A novel hybrid control approach for modular automation system: a case study of sensorless interior permanent magnet in-wheel motor

Li, Yong; Huang, Yanjun; Xu, Xing

doi:10.1108/aa-08-2018-0120

Cited by 3 publications

(1 citation statement)

References 46 publications

(42 reference statements)

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“…However, mechanical sensors will bring many problems such as an increased cost, system complexity and reducing system robustness (Saadaoui et al , 2019). So, the speed sensorless vector control method is an important alternative to solve the problems (Li et al , 2019). Now there are two kinds of speed sensorless methods for PMSM systems: one is the speed and the rotor position estimation methods based on back electromotive force (EMF); the other is the high-frequency signal injection method.…”

Section: Introductionmentioning

confidence: 99%

An enhanced sensorless control based on active disturbance rejection controller for a PMSM system: design and hardware implementation

Bao

et al. 2022

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Purpose This paper mainly aims to deal with the problems of uncertainties including modelling errors, unknown dynamics and disturbances caused by load mutation in control of permanent magnet synchronous motor (PMSM). Design/methodology/approach This paper proposes an enhanced speed sensorless vector control method based on an active disturbance rejection controller (ADRC) for a PMSM. First, a state space model of the PMSM is obtained for the field orientation control strategy. Second, a sliding mode observer (SMO) based on back electromotive force (EMF) is introduced to replace the encode to estimate the rotor flux position angle and speed. Third, an infinite impulse response (IIR) filter is introduced to eliminate high frequency noise mixed in the output of the sliding mode observer. In addition, a speed control method based on an extended state observer (ESO) is proposed to estimate and compensate for the total disturbances. Finally, an experimental set-up is built to verify the effectiveness and superiority of the proposed ADRC-based control method. Findings The comparative experimental results show that the proposed speed sensorless control method with the IIR filter can achieve excellent robustness and speed tracking performance for PMSM system. Research limitations/implications An enhanced sensorless control method based on active disturbance rejection controller is designed to realize high precision control of the PMSM; the IIR filter is used to attenuate the chattering problem of traditional SMO; this method simplifies the system and saves the total cost due to the speed sensorless technology. Practical implications The use of sensorless can reduce costs and be more beneficial to actual industrial application. Originality/value The proposed enhanced speed sensorless vector control method based on an ADRC with the IIR filter enriches the control method of PMSM. It can ameliorate system robustness and achieve excellent speed tracking performance.

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Section: Introductionmentioning

confidence: 99%

An enhanced sensorless control based on active disturbance rejection controller for a PMSM system: design and hardware implementation

Bao

et al. 2022

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Path tracking control strategy for the intelligent vehicle considering tire nonlinear cornering characteristics in the PWA form

Sun

Wang

et al. 2022

Journal of the Franklin Institute

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Path following fault-tolerant control of distributed drive autonomous unmanned vehicle via adaptive terminal sliding mode

Li,

Chen,

Zhang

et al. 2024

Journal of the Franklin Institute

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A novel hybrid control approach for modular automation system: a case study of sensorless interior permanent magnet in-wheel motor

Cited by 3 publications

References 46 publications

An enhanced sensorless control based on active disturbance rejection controller for a PMSM system: design and hardware implementation

An enhanced sensorless control based on active disturbance rejection controller for a PMSM system: design and hardware implementation

Path tracking control strategy for the intelligent vehicle considering tire nonlinear cornering characteristics in the PWA form

Path following fault-tolerant control of distributed drive autonomous unmanned vehicle via adaptive terminal sliding mode

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