Modelling and Analysis of 3-Phase Inverter for Grid Connected Solar PV system with Harmonic Compensation

S. A. Lakshmanan; Amit Jain; B. S. Rajpourhit

doi:10.33686/prj.v10i1.189504

Modelling and Analysis of 3-Phase Inverter for Grid Connected Solar PV system with Harmonic Compensation

S. A. Lakshmanan ¹, Amit Jain ², B. S. Rajpourhit ³

Affiliations
1 IIT Mandi and Central Power Research Institute, Bangalore-560080, India
2 Central Power Research Institute, Bangalore-560080, India
3 School of Computing & Electrical Engg, IIT Mandi, India

Renewable Energy Sources (RES) are getting a great attention due to ever increasing power demand, environmental issues, and thrust toward sustainable development. The power produced from the RES like solar, wind etc. is used by the stand alone system or the feed into the electric grid. In this paper a 3-phase Voltage Source Inverter (VSI) is modeled and analyzed for grid connected Solar Photovoltaic (SPV) system. Mathematical model of three phase VSI and LC filter circuits are derived using state space analysis and Sinusoidal Pulse Width Modulation (SPWM) technique is proposed for 3-phase VSI. Harmonic elimination is done in VSI using by Pulse Width Modulation (PWM) technique by solving the non-linear equations that are used to determine switching angles of an inverter. The switching angle plays an important role to produce desired output by eliminating selected harmonics. The VSI is simulated using MATLAB/Simulink platform and harmonic elimination is done by considering bipolar switching case of the inverter. Various simulation results are presented to demonstrate the operation of the inverter. The harmonic spectrum analysis is carried out and discussed for the proposed harmonic elimination method