Simulation method for DSP-controlled active PFC high-frequency power converters

S. Mobin; E. Hiraki; H. Takano; M. Nakaoka

doi:10.1049/ip-epa:20000375

Simulation method for DSP-controlled active PFC high-frequency power converters

S. Mobin, E. Hiraki, H. Takano, M. Nakaoka

Research output: Contribution to journal › Article › peer-review

16 Citations (Scopus)

Abstract

A generic simulation approach for digital-signal-processor (DSP) controlled power converter systems is described. Software program statements for simulating a feedback control scheme could also be incorporated in the software code of a DSP-controlled power conversion system. The power electronic circuit simulation technique is based on the substitution of switch-modulated resistors in place of all the active and/or passive power switches; one state equation described by state variables, i.e. inductor currents and capacitor voltages, and the solution of the state equation is computed by an appropriate numerical method. The simulation approach is explained by a practical application example of the DSP-controlled active-switch three-phase power-factor-correction (PFC) converter system.

Original language	English
Pages (from-to)	159-166
Number of pages	8
Journal	IEE Proceedings: Electric Power Applications
Volume	147
Issue number	3
DOIs	https://doi.org/10.1049/ip-epa:20000375
Publication status	Published - Dec 3 2000
Externally published	Yes

ASJC Scopus subject areas

Electrical and Electronic Engineering

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abstract = "A generic simulation approach for digital-signal-processor (DSP) controlled power converter systems is described. Software program statements for simulating a feedback control scheme could also be incorporated in the software code of a DSP-controlled power conversion system. The power electronic circuit simulation technique is based on the substitution of switch-modulated resistors in place of all the active and/or passive power switches; one state equation described by state variables, i.e. inductor currents and capacitor voltages, and the solution of the state equation is computed by an appropriate numerical method. The simulation approach is explained by a practical application example of the DSP-controlled active-switch three-phase power-factor-correction (PFC) converter system.",

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AU - Mobin, S.

AU - Hiraki, E.

AU - Takano, H.

AU - Nakaoka, M.

PY - 2000/12/3

Y1 - 2000/12/3

N2 - A generic simulation approach for digital-signal-processor (DSP) controlled power converter systems is described. Software program statements for simulating a feedback control scheme could also be incorporated in the software code of a DSP-controlled power conversion system. The power electronic circuit simulation technique is based on the substitution of switch-modulated resistors in place of all the active and/or passive power switches; one state equation described by state variables, i.e. inductor currents and capacitor voltages, and the solution of the state equation is computed by an appropriate numerical method. The simulation approach is explained by a practical application example of the DSP-controlled active-switch three-phase power-factor-correction (PFC) converter system.

AB - A generic simulation approach for digital-signal-processor (DSP) controlled power converter systems is described. Software program statements for simulating a feedback control scheme could also be incorporated in the software code of a DSP-controlled power conversion system. The power electronic circuit simulation technique is based on the substitution of switch-modulated resistors in place of all the active and/or passive power switches; one state equation described by state variables, i.e. inductor currents and capacitor voltages, and the solution of the state equation is computed by an appropriate numerical method. The simulation approach is explained by a practical application example of the DSP-controlled active-switch three-phase power-factor-correction (PFC) converter system.

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Simulation method for DSP-controlled active PFC high-frequency power converters

Abstract

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