Title :
Distributed power semiconductor stress test & measurement architecture
Author :
Steinwender, Benjamin ; Einspieler, Sascha ; Glavanovics, M. ; Elmenreich, Wilfried
Author_Institution :
Lakeside Labs., Alpen-Adria-Univ., Klagenfurt, Austria
Abstract :
Conventional reliability testing of microelectronic power devices requires dedicated test systems. In order to test a statistically meaningful set of devices, only simplified stress pattern generation through a centralized controller is performed due to cost restrictions. Knowledge about device performance and failure time is commonly obtained by periodically removing the device from the test setup and performing a measurement on a different test hardware. In this paper, we propose a distributed power semiconductor stress test and measurement architecture to overcome limitations of existing test systems. We show that a local smart controller close to the tested device reduces the centralized system complexity by dividing the reliability testing problem into smaller tasks.
Keywords :
power semiconductor devices; semiconductor device reliability; semiconductor device testing; stress measurement; centralized system complexity; distributed power semiconductor stress test; local smart controller; measurement architecture; reliability testing; Computer architecture; Performance evaluation; Prototypes; Reliability; Software; Stress; Testing; Automotive electronics; CAN; Distributed measurement; Reliability testing; Smart Transducer;
Conference_Titel :
Industrial Informatics (INDIN), 2013 11th IEEE International Conference on
Conference_Location :
Bochum
DOI :
10.1109/INDIN.2013.6622870
