With two different regions of a Load Frequency control of power systems using fuzzy logic-based controller are examined. With a load of any change in the frequency of the power system investigated how affected. Then Fuzzy Logic Controller (FLC) changes, such as what is observed in using the system. The system has two different control area power system small signal model in Matlab / Simulink computer simulation program was created. FLC in the control and Integral Controller has been using the system. This produces two different results are compared with the controller. Keywords-Fuzzy Logic Controller (FLC), multi-zone power system (MZPS).
Abstract. In this study, the realization of load and frequency control of a eight-area power system via Proportional Integral (PI), Proportional Integral Derivative (PID) and Fuzzy Logic Controllers(FLC) has been focused on. Loads connected to power systems, how the changes affect the frequency of the system, sought answers to the questions what can happen in the size of the oscillations. In addition, the rate at which the oscillations can be reduced with the use of fuzzy logic controller is studied. Five region power control system has been examinated. These regions of MATLAB / Simulink digital library are modeled in detail in the design stages of the complete system control with fuzzy logic controller is made which will be described. The results obtained using FLC, proportional-integral (PI) and proportional integral derivative controller for the performance analysis results were compared with the designed FLC. IntroductionElectrical energy is provided by different type of energy sources. The existence of the energy sources of energy production centers in different regions of transmission networks has revealed the need to connect to each other. Interconnected power transmission network that feeds into a balance of different production region is required to work simultaneously. Because load changes fastly and failures that occurred in a region severely affected in other regions. The most important of these effects comes from changes in the system bus frequency and mains voltage amplitudes. Power transmission systems are of high quality and seamless frequency and voltage values for the study of oscillations caused by load changes should extinguish quickly [1][2].
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