Design and Analysis of Modified Strong Arm Latch Comparator with Reduced Kickback Noise

Abstract

This research paper introduces three techniques to reduce kickback noise in the Strong Arm Latch Comparator (SAL). The first technique focuses on utilizing high clock power and generating two clocks with different duty cycles. While initially addressing the issue by applying a single clock to the kickback-reducing circuit, the reduction of kickback noise did not meet the desired level. To overcome this limitation, a new design is proposed, incorporating a delay in the programmability of the kickback-reducing circuit, which effectively eliminates the need for kickback and clock requirements. A comparative study is conducted, evaluating all the designs, including the proposed design, based on power, delay, and analysis of various types of noise. Results show that the proposed technique outperforms other kickback-reducing designs in terms of propagation latency, power consumption, and kickback currents. Additionally, the impact of a comparator’s common-mode voltage (Vcm) on its performance in TSMC 180 nm CMOS technology is demonstrated using the Cadence Schematic Editor tool.