Realising robust low speed sensorless PMSM control using current derivatives obtained from standard current sensors

Hind, David, Li, Chen, Sumner, Mark and Gerada, Chris (2017) Realising robust low speed sensorless PMSM control using current derivatives obtained from standard current sensors. In: 2017 IEEE International Electric Machines and Drives Conference (IEMDC), 21-24 May 2017, Miami, Florida, USA.

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Abstract

This paper describes the implementation of a simple, robust and cost-effective sensorless control technique for PMSM machines. The method uses stator current derivative measurements made in response to certain PWM vectors. In this work the derivatives are created from measurements made with standard hall-effect sensors (at the start and end of switching vectors), meaning that specialist transducers, such as Rogowski Coils, are not required. However, under narrow PWM vectors high frequency (HF) oscillations can disrupt the current and current derivative responses. In previous work, the time that PWM vectors were applied to the machine for was extended to a threshold known as the minimum pulse width (tmin) in order to allow the HF oscillations to decay and a derivative measurement to be obtained. This introduces additional distortion to the motor current. It is shown here that an artificial neural network can be used to estimate derivatives using measurements from a standard current sensor before the HF oscillations have fully decayed, thus permitting a reduction of the minimum pulse width (and associated distortion).

Item Type: Conference or Workshop Item (Paper)
RIS ID: https://nottingham-repository.worktribe.com/output/861589
Additional Information: doi:10.1109/IEMDC.2017.8002075
Keywords: Sensorless Control; Current derivative; Neural Network; Saliency; PMSM; Permanent Magnet
Schools/Departments: University of Nottingham, UK > Faculty of Engineering > Department of Electrical and Electronic Engineering
Depositing User: Burns, Rebecca
Date Deposited: 10 Apr 2018 10:56
Last Modified: 04 May 2020 18:46
URI: https://eprints.nottingham.ac.uk/id/eprint/51055

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