A SAR ADC with Reduced kT/C Noise by Decoupling Noise PSD and BW
Zhelu Li, Arnab Dutta, Abhishek Mukherjee, Xiyuan Tang, Linxiao Shen, Lenian He, Nan Sun
Abstract
This paper presents a SAR ADC with reduced front-end sampling kT/C noise. This is achieved by using an active sampling circuit with a specially designed 2-stage amplifier that decouples the tight relationship between the sampling noise power spectral density (PSD) and BW. A 12-bit 12-MS/s prototype ADC in 40nm CMOS achieves the sampling noise power reduction by 3.5 times. It permits the use of a small sampling capacitor of only 132 fF. This relaxes the requirement on the ADC input driver and reference buffer, which can lead to significant savings in power, area, and complexity on the system level.
Topics & Concepts
Sampling (signal processing)CMOSNoise (video)Decoupling (probability)Electronic engineeringSuccessive approximation ADCNoise spectral densityCorrelated double samplingAmplifierCapacitorNoise measurementComputer scienceDecoupling capacitorNoise reductionElectrical engineeringEngineeringNoise figureVoltageFilter (signal processing)Artificial intelligenceControl engineeringImage (mathematics)Analog and Mixed-Signal Circuit DesignLow-power high-performance VLSI designECG Monitoring and Analysis