Title :
Health Monitoring and Prognostics of Electronics Subject to Vibration Load Conditions
Author :
Gu, Jie ; Barker, Donald ; Pecht, Michael
Author_Institution :
Univ. of Maryland, College Park, MD, USA
Abstract :
This paper discusses a health monitoring and prognostics methodology for assessing the reliability of a group of electronic components mounted on a printed circuit board by using strain gauges and an accelerometer to monitor the life-cycle vibration loads. These loads were converted into the component interconnects´ stress values, which were then used in a vibration failure fatigue model for damage assessment. Damage estimates were accumulated using Miner´s rule and then used to predict the life consumed and remaining life. The results were verified by experimentally measuring component lives through real-time daisy-chain resistance measurements.
Keywords :
accelerometers; condition monitoring; failure (mechanical); fatigue; strain gauges; vibrations; accelerometer; damage assessment; electronic components reliability; health monitoring; health prognostics; life-cycle vibration loads; printed circuit board; strain gauges; vibration failure fatigue model; vibration load conditions; Accelerometers; Capacitive sensors; Condition monitoring; Electrical resistance measurement; Electronic components; Fatigue; Integrated circuit interconnections; Life estimation; Printed circuits; Stress; vibration; Accelerometer; electronics; health monitoring; printed circuit board; prognostics; reliability; strain gauge;
Journal_Title :
Sensors Journal, IEEE
DOI :
10.1109/JSEN.2009.2026988
