A Practical Guide for Simulation and FPGA Implementation of Digital DesignFPGA Applications in Renewable Energy Systems: Photovoltaic, Wind-Turbine and Hybrid Systems
A Practical Guide for Simulation and FPGA Implementation of Digital Design: FPGA Applications in...
Hajji, Bekkay; Mellit, Adel; Bouselham, Loubna
2022-03-22 00:00:00
[This part aims to present some examples of FPGA applications in photovoltaic and hybrid-photovoltaic systems. The chapter covers mainly four applications: (1) FPGA-based simulation of intelligent photovoltaic module, (2) FPGA-based implementation of irradiance equalization algorithm for reconfigurable photovoltaic (PV) arrays, (3) FPGA-based implementation of maximum power point tracking algorithms for PV mdules, (4) and FPGA-XSG-based implementation control of grid-connected hybrid system (PV-WT). Examples presented are written under ISE 14.7, Quartus II and Xilinx System Generator DSP Matlab/Simulink environments. Four FPGA boards have been employed (Xilinx II pro, Spartan 3E, Cyclone II and Zinq-7000) for real time implementation and co-simulation. Basic skills and knowledge on Xilinx ISE design suite, Intel Quartus, ModelSim and Matlab/Simulink environments are required as well VHDL language.]
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A Practical Guide for Simulation and FPGA Implementation of Digital DesignFPGA Applications in Renewable Energy Systems: Photovoltaic, Wind-Turbine and Hybrid Systems
[This part aims to present some examples of FPGA applications in photovoltaic and hybrid-photovoltaic systems. The chapter covers mainly four applications: (1) FPGA-based simulation of intelligent photovoltaic module, (2) FPGA-based implementation of irradiance equalization algorithm for reconfigurable photovoltaic (PV) arrays, (3) FPGA-based implementation of maximum power point tracking algorithms for PV mdules, (4) and FPGA-XSG-based implementation control of grid-connected hybrid system (PV-WT). Examples presented are written under ISE 14.7, Quartus II and Xilinx System Generator DSP Matlab/Simulink environments. Four FPGA boards have been employed (Xilinx II pro, Spartan 3E, Cyclone II and Zinq-7000) for real time implementation and co-simulation. Basic skills and knowledge on Xilinx ISE design suite, Intel Quartus, ModelSim and Matlab/Simulink environments are required as well VHDL language.]
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