Experimental Studies of Ageing in Electrolytic Capacitors

##plugins.themes.bootstrap3.article.main##

##plugins.themes.bootstrap3.article.sidebar##

Published Oct 10, 2010
Chetan Kulkarni Gautam Biswas Xenofon Koutsoukos Jose Celaya Kai Goebel

Abstract

Understanding the ageing mechanisms of electronic components critical avionics systems such as the GPS and INAV are of critical importance. Electrolytic capacitors and MOSFET’s have higher failure rates among the components of DC-DC power converter systems. Our current work focuses on analyzing and modeling electrolytic capacitor degradation and its effects on the output of DC-DC converter systems. The output degradation is typically measured by an increase in ESR (Equivalent Series Resistance) and decrease in the capacitance value over long periods of use even under nominal operating conditions. Typically the primary effect of degradation is increased ripple current and this has adverse effects on downstream components. For example, in avionics systems where the power supply drives a GPS unit, ripple currents can cause glitches in the GPS position and velocity output, and this may cause errors in the Inertial Navigation (INAV) system, causing the aircraft to fly off course. In this paper, we present the details of our ageing methodology along with details of experiments and analysis of the results.

How to Cite

Kulkarni, . C. ., Biswas , G. ., Koutsoukos , X. ., Celaya, J. ., & Goebel, K. . (2010). Experimental Studies of Ageing in Electrolytic Capacitors. Annual Conference of the PHM Society, 2(1). https://doi.org/10.36001/phmconf.2010.v2i1.1727
Abstract 639 | PDF Downloads 649

##plugins.themes.bootstrap3.article.details##

Keywords

electronics PHM, Electrolytic Capacitors, Ageing Methods, Avionics Systems

References
Bengt, A. (1995). Electrolytic Capacitors Theory and Applications [Computer software manual]. Swe- den.
Brettle, J., & Jackson, N. F. (1977). Failure Mechanisms in Solid Electrolytic Capacitors. Electrocomponent Science and Technology, 3, 233- 246.
Chen. (2004). Ripple Current Confusion [Computer software manual].
Chen. (2005, Oct). Electrolytic Capacitor Failure Prediction of LC filter for Switching-Mode Power Converters. Industry Applications Conference, 2005. Fortieth IAS Annual Meeting, 2(2), 1464 - 1469.
Eliasson, L. (2007, October - November). Alu- minium Electrolytic Capacitor’s performance in Very High Ripple Current and Temperature Applications. CARTS Europe 2007 Symposium, Spain.
Fife, J. (2006, Aug). Wet Electrolytic Capacitors (Patent No: 7,099 No. 1). Myrtle Beach, SC: AVX Corporation.
Gasperi, M. L. (1996, October). Life Prediction Model for Aluminum Electrolytic Capacitors. 31st Annual Meeting of the IEEE-IAS, 4(1), 1347-1351.
Hayatee, F. G. (1975). Heat Dissipation and Ripple Current rating in Electrolytic Capacitors. Electrocomponent Science and Technology, 2, 109-114.
Imam, A., Habetler, T., Harley, R., & Divan, D. (2005, June). Condition Monitoring of Electrolytic Capacitor in Power Electronic Circuits using Adaptive Filter Modeling. IEEE 36th Power Electronics Specialists Conference, 2005. PESC ’05., 601- 607.
Jones, J. A., & Hayes, J. A. (1987). The parametric drift behavior of aluminum electrolytic capacitors: An evaluation of four models. 1st European Capacitor and Resistor Technology Proc, Brighton, U.K, 171-179.
Kulkarni, C., Biswas, G., Bharadwaj, R., & Kim, K. (2010, April). Effects of Degradation in DC-DC Converters on Avionics Systems: A Model Based Approach. Machinery Failure Prevention Technology Conference, MFPT 2010, 8-13.
Kulkarni, C., Biswas, G., & Koutsoukos, X. (2009, Oc- tober). A prognosis case study for electrolytic capacitor degradation in DC-DC converters. PHM Conference 2009.
Kulkarni, C., Biswas, G., Koutsoukos, X., Goebel, K., & Celaya, J. (2010, February). Physics of Failure Models for Capacitor Degradation in DC-DC Converters. The Maintenance and Reliability Conference, MARCON 2010.
Lahyani, A., Venet, P., Grellet, G., & Viverge, P. (1998, Nov). Failure prediction of electrolytic capacitors during operation of a switchmode power supply. IEEE Transactions on Power Electronics, 13, 1199-1207.
Luo, J., Namburu, M., Pattipati, K., & et’al. (2003, Sep). Model-based Prognostic Techniques. AUTOTEST- CON 2003. IEEE Systems Readiness Technology Conference. Proceedings, 330- 340.
Rhoades, G. E., & Smith, A. W. H. (1984). Expected life of capacitors with nonsolid electrolyte. 34th Component Conf. Proc, 156-161.
Venet, P., Darnand, H., & Grellet, G. (1993). Detection of faults of filter capacitors in a converter. Application to predictive maintenance. INTELEC Proc, 2, 229-234.
Vorperian., V. (1990, May). Simplified analysis of pwm converters using model of pwm switch.continuous conduction mode. IEEE Transactions on Aerospace and Electronic Systems, 490496.
Section
Poster Presentations

Most read articles by the same author(s)

1 2 3 4 5 6 7 > >>