Improvement of Matrix Converter Drive Reliability by Online Fault Detection and a Fault-Tolerant Switching Strategy.

Khiem Nguyen-Duy, Tian-Hua Liu, Der-Fa Chen

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Abstract

The matrix converter system is becoming a very promising candidate to replace the conventional two-stage ac/dc/ac converter, but system reliability remains an open issue. The most common reliability problem is that a bidirectional switch has an open-switch fault during operation. In this paper, a matrix converter driving a speed-controlled permanent-magnet synchronous motor is examined under a single open-switch fault. First, a new fault-detection method is proposed using only the motor currents. Second, a novel fault-tolerant switching strategy is presented. By treating the matrix converter as a two-stage rectifier/inverter, existing modulation techniques for the inverter stage can be reused, whereas the rectifier stage is modified by control to counteract the fault. However, the proposed techniques require no additional hardware devices or circuit modifications to the matrix converter. Experimental results show that the proposed method can maintain the motor speed with a maximum ripple of 2%—a fivefold improvement over the uncompensated system. The proposed method therefore offers a very economical and effective solution for the matrix converter fault tolerance problem.
Original languageEnglish
JournalIEEE Transactions on Industrial Electronics
Volume59
Issue number1
Pages (from-to)244 - 256
ISSN0278-0046
DOIs
Publication statusPublished - 2011

Keywords

  • CASCADE converters
  • Fault diagnosis
  • Fault tolerance
  • Matrix converter
  • Pulsewidth modulation
  • Reliability

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