Title :
A comparative study of thermal measurement techniques currently available to the semiconductor industry
Abstract :
Temperature accelerates many GaAs semiconductor failure mechanisms; therefore accurately determining the junction or channel temperature of a GaAs device is a critical step in gauging its reliability. To that end the purpose of this paper is to illustrate and compare several methods for determining junction temperatures of GaAs semiconductor devices. Techniques such as, finite element modeling, forward diode voltage drop, nematic liquid crystals, thermochromic liquid crystals, and infrared imaging are compared for their benefits and limitations. It is the intent of the paper not to propose one technique over another but to explain each in detail and leave it to the reader to evaluate the technique that is appropriate for the end application
Keywords :
electric potential; failure analysis; finite element analysis; infrared imaging; semiconductor device reliability; temperature measurement; GaAs; channel temperature; finite element modeling; forward diode voltage drop; infrared imaging; junction temperature; nematic liquid crystals; reliability; semiconductor failure mechanisms; thermal measurement techniques; thermochromic liquid crystals; Acceleration; Failure analysis; Finite element methods; Gallium arsenide; Liquid crystals; Measurement techniques; Semiconductor device reliability; Semiconductor devices; Semiconductor diodes; Temperature;
Conference_Titel :
GaAs Reliability Workshop, 2000. Proceedings
Conference_Location :
Seattle, WA
Print_ISBN :
0-7908-0102-7
DOI :
10.1109/GAASRW.2000.902423
