SBD), proven in the previous generation. The embedded SBD enhances the reliability of SiC MOSFETs by overcoming internal parasitic effects to maintain a stable device RDS(on).

Furthermore, the products have a generous maximum gate-source voltage range, from -10V to 25V, which enhances flexibility to operate in various circuit designs and application conditions. The gate-threshold voltage (VGS(th)) range from 3.0V to 5.0V, ensures predictable switching performance with minimal drift and permits a simple gate-driver design.

The third generation SiC MOSFETs available now comprise the TW015N120C, TW030N120C, TW045N120C, TW060N120C, and TW140N120C. The devices have RDS(on) values from 15mΩ to 140mΩ (typical, at VGS = 18V) and drain-current ratings from 20A to 100A (DC at TC=25°C).

All the devices are in full production and ready to order from distributors, in the standard TO-247 power package.

Additional information about Toshiba’s power 1200V SiC MOSFETs can be found here: TW015N120CTW030N120CTW045N120CTW060N120C, and TW140N120C

Toshiba Electronics Europe

Leave a Reply

Your email address will not be published. Required fields are marked *

  • We use your personal data ONLY to respond to your comments/requests.
  • To receive responses that are appropriate to your requests, we may transfer your email address and your name to the author of the article.
  • For more information on our Privacy Policy and Personal Data Processing, please visit the page: Privacy Policy (GDPR) & Cookies.
  • If you have any questions or concerns regarding the way we process your personal data, you can contact our Data Protection Officer at: gdpr@esp2000.ro
  • Subscribe to our magazine newsletter