Turn-ON of High-Voltage SiC Thyristors for Fast-Switching Applications

This paper is focused on the characterization of the turn-ON transition of high-voltage SiC thyristors of different epi-layer thicknesses and active-area sizes to determine their suitability and limitations in high-dI/dt, fast-switching applications. The unique aspects of this paper include the very...

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Published in:IEEE journal of emerging and selected topics in power electronics 2016-09, Vol.4 (3), p.772-779
Main Authors: O'Brien, Heather K., Ogunniyi, Aderinto A., Shaheen, William, Sei-Hyung Ryu
Format: Article
Language:English
Subjects:
Burst switching
Capacitors
Current density
Delays
Devices
Dissipation
Electronics
Exploration
Laboratories
Logic gates
power semiconductor switches
semiconductor device testing
Silicon carbide
Switches
Switching
Thyristors
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container_title IEEE journal of emerging and selected topics in power electronics
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creator O'Brien, Heather K.
Ogunniyi, Aderinto A.
Shaheen, William
Sei-Hyung Ryu
description This paper is focused on the characterization of the turn-ON transition of high-voltage SiC thyristors of different epi-layer thicknesses and active-area sizes to determine their suitability and limitations in high-dI/dt, fast-switching applications. The unique aspects of this paper include the very high current density being switched through the thyristors over a short period of time at initial turn-ON, resulting in very high instantaneous dissipated power over the small device volume. The devices that were characterized were 6-kV, 0.5-cm 2 thyristors; 10-kV, 1.05-cm 2 thyristors; and 15-kV, 1.05-cm 2 thyristors, all fabricated by Cree, Inc. (now Wolfspeed) for the U.S. Army Research Laboratory. The highest dI/dt and the current density were 13 kA/ms and 3.2 kA/cm 2 for a parallel pair of 0.5-cm 2 thyristors, with pulsed current peaking 250 ns from initial gate trigger. All devices evaluated were capable of switching a current pulse >2 kA/cm 2 within a period of less than 2μs. These evaluations have broad application in helping to inform SiC device design tradeoffs for increasing epi thickness, increasing device area, and the effects of lifetime enhancement processes. Results are also presented for initial exploration of fast-switching applications for these devices.
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source IEEE Electronic Library (IEL) Journals
subjects Burst switching
Capacitors
Current density
Delays
Devices
Dissipation
Electronics
Exploration
Laboratories
Logic gates
power semiconductor switches
semiconductor device testing
Silicon carbide
Switches
Switching
Thyristors
title Turn-ON of High-Voltage SiC Thyristors for Fast-Switching Applications
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