International Journal of Electrical Machines & Drives

The demand and the fine of electrical power are higher than earlier than due to the
development inside the technology. Because of the development of semiconductor, the
specification of power tool and power conversion technique is promoted one of the power
converters that could remodel DC to AC is known as inverter. Inverter is the inter medium
which transmit electricity to other electric device which include uninterruptible strength
supply, servo motor, air-conditioning machine, and smart grid compose of renewable
strength. In recent years, the amount of strength system is growing. Therefore, the harmonic
pollution of power gadget becomes more serious. Moreover, the industry needs better
strength applications, the specification of strength tool is better. Energy electronic inverters
are broadly utilized in industrial power conversion systems both for software and drives
applications. Because the electricity degree will increase, the voltage level also will increase
thus to acquire exceptional performance.

Keywords: electro-magnetic interference (EMI), inverter, neutral-point clamped inverter
(NPC), pulse width modulation, phase disposition (PD) method, SPWM, VAR compensators

REFERENCES

N. Poursafar, H.D. Taghirad, M.

Haeri . Model predictive control of

non-linear discrete time systems: a

linear matrix inequality approach.

The Institution of Engineering and

Technology (IET)

a. Control Theory , Vol. 4, April 2010

J. Rodrguez, J. Pontt, C. Silva, M.

Salgado, S. Rees,U. Ammann,

P.Lezana, R. Huerta and P. Corte ´s

Predictive control of three- phase

inverter, Electronics letters Vol. 40

No. 9, 29th April 2004

H. Iman-Eini and S. Galeshi,

Dynamic voltage restorer employing

multilevel cascaded H-bridge

inverter, IET Power Electron., vol. 9,

no. 11, pp. 21962204, 2016.

K. Sahu and P. D. Sahu, A Survey

On, Integrated Dynamic Voltage

Restorer-Supercapacitor Analysis For

Power Quality Improvement, vol. 5,

no. 4, pp. 889893, 2016.

E. Gubia, P. Sanchis, A. Ursua, J.

Lopez, and L. Marroyo, Ground

currents in single phase transformer

less photovoltaic systems, Progress in

Photovoltaic: Research and

Applications, vol. 15, no. 7, pp.

, 2007

W. Li, Y. Gu, H. Luo, W. Cui, X. He,

and C. Xia, Topology review and

derivation methodology of single-

phase transformerless photovoltaic

Inverters for leakage current

suppression, IEEE Transactions on

Industrial Electronics, vol. 62, Jul.

A. Shukla, A. Ghosh and A. Joshi,

Control of dc capacitor voltages in

diode-clamped multilevel inverter

using bidirectional buck-boost

Choppers, in IET Power Electronics,

vol. 5, no. 9, pp. 1723-

,November 2012.

M. Calais, J. Myrzik, T. Spoone, and

V. G. Agelidis, Inverters for

singlephase grid connected

photovoltaic systems an overview, in

Proc. 33rd Annu. IEEE Power

Electron. Spec. Conf., vol. 4, 2002,

pp. 19952000.

Zhang, Hao, Yushan Liu, Dongsen

Sun, Baoming Ge, Haitham Abu-

International Journal of Electrical Machines & Drives

Vol. 6: Issue 1

www.journalspub.com

IJEMD (2020) 23–28 © Journals Pub 2020. All Rights Reserved Page 7

Rub, and Fang Z. Peng. “A hybrid

modulation method for single-phase

quasi-Z source inverter.” In Energy

Conversion Congress and Exposition

(ECCE), 2014 IEEE, pp. 444-4449.

IEEE, 2014.

P. Sudheer, and K. R. S. Prasad, H-

Bridge Multi Level STATCOM

under Different Loads, International

Journal of Scientific and Research

Publications, Vol. 4, Issue 5, May

Z. Malekjamshidi, M. Jafari, M.R.

Islam, and Zhu Jianguo, "A

Comparative Study on Characteristics

of Major Topologies of Voltage

Source Multilevel Inverters," in

Innovative Smart Grid Technologies

– Asia (ISGT Asia), 2014 IEEE ,

vol., no., pp.612-617, 20-23 May

Manjrekar, P.K. Steimer, and T.A.

Lipo, Hybrid Multilevel Power

Conversion System: A Competitive

Solution for High Power

Applications, IEEE Trans. Ind.

Applicat., vol. 36, no. 3, pp. 834-

, May/June 2000.

Carrara, S. Gardella, M. Marchesani,

R. Salutari, and G. Sciutto, A New

Multilevel PWM Method: A

Theoretical Analysis," IEEE Trans.

Power Electron., vol. 7, no. 3, pp.

- 505, 1992.

G. Bhuvaneswari, and Nagaraju,

Multi-Level Inverters – A

Comparative Study, IETE Journal of

Research, Vol. 51, no. 2, pp. 141153,

Mar/April 2005.

J. Rodriguez, S. Bernet, Bin Wu, J.O.

Pontt, and S. Kouro, "Multilevel

Voltage-Source-Converter

Topologies for Industrial Medium-

Voltage Drives,", IEEE Trans. Ind.

Electron. , vol.54, no.6, pp.2930-

, Dec. 2007.