A VGA Linearity Improvement Technique for ECG Analog Front-End in 65nm CMOS

Abstract

This paper presents a 65[Formula: see text]nm CMOS low-power, highly linear variable gain amplifier (VGA) suitable for biomedical applications. Typical biological signal amplitudes are in the 0.5–100[Formula: see text]mV range, and therefore require circuits with a wide dynamic range. Existing VGA architectures mostly exhibit a poor linearity, due to very low local feedback loop-gain. A technique to increase the loop-gain has been explored by adding additional feedback to the tail current source of the input differential pair. Stability analysis of the proposed technique was undertaken with pole-zero analysis. A prototype of Analog Front End (AFE) has been designed to provide 25–50 dB gain, and post-layout simulations showed a 15[Formula: see text]dB reduction in the harmonic distortion for 20[Formula: see text]mV pk-pk input signal compared to the conventional architecture. The circuit occupies 3,108[Formula: see text][Formula: see text]m2 silicon area and consumes 0.43 [Formula: see text]A from a 1.2[Formula: see text]V power supply.