A feedforward technique with frequency-dependent current mirrors for a low-voltage wideband amplifier

Abstract

A feedforward technique using frequency-dependent current mirrors for a low-voltage wideband amplifier is presented. In the conventional single-stage wideband amplifiers, the folded cascode structure is used. However, the common-gate transistor requires an additional V/sub DS sat/ and reduces the available output voltage range. In this study the cascode structure is avoided; instead, a frequency-dependent current mirror, whose input impedance becomes higher for a higher frequency, is used to form the feedforward path from the input of the current mirror with a feedforward capacitor. This technique is effective to improve a 100 MHz-1 GHz frequency characteristic of the amplifier. The amplifier has been fabricated using the standard 0.8 /spl mu/m CMOS process. The phase margin is improved from 46-66/spl deg/ without sacrificing the unity gain frequency of 133 MHz compared with the amplifier without this technique. The amplifier operates at 2.5 V power supply voltage and consumes 12 mW.