Proceedings Article10.1109/ISSCC.2010.5433830
A 12b 22.5/45MS/s 3.0mW 0.059mm 2 CMOS SAR ADC achieving over 90dB SFDR
Wenbo Liu,Pingli Huang,Yun Chiu +2 more
- 18 Mar 2010
- pp 380-381
169
TL;DR: A sub-radix-2 SAR ADC is presented, which employs a perturbation-based digital background calibration scheme and a dynamic-threshold-comparison (DTC) technique to overcome some of the performance-limiting factors for SAR ADC.
read more
Abstract: CMOS technology scaling has opened a pathway to high-performance analog-to-digital conversion in the nanometer regime, where switching is preferred over amplifying. Successive-approximation-register (SAR) is one of the conversion architectures that rely on the high switching speed of process technology, and is thus distinctively known for its superior energy efficiency, small chip area, and good digital compatibility. When properly implemented, a SAR ADC also benefits from a potential rail-to-rail input swing, 100% capacitance utilization during input sampling (thus low kT/C noise), and insensitivity to comparator offsets during the conversion process. The linearity-limiting factors for SAR ADC are capacitor mismatch, sampling switch non-idealities, as well as the reference voltage settling issue due to the high internal switching speed of the DAC. In this work, a sub-radix-2 SAR ADC is presented, which employs a perturbation-based digital background calibration scheme and a dynamic-threshold-comparison (DTC) technique to overcome some of these performance-limiting factors.
read more
Chat with Paper
AI Agents for this Paper
Find similar papers on Google Scholar, PubMed and Arxiv
Write a critical review of this paper
Analyze citations of this paper to find unaddressed research gaps
Citations
Design considerations of calibration DAC in self-calibrated SAR A/D converters
Lei Sun,Kong-Pang Pun +1 more
TL;DR: This paper is the first to present a systematic analysis on the relationships between the number of bits, the unit capacitor value and even the parasitic capacitors of the CDAC, as these factors affect or are determined by the achievable ADC resolution, the main DAC's capacitance, and themain DAC unit capacitance value, etc.
3
Digital Adaptive Calibration of Data Converters Using Independent Component Analysis
Yun Chiu
- 01 Jan 2015
TL;DR: The theory and practice of applying a neural network model and learning algorithm—Independent Component Analysis (ICA)—to the online adaptive calibration of analog-to-digital converters (ADCs) is covered in this chapter.
3
A 12b 100 MS/s Three-Step Hybrid Pipeline ADC Based on Time-Interleaved SAR ADCs
Jun-Sang Park,Tai-Ji An,Suk-Hee Cho,Yong Min Kim,Gil-Cho Ahn,Ji-Hyun Roh,Mun-Kyo Lee,Sun-Phil Nah,Seung-Hoon Lee +8 more
TL;DR: This work proposes a 12b 100 MS/s 0.11 m CMOS three-step hybrid pipeline ADC for high- speed communication and mobile display systems requiring high resolution, low power, and small size.
3
Hybrid Data Converters
Kostas Doris
- 01 Jan 2018
TL;DR: This work illustrates the broad and multidimensional nature of hybrid converters which reflects an optimal design policy going beyond the limiting boundaries of “the combination of known architectures” and the analog to digital converter itself.
3
References
Background calibration techniques for multistage pipelined ADCs with digital redundancy
Jipeng Li,Un-Ku Moon +1 more
TL;DR: The proposed digital background calibration scheme, applicable to multistage analog-to-digital converters (ADCs), corrects the linearity errors resulting from capacitor mismatches and finite opamp gain and significantly improves the efficiency of the digital correlation.
"Split ADC" architecture for deterministic digital background calibration of a 16-bit 1-MS/s ADC
John A. McNeill,Michael C. W. Coln,B.J. Larivee +2 more
- 29 Aug 2005
TL;DR: For original article by J. McNeill et al, see ibid.
218
A 600MS/s 30mW 0.13µm CMOS ADC array achieving over 60dB SFDR with adaptive digital equalization
Wenbo Liu,Yuchun Chang,Szu-Kang Hsien,Bo-Wei Chen,Yung-Pin Lee,Wen-Tsao Chen,Tzu-Yi Yang,Gin-Kou Ma,Yun Chiu +8 more
- 29 May 2009
TL;DR: This work showcases a digital background-equalization technique to treat the path-mismatch problem as well as individual ADC nonlinearities in time-interleaved SAR ADC arrays.
90
A 0.12μm CMOS Comparator Requiring 0.5V at 600MHz and 1.5V at 6GHz
Bernhard Goll,Horst Zimmermann +1 more
- 18 Jun 2007
TL;DR: This comparator has 2 active-load PMOS transistors that can be used to reset the output nodes to the supply level and an NMOS transistor added in the clock line controls the active loads to avoid additional reset switches and continuously biased load transistors.
54