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Wireless Personal Communications

Erschienen in:

28.01.2020

A Comparison of the Performance Indices of Embedded EZ-Source Inverter Using Different PWM Techniques

verfasst von: P. Kannan, S. Arockia Edwin Xavier

Erschienen in: Wireless Personal Communications | Ausgabe 3/2020

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Abstract

Many converters were proposed for boost/buck operation for power supply. But these converters have more stages due to separate boost or buck converters, as a result, it increases the cost, volume, conduction losses and also reduces the efficiency. Impedance source-based inverter is proposed for reducing the converter stage and achieve buck/boost operation using a shoot through features with simple passive elements. The impedance source converter is modified by replacing capacitor into dc source for reducing current and voltage across dc link and smoothing the dc voltage. This circuit is called as embedded EZ- source inverter. This circuit gives same voltage gain with same passive elements rating and counting. Different PWM technique is used to control the inverter output voltage and reduce the current harmonic. The circuit is simulated using three PWM techniques in MATLAB environment. The circuit performance is compared with simulation results.

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Kannan, P. (2014). Harmonic analysis and design of embedded-Z source inverter for induction motor. International Journal of Advanced Computer Research,4(14), 32–38.

Arockia Edwin Xavier, S., Venkatesh, P., & Saravanan, M. (2013). Design of artificial neuron controller for STSTCOM in dSPACE environment. Applied Soft Computing (Elsvier-Impact factor-2.7),13(4), 1750–1758.CrossRef

Arockia Edwin Xavier, S., Venkatesh P., & Saravanan, M.(2012) Development of PI and fuzzy controllers for STATCOM in dSPACE environment. European Journal of Scientific Research, ISSN, 216–227.

Anamika, P., & Radhika, A. (2016). Harmonics reduction in three phase uninterruptible power supply using passive filter. Special Issue On Innovations in Information Embedded And Communication Systems,13, 317–321.

Palma, L., Enjeti, P., Denniston, N., & Duran-Gomez, J. L. (2008) A converter topology to interface low voltage solar/fuel cell type energy sources to electric utility. In Proceedings of the IEEE APEC (pp. 135–140).

Farhangi, B., & Farhangi, S. (2006). Comparison of Z-source and boost-buck inverter topologies as a single phase transformer-less photovoltaic grid connected power conditioner. In Proceedings of the IEEE PESC (pp. 1–6).

Peng, F. Z. (2003). Z-source inverter. IEEE Transactions on Industry Applications,39(2), 504–510.CrossRef

Peng, F. Z., Joseph, A., Wang, J., Shen, M., Chen, L., Pan, Z., et al. (2005). Z-source inverter for motor drives. IEEE Transactions on Power Electronics,20(4), 857–863.CrossRef

Loh, P. C., Vilathgamuwa, D. M., Lai, Y. S., Chua, G. T., & Li, Y. (2005). Pulse width modulation of Z-source inverters. IEEE Transactions on Power Electronics,20(6), 1346–1355.CrossRef

10.

Huang, Y., Shen, M., Peng, F. Z., & Wang, J. (2006). Z-source inverter for residential photovoltaic systems. IEEE Transactions on Power Electronics,21(6), 1776–1782.CrossRef

11.

Peng, F. Z., Shen, M., & Qian, Z. (2005). Maximum boost control of the Z-source inverter. IEEE Transactions on Power Electronics,20(4), 833–838.CrossRef

12.

Shen, M., Wang, J., Joseph, A., Peng, F. Z., Tolbert, L. M., & Adams, D. J. (2006). Constant boost control of the Z-source inverter to minimize current ripple and voltage stress. IEEE Transactions on Industry Applications,42(3), 770–778.CrossRef

13.

Shen, M., & Peng, F. Z. (2008). Operation modes and characteristics of the Z-source inverter with small inductance or low power factor. IEEE Transactions on Industrial Electronics,55(1), 89–96.CrossRef

14.

Peng, F. Z., Shen, M., & Holland, K. (2007). Application of Z-source inverter for traction drive of fuel cell-battery hybrid electric vehicles. IEEE Transactions on Power Electronics,22(3), 1054–1061.CrossRef

15.

Loh, P. C., Gao, F., & Blaabjerg, F. (2010). Embedded EZ-source inverters. IEEE Transactions on Industry Applications,46(1), 256–267.CrossRef

16.

Sutar, A. R., Jagtap, S. R., & Tamboli, J. (2012). Performance analysis of Z-source inverter fed induction motor drive. International Journal of Scientific and Engineering Research,3(5), 1–6.

17.

Pandian, G., & Rama Reddy, S. (2010). Embedded controlled Z source inverter fed induction motor drive. IEEE Transaction on Industrial Application,32(2), 826–832.

Titel: A Comparison of the Performance Indices of Embedded EZ-Source Inverter Using Different PWM Techniques
verfasst von: P. Kannan
S. Arockia Edwin Xavier
Publikationsdatum: 28.01.2020
Verlag: Springer US
Erschienen in: Wireless Personal Communications / Ausgabe 3/2020
Print ISSN: 0929-6212
Elektronische ISSN: 1572-834X
DOI: https://doi.org/10.1007/s11277-020-07107-6

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