By Henry Shu-hung Chung, Frede Blaabjerg, Huai Wang, Michael Pecht
The most goals of energy digital converter structures (PECs) are to manage, convert, and situation electrical energy move, from one shape to a different, by using solid-state electronics. This publication outlines R&D into the medical modelling, experimentation and remedial measures for advancing the reliability, availability, method robustness, and maintainability of PECs at diverse degrees of complexity.
Drawing at the adventure of a world group of specialists, this ebook covers an creation to reliability engineering and the reliability of PECs; lifetime analysis; and robustness validation. It additionally covers functions together with low- and high-power motor drives, wind turbine structures, photovoltaic structures, uninterruptible strength offer structures, strength harvesting, energy offers for desktops, high-power converters, and automobile applications.
Reliability of energy digital Converter Systems might be of specific curiosity to pros in strength electronics, and the appliance sectors, and practising engineers focusing on the improvement and alertness to strength digital converters and platforms
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The most goals of strength digital converter platforms (PECs) are to manage, convert, and situation electricity circulate, from one shape to a different, by using solid-state electronics. This ebook outlines R&D into the clinical modelling, experimentation and remedial measures for advancing the reliability, availability, process robustness, and maintainability of PECs at varied degrees of complexity.
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Extra info for Reliability of power electronic converter systems
10) where Naw is the number of cycles to failure, and a is the total possible crack length. The benefit of an energy-based fatigue model, as compared to the strain-based or creep-based fatigue models, is the ability to capture test conditions with more accuracy. The limitation of energy-based fatigue models is their inability to predict the actual number of cycles to failure . 3 Thermal cycling models Among the many environmental accelerated testing methodologies for assessing the reliability of electronic systems, thermal cycling is the most commonly used one for the characterization of devices as well as interconnections.
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D. Dominguez-Garcia, ‘‘A framework for reliability and performance assessment of wind energy conversion systems,’’ IEEE Transactions on Power Systems, vol. 26, no. 4, pp. 2235–2245, Nov. 2011. K. Fischer, F. Besnard, and L. Bertling, ‘‘Reliability-centered maintenance for wind turbines based on statistical analysis and practical experience,’’ IEEE Transactions on Energy Conversion, vol. 27, no. 1, pp. 184–195, Mar. 2012. S. Harb and R. S. Balog, ‘‘Reliability of candidate photovoltaic moduleintegrated-inverter (PV-MII) topologies – a usage model approach,’’ IEEE Transactions on Power Electronics, vol.
Reliability of power electronic converter systems by Henry Shu-hung Chung, Frede Blaabjerg, Huai Wang, Michael Pecht