Proceedings Article10.1109/ASSCC.2008.4708780
A low-noise self-calibrating dynamic comparator for high-speed ADCs
Masaya Miyahara,Yusuke Asada,Daehwa Paik,Akira Matsuzawa +3 more
- 12 Dec 2008
- pp 269-272
444
TL;DR: In this paper, a low offset voltage, low noise dynamic latched comparator using a self-calibrating technique is presented, which does not require any amplifiers for the offset voltage cancellation and quiescent current.
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Abstract: This paper presents a low offset voltage, low noise dynamic latched comparator using a self-calibrating technique. The new calibration technique does not require any amplifiers for the offset voltage cancellation and quiescent current. It achieves low offset voltage of 1.69 mV at 1 sigma in low power consumption, while 13.7 mV is measured without calibration. Furthermore the proposed comparator requires only one phase clock while conventionally two phase clocks were required leading to relaxed clock. Moreover, a low input noise of 0.6 mV at 1 sigma, three times lower than the conventional one, is obtained. Prototype comparators are realized in 90 nm 10M1P CMOS technology. Experimental and simulated results show that the comparator achieves 1.69 mV offset at 250 MHz operating, while dissipating 40 muW/GHz ( 20 fJ/conv. ) from a 1.0 V supply.
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Citations
Energy-Efficient High-Speed SAR ADCs in CMOS
Lukas Kull,Thomas Toifl,Martin L. Schmatz,Pier Andrea Francese,Christian Menolfi,Matthias Braendli,Marcel Kossel,Thomas Morf,Toke Meyer Andersen,Yusuf Leblebici +9 more
- 01 Jan 2015
TL;DR: An ADC featuring a new architecture for an 8 b 64× interleaved CMOS ADC running at up to 100 GHz sampling frequency is presented, based on a SAR ADC, known for its superior energy efficiency and suitability for deep-submicron digital CMOS processes.
A wide-frequency and high-precision ZQ calibration circuit for NAND Flash memory
Y. Hai,Fei Liu,Yongshan Wang,Liyin Fu,Jian Huo +4 more
TL;DR: A wide-frequency and high-precision ZQ calibration circuit for NAND Flash memory is proposed, achieving 1.5% calibration accuracy and 3.5 ohm standard deviation in impedance calibration within 1 MHz to 200 MHz frequency range.
A 12-bit Domino ADC with a Background Offset Calibration Scheme
Yung-Hui Chung
- 01 Nov 2019
TL;DR: This study presents a background offset calibration scheme for domino analog-to-digital converters (ADCs) that helps the resolution of the domino ADC to be improved from 6-bit to 10/12-bit.
Self-Calibrated Delay-Based LSB Extraction for Resolution Improvement in SAR ADCs
Ayca Akkaya,Firat Celik,Yusuf Leblebici +2 more
- 01 Oct 2019
TL;DR: A self-calibrated least significant bit (LSB) extraction circuitry, which can be used with successive approximation register (SAR) analog-to-digital converters (ADCs) for resolution improvement.
1.2 Shape the World with Mixed-Signal Integrated Circuits - Past, Present, and Future
Alessio Savini
- 19 Feb 2023
TL;DR: In this article , the authors look back on the digitization of equipment and the mixed signal integrated circuit technology that contributed to it and discuss future developments, including future developments of ADCs and DACs.
References
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Principles of Data Conversion System Design
Behzad Razavi
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TL;DR: This advanced text and reference covers the design and implementation of integrated circuits for analog-to-digital and digital-toanalog conversion and systematically leads the reader to advanced topics, describing design issues and techniques at both circuit and system level.
A Double-Tail Latch-Type Voltage Sense Amplifier with 18ps Setup+Hold Time
Daniel Schinkel,E. Mensink,E. Kiumperink,E. van Tuijl,Bram Nauta +4 more
- 18 Jun 2007
TL;DR: A latch-type voltage sense amplifier in 90nm CMOS is designed with a separated input and cross-coupled stage, which enables fast operation over a wide common-mode and supply voltage range as discussed by the authors.
A 0.16pJ/Conversion-Step 2.5mW 1.25GS/s 4b ADC in a 90nm Digital CMOS Process
G. Van der Plas,Stefaan Decoutere,Stéphane Donnay +2 more
- 18 Sep 2006
TL;DR: A high-speed 4b flash ADC in 90nm digital CMOS is presented that uses a dynamic offset-compensation scheme in its comparators that achieves a sampling rate of 1.25GS/s with 3.7 ENOB (23.8dB SNDR) from dc to Nyquist while consuming 2.5mW.
251
An 820μW 9b 40MS/s Noise-Tolerant Dynamic-SAR ADC in 90nm Digital CMOS
Vito Giannini,Pierluigi Nuzzo,V. Chironi,Andrea Baschirotto,G. Van der Plas,Jan Craninckx +5 more
- 01 Feb 2008
TL;DR: SAR architectures have been recently demonstrated as able to achieve high power efficiency in the moderate-resolution/medium- bandwidth range, but when the comparator determines in first instance the overall performance, comparator thermal noise can limit the maximum achievable resolution.
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