Subthreshold biased enhanced bulk-driven double recycling current mirror OTA

Abstract

This paper presents a single-stage bulk-driven double recycling low-voltage low-power operational transconductance amplifier (OTA) operating in subthreshold region. The proposed OTA utilizes double recycling topology and provides enough open loop voltage gain, slew rate, and unity gain frequency (UGF). The flipped voltage follower-based adaptively biased input differential pair working in class AB mode has ensured dynamic current boosting and increased slew rate. Further, the proposed OTA has utilized partial positive feedback to mitigate some of the performance reduction caused by the bulk-driven topology. The simulation results of the proposed OTA have ensured open loop gain of 79.5 dB, UGF of 37.1 kHz, and phase margin of 64°. It operates with dual power supply of ± 0.25 V and consumes low power of 60 nW. These performance parameters validate its usefulness for LV, LP and low-frequency applications. The process, voltage, and temperature variation effects on low-frequency voltage gain, UGF, and phase margin of the proposed OTA has also been investigated with process corner simulations. The proposed OTA is designed and simulated in UMC 180 nm standard n-tub bulk CMOS process technology utilizing Tanner EDA tools.