Abstract
The direct current (DC) series motor is the highest starting torque motor compared to other motors with the same kilowatt power. The conventional speed controller that is used in an electric vehicle utilizes the series motor that can cause jerk and slip during start-up. This paper discusses the usage of a direct current control (DCC) in the four quadrants direct current chopper (FQDC) application to overcome the start-up problem. The series motor current is controlled in a closed-loop fashion using the fuzzy logic technique. The DCC is a current control method using a lookup table (LUT) with a predetermined reference current. The system is tested using MATLAB/Simulink. The simulation results using MATLAB/Simulink show that the current can be controlled using a fuzzy logic technique.
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Arof, S., M. Noor, N., Mohamad, R., Noorsal, E., Mawby, P.A., Arof, H. (2020). Close Loop Feedback Direct Current Control in Driving Mode of a Four Quadarnts Drive Direct Current Chopper for Electric Vehicle Traction Controlled Using Fuzzy Logic. In: Abu Bakar, M., Azwa Zamri, F., Öchsner, A. (eds) Progress in Engineering Technology II. Advanced Structured Materials, vol 131. Springer, Cham. https://doi.org/10.1007/978-3-030-46036-5_7
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