A new software package, the EVSIM, is developed to perform electric vehicle (EV) simulation based on a PC. It can carry out performance analysis of different EVs in a visual, interactive and user-friendly way, hence serving as an experimental part of the Electric Vehicle Technology course for electrical engineering undergraduate students.
ChauK. T. and ChanC. C., ‘Electric vehicle technology’, Int. J. Elect. Enging. Educ., 35(3) (1998), 212–220.
2.
ChanC. C., ‘An overview of electric vehicle technology,’Proc. IEEE, 81(9) (1993), 1201–1213.
3.
ChauK. T., ‘A software tool for learning the dynamic behaviour of power electronics circuits’, IEEE Trans. Educ., 39(1) (1996), 50–55.
4.
MathWorks, Student Edition of MATLAB Version 5 for Windows, 1/e (Prentice Hall, New Jersey, 1997).
5.
ChauK. T.ChanC. C. and WongY. S., ‘Advanced power electronic drives for electric vehicles’, Electromotion, 5(2) (1998), 42–53.
6.
ChauK. T.WongY. S. and ChanC. C., ‘An overview of energy sources for electric vehicles’, Energy Conversion and Management, 40(10) (1999), 1021–1039.
7.
UnnewehrL. E. and NasarS. A., Electric Vehicle Technology (John Wiley & Sons, New York, 1982).
8.
ChanC. C.ChauK. T.ChanD. T. W. and YaoJ. M., ‘Soft switching inverters in electric vehicles’, in Proc. 14th Int. Elec. Vehicle Symp., 1997, No. 2B-3, pp. 1–10.
