An efficient FPGA-based implementation of predictive current control algorithms for an indirect matrix converter

Chen Qi, P. Tu, Donghan Shi, Peng Wang, M. Zagrodnik, G. Amit
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引用次数: 1

Abstract

To provide higher speed and more flexibility, this paper presents a new implementation method of predictive current control (PCC) algorithms for an indirect matrix converter (IMC) using a digital signal processor (DSP) and a field programmable gate array (FPGA). In this method, the SPARTAN-3E FPGA is used as a master controller to execute the PCC and commutation algorithms and the TMS320F28335 DSP is used as a slave controller to sample voltages and currents and then transmit all sampling results and synchronization signals to the FPGA. A programming structure consisting of a top module and several reusable sub-modules is designed in FPGA delivering reduced development time and better time/area efficiency. Experimental results from an IMC prototype confirmed the practical feasibility of proposed implementation method.
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基于fpga的间接矩阵变换器预测电流控制算法的高效实现
为了提供更高的速度和更大的灵活性,本文提出了一种基于数字信号处理器(DSP)和现场可编程门阵列(FPGA)的间接矩阵变换器(IMC)预测电流控制(PCC)算法的新实现方法。该方法采用SPARTAN-3E FPGA作为主控制器执行PCC和换相算法,TMS320F28335 DSP作为从控制器对电压和电流进行采样,然后将所有采样结果和同步信号传输到FPGA。在FPGA中设计了一种由顶层模块和多个可重用子模块组成的编程结构,缩短了开发时间,提高了时间/面积效率。IMC样机的实验结果证实了所提出的实现方法的实际可行性。
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