Title :
A 0.8-V, 1-MS/s, 10-bit SAR ADC for Multi-Channel Neural Recording
Author :
Yonghong Tao ; Yong Lian
Author_Institution :
Bio Eng. Lab., ETH Zurich, Basel, Switzerland
Abstract :
This paper presents a 10-bit single-ended SAR ADC suitable for multi-channel neural recording. The proposed ADC introduces several power saving techniques to boost the energy efficiency. The ADC is built with on-chip common-mode buffer for input tracking, which is reused as the pre-amplifier of a current-mode comparator during conversion. A small capacitor is inserted between the amplifier and the capacitive DAC array in order to reduce the capacitive load on the amplifier. A split capacitor array with dual thermometer decoders is proposed to reduce the switching energy. Implemented in 0.13-μm CMOS technology, the ADC achieved a maximum differential nonlinearity (DNL) of -0.33/+0.56 LSB, maximum integral nonlinearity (INL) of -0.61/+0.55 LSB, effective number-of-bits (ENOB) of 8.8, and a power consumption of 9-μW.
Keywords :
CMOS digital integrated circuits; analogue-digital conversion; current comparators; low-power electronics; preamplifiers; CMOS technology; DNL; ENOB; INL; capacitive DAC array; current-mode comparator; dual thermometer decoders; effective number-of-bits; input tracking; maximum differential nonlinearity; maximum integral nonlinearity; multichannel neural recording; on-chip common-mode buffer; power 9 muW; power saving techniques; preamplifier; single-ended SAR ADC; size 0.13 mum; split capacitor array; voltage 0.8 V; word length 10 bit; Approximation methods; Arrays; Calibration; Capacitors; Noise; Power demand; Switches; ADC; SAR; analog-to-digital converter; low power; low voltage; multi-channel; successive approximation;
Journal_Title :
Circuits and Systems I: Regular Papers, IEEE Transactions on
DOI :
10.1109/TCSI.2014.2360762
