Analysis and design of a single switch per phase converter for switched reluctance motor drives

R. Krishnan, Shiyoung Lee

Research output: Contribution to journalConference article

6 Citations (Scopus)

Abstract

One of the unique features of the switched reluctance motor (hereafter referred to as SRM) is that it requires only unipolar current for its four quadrant operation thus simplifying the converter topologies. This paper considers the analysis and design of one such converter with minimum switches which is known as C-dump converter for use in non-bifilar wound SRM drive. The analysis of this topology includes the evaluation of the switching losses of the power switching devices and diodes, their current and voltage stresses, relationship between the energy storage capacitor, inductor and the duty cycle of the energy recovery circuit and the efficiency of the overall system for a given switching frequency. From the analysis, design procedure for the converter circuit is developed. The theoretical analysis and design procedure both validated with experimental results obtained from a laboratory prototype are presented in this paper.

Original languageEnglish (US)
Pages (from-to)485-492
Number of pages8
JournalPESC Record - IEEE Annual Power Electronics Specialists Conference
Volume1
StatePublished - Dec 1 1994
EventProceedings of the 1994 25th Annual IEEE Power Electronics Specialists Conference. Part 2 (of 2) - Taipei, Taiwan
Duration: Jun 20 1994Jun 24 1994

Fingerprint

Switched Reluctance Motor
reluctance
Reluctance motors
Converter
converters
Switch
switches
Switches
Topology
topology
Networks (circuits)
Switching frequency
Energy storage
design analysis
Energy Storage
Quadrant
quadrants
Diodes
Capacitors
inductors

All Science Journal Classification (ASJC) codes

  • Modeling and Simulation
  • Condensed Matter Physics
  • Energy Engineering and Power Technology
  • Electrical and Electronic Engineering

Cite this

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abstract = "One of the unique features of the switched reluctance motor (hereafter referred to as SRM) is that it requires only unipolar current for its four quadrant operation thus simplifying the converter topologies. This paper considers the analysis and design of one such converter with minimum switches which is known as C-dump converter for use in non-bifilar wound SRM drive. The analysis of this topology includes the evaluation of the switching losses of the power switching devices and diodes, their current and voltage stresses, relationship between the energy storage capacitor, inductor and the duty cycle of the energy recovery circuit and the efficiency of the overall system for a given switching frequency. From the analysis, design procedure for the converter circuit is developed. The theoretical analysis and design procedure both validated with experimental results obtained from a laboratory prototype are presented in this paper.",
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AU - Lee, Shiyoung

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N2 - One of the unique features of the switched reluctance motor (hereafter referred to as SRM) is that it requires only unipolar current for its four quadrant operation thus simplifying the converter topologies. This paper considers the analysis and design of one such converter with minimum switches which is known as C-dump converter for use in non-bifilar wound SRM drive. The analysis of this topology includes the evaluation of the switching losses of the power switching devices and diodes, their current and voltage stresses, relationship between the energy storage capacitor, inductor and the duty cycle of the energy recovery circuit and the efficiency of the overall system for a given switching frequency. From the analysis, design procedure for the converter circuit is developed. The theoretical analysis and design procedure both validated with experimental results obtained from a laboratory prototype are presented in this paper.

AB - One of the unique features of the switched reluctance motor (hereafter referred to as SRM) is that it requires only unipolar current for its four quadrant operation thus simplifying the converter topologies. This paper considers the analysis and design of one such converter with minimum switches which is known as C-dump converter for use in non-bifilar wound SRM drive. The analysis of this topology includes the evaluation of the switching losses of the power switching devices and diodes, their current and voltage stresses, relationship between the energy storage capacitor, inductor and the duty cycle of the energy recovery circuit and the efficiency of the overall system for a given switching frequency. From the analysis, design procedure for the converter circuit is developed. The theoretical analysis and design procedure both validated with experimental results obtained from a laboratory prototype are presented in this paper.

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