PWM Controlled Bidirectional Converter having Load-Independent Voltage-Gain

Journal of Engineering Research and Sciences Pub Date : 2022-05-01 DOI:10.55708/js0105004

M. Riaz, U. Saeed, S. Waseem, S. Riaz, Eman Manzoor Ahmed

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Abstract

: The power balancing is the issue that creates when voltage fluctuations occur in the DC microgrid. In order to compensate for the DC bus voltages in the DC microgrid, the energy storage system is used. This system absorbs or releases the power to make the DC bus voltages is stable. In this research, a bidirectional series resonant (BSR) converter is proposed which operates at the fixed frequency for the energy storage system. A simple PWM control technique is used for the power flow regulation in the system. The gain voltage of the BSR converter depends only on the duty cycle of the applied voltage and does not change the direction and amplitude of the power flow. Theoretically, after the calculations, the gain voltage of the BSR converter changed from minimum (zero) to maximum (unlimited) which means the designed converter is a buck-boost converter as well. This property of the BSR converter will help the researcher to use a wide range of voltage applications. The operations mode i.e. forward and backward modes, and the direction of the power flow can be changed smoothly by Pulse Width Modulation control. Zero voltage switching for all the voltage ranges of the active switches is also achieved in this research.

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具有负载无关电压增益的PWM控制双向变换器

功率平衡是在直流微电网电压波动时产生的问题。为了补偿直流微电网中的直流母线电压，采用了储能系统。该系统吸收或释放电源，使直流母线电压稳定。本研究提出了一种工作在固定频率下的双向串联谐振(BSR)变换器，用于储能系统。采用简单的PWM控制技术对系统进行功率流调节。BSR变换器的增益电压仅取决于外加电压的占空比，而不改变潮流的方向和幅度。从理论上讲，经过计算，BSR变换器的增益电压从最小值(零)变化到最大值(无限)，这意味着设计的变换器也是一个降压变换器。BSR变换器的这一特性将有助于研究人员使用广泛的电压应用。通过脉冲宽度调制控制，可以实现正向和反向两种工作方式，以及潮流方向的平滑改变。本研究还实现了有源开关所有电压范围的零电压切换。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Engineering Research and Sciences

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