Abstract
This study describes a 10-bit 160 MS/s asynchronous successive approximation register (SAR) analog-to-digital converter (ADC) design in a 40 nm CMOS technical process. The SAR ADC is provided with an improved capacitive digital-to-analog converter (CDAC), and the capacitor array is featured by six split high-bit capacitors and a combination of splitting and monotonic switching schemes. This structure and switching scheme can both save power and improve speed while introducing negligible common-mode voltage change. An improved double-tail comparator and TSPC D flip-flops are implemented to further enhance the speed. Simulation results show that the ADC achieves SFDR 72.17 dB, SNDR 61.37 dB, and ENOB 9.90 bits at Nyquist input frequency. The power consumption of the ADC under a 1.2 V power supply is 2.808 mW, achieving 18.4 fJ/conv FoM.
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