Performance analysis of PV fed multistage converter with SMC controlled VSI

2016 IEEE Uttar Pradesh Section International Conference on Electrical, Computer and Electronics Engineering (UPCON) Pub Date : 1900-01-01 DOI:10.1109/UPCON.2016.7894700

Shruti Pandey, B. Dwivedi, A. Tripathi

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Abstract

The trend of growing penetration of renewable energy resources in power systems has become pertinent in wake of fast depleting fuel and rising carbon emission. It has, therefore, become relevant to study the dynamics of their integration with the available technologies. Of all renewable resources, Photovoltaic generation is the most prevalent resource in India. Keeping this in mind, a multistage cascaded converter system is developed in this paper. The proposed technique comprises of a PV (Photo voltaic) fed MPPT (Maximum Power Point Tracking) controlled boost converter in cascade with a sliding mode controlled inverter. The paper aims at extracting maximum power from a PV source and converting it to a good quality ac power. The effect of variable output of PV generation due to varying solar irradiation has also been taken into consideration to establish the effectiveness of MPPT controlled boost converter. The performance of the sliding mode controlled voltage source inverter, when compared with a PI controlled voltage source inverter, is found to be superior in terms of the quality of the ac power.

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基于SMC控制VSI的PV供电多级变流器性能分析

随着燃料的快速消耗和碳排放的增加，可再生能源在电力系统中的渗透趋势日益明显。因此，研究它们与现有技术集成的动态变得相关。在所有可再生资源中，光伏发电是印度最普遍的资源。考虑到这一点，本文开发了多级级联变流器系统。所提出的技术包括一个PV(光伏)馈电的MPPT(最大功率点跟踪)控制的串级升压变换器和一个滑模控制的逆变器。本文旨在从光伏电源中提取最大功率并将其转换为高质量的交流电源。为了确定MPPT控制升压变换器的有效性，还考虑了太阳能辐照度变化对光伏发电输出的影响。与PI控制电压源逆变器相比，滑模控制电压源逆变器的性能在交流电源质量方面更胜一筹。

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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来源期刊

2016 IEEE Uttar Pradesh Section International Conference on Electrical, Computer and Electronics Engineering (UPCON)

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