A high‐resolution hybrid digital pulse width modulator with dual‐edge‐triggered flip‐flops and hardware compensation

Abstract

SummaryIn this paper, a hybrid architecture of digital pulse width modulator (DPWM) which applies a counter, a phase‐shifted circuit, and a carry chain is proposed. Dual‐edge‐triggered flip‐flops are used in the phase‐shifted circuit to generate signals with 45° phase shift, which not only improves the resolution of the DPWM but also reduces the resource consumption in the carry chain. Furthermore, a hardware compensation method is used to solve the duty cycle increment phenomenon that affects the regulation accuracy of converter. An 11‐bit DPWM with the proposed architecture is implemented and tested by Xilinx Artix‐7 FPGA. The experimental results show a high resolution of 32 ps and a good linearity where R2 is 0.99 and verify the effect of duty cycle compensation.