A 0.8-V 250-MSample/s Double-Sampled Inverse-Flip-Around Sample-and-Hold Circuit Based on Switched-Opamp Architecture

摘要

This paper proposes a low-voltage high-speed sample-and-hold (S/H) structure with excellent power efficiency. Based on the switched-opamp technique, an inverse-flip-around architecture which maximizes the feedback factor is employed in the proposed S/H. A skew-insensitive double-sampling mechanism is presented to increase the throughput by a factor of two while eliminating the timing mismatch associated with double-sampling circuits. Furthermore, a dual-input dual-output opamp is proposed to incorporate double-sampling into the switched-opamp based S/H. This opamp also removes the memory effect in double-sampling circuitry and features fast turn-on time to improve the speed performance in switched-opamp circuits. Simulation results using a 0.13-μm CMOS process model demonstrates the proposed S/H circuit has a total-harmonic-distortion of -67.3 dB up to 250 MSample/s and a 0.8Vpp input range at 0.8 V supply. The power consumption is 3.5 mW and the figure-of-merit is only 7.4 fJ/step.