Controller design for a Single-Stage Single-Phase Grid-Connected Solar PV Microgrid

2023 Second International Conference on Electrical, Electronics, Information and Communication Technologies (ICEEICT) Pub Date : 2023-04-05 DOI:10.1109/ICEEICT56924.2023.10157251

R. Meenakshi, K. Selvi

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Abstract

The Solar PV based Microgrid is increasing in the small-scale power generation, with the rapid increase in tapping the potential of renewables in power generation. The grid-connected operation of such small-scale grid requires a proper control design operation for effective power injection into the grid line at rated voltage and frequency. This work studies the design of an Integral Terminal Sliding Mode Control (ITSMC) for the controlled switching of the Voltage Source Inverter (VSI), to regulate active power flow into the infinite bus. A 2kW Solar PV system coupled to a 1ϕ 230 V, 50 Hz grid is designed in MATLAB/SIMULINK platform to evaluate the controller performance. The controller response is seen to be robust and also the efficiency of power extraction from the PV source into the grid is achieved around 97% for varying irradiances. For oscillatory response during high temperatures, the controller proves to provide rapid switching signals tracking the deviations appropriately.

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单级单相并网太阳能光伏微电网控制器设计

以太阳能光伏为基础的微电网在小规模发电方面不断增加，可再生能源在发电方面的潜力开发迅速增加。此类小型电网并网运行需要合理的控制设计运行，才能在额定电压和频率下有效地向电网线路注入电力。本文研究了一种集成终端滑模控制(ITSMC)的设计，用于电压源逆变器(VSI)的控制开关，以调节进入无限母线的有功功率。在MATLAB/SIMULINK平台上设计了2kW太阳能光伏系统与1φ 230v, 50hz电网的耦合，以评估控制器的性能。控制器响应被认为是鲁棒的，并且在不同辐照度下，从光伏电源到电网的电力提取效率达到了97%左右。对于高温下的振荡响应，控制器可以提供快速的开关信号，适当地跟踪偏差。

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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2023 Second International Conference on Electrical, Electronics, Information and Communication Technologies (ICEEICT)

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