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Proximate In-Phase Current Estimator to Reduce Torque Ripple in Permanent-Magnet Stepping Motor

Authors
Lee, YoungwooShin, DonghoonKim, WonheeChung, Chung Choo
Issue Date
Mar-2016
Publisher
Institute of Electrical and Electronics Engineers
Keywords
Current estimator; Lyapunov theory; microstepping; permanent-magnet (PM) stepping motors; torque ripple
Citation
IEEE Transactions on Industrial Electronics, v.63, no.3, pp 1707 - 1716
Pages
10
Indexed
SCI
SCIE
SCOPUS
Journal Title
IEEE Transactions on Industrial Electronics
Volume
63
Number
3
Start Page
1707
End Page
1716
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/155006
DOI
10.1109/TIE.2015.2509949
ISSN
0278-0046
1557-9948
Abstract
This paper proposes microstepping via a proximate in-phase current estimator (PIpCE) to improve position control performance with reduced torque ripples in permanent-magnet (PM) stepping motors. In conventional microstepping control, low-pass filters (LPFs) are used to filter out measurement noise resulting from the implemented current feedback loops. However, the phase lag caused by LPFs can degrade position control performance. In this paper, we propose a current tracking controller with PIpCE. The globally uniformly ultimately bounded current tracking error is proved via the Lyapunov theory. The proposed PIpCE also enhances current tracking performance over that of the conventional method. The proposed controller not only reduces the torque ripple caused by the phase lag but also increases the operational range of microstepping by pushing the electromechanical resonance frequency to a high-frequency region. We experimentally validated the effectiveness of the proposed method and observed that this method provides uniform position tracking performance without step-out or speed reversal, even in high-speed operation.
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