This article investigates the possibility of applying embedded magnetic encoder (EME) consisting of three linear Hall sensors (LHSs) for rotor position estimation in switched reluctance machines (SRMs). The key concept of this scheme is to detect the flux density characteristics (FDC) inside of stator slots. However, the armature field is to be detected in SRM, which is rather different from permanent magnet (PM) machines, where the PM field is detected. In this article, FDC in stator armature slot openings are first analyzed between different winding configurations. Thus, a selection principle of winding configuration is proposed. Second, the proper installation location of LHS is investigated, where the sensitivity of FDC to location deviation is discussed. Accordingly, a sensor holder is specifically designed and manufactured to reduce location deviation. Third, based on the detected FDC, a simplified multiple complex-coefficient filter (MCCF) is utilized as a filter to extract the positive sequence of the fundamental component of LHS output signal. As a result, the angular frequency and rotor position can be tracked by the synchronous reference frame-based phase-locked loop (SRF-PLL). Finally, the proposed method is verified by a series of experiments under steady- and transient-state conditions, which confirm the feasibility of EME scheme.
An Embedded Magnetic Encoder-Based Rotor Position Estimation for Switched Reluctance Machine
IEEE Transactions on Transportation Electrification ; 10 , 1 ; 110-121
2024-03-01
5807521 byte
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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