通用转换器的设计和实现

IF 2.1 Q3 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE IEEE Canadian Journal of Electrical and Computer Engineering Pub Date : 2022-06-08 DOI:10.1109/ICJECE.2022.3166240
K. Suresh;Parimalasundar E.
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引用次数: 7

摘要

描述了一种新设计的通用转换器,用于包括升压和降压操作的所有形式的功率转换。通用操作包括整流器、逆变器、直流-直流转换器以及多输入和多输出电路中的交流电压控制操作。该电路由电源开关组成,如六个晶体管、四个晶闸管和两个二极管,以及两个电感器和两个电容器。电感器的作用对于从电源到所需输出的升压和降压电压电平很重要。在现有的转换器中,在所提出的转换器中开关的数量从26个减少到12个,以获得有效的操作。该电路最初是在MATLAB/Simulink平台上使用数学模型开发的,最后在硬件测试台模型中测试了其可行性和有效性。该转换器强烈推荐用于风能-太阳能自充电混合动力汽车。
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Design and Implementation of Universal Converter Conception et implémentation d’un convertisseur universel
A newly designed universal converter is depicted for all forms of power conversions that include step-up and step-down operations. Universal operations include a rectifier, an inverter, a dc–dc converter, and ac voltage control operations in multi-input and multi-output circuits. The circuit consists of power switches such as six transistors, four thyristors, and two diodes, along with two inductors and two capacitors. The inductor role is important for step-up and step-down voltage levels from the source to the required output. In the existing converter, the number of switches is reduced from 26 to 12 in the proposed converter to obtain efficient operations. The circuit is initially developed in a MATLAB/Simulink platform by using a mathematical model and, finally, feasibility and effectiveness have been tested in the hardware test bench model. This converter is highly recommended for wind-solar-powered self-charging hybrid electric vehicles.
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