TID and DSEE Effects in a GaN FET Capable PWM Controller IC Prototype for Space Applications

authored by

Philipp Mand, Volodymyr Burkhay, Andre Rocke, Uwe Gieselmann, Leon Fauth, Markus Olbrich, Jesus Oliver, Bernhard Wicht, Jens Friebe

Abstract

New technology trends in space, such as the use of GaN FETs in power applications, increase the need for a PWM controller IC that can directly drive GaN FETs while being reliable and easy to use. In this paper, the radiation performance of a newly developed prototype radiation-resistant PWM controller IC for a wide power range and new technology applications in space is presented. To ensure reliability in the space environment, this prototype IC was tested for total ionizing dose and destructive single event effects. This paper analyzes the test results and identifies possible improvements to the circuit or application. A maximum total ionizing dose of 185 krad was achieved. Some variations in parameters were observed during the test. The DSEE test was performed with Xe ions to test the DSEE's disruptive strength. The DSEE test shows no destructive events for the tested conditions such as a power bus voltage of 105 V. With this information, this paper paves the way for design change and further testing in the future to obtain evaluation results according to the ESCC.

Organisation(s)

Institute of Drive Systems and Power Electronics
Institute of Microelectronic Systems

External Organisation(s)

European Space Research and Technology Centre (ESTEC)
Space Ic GmbH
University of Kassel

Type

Conference contribution

Publication date

2023

Publication status

Published

Peer reviewed

Yes

ASJC Scopus subject areas

Energy Engineering and Power Technology, Electrical and Electronic Engineering, Aerospace Engineering

Electronic version(s)

https://doi.org/10.1109/espc59009.2023.10413257 (Access: Closed)