The FPGA represents a valid solution for the design and implementation of control systems for inverters adopted in many fields of power electronics because of its high flexibility of use. This paper presents an overview and an experimental validation of the MC SPWM techniques for a three-phase, five-level, cascaded H-Bridge inverter with FPGA controller-based. Several control algorithms are here implemented by means of the VHDL programming language and the output voltage waveforms obtained from the main PWM techniques are compared in terms of THD%. Simulation and experimental results are analyzed, compared and discussed.
Schettino, G., Benanti, S., Buccella, C., Caruso, M., Castiglia, V., Cecati, C., et al. (2017). Simulation and experimental validation of multicarrier PWM techniques for three-phase five-level cascaded H-bridge with FPGA controller. INTERNATIONAL JOURNAL OF RENEWABLE ENERGY RESEARCH, 7(3), 1383-1394.
Simulation and experimental validation of multicarrier PWM techniques for three-phase five-level cascaded H-bridge with FPGA controller
Schettino, Giuseppe;BENANTI, SALVATORE;CARUSO, Massimo;CASTIGLIA, VINCENZO JUNIOR;DI TOMMASO, Antonino Oscar;MICELI, Rosario;ROMANO, Pietro;VIOLA, Fabio
2017-01-01
Abstract
The FPGA represents a valid solution for the design and implementation of control systems for inverters adopted in many fields of power electronics because of its high flexibility of use. This paper presents an overview and an experimental validation of the MC SPWM techniques for a three-phase, five-level, cascaded H-Bridge inverter with FPGA controller-based. Several control algorithms are here implemented by means of the VHDL programming language and the output voltage waveforms obtained from the main PWM techniques are compared in terms of THD%. Simulation and experimental results are analyzed, compared and discussed.
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