Design of Fuzzy Logic Tuned PID Controller for Electric Vehicle based on IPMSM Using Flux-weakening

This work presents an approach for modeling of electric vehicle considering the vehicle dynamics, drive train, rotational wheel and load dynamics. The system is composed of IPMSM (Interior Permanent Magnet Synchronous Motor) coupled with the wheels through a drive train. Generally, IPMSM is controlled by ordinary PID controllers. Performance of the ordinary PID controller is not satisfactory owing to the difficulties of optimal gain selections. To overcome this problem, a new type of fuzzy logic gain tuner for PID controllers of IPMSM is required. Therefore, in this paper fuzzy logic based gain tuning method for PID controller is proposed and compared with some previous control techniques for the better performance of electric vehicle with an optimal balance of acceleration, speed, travelling range, improved controller quality and response. The model was developed in MATLAB/Simulink, simulations were carried out and results were observed. The simulation results have proved that the proposed control system works well to remove the transient oscillations and assure better system response in all conditions.

[1]  Viale Risorgimento,et al.  STATE VARIABLES CONTROLLER DESIGN FOR VIBRATIONS SUPPRESSION IN ELECTRIC VEHICLES , 1996 .

[2]  Iqbal Husain,et al.  Electric and hybrid vehicles : design fundamentals , 2003 .

[3]  Liu Quan,et al.  Research of drive control system in electric vehicle based on DSP , 2004, Proceedings 7th International Conference on Signal Processing, 2004. Proceedings. ICSP '04. 2004..

[4]  Sandeep Dhameja Electric Vehicle Batteries , 2002 .

[5]  Gang Feng,et al.  Analysis and design of fuzzy control systems using dynamic fuzzy-state space models , 1999, IEEE Trans. Fuzzy Syst..

[6]  Mauridhi Hery Purnomo,et al.  Design and Development of Small Electric Vehicle using MATLAB/Simulink , 2011 .

[7]  Zdenko Kovacic,et al.  Fuzzy Controller Design: Theory and Applications , 2005 .

[8]  Takeshi Yamakawa,et al.  A fuzzy inference engine in nonlinear analog mode and its application to a fuzzy logic control , 1993, IEEE Trans. Neural Networks.

[9]  John Lowry,et al.  Electric Vehicle Technology Explained: Lowry/Electric Vehicle Technology Explained , 2012 .

[10]  G. Adamidis,et al.  Direct torque control using space vector modulation and dynamic performance of the drive, via a fuzzy logic controller for speed regulation , 2007, 2007 European Conference on Power Electronics and Applications.

[11]  S Poorani,et al.  Intelligent controller design for electric vehicle , 2003, The 57th IEEE Semiannual Vehicular Technology Conference, 2003. VTC 2003-Spring..

[12]  Christopher M. Bingham,et al.  Application of fuzzy control algorithms for electric vehicle antilock braking/traction control systems , 2003, IEEE Trans. Veh. Technol..

[13]  Chieh-Li Chen,et al.  Optimal design of fuzzy sliding-mode control: A comparative study , 1998, Fuzzy Sets Syst..

[14]  Scott D. Sudhoff,et al.  Analysis of Electric Machinery and Drive Systems , 1995 .