Performance Of QZSI Fed Induction Motor Drive System With Resonant Arm And OTT Filters

D. Himabindu*, G. Sreenivasa Reddy**, R. Kiranmayi***
* Research Scholar, Department of Electrical and Electronics Engineering, JNTUA, Ananthapur, India.
** Professor, Department of Electrical and Electronics Engineering, SRIT, Ananthapur, India.
*** Professor and Head, Department of Electrical and Electronics Engineering, JNTUA, Ananthapur, India.

Abstract

QZSI is a good choice between input DC source and inverter network. This paper deals with modeling and simulation of
QZSI Fed Induction Motor (QZSIFIM) with resonant arm & OTT filters. DC is applied to the inverter through a QZ network. The
output of three phase inverter is filtered before it is applied to a three phase induction motor. QZSIFIM system with
resonant arm and OTT filters are modeled and simulated using matlab. The comparison of these systems is made in terms
of voltage THD, current THD & output power. The comparison indicates that QZSIFIM system with OTT filter delivers higher
power with reduced THD.

Keywords

Quasi-Z-Source Inverter Fed Induction Motor (QZSIFIM), Resonant Arm, OTT Filter, Total Harmonic Distortion (THD).

How to Cite this Article?

HimaBindu, D., Reddy, G. S., and Kiranmayi, R. (2018). Performance Of QZSI Fed Induction Motor DriveSystem With Resonant Arm and OTT Filters. i-manager’s Journal on Electrical Engineering, 11(3), 25-33.

References

[1]. Dehghan, S. M., Mohasmadian, M., Yazdian, A., & Ashrafzadeh, F. (2010). A dual-input–dual-output Z-source inverter. IEEE Transactions on Power Electronics, 25(2), 360-368.
[2]. Gajanayake, C. J., Luo, F. L., Gooi, H. B., So, P. L., & Siow, L. K. (2010). Extended-boost $ Z $-source inverters. IEEE Transactions on Power Electronics, 25(10), 2642- 2652.
[3]. Lei, Q., Cao, D., & Peng, F. Z. (2014). Novel loss and harmonic minimized vector modulation for a current-fed quasi-Z-source inverter in HEV motor drive application. IEEE Transactions on Power Electronics, 29(3), 1344-1357.
[4]. Nguyen, M. K., Lim, Y. C., & Kim, Y. J. (2012). A modified single-phase quasi-Z-source AC–AC converter. IEEE Transactions on Power Electronics, 27(1), 201-210.
[5]. Rymarski, Z., & Bernacki, K. (2014). Influence of Zsource output impedance on dynamic properties of single-phase voltage source inverters for uninterrupted power supply. IET Power Electronics, 7(8), 1978-1988.
[6]. Tang, Y., & Xie, S. (2014). System design of series Zsource inverter with feedforward and space vector pulsewidth modulation control strategy. IET Power Electronics, 7(3), 736-744.
[7]. Tang, Y., Xie, S., & Ding, J. (2014). Pulsewidth modulation of Z-source inverters with minimum inductor current ripple. IEEE Transactions on Industrial Electronics, 61(1), 98-106.
[8]. Vinnikov, D., & Roasto, I. (2011). Quasi-Z-sourcebased isolated DC/DC converters for distributed power generation. IEEE Transactions on Industrial Electronics, 58(1), 192-201.
[9]. Vinnikov, D., Roasto, I., Strzelecki, R., & Adamowicz, M. (2012). Step-up DC/DC converters with cascaded quasi-Z-source network. IEEE Transactions on Industrial Electronics, 59(10), 3727-3736.
[10]. Xiao, H., Liu, X., & Lan, K. (2013). Optimised fullbridge transformerless photovoltaic grid-connected inverter with low conduction loss and low leakage current. IET Power Electronics, 7(4), 1008-1015.
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