Bugsch M, Held A, Piepenbreier B (2016)
Publication Language: English
Publication Status: Published
Publication Type: Conference contribution, Conference Contribution
Publication year: 2016
Publisher: IEEE Computer Society
Pages Range: 2910-2916
Article Number: 7793793
ISBN: 9781509034741
DOI: 10.1109/IECON.2016.7793793
Increasing interest in synchronous reluctance machines (SynRMs) shows the need to examine sensorless control methods for this machine type. For different speed ranges, different sensorless methods are necessary. The basic control structure used here is a cascaded field-oriented control (FOC) with a Two-Degree-of-Freedom (2DoF) current control with adaptive tracking controllers. This paper compares two alternating high-frequency (HF) test signal injection-based sensorless control methods for standstill and low speed. The first one superimposes an alternating HF test current signal and the second one an alternating HF test voltage signal onto the fundamental quantities in the estimated synchronous reference frame. To control the whole speed range, a method for the medium and upper speed range is necessary. Therefore, a back-EMF-based method is used. The implementation- and measurement-based differences for both alternating HF signal injection methods are analysed and the existing advantages and drawbacks are compared. Experimental results are included. They prove a similar behaviour of both alternating HF test signal-based sensorless control methods.
APA:
Bugsch, M., Held, A., & Piepenbreier, B. (2016). Sensorless control of SynRMs using an adaptive 2DoF current control including a comparison of two alternating HF signal injection-based methods. In Proceedings of the 42nd Conference of the Industrial Electronics Society, IECON 2016 (pp. 2910-2916). Florenz, IT: IEEE Computer Society.
MLA:
Bugsch, Martha, Andreas Held, and Bernhard Piepenbreier. "Sensorless control of SynRMs using an adaptive 2DoF current control including a comparison of two alternating HF signal injection-based methods." Proceedings of the 42nd Conference of the Industrial Electronics Society, IECON 2016, Florenz IEEE Computer Society, 2016. 2910-2916.
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