Smart controller for grid stabilization in the optoelectric system

The power generated from the optoelectric source in the conversion system and the connected system should satisfy several factors such as high efficiency, less total harmonic distortion, reduced cost, less complexity, better boosting capability, etc. The boosting capability can be achieved by means...

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Bibliographic Details
Published in:International journal of electrical engineering & education 2019-10, Vol.56 (4), p.364-373
Main Authors: Ramya, K, Ramesh Kumar, KA
Format: Article
Language:English
Subjects:
Architecture
Bias
Computer simulation
Converters
Harmonic distortion
Mathematical models
Parameters
Space vector modulation
Voltage converters (DC to DC)
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Summary:The power generated from the optoelectric source in the conversion system and the connected system should satisfy several factors such as high efficiency, less total harmonic distortion, reduced cost, less complexity, better boosting capability, etc. The boosting capability can be achieved by means of single juncture or two juncture architecture in DC–DC boost converter. Among different architecture, the Z-source riven bias inverter controls the parameter on the AC and DC sections. The steady state quantity and the time-varying parameter are regulated by controlling the intonation index. The modulation indexes are framed by digital to look at its supervision theme in grid coupled structure that has certainly not been studied so far. Hence, in this paper, the Z-source riven bias electrical converter modeling has been studied in conjunction with the decoupled space vector modulation as a control technique. The deliberate theme is studied and simulated by using a MATLAB/Simulink model to approve the analysis and simulations.
ISSN:0020-7209
2050-4578
DOI:10.1177/0020720918813807