Abstract
A novel frequency compensation technique, named Regular Miller plus Reversed Indirect Compensation (RMRIC), is presented in this paper for fast-settling three-stage amplifiers. The RMRIC topology includes, on the one hand, a Miller capacitor combined with one nulling resistor connected between the first stage and the third stage, and on the other hand, an indirect compensation capacitor in series with a resistor added between the first and the second stage, which improves remarkably the performance such as gain---bandwidth product (GBW) and sensitivity of the proposed amplifier. Detailed design considerations are carried out to demonstrate the stability of the compensation technique. Circuit simulation results show the amplifier driving a 2-pF load capacitance achieves a 9.25-GHz GBW dissipating only 16.5 mW with a 1.2 V supply voltage using a TSMC 65 nm CMOS technology, which shows a significant improvement in figure of merits. The implemented amplifier reaches a settling time of 3.35 ns with 0.006 % accuracy.
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