Investigation of Reliability of DC–DC Converters Using Reliability Block Diagram and Markov Chain Analysis
M Sujatha, AK Parvathy - Reliability, Safety and Hazard Assessment for …, 2020 - Springer
Reliability, Safety and Hazard Assessment for Risk-Based Technologies …, 2020•Springer
In this paper, the reliability of DC–DC Luo converter is analyzed for its failure rate by
considering the quality of the components and the internal parameter variation, as power
electronics components are always prone to failure. Methods of improving the reliability of
converter are discussed. By using redundancy technique, reliability is improved and it is
proved mathematically. The results can be applied to basic as well as improved converters.
The results are verified using reliability block diagram approach and markov analysis by …
considering the quality of the components and the internal parameter variation, as power
electronics components are always prone to failure. Methods of improving the reliability of
converter are discussed. By using redundancy technique, reliability is improved and it is
proved mathematically. The results can be applied to basic as well as improved converters.
The results are verified using reliability block diagram approach and markov analysis by …
Abstract
In this paper, the reliability of DC–DC Luo converter is analyzed for its failure rate by considering the quality of the components and the internal parameter variation, as power electronics components are always prone to failure. Methods of improving the reliability of converter are discussed. By using redundancy technique, reliability is improved and it is proved mathematically. The results can be applied to basic as well as improved converters. The results are verified using reliability block diagram approach and markov analysis by using SHARPE tool.
Springer
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