Abstract

This brief presents a low-computational, flexible nonbinary searching technique for high-speed successive approximation register (SAR) analog-to-digital converters (ADCs). By embedding the redundant weights into each capacitor branch of digital-to-analog converter (DAC) array, the conventional binary DAC array is customized as a nonbinary DAC array without additional control logics, resulting in fast conversion and negligible overhead. The weight of each branch could be defined flexibly with certain constraints, which is derived in this brief. Moreover, the nonbinary output codes are encoded to binary codes by adder-based encoding logics that show far less power and area penalty. To demonstrate the proposed nonbinary searching technique, a 10-bit 280-MS/s high-speed SAR-ADC is presented, which achieved an signal-to-noise-distortion ratio of 52.4 dB and a figure of merit of 21 fJ/conversion step.