[Oral Presentation]Performance comparison of three types of PWM techniques for a Five-phase PMSM with a single-phase open circuited

IMPORTANT DATES

Deadline for digest submission: Jan, 31, 2021
Notification of acceptance: Mar, 10, 2021
Full paper submission: May, 31, 2021

Performance comparison of three types of PWM techniques for a Five-phase PMSM with a single-phase open circuited

ID：168 Submission ID：168 View Protection：ATTENDEE Updated Time：2021-06-19 16:58:52 Hits：928 Oral Presentation

Start Time：2021-07-02 10:10 （Asia/Shanghai）

Duration：20min

Session：[S1] Concurrent Session 1 » [S1-1] Oral Session 1 & 4

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Abstract

This work looks at the feasible PWM techniques for a five-phase Permanent Magnet Synchronous Motor (5Ф-PMSM) with a single-phase open-circuited. The 5Ф-PMSM particularly suits the long travel segment-powered linear motor system largely thanks to its high thrust and good fault-tolerant capacity. Before enabling these advantages, one basic issue regarding the fault-tolerant PWM technique is worth an in-depth discussion. In light of this, this paper develops three types of PWM techniques, i.e., sinusoidal PWM (SPWM), space vector PWM (SVPWM), and min-max carrier-based PWM (min-max CBPWM), such that the fault-tolerant control can well accommodate the state-of-the-art field-oriented control (FOC) philosophy. Merits and demerits in terms of DC voltage utilization, harmonic current content, and complexity are comparatively studied via simulation and experiment.

Keywords

five-phase Permanent Magnet Synchronous Motor， SVPWM， CBPWM

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