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Bimonthly Since 1986 |
ISSN 1004-9037
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Publication Details |
Edited by: Editorial Board of Journal of Data Acquisition and Processing
P.O. Box 2704, Beijing 100190, P.R. China
Sponsored by: Institute of Computing Technology, CAS & China Computer Federation
Undertaken by: Institute of Computing Technology, CAS
Published by: SCIENCE PRESS, BEIJING, CHINA
Distributed by:
China: All Local Post Offices
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Abstract
A novel multilevel inverter configuration design is presented to reduce switches and enhance waveform efficiency in a PV-Wind PowerSystem. The suggested device operates under binary asymmetric circumstances to create a high output voltage level with little harmonic distortion. One unipolar sinusoidal reference with fifteen carriers is utilized to generate the requisite switching pulses and provide the appropriate output voltage level. For creating the 31-level output voltage level with a total harmonic distortion (THD) value that matches the harmonic norm of IEEE 519, the suggested arrangement requires eight unipolar switches. A digital multi carrier PWM method with PI, Fuzzy, and ANN controllers is constructed in a MATLAB simulation, and the suggested system is evaluated using an experimental configuration utilizing the DSPIC30F2010 Controller.
Keyword
PV-Wind Power System, flyback converter, (ASCHBMLI) asymmetrical cascaded H Bridge multi-level inverter, DSPIC30F2010
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