International Journal of Electrical Power System and Technology

Open Access  Subscription or Fee Access

In this paper, we examine a bus system as a load to extract maximum obtainable power on it from three phase PWM cycloconverter module. We also use the concept of Maximum Power Point Tracking (MPPT) control through which the efficiency can be improved. The main objective of this case study is to observe the behavior of given bus system when it is applied as a load in MPPT controlled three phase model of PWM cycloconverter. We implement the P&O algorithm of maximum power tracking in the present module. The cycloconverter is examined in its most basic form with MPPT control straightly without additional output filters or other complicated control techniques. The operating conditions includes MPPT output, load voltage, load current of bus system load along with the parameter of bridge module used for it. The scope of the paper covers ode45 calculations in MATLAB simulations, as well as a hardware implementation. By using similar concept the estimation can be made for the cycloconverter with the proper control of circuit such as MPPT in order to get higher power at output i.e. in bus system for this case study.

Additionally, the proposed scheme provides more suitable and basic feedback controlling scheme with good efficiency

Palani K. Power quality analysis of a three-phase cycloconverter under variable operating condition. Submitted M.Sc.(EE) thesis by California Polytechnic State University, San Luis Obispo. 2010 June.

Hara H., Kang, Yamamoto E. et al. PWM cycloconverter. US Patent Application Publication, US 20070081369Al. 2007 Apr. 12.

Koyama M. High frequency link dc/ac converter with PWM cycloconverter for UPS. IPEC’90, 1990; 748–54p.

McMurray M. The Theory and Design of Cycloconverters. The MIT Press. 1972.

Maamoun, A. Development of cycloconverters. Canadian Conference on Electrcal and Computer Engineering. IEEE CCECE. 2003; 1(4-7): 521–4p.

Femia N., Granozia D., Petrone G. et al. Predictive and adaptive MPPT perturb and observe method. IEEE Trans. Aerosp. Electron. Syst. 2007; 43(3): 934–50p.

Begag S., Belhaouchet N., Rahmani L. Three-phase PWM rectifier with constant switching frequency. Third International Conference ICEE-2009, Journal of Electrical Systems. 2009; 1: 07–12p.

Chung D.W. Minimum-loss strategy for three-three- phase PWM rectifier. IEEE Transactions On Industrial Electronics. 1999; 46(3).

Rashid M. H. Power Electronics: Circuits, Devices and Operations. Book of PHI publisher.

Yasir M., Khan F., Siddiqui F. Modelling Of PV array with MPP tracking & boost DC-DC converter. IOSR-JEEE. 2015; 10(1): 00-00p