High-Resolution Differential Thermography of Semiconductor Edifices

Vera Marie Sastine; Vernon Julius Cemine; Carlo Mar Blanca; Caesar Saloma

Science Diliman (Dec 2004)

High-Resolution Differential Thermography of Semiconductor Edifices

Vera Marie Sastine,
Vernon Julius Cemine,
Carlo Mar Blanca,
Caesar Saloma

Affiliations

Vera Marie Sastine
Vernon Julius Cemine
Carlo Mar Blanca
Caesar Saloma

Journal volume & issue: Vol. 16, no. 2
pp. 57 – 60

Abstract

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We develop a cost-effective, high-resolution, and noninvasive imaging technique for thermal mapping of semiconductor edifices in integrated circuits. Initial implementation was done using a power-stabilized optical feedback laser system that detects changes in the optical beam-induced current when the package temperature of the device is increased. The linear change in detected current can be translated to a thermal gradient, which can reveal semiconductor “hotspots”—localized sites with anomalous thermal activity. These locales are possible fault sites or areas susceptible to defects, which are the best jump-off points for failure analysis.

Published in Science Diliman

ISSN: 0115-7809 (Print); 2012-0818 (Online)
Publisher: University of the Philippines
Country of publisher: Philippines
LCC subjects: Science: Science (General)
Website: http://journals.upd.edu.ph/index.php/sciencediliman

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