This paper proposes an all-digital general pulse-width modulator (ADGPWM) that is an improvement of the general pulse-width modulator (GPWM). The ADGPWM allows overmodulation and negative carrier and reference signals to be managed. The proposed all-digital implementation is suited both to serial/concurrent data processing platforms and to integrated circuit implementation, to realize several control algorithms for switching power converters. The VHDL design of the ADGPWM is synthesized and tested on a board which is based on a commercial field-programmable-gate-Array (FPGA). Several details of the all-digital implementation are discussed thoroughly and experimental results are given in order to assess its validity. © 2014 IEEE.
Design and FPGA implementation of an all-digital two-quadrant general pulse-width modulator
Di Piazza MC;Luna M;Vitale G
2014
Abstract
This paper proposes an all-digital general pulse-width modulator (ADGPWM) that is an improvement of the general pulse-width modulator (GPWM). The ADGPWM allows overmodulation and negative carrier and reference signals to be managed. The proposed all-digital implementation is suited both to serial/concurrent data processing platforms and to integrated circuit implementation, to realize several control algorithms for switching power converters. The VHDL design of the ADGPWM is synthesized and tested on a board which is based on a commercial field-programmable-gate-Array (FPGA). Several details of the all-digital implementation are discussed thoroughly and experimental results are given in order to assess its validity. © 2014 IEEE.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
