Lifetime estimation for optocouplers using accelerated degradation test

Abstract: Instrumentation and control systems significantly affect the safety and reliability of nuclear power plants. In this study, we analyze the cause of failure of the electronic card constituting the instrumentation and control system as it is the most typical reason for the failure of optocouplers. The lifetime of optocouplers must be predicted accurately to ensure high-reliability nuclear power plants. While acceleration tests have been performed to predict the lifetime of optocouplers more efficiently, it is pr… Show more

“…Through the modeling for buck converter, the oscillation frequency is related to the root of CTR and the number of oscillations, which is utilized to indirectly calculate the CTR of the optocoupler [16]. Accelerated degradation tests are performed on optocouplers at different temperatures and voltages to obtain the degradation curve model by applying the Arrhenius model and Weibull distribution [17].…”

An online comprehensive health monitoring system for automotive auxiliary converter

“…Through the modeling for buck converter, the oscillation frequency is related to the root of CTR and the number of oscillations, which is utilized to indirectly calculate the CTR of the optocoupler [16]. Accelerated degradation tests are performed on optocouplers at different temperatures and voltages to obtain the degradation curve model by applying the Arrhenius model and Weibull distribution [17].…”

An online comprehensive health monitoring system for automotive auxiliary converter

Lifespan Prediction of Electronic Card in Nuclear Power Plant Based on Few Samples

Reliability analysis of degrading systems based on time-varying copula