Title :
Comparison of SVPWM and SVM controlled smart VSI fed PMSG for wind power generation system
Author :
Arunkumaran, B. ; Rajan, V. Raghavendra ; Ajin Sekhar, C.S. ; Tejesvi, N. ; Sasikumar, M.
Author_Institution :
Dept. of EEE, Aarupadai Veedu Inst. of Technol., Chennai, India
Abstract :
SVPWM and SVM controlled smart VSI fed PMSG consisting of three phase diode bridge rectifier and three phase IGBT bridge inverter is proposed in the paper. SVM control strategy is used to control the inverter voltage. The ripple free output waveform is provided by SVPWM and so it is most desired. In the conventional method they SVPWM is used to control the inverter. For the same system SVM controlled VSI is applied and the THD level is analysed. It is found to be less when compared to SPWM control method. The comparison of both conventional as well as proposed model was verified and analysed using MATLAB simulation and 800W experimental setup.
Keywords :
PWM invertors; PWM rectifiers; insulated gate bipolar transistors; power generation control; power semiconductor diodes; voltage control; wind power plants; MATLAB simulation; SVM controlled smart VSI fed PMSG; SVPWM controlled smart VSI fed PMSG; inverter voltage control; permanent-magnet synchronous generator; power 800 W; ripple free output waveform; space vector pulse width modulation; three phase IGBT bridge inverter; three phase diode bridge rectifier; wind power generation system; wind-energy-conversion system; Rotors; Stators; Support vector machines; Switches; Voltage control; Wind turbines; Permanent-magnet synchronous generator (PMSG); SVPWM-space vector pulse width modulation; rectifier; wind-energy-conversion system (WECS);
Conference_Titel :
Emerging Trends In New & Renewable Energy Sources And Energy Management (NCET NRES EM), 2014 IEEE National Conference On
Print_ISBN :
978-1-4799-8193-9
DOI :
10.1109/NCETNRESEM.2014.7088771
