Abstract
The functioning of fault-tolerant boosted conversions in both good and bad circumstances is covered in this work. The majority of our power plants and automotive applications make extensive use of surge conversions. Every component in a converter is accountable for causing one of the many problem kinds that affect the converter. In order to construct a tolerant of faults DC-DC converter, the reaction of the single switch DC-DC converter under various potential failures was examined. Utilizing a MATLAB Simulink approach, the response of each device across both typical and various potential fault scenarios was derived. The booster converter can also undergo additional heat research to determine how the converters react at various temps.
Publisher
Sumerian Scriptum Synthesis Publisher
Reference15 articles.
1. Nie, S., et al., Fault diagnosis of PWM DC–DC converters based on magnetic component voltages equation. IEEE transactions on power electronics, 2013. 29(9): p. 4978-4988
2. Kadhim, A.A., A.M. AL-Jumaili, and K. Hussain, Converter for Voltage Source HVDC Links: Current Status and Future Challenges. Edison Journal for electrical and electronics engineering, 2023. 1: p. 17-23
3. Lu, B. and S.K. Sharma, A literature review of IGBT fault diagnostic and protection methods for power inverters. IEEE Transactions on industry applications, 2009. 45(5): p. 1770-1777
4. Khalid, O.W. and N.A. Hasan, Contrasting Energy Storage Systems for Small-Scale Isolated Grids. Edison Journal for electrical and electronics engineering, 2024. 2: p. 6-11
5. Pei, X., S. Nie, and Y. Kang, Switch short-circuit fault diagnosis and remedial strategy for full-bridge DC–DC converters. IEEE transactions on power electronics, 2014. 30(2): p. 996-1004
Cited by
2 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献