Open Access
Subscription or Fee Access
Design and Simulation of Fuzzy Logic Based Speed Control of Electrical Vehicle with Induction Motor Taking Core Loss and Stray Load Losses into Account
Abstract
In modern technology electrical differentials to design Electrical Vehicle are getting popular for its simplicity, faster response, accurate control capability and other facility. The controller design for the distinctive motors is a captivating and challenging work to acquire sought execution appropriately. For this different kind of controller is used to get accurate results. For Induction Motor it is very important to control the speed and torque to get smooth control application. Field Oriented Control aids the factor and empowers independent control of speed and torque by building up an autonomous relationship is created due to consideration of core loss and stray load losses while modeling Induction Motor which is neglected at most of the works. In this paper, with a better modeled IM Fuzzy Logic controller is accompanied to give it more accuracy and simplicity. The performances of the designed controller is accessed using MATLAB/Simulink where all the simulation results shows enough confirmation that smooth, exact and vigorous performance is achievable with the proposed controller.
Keywords
Electrical Vehicle (EV); Induction Motor (IM); Field Oriented Control (FOC); Fuzzy Logic Controller (FLC).
Refbacks
- There are currently no refbacks.