A Low-Power High-Speed Comparator for Precise Applications

Abstract

A low-power comparator is presented. pMOS transistors are used at the input of the preamplifier of the comparator as well as the latch stage. Both stages are controlled by a special local clock generator. At the evaluation phase, the latch is activated with a delay to achieve enough preamplification gain and avoid excess power consumption. Meanwhile, small cross-coupled transistors increase the preamplifier gain and decrease the input common mode of the latch to strongly turn on the pMOS transistors (at the latch input) and reduce the delay. Unlike the conventional comparator, the proposed structure let us set the optimum delay for preamplification and avoid excess power consumption. The speed and the power benefits of the comparator were verified using solid analytical derivations, process–VDD–temperature corners, and Monte Carlo simulations along with silicon measurements in $0.18~\mu \text{m}$ . The tests confirm that the proposed circuit reduces the power consumption by 50% and provides 30% better comparison speed at the same offset and almost the same noise budgets. Moreover, the comparator provides a rail-to-rail input $V_{\text {cm}}$ range in $f_{\text {clk}} = 500$ MHz.