International Journal of Technology Enhancements and Emerging Engineering Research (ISSN 2347-4289)

IJTEEE >> Volume 2 - Issue 4, April 2014 Edition

International Journal of Technology Enhancements and Emerging Engineering Research  
International Journal of Technology Enhancements and Emerging Engineering Research

Website: http://www.ijteee.org

ISSN 2347-4289

Automatic Power Management And Monitoring System For Electric Vehicles

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Keywords: Buck Boost converters, PIC16F877A, GSM, GPS, PIR, Piezoelectric Buzzer. etc.



ABSTRACT: In this paper, electric vehicle technology which is recharged in the combination of multi sources (when it is plugged in to a power source from the grid and also from renewable energies like solar). However the solar radiation never remains constant. It keeps on varying throughout the day. The need of the hour is to deliver a constant voltage to the grid irrespective of the variation in temperatures and solar insolation. We have designed a circuit such that it delivers constant and stepped up dc voltage to the load. At various insolation levels, the load is varied and the corresponding variation in the input voltage and current to the buck-boost converter is corrected and noted. These electric vehicles help to keep the environment clean by reducing the amount of toxins emitted from standard exhaust systems and lower operating cost than the conventional internal combustion engine based vehicle. The main objective of this project is used to improve battery performance/efficiency as well as life together using converter and also monitoring the system using PIC16F877A. The effectiveness of the system is verified through the simulations using Simulink/ MATLAB (R2013a) package.



[1] Jain P.K., Kang W., Soin H., Xi Y., 2002 Analysis and design consideration of a load and line independent Zero voltage switching Full bridge DC/DC Converter topology, IEEE Transaction on Power Electronics, Vol.17, No.5, September. pp 649-657.

[2] Yu W., Lai J.-S., 2008. Ultra High Efficiency Bidirectional DC-DC Converter With multi frequency pulse width modulation APEC 2008,pp 1079-1084.

[3] Zhang J., Lai J.-S., Kim R.-Y., Wensong Yu, 2007. High power density design of a soft-switching high-power bidirectional dc-dc converter, IEEE Transactions on power electronics, Vol.22, No.4, pp 1145-1153, July.

[4] Zhang Y., Sen P.C., 2003. A new soft switching technique for buck, boost, and buck-boost converters, IEEE transactions on Industry Applications, Vol. 39. No.6, November/December, pp. 1775-1782.

[5] Zhang J., Lai J.-S., Yu W., 2008. bidirectional dc-dc converter modeling and unified controller with digital implementation, Applied Power Electronics Conference and Exposition, APEC 2008, pp.1747-1753, Feb.

[6] Jesus Leyva-Ramos, Member, IEEE, and Jorge Alberto Morales-Saldana," A design criteria for the current gain in Current Programmed Regulators", IEEE Transactions on industrial electronics, August 1998 Vol. 45, No. 4.

[7] K.H. Hussein, I. Muta, T. Hoshino, M. Osakada, "Maximum photovoltaic power tracking: an algorithm for rapidly changing atmospheric conditions", IEEE Proc. - Gener. Trans. Distrib. January 1995, Vol. 142, No. 1,.