Cox-Proportional Hazards Modeling in Reliability Analysis—A Study of Electromagnetic Relays Data

Ambient temperature is an important factor influencing the reliability of electromagnetic relays. The effect of different environmental temperatures on relay lifetime can be examined through the Cox-proportional hazards model (PHM). In this paper, relay life tests were carried out at -20 °C, 20 °C, and 55 °C. Relay lifetime data were collected at various temperature conditions and were integrated to establish a Weibull PHM of electromagnetic relays. A comparative analysis of the experimental data indicates that an ambient temperature has a significant influence on contact resistance. The characteristic life, the mean life, and the probability density function of failure under temperature conditions not tested in the conducted experiment were estimated through the implementation of Cox PHM. Both the characteristic life and mean life decrease significantly with increasing ambient temperature. The perspectives and the methodology of the implementation of the Weibull PHM presented in this paper are generic and could be adopted for other systems/products directly.

[1]  T. Tamai Effect of silicone vapour and humidity on contact reliability of micro relay contacts , 1995 .

[2]  Terutaka Tamai,et al.  Effect of Humidity on Growth of Oxide Film on Surface of Copper Contacts , 2007, IEICE Trans. Electron..

[3]  Fang Yao,et al.  Influence of the ambient air temperature on the electrical contact reliability of electromagnetic relay , 2007 .

[4]  D. W. Wightman,et al.  The practical application of proportional hazards modelling , 1986 .

[5]  J. McPherson Reliability Physics and Engineering , 2010 .

[6]  W. Fontana Elecromagnetic Relay Reliability Predictions by Designed Life Experiments and Weibull Analysis , 1965 .

[7]  Chengke Zhou,et al.  Analysis of Significant Factors on Cable Failure Using the Cox Proportional Hazard Model , 2014, IEEE Transactions on Power Delivery.

[8]  M-Y You,et al.  Proportional hazards model for reliability analysis of solder joints under various drop-impact and vibration conditions , 2012 .

[9]  Yongqiu Liu Research on the Electromagnetic Relay Selection and Reliability , 2015 .

[10]  Floyd W. Spencer,et al.  Statistical methods in accelerated life testing , 1988 .

[11]  E. Takano,et al.  Theoretical Lifetime of Static Contacts , 1967 .

[12]  D.,et al.  Regression Models and Life-Tables , 2022 .

[13]  Dilip Roy,et al.  Estimation of reliability of mobile handsets using Cox-proportional hazard model , 2013, Microelectron. Reliab..

[14]  Inger Persson,et al.  Essays on the Assumption of Proportional Hazards in Cox Regression , 2002 .

[15]  Li Chunxia,et al.  Study on the reliability test and failure analysis of automotive relays at high temperature , 2012 .

[16]  Zhang Yongbo Method of reliability analysis for time truncated zero-failure data based on Weibull distribution , 2010 .

[17]  G. Witter,et al.  Contact erosion and material transfer for contacts in automotive relays , 1996, Electrical Contacts - 1996. Proceedings of the Forty-Second IEEE Holm Conference on Electrical Contacts. Joint with the 18th International Conference on Electrical Contacts.

[18]  Li Wenjun,et al.  Study on the reliability test of automotive relays under temperature cycling condition , 2012 .