带滑模控制和最大功率点跟踪的再升压变换器直流微电网系统

2023 2nd International Conference on Smart Technologies and Systems for Next Generation Computing (ICSTSN) Pub Date : 2023-04-21 DOI:10.1109/ICSTSN57873.2023.10151508

B. Balaji, S. Ganesan, P. Pugazhendiran, R. Madhan

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引用次数: 0

摘要

针对直流微电网的能量管理问题，提出了一种新的控制策略，为快速波动太阳辐射下的太阳能光伏系统提供快速作用最大功率点跟踪(MPPT)技术。该系统由太阳能、风能和备用电池组成。再升压变换器用于转换产生的能量。传统系统的直流链路组件被一个再升压转换器所取代。升压变换器是一种提高或增强输出电压的DC-DC变换器。建议的转换器的效率主要是在开关应力保持在最小的情况下实现的，因为它有一个功率MOSFET开关。再升压转换器提供一致的输入电流，同时降低电压应力。输出纹波电压和总谐波失真系数都保持在最小。直流微电网接收转换后的能量以满足需求。该系统设置了闭环，以确保高效运行。控制器是闭环装置的一个组成部分。一种传统的控制器，PI控制器和一种创新的控制器，滑模控制器，都在本研究中使用。在对控制器的结果进行比较后，将找到建议系统的最有效控制器。

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Re-boost Converter enabled DC Microgrid System with Sliding Mode Control and Maximum Power Point Tracking

In this work, a novel control strategy is proposed to provide a ‘‘rapid acting Maximum Power Point Tracking (MPPT) Technique for solar photovoltaic system amid rapidly fluctuating solar radiation’’ with energy management for DC Microgrid. This system comprises of the solar, wind power sources and a battery backup. Re-boost converter is used to transform the energy produced. The DC link component of the conventional system is replaced by a re-boost converter. A boost converter is a DC-DC converter that raises or enhances output voltage. The suggested converter’s efficiency is principally attained while switching stress is kept to a minimum since it has a power MOSFET switch. The Re-boost converter provides a consistent input current while reducing voltage stress. Both the output ripple voltage and total harmonic distortion factor are kept to a minimum. The DC Microgrid receives the converted energy to meet demand. The system has been set up with a closed loop to ensure efficient operation. The controller is a component of the closed loop setup. One traditional controller, the PI controller, and one innovative controller, the Sliding Mode controller, are both used in this study. The most efficient controller for the suggested system will be found after the results of the controllers were compared.

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来源期刊

2023 2nd International Conference on Smart Technologies and Systems for Next Generation Computing (ICSTSN)

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