Optimizing charging battery efficiency in partially shaded PV systems with enhanced particle swarm optimization using dual-core DSP microcontroller in EV applications. [PDF]
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An innovative fuzzy model control strategy for Trans-Z-Source DC-DC boost converters in satellite power systems. [PDF]
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Artificial neural network based hierarchical intelligent control framework for a residential microgrid. [PDF]
Sci RepBahabri MO, Ramdas SK, Banawi HA.
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Selective Notch Frequency Technology for EMI Noise Reduction in DC-DC Converters: A Review. [PDF]
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Hybrid quasi Z source multi output converter system with performance control and real time validation for photovoltaic microgrid. [PDF]
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Pre-sizing of DC-DC Buck converter for the automotive domain
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A Novel Buck–Boost Converter Combining KY and Buck Converters
IEEE Transactions on Power Electronics, 2012In this letter, a buck-boost converter, i.e., 2D converter with a positive output voltage, is presented, which combines the KY converter and the traditional synchronously rectified (SR) buck converter. By doing so, the problem in voltage bucking of the KY converter can be solved, thereby increasing the application capability of the KY converter.
K. I. Hwu, T. J. Peng
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A novel voltage-bucking/boosting converter: KY buck-boost converter
2008 IEEE International Conference on Industrial Technology, 2008In this paper, a novel voltage-bucking/boosting converter, named as KY buck-boost converter (i.e. 2D converter) is presented herein. Unlike the traditional buck-boost converter, this converter possesses fast transient responses, similar to the behavior of the buck converter with synchronous rectification.
K. I. Hwu, Y. T. Yau
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A new drooping gain buck converter is proposed in this paper. In view of the drooping gain characteristic, this converter gives more bucking with the increase in the duty ratio. This feature is exactly reverse to the traditional buck converter. Furthermore, the proposed converter step-down ratio varies in between zero and 0.5.
Mummadi Veerachary +1 more
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