TITLE

Electric Vehicle Speed Control using Three Phase Inverter operated by DSP-based Space Vector Pulse Width Modulation Technique

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ABSTRACT

Solar electric vehicles (SEV)are considered the future vehicles to solve the issues of air pollution, global warming, and the rapid decreases of the petroleum resources facing the current transportation technology. However, SEV are still facing important technical obstacles to overcome. They includebatteriesenergy storage capacity, charging times, efficiency of the solar panels and electrical propulsion systems.Solving any of those problems and electric vehicles will compete - complement the internal combustion engines vehicles.In the present work, we proposean electrical propulsion system based on three phase induction motor in order to obtain the desired speed and torque with less power loss.Because of the need to lightweight nature, small volume,low cost,less maintenance and high efficiency system, a three phase squirrel cage induction motor (IM) is selectedinthe electrical propulsion system. The IM is fed from three phase inverter operated by a constant V/F control method and Space Vector Pulse Width Modulation (SVPWM) algorithm. The proposed control strategy has been implemented on the Texas Instruments TM320F2812Digital Signal Processor (DSP) to generate SVPWM signal needed to trigger the gates of IGBT-based inverter.The experimental results show the ability of the proposed control strategy to generate a threephase sine wave signal with desired frequency. The proposed control strategy is experimented on a locally manufactured EVprototype. The results show that the EV prototype can be propelled to speed up to 60 km/h under different road conditions.

KEYWORDS

Electric Vehicle, Squirrel Cage Induction Motor, SVPWM, V/F control, DSP processor, DMC library

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Cite this paper

Saidi Hamza, Noureddinemansour, Midounabdelhamid. (2017) Electric Vehicle Speed Control using Three Phase Inverter operated by DSP-based Space Vector Pulse Width Modulation Technique. International Journal of Control Systems and Robotics, 2, 195-202

 

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