Litcius/Paper detail

9.5 A 13.5b-ENOB Second-Order Noise-Shaping SAR with PVT-Robust Closed-Loop Dynamic Amplifier

Xiyuan Tang, Xiangxing Yang, Wenda Zhao, Chen-Kai Hsu, Jiaxin Liu, Linxiao Shen, Abhishek Mukherjee, Wei Shi, David Z. Pan, Nan Sun

202061 citationsDOI

Abstract

Noise shaping (NS) SAR ADCs combine the merits of SAR and Δσ ADCs, and can simultaneously achieve high power efficiency and high resolution. The key operation in an NS SAR is the residue integration. One way to implement it is to use a conventional closed-loop OTA [1]-[2]. It is robust against PVT variation and can realize a sharp noise transfer function (NTF), but it consumes static power and is does not scale easily. Another way is to use a passive filter [3]-[4]. It does not consume any static current, but its NTF is less aggressive. Moreover, because the gain of a passive filter is low, its suppression of the comparator noise is weak. An open-loop dynamic amplifier (DA) can be placed before the passive filter to reduce noise and power, but its gain varies with PVT [5]-[6]. To ensure stability, the NTF needs to be mild, which limits the NS performance [5], or background calibration has to be used, which increases the design complexity and requires a large number of samples to converge [6]. In addition, without complete settling, the gain of an open-loop DA is sensitive to timing error, e.g. clock jitter.

Topics & Concepts

Electronic engineeringNoise (video)AmplifierJitterControl theory (sociology)Computer scienceTransfer functionComparatorNoise powerOpen-loop gainEffective number of bitsFilter (signal processing)Bandwidth (computing)EngineeringPower (physics)Operational amplifierElectrical engineeringPhysicsTelecommunicationsVoltageCMOSControl (management)Image (mathematics)Quantum mechanicsArtificial intelligenceAnalog and Mixed-Signal Circuit DesignAdvancements in Semiconductor Devices and Circuit DesignCCD and CMOS Imaging Sensors