A 0.6-V 10-bit 200-kS/s Fully Differential SAR ADC With Incremental Converting Algorithm for Energy Efficient Applications.

This paper proposes a fully differential 10-bit energy efficient successive approximation register (SAR) analog-to-digital converter (ADC) by using incremental converting method. The voltage difference of the input between two successive samples is acquired and resolved. A judge window is properly designed, and several conversion steps of significant bits could be skipped when the voltage difference is within the preset window. Thus, the power consumptions of the digital-to-analog converter (DAC), logic circuit, and comparator are greatly saved. Moreover, the differential structure also helps to suppress common mode noise and even harmonic noise. The design is implemented with a standard 0.18- \mu\textm CMOS technology. Test results show that the power consumption of the ADC with the proposed algorithm is reduced by at least 42.8% comparing to the conventional structure. The measured DNL and INL are within 0.29 LSB and 0.80 LSB, respectively. At a 0.6-V supply and a 200-kS/s sampling rate, the ADC achieves an ENOB of 9.34 and a figure-of-merit of 8.87 fJ/conv.-step. [ABSTRACT FROM AUTHOR]