%0 Electronic Article
%A Duc Tan Vu
%A Ngac Ky Nguyen
%A Eric Semail
%A Tiago Jose dos Santos Moraes
%K natural frames
%K integrated drives
%K DC-bus voltage
%K control strategies
%K rotating frames
%K considered constraint
%K maximum root mean square current
%K multiphase PMSMs
%K nonsinusoidal waveform
%K future permanent magnet synchronous machines
%K voltage limits
%K back-EMFs
%K maximum peak value
%K faulty modes
%K copper losses
%K maximal torque-speed characteristics
%K nonsinusoidal multiphase PMSM drives
%K open-circuit faults
%K flux-weakening operation
%K nonsinusoidal backelectromotive forces
%K current references
%K operation modes
%K peak phase voltage
%X In the context of future permanent magnet synchronous machines (PMSMs) with a high number of phases (>7) in integrated drives, this study proposes several control strategies when multiphase PMSMs with non-sinusoidal back electromotive forces (back-EMFs) operate in healthy and open-circuit faults. In all operation modes, the considered constraint on current is related to the maximum root mean square current allowable in one phase of the machine. The constraint on voltage limits the maximum peak value of the phase voltage determined by the DC-bus voltage of the converter. When one or two phases are open-circuited, to maximise torque and respect the constraints, new current references obtained by several proposed methods in rotating and natural frames are imposed to the machine. Owing to the non-sinusoidal waveform of back-EMFs and the considered constraints, numerical computations based on analytical formulations are required to obtain maximal torque-speed characteristics, including the flux-weakening operation. The usefulness of the proposed strategies is verified by numerical and experimental results.
%@ 1751-8660
%T Control strategies for non-sinusoidal multiphase PMSM drives in faulty modes under constraints on copper losses and peak phase voltage
%B IET Electric Power Applications
%D May 2019
%I Institution of Engineering and Technology
%U https://digital-library.theiet.org/;jsessionid=m084emxfks3c.x-iet-live-01content/journals/10.1049/iet-epa.2019.0056
%G EN