An Improved DTC for In-wheel BLDC motors in Micro All-electric Vehicles

Liu, Huan; Zhang, Hui

doi:10.7305/automatika.2017.02.1561

Automatika : journal for control, measurement, electronics, computing and communications, Vol. 57 No. 3, 2016.

Original scientific paper

https://doi.org/10.7305/automatika.2017.02.1561

An Improved DTC for In-wheel BLDC motors in Micro All-electric Vehicles

Huan Liu ; Department of Electrical Engineering Xi’an University of Technology No. 5 Jinhua Road , 710048, Xi’an, China
Hui Zhang ; Department of Electrical Engineering Xi’an University of Technology State Key Lab. of Power System Tsinghua University No. 5 Jinhua Road , 710048, Xi’an, China

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APA 6th Edition

Liu, H. & Zhang, H. (2016). An Improved DTC for In-wheel BLDC motors in Micro All-electric Vehicles. Automatika, 57 (3), 648-659. https://doi.org/10.7305/automatika.2017.02.1561

MLA 8th Edition

Liu, Huan and Hui Zhang. "An Improved DTC for In-wheel BLDC motors in Micro All-electric Vehicles." Automatika, vol. 57, no. 3, 2016, pp. 648-659. https://doi.org/10.7305/automatika.2017.02.1561. Accessed 28 Dec. 2024.

Chicago 17th Edition

Liu, Huan and Hui Zhang. "An Improved DTC for In-wheel BLDC motors in Micro All-electric Vehicles." Automatika 57, no. 3 (2016): 648-659. https://doi.org/10.7305/automatika.2017.02.1561

Harvard

Liu, H., and Zhang, H. (2016). 'An Improved DTC for In-wheel BLDC motors in Micro All-electric Vehicles', Automatika, 57(3), pp. 648-659. https://doi.org/10.7305/automatika.2017.02.1561

Vancouver

Liu H, Zhang H. An Improved DTC for In-wheel BLDC motors in Micro All-electric Vehicles. Automatika [Internet]. 2016 [cited 2024 December 28];57(3):648-659. https://doi.org/10.7305/automatika.2017.02.1561

IEEE

H. Liu and H. Zhang, "An Improved DTC for In-wheel BLDC motors in Micro All-electric Vehicles", Automatika, vol.57, no. 3, pp. 648-659, 2016. [Online]. https://doi.org/10.7305/automatika.2017.02.1561

Abstract

The micro all-electric vehicle pertaining to this study is rear-driven, with motors in the left and right rear wheels. The motors are brushless dc (BLDC) using Hall effect sensors with a trapezoidal back-electromotive force. The control system is developed by using a digital signal processor. To thoroughly utilize the fast torque generation feature of BLDC motors, direct torque control (DTC) is preferable, but with conventional DTC, dead-time must be added. This paper proposes an improved DTC, where the switching device operating principle is equivalent to that of a unipolar pulse width modulation (PWM) technique named PWM-ON. Dead-time is not required, and switching losses are reduced. Further analysis showed that under the improved DTC the dc supply took up only the load current, confirming that there was no return of load energy to the dc supply, which protects the batteries. Experimental results are given to confirm validity.

Keywords

BLDC; dead-time; DTC; electrical vehicle; micro all-electric vehicles

Hrčak ID:

180694

URI

https://hrcak.srce.hr/180694

Publication date:

23.3.2017.

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Automatika : journal for control, measurement, electronics, computing and communications, Vol. 57 No. 3, 2016.

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