TY - JOUR AU - AB - Development of electric vehicle (EV) conversion process can be implemented in a low-cost and time-saving manner, along with the design of actual components. Model-based sys- tem design is employed to systematically compute the power flow of the electric vehicle propulsion and dynamic load. Vehicle specification and driving cycles were the two main inputs for the simulation. As a result, the approach is capable of predicting various EV characteristics and design parameters, such as EV performance, driving range, torque speed characteristics, motor power, and battery power charge/discharge, which are the necessity for the design and sizing selection of the main EV components. Furthermore, drive-by-wire (DBW) ECU function can be employed by means of model-based design to improve drivability. For the current setup, the system components are consisted of actual ECU hardware, electric vehicle models, and control area network (CAN) communication. The EV component and system models are virtually simulated simultaneously in real time. Thus, the EV functionalities are verified corresponding to objective requirements. The current methodology can be employed as rapid design tool for ECU and software development. Same methodology can be illustrated to be used for EV tuning and reliabil- ity model test in the future. Keywords: EV conversion, TI - Model Based System Design for Electric Vehicle Conversion JF - New Trends in Electrical Vehicle Powertrains DO - 10.5772/intechopen.77265 DA - 2019-01-30 UR - https://www.deepdyve.com/lp/unpaywall/model-based-system-design-for-electric-vehicle-conversion-57ZH8N1Hv0 DP - DeepDyve ER -