1. Compulsory Islanding Transition Strategy Based on Fuzzy Logic Control for a Renewable Microgrid System
- Author
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Baoan Wang, Wei Hua, and Jiexing Wan
- Subjects
Article Subject ,Computer science ,020209 energy ,General Mathematics ,020208 electrical & electronic engineering ,General Engineering ,Thyristor ,02 engineering and technology ,Engineering (General). Civil engineering (General) ,Analog signal ,Control theory ,QA1-939 ,0202 electrical engineering, electronic engineering, information engineering ,Islanding ,Transient (oscillation) ,Microgrid ,TA1-2040 ,Mathematics ,Voltage reference ,Polarity (mutual inductance) ,Voltage - Abstract
Advantages of microgrid integrated with a renewable energy system have been acknowledged in more and more applications. Operating steadily during different modes is of great significance, and different modes transferring must be transient, seamless, and reliable to maintain the continuous electricity supply for loads, especially sensitive ones. As a semicontrolled switch that is unable to shut instantly until the zero point of its current, thyristors should be forced to be turned off by certain strategies to minimise the influence brought by the delay of modes transferring. In this paper, a compulsory turn-off strategy based on fuzzy logic control of converter output voltage is proposed. With the strategy, an alterable reverse voltage is applied across the conducting thyristor by dynamically adjusting the output voltage reference instruction and closed-loop control parameters depending on the changing rate rather than detecting the polarity of voltage or current. Constraints from acquisition of analog data and error of digital calculation will be eliminated. Finally, simulation and experimental results verify the effectiveness of the proposed strategy.
- Published
- 2021
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