A low power reconfigurable ADC for bioimpedance monitroing system

Abstract

This article introduces a re-configurable pipeline analog-to-digital converter (ADC) deliberated for implantable surveillance devices for bio-impedance monitoring systems. To improve the efficiency of the bio-impedance method, an automatic adaptation circuit is introduced. This adaptive unit is responsible for setting the resolution and sampling rate on the basis of amplitude and frequency of the signal. Using a new, low-power automatic adaptation circuit low power consumption is achieved by using Dynamic Threshold metal oxide semiconductor (DTMOS) technique, it can automatically determine its setup. The converter has two modes of operations. In high-resolution mode, the converter has a 12-bit resolution and at low resolution mode, 8-bit resolution is used. The ADC bandwidth of low-speed mode is 100 kHz and high-speed mode is 1 GHz. The architecture is designed using 180 nm technology and simulated using Cadence virtuoso tool. The results achieved, low power consumption i.e. 0.844 mw, and it is operated with 1 V power supply. For signal to noise and distortion ratio (SNDR), effective number of bits (ENOB), the converter utilizes 71.06 dB, 11.45 in 12-bit and 72.3 dB, 7.41 in 8-bit mode respectively. By using proposed method around 20% of power consumption is reduced and 40% power supply is decreased. The proposed design is also used for mixed signal circuit testing.