A 10-bit 33.3-kS/s 3.2-fJ/conversion-step single-ended counter-type SAR ADC with dual 5-bit CDAC arrays and counters in 65-nm CMOS

Abstract

In this paper, an area-and-energy-efficient 10-bit single-ended (SE) counter-type (CT) analog-to-digital converter (ADC) with dual 5-bit capacitive digital-to-analog converter (DAC) arrays and dual 5-bit counters is presented. The 10-bit capacitive-DAC (CDAC) array and counter of the conventional counter-type structure are divided into two 5-bit CDAC arrays and counters, respectively. Significant improvements are achieved in comparison to the conventional counter-type ADC as follows: the capacitance of the most-significant-bit (MSB) capacitor is reduced by 96.88 % from 512C to 16C; the total capacitors are reduced by 93.75 % from 1024C to 64C; the total clock cycles required in the conversion phase are reduced by 93.94 % from 1023 to 62; the average switching energy is reduced by 98.55 % from 2390CV2 to 35CV2. The proposed ADC occupies a smaller area, performs much faster, and its power consumption is greatly reduced. This structure has a simple design with small sampling capacitor (32C) and does not require a rail-to-rail comparator compared to SAR ADCs. It is suitable for biomedical and multi-channel applications. The proposed ADC is post-layout simulated in 65-nm CMOS technology which occupies 0.016 mm2 area. This ADC has 85.43 nW power consumption, 9.64 ENOB on 33.33 kS/s sampling rate, and 3.23 fJ/conversion-step FOM.