Proceedings of International Conference of Electronics Packaging, Kyoto, Japan, April 2009.

Precursor Monitoring Approach for Reliability Assessment of Cooling Fans

Hyungseok Oh
Center for Advanced Life Cycle Engineering (CALCE)
Department of Mechanical Engineering
University of Maryland
College Park, MD 20742

Tadahiro Shibutani
Yokohama National University
Yokohama, Kanagawa 240-8501
Japan

Michael Pecht

Center for Advanced Life Cycle Engineering (CALCE)
Department of Mechanical Engineering
University of Maryland
College Park, MD 20742

Prognostics and Health Management Center
City University of Hong Kong

Abstract:

Cooling fans are a critical part of the thermal management capability of commercial and military electronic equipment. Although accelerated testing by increasing operating temperatures has been commonly adopted in order to estimate the reliability of cooling fans in a short time frame, the testing time is usually more than 6 months due to the high reliability of current ball bearings. Prognostics and health management is a potential way to solve this problem. the first step for prognostics and health management is to identify precursor parameters. This article begins with the identification of precursor parameters. The health of cooling fans was estimated by monitoring three precursor parameters including acoustic noise emission, shaft rotational speed, and current consumption. Then the parameter value changes were compared to the failure criteria described in the IPC-9591 standard.

Complete article is available to CALCE Consortium Members.



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