High-speed cascode cross-coupled CMOS dynamic comparator with auxiliary inverter pair

Abstract

A dynamic comparator is the core element in high-speed, high-resolution analog-to-digital converters (ADCs) used for communication applications. The majority of the dynamic comparators can only operate at high speeds when the input difference voltage is large enough. Due to the limited pre-amplifier gain, the comparators’ performance deteriorates at lower input difference voltages, which is not suitable for high-speed, high-resolution ADCs. A double-tail dynamic comparator with a pair of auxiliary inverters is proposed to alleviate this problem. With the proposed comparator, the pre-amplifier’s differential gain is increased, and the latch regeneration time is reduced by the auxiliary inverter pair resulting in faster comparison operations. The proposed comparator is designed, simulated, and compared with the latest topologies in 65 nm CMOS technology. The performance metrics such as delay, kickback noise, energy consumption per bit, rms noise, and power delay product are evaluated and compared with the state-of-the-art architectures. The proposed technique can be applied to any dynamic comparator that has differential signals at the output of the pre-amplifier stage. Simulations show that the auxiliary inverter pair improves the comparator’s speed by more than 10%.