Novel Three-Phase Current-Regulated Digital PWM and its Behavioral Analysis

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  • Ohshima Masaaki
    R&D Center, Tokyo Electric Power Co., Inc.
  • Masada Eisuke
    Dept. of Electrical Engineering, Faculty of Science & Technology, Science University of Tokyo

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  • 三相ディジタル電流制御PWMとその動作解析
  • 3ソウ ディジタル デンリュウ セイギョ PWM ト ソノ ドウサ カイセキ

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Abstract

With respect to PWM algorithm for a three-phase voltage-source ac/dc power converter various studies have been executed and their results have been published since the analog modulation scheme based on triangular carrier wave was proposed in 1960's. PWM algorithm can be considered the heart of the electronic power conversion.<BR>Along with progress and evolution of digital technology gate signals are increasingly requested to be generated directly by digital IC, e.g. MPU, DSP or FPGA/CPLD. The paper analyzes quantitatively the precision of the current controllability of digital PWM taking into account of both the sampling period and the delay time the latter of which is inevitably accompanied by digital procedure. The delay time is pointed out to affect the current error double. In addition the paper derives theoretically the condition for digital PWM to accomplish PPCR (Pulse Polarity Consistency Rule, i.e. the next gate command moves only to the adjacent ones). In so far as the authors know no paper offers the mathematical requirements to execute PPCR taking account of the effect by the delay time with digital PWM. <BR>The derived theoretical results are summarized as the digital PWM design criteria for a three-phase PWM converter in order to facilitate practical implementation of the theory, which guarantee the PPCR behavior as well as the quantitative preciseness of the current regulation.

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