Sensorless control of deep-sea ROVs PMSMs excited by matrix converters

Author

Bhangu, B.S. ; Snary, P. ; Bingham, C.M. ; Stone, D.A.

Author_Institution

Dept. of Electron. & Electr. Eng., Univ. of Sheffield

fYear

2005

fDate

11-14 Sept. 2005

Abstract

The paper reports the development of model-based sensorless control methodologies for driving PMSMs using matrix converters. In particular, experimental results show that observer-based state-estimation techniques normally employed for sensorless control of PMSMs using voltage source inverters (VSIs), can be readily exported to matrix converter counterparts with minimal additional computational overhead. Furthermore, zero speed start-up and speed reversal are experimentally demonstrated. Finally, the observer is designed to be fault tolerant such that upon detection of a broken terminal (phase fault), the PMSM remains operational and could be utilized to provide a limp-home capability

Keywords

fault diagnosis; fault tolerance; invertors; machine control; marine vehicles; matrix convertors; mobile robots; permanent magnet motors; remotely operated vehicles; synchronous motors; telerobotics; PMSM; broken terminal detection; deep-sea ROV; fault tolerant; limp-home capability; matrix converters; observer-based state-estimation techniques; sensorless control; speed reversal; voltage source inverters; zero speed start-up; Capacitors; Inverters; Machine vector control; Matrix converters; Power electronics; Power system reliability; Rectifiers; Remotely operated vehicles; Sensorless control; Voltage; Marine; Matrix Converter; Permanent magnet motor; Sensorless control; Vector control;

fLanguage

English

Publisher

ieee

Conference_Titel

Power Electronics and Applications, 2005 European Conference on

Conference_Location

Dresden

Print_ISBN

90-75815-09-3

Type

conf

DOI

10.1109/EPE.2005.219602

Filename

1665792