Design and Simulation of a Fuzzy Based SVPWM Fed H-Bridge Drive in Hybrid Vehicles

International Journal of Electrical and Electronics Engineering
© 2014 by SSRG - IJEEE Journal
Volume 1 Issue 9
Year of Publication : 2014
Authors : Venkateshwarlu Uddemari , K. Mamatha
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Citation:
MLA Style:

Venkateshwarlu Uddemari , K. Mamatha, "Design and Simulation of a Fuzzy Based SVPWM Fed H-Bridge Drive in Hybrid Vehicles" SSRG International Journal of Electrical and Electronics Engineering 1.9 (2014):11-14.

APA Style:

Venkateshwarlu Uddemari , K. Mamatha,(2014). Design and Simulation of a Fuzzy Based SVPWM Fed H-Bridge Drive in Hybrid Vehicles. SSRG International Journal of Electrical and Electronics Engineering 1(9), 11-14.

Abstract:

This paper presents a design and simulation of modulation and Fuzzy control strategies are plays main role to minimize THD in Multilevel inverter. These modulation techniques include Sinusoidal Pulse Width Modulation (SPWM) and Selective harmonic Elimination and Space Vector Pulse Width Modulation (SVPWM).Multilevel inverters have tremendous application in the area of high-power and medium-voltage energy control. This paper presents a model simulation of Fuzzy based SVPWM is performed for cascaded H-bridge inverter in hybrid vehicles. The Simulation of various levels of cascaded H bridge inverter with Space vector PWM has been carried out. The Implementation and simulation of SVPWM inverter are presented to realize the validity of the Fuzzy based SVPWM technique.

References:

[1] Brendan Peter, McGrath and Donald Grahame Holmes (2002) ‟Multicarrier PWM Strategies for Multilevel Inverters‟ IEEE, Transactions on Industrial Electronics, Volume 49, no.4, pp .42-52 
[2] Jose Rodriquez, Jih-Sheng Lai and Fang ZhengPeng(2002)„Multilevel Inverters: A Survey of Topologies Controls, and Applications‟ IEEE, Transactions on Industrial Electronics, volume 49, no. 4, pp. 87-95.
[3] Javier Pereda and Juan Dixon (2011)‟High Frequency Link: A Solution for Using Only One DC Source in Asymmetric Cascaded Multilevel Inverters‟ IEEE, Transactions on Industrial Electronics, volume 58, no. 9, pp. 432-440.
[4] Diego Soto, Ruben Pena, Roberto Cardenas, Jon Clare and Patrick Wheeler, “A Cascade Multilevel Frequency Changing converter for High- Power Applications”.
[5]Mohamed Hilmy, MahrousE.Ahmed, Mohamed Orabiand Mohamed ElNemr, (2010)‟Modeling and Control of Direct Drive Variable Speed Stand-Alone Wind Energy Conversion Systems‟, Proceedings of the 14th International Middle East Power Systems Conference (MEPCON‟ 10), volume 87,no 7 ,pp. 567-576 
[6]BandaruUrmila,Subbarayudu D.(2011) „Optimized SVPWM for Multilevel Inverter‟ Innovative Systems Design and Engineering ISSN 2222- 2871 Vol 2, pp. 75-82
[7]Amit Kumar Gupta, Ashwin M. Khambadkone(2007)‟A Space Vector Modulation Scheme to Reduce Common Mode Voltage for Cascaded Multilevel Inverters‟ IEEE Transactions on Power Electronics, Vol. 22, NO. 5, pp .45-56 
[8] Hind Djeghloud, HocineBenalla(2004)‟Space Vector Pulse Width Modulation Applied to the Three-Level Voltage Inverter‟IEEE Trans. Power Electron., Vol. 19, pp .732-738.
[9]Abdelfatah Kolli, Alexandre De Bernardinis, Eric Labouré, and Gérard Coquery (2003)‟Space-Vector PWM Control Synthesis for an HBridge Drive in Electric Vehicles‟IEEE Transactions on Vehicular Technology, vol. 62, no. 6, pp .567-587.
[10]Di Zhao, G. Narayanan and Raja Ayyanar(2004)‟Switching Loss Characteristics of Sequences Involving ActiveState Division in Space Vector Based PWM‟IEEE Transactions on Power Electronics, Vol. 22, NO. 5,pp .786-795.

Key Words:

 

  Pulse Width Modulation (PWM), SPWM, Sinusoidal Pulse Width Modulation (SVPWM).