IDB Convertor – An international maximum power extractor for PV-supplied DC motor system

Systems Analysis Modelling Simulation Pub Date : 2003-12-01 DOI:10.1080/0278107031000152625

M. Veerachary, T. Senjyu, K. Uezato

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Abstract

The Photovoltaic (PV) generator exhibits a non-linear v–i characteristics and its maximum power point varies with insolation. For optimum matching of PV generator and motor load, an intermediate Interleaved Dual Boost converter is employed. Its effectiveness as an intermediate maximum power extractor for PV-supplied and separately excited DC motor is studied through simulation. Extensive studies are made by formulating the mathematical models for PV source, Boost/Interleaved Dual Boost converter, DC motor and load. For determination of maximum power points at different solar insolations, a closed form solution technique is employed, which avoids tedious and time-consuming iterative methods. The Boost/IDB converter duty ratio variation with insolation is determined and steady-state performance of the motor coupled to centrifugal pump load is analyzed for maximum power operation. From the simulation studies it is found that the motor performance is improved with IDB converter compared to conventional boost converter. Furthermore, the use of IDB converter reduces the ripple content both in the source and load waveforms, thus resulting in reduced filtering requirements and improved PV array performance.

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IDB转换器-国际最大功率提取器，用于pv供电的直流电机系统

光伏(PV)发电机表现出非线性的v-i特性，其最大功率点随日照变化。为了优化光伏发电机组与电机负载的匹配，采用了中间交错双升压变换器。通过仿真研究了该滤波器作为直流电机中最大功率提取器的有效性。通过建立PV电源、Boost/ interleavedual Boost变换器、直流电机和负载的数学模型，进行了广泛的研究。对于不同太阳辐照量下的最大功率点的确定，采用封闭形式求解技术，避免了繁琐和耗时的迭代方法。确定了Boost/IDB变换器占空比随日照的变化，并分析了电机在最大功率运行时耦合离心泵负载的稳态性能。仿真研究表明，与传统升压变换器相比，采用IDB变换器可以提高电机的性能。此外，IDB转换器的使用减少了源和负载波形中的纹波含量，从而降低了滤波要求，提高了光伏阵列的性能。

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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Systems Analysis Modelling Simulation

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