An enhanced dynamic bias comparator with a reference-compensated offset calibration technique is implemented in a 180 nm CMOS process. In order to reduce the delay time of the comparator, an enhanced structure is used. To reduce the power consumption, a dynamic bias technique is applied to the comparator. A novel reference-compensated offset calibration technique is introduced to achieve offset calibration. Spectre simulation results indicate that the proposed comparator achieves a delay time of 190.3 ps and an energy consumption of 324.2 fJ/comparison under operating conditions of 150 MHz and an input differential amplitude of 0.1 V, compared to a delay time of 235.5 ps and an energy consumption of 636.6 fJ/comparison for the conventional comparator. Furthermore, the application of a reference-compensated offset calibration technique facilitates a reduction in the offset voltage of the comparator from 18.1 mV to 6.3 mV.
Wang et al. (Sun,) studied this question.