This paper presents the development and test of an open-loop start-up procedure for synchronous reluctance motor drives, designed to match the polynomial torque-speed profile of a pump application. The integration of this procedure with a flux-observer allows for relatively easy sensorless operation in those applications that do not require steady-state operation at low or null speed. In particular, the paper focuses on the design of the open-loop control references in order to achieve the maximum acceleration performance and the concerns for a smooth and safe switching towards the closed-loop observer. Real-time simulation and experimental results are presented to prove for the effectiveness of the method.
An Open-Loop Starting Procedure for Sensorless Control of Synchronous Reluctance Motors
Credo A.;Paolini S.;Tursini M.
2019-01-01
Abstract
This paper presents the development and test of an open-loop start-up procedure for synchronous reluctance motor drives, designed to match the polynomial torque-speed profile of a pump application. The integration of this procedure with a flux-observer allows for relatively easy sensorless operation in those applications that do not require steady-state operation at low or null speed. In particular, the paper focuses on the design of the open-loop control references in order to achieve the maximum acceleration performance and the concerns for a smooth and safe switching towards the closed-loop observer. Real-time simulation and experimental results are presented to prove for the effectiveness of the method.Pubblicazioni consigliate
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