A Time-Domain Comparator Based Skipping-Window SAR ADC

Abstract: This paper presents an energy efficient successive-approximation register (SAR) analog-to-digital converter (ADC) for low-power applications. To improve the overall energy-efficiency, a skipping-window technique is used to bypass corresponding conversion steps when the input falls in a window indicated by a time-domain comparator, which can provide not only the polarity of the input, but also the amount information of the input. The timedomain comparator, which is based on the edge pursing principle, consists … Show more

“…Due to the technology scaling, the operating voltage is getting lower and lower, which challenges the design of traditional analog voltage-based ADC [8] but benefits the time-based digital circuits [9,10]. As a voltage-to-frequency converter, VCO quantizer (VCOQ) can realize phase-based quantization, avoid the restriction of reduced power supply voltage [11], and becomes one of the representatives of time-based quantizer [12][13][14].…”

A 78-MHz BW Continuous-Time Sigma-Delta ADC with Programmable VCO Quantizer

“…Due to the technology scaling, the operating voltage is getting lower and lower, which challenges the design of traditional analog voltage-based ADC [8] but benefits the time-based digital circuits [9,10]. As a voltage-to-frequency converter, VCO quantizer (VCOQ) can realize phase-based quantization, avoid the restriction of reduced power supply voltage [11], and becomes one of the representatives of time-based quantizer [12][13][14].…”

A 78-MHz BW Continuous-Time Sigma-Delta ADC with Programmable VCO Quantizer

A 62.5MHz Bandwidth Third-Order VCO-based Sigma-Delta ADC with a Hybrid Architecture