Recent Trends in Electronics and Communication Systems

New solutions based on power electronics have been developed to safeguard commercial and industrial clients against power quality issues on the electrical distribution system, referred to as Custom Power Products. Custom power devices are classified into three categories by their structures such as dynamic voltage regulator (DVR), distribution static compensator (STATCOM) and unified power quality compensator (UPQC).The Distribution Static Compensator (D-STATCOM), one of the custom power product, is a shunt-connected Power electronics-based device, is used for compensation of reactive power i.e. unbalance in line thus protecting the electrical system from a polluting (flicker producing) Load.  The STATCOM can be used in place of a traditional static VAR Compensator and offers many advantages. This consists of three phase voltage source inverter, injection transformer, LINK IN THE D.C. The control algorithm determines the STATCOM's performance. The extraction of the current components. So, for this, there are various control algorithms for the control of STATCOM block depending on various theories and strategies like phase shift control, instantaneous PQ theory, synchronous frame theory, Adaline based theory.

Rakesh S. Kumbhare et.al “STATCOM- Control Scheme For Power Quality Improvement to Grid Connected Wind Energy Generating System” International Journal of Electrical, Electronics and Data Communication, pp 9-15 , June 2015.

Aarathi A. R. , Dr. M. V. Jayan “Grid Connected Photovoltaic System with Super Capacitor Energy Storage and STATCOM for Power System Stability Enhancement” International Conference on Advances in Green Energy , pp 26-32 , Dec 2014.

Yanushkevich, Z. Müller, J. Švec, J. Tlustý and V. Valouch “Power Quality Enhancement using STATCOM with Energy Storage” pp 349- 354 , International Conference on Renewable Energies and Power Quality , April 2014.

Ilango K, Bhargav.A, Trivikram.A, Kavya.P.S, Mounika.G, and Manjula G. Nair “Power Quality Improvement using STATCOM with Renewable Energy Sources ” IEEE Transaction Power Electronics, Vol.19, No.5, Dec 2012.

Aarathi A. R , Dr. M. V. Jayan “Grid Connected Photovoltaic System with Super Capacitor Energy Storage and STATCOM for Power System Stability Enhancement ” International Conference on Advances in Green Energy , pp 25-32 , Dec 2014.

Mohit Bajaj, Chetan Bhardwaj and Mukesh Pushkarna “A Comparative Study of Control Techniques of Distribution-STATCOM under Abnormal Source Voltage ” International Conference on Advances in Electrical, Electronics, Information, Communication and Bio-Informatics , pp. 660-669, July 2015.

Mohammed Abdul et.al “Enhancement of Power Quality in Distribution System using D-Statcom” International conference on Signal Processing, Communication, Power and Embedded System pp 2093 – 2098 , 2016.

D. Prakash, R. Mahalakshmi, and M.Karpagam “Power Quality Enhancement in STATCOM connected Distribution Systems based on Gravitational Search Algorithm” International Journal on Electrical Engineering and Informatics - Volume 8, Number 4, pp 907-924 , December 2016.

Masoud Farhoodnea; Azah Mohamed “Optimum D-STATCOM Placement Using Firefly Algorithm for Power Quality Enhancement” 7th International Power Engineering and optimization Conference , pp 98-102 , 2016

Noramin Ismail, Wan Norainin Wan Abdullah “Enhancement of Power Quality in Distribution System Using D-STATCOM” 4th International Power Engineering and Optimization Conference , pp 418-424 , June 2010

T.Bharath Kumar and Dr.M.Venu Gopala Rao “Mitigation of Harmonics and Power Quality Enhancement for SEIG based Wind Farm using ANFIS based STATCOM” IEEE Trans. Ind. Appl., vol. 39, no. 4, pp. 936–944, Jul. 2014.

Soumya Mishra and Pravat Kumar Ray, "Nonlinear modeling and control of a photovoltaic fed improved hybrid D-STATCOM for power quality improvement", International Journal of Electrical Power and Energy Systems, Vol.75, pp.245–254, 2016

M.R.Qader, "Design and simulation of a different innovation controller-based UPFC (unified power flow controller) for the enhancement of power quality", International Journal of Energy, Vol.89, pp.576–592, 2015

S.M.Abd-Elazim and E.S.Ali, "Optimal location of STATCOM in multi-machine power system for increasing loadability by Cuckoo Search algorithm", International Journal of Electrical Power and Energy Systems, Vol.80, pp.240–251, 2016

Abdul Balikci and EyupAkpinar, "A multilevel converter with reduced number of switches in STATCOM for load balancing", International Journal of Electric Power Systems Research, Vol.123, pp.164–173, 2015

Bhim Singh, Sunil Kumar Dube and Sabha Raj Arya, "An improved control algorithm of DSTATCOM for power quality improvement", International Journal of Electrical Power and Energy Systems, Vol.64, pp.493–504, 2015

J. H. Choi and J. C. Kim, “Advanced voltage regulation method at the power distribution systems interconnected with dispersed storage and generation systems,” IEEE Trans. Power Del, vol. 15, no. 2, pp. 691– 696, Apr. 2000.

D. Seyoum, C. Grantham, and M. F. Rahman, “The dynamic characteristics of isolated self-excited induction generator driven by a wind turbine,” IEEE Trans. Ind. Appl., vol. 39, no. 4, pp. 936–944, Jul.2003.

M. S. El-Moursi and A. M. Sharaf, “Novel controllers for the 48-pulse VSC STATCOM and SSSC for voltage regulation and reactive power compensation,” IEEE Trans. Power Syst., vol. 20, no. 4, pp. 1985–1997, Nov. 2005.

C. W. Taylor, “The future in on-line security assessment and wide area stability control,” in Proc. IEEE Power Eng. Soc. Winter Meeting, 2001, pp. 78–83.

C. W. Taylor, M. V. Venkata subramanian, and Y. Chen, “Wide-area stability and voltage control,” in Proc. Symp. Elect Oper Expansion Planning, 2000, vol. 1, pp. 1–9.