A 12-Bit Two-Step SAR ADC with Linearized Open-Loop Amplifier

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A 12-Bit Two-Step SAR ADC with Linearized Open-Loop Amplifier

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title A 12-Bit Two-Step SAR ADC with Linearized Open-Loop Amplifier
creator Cai, Yongda
contributor.advisor Chiu, Yun
contributor.committeeMember K. O, Kenneth
contributor.committeeMember Henderson, Rashaunda
description.abstract Successive approximation register analog to digital converter (SAR ADC), which mostly consists of digital components, is becoming more and more popular in recent years as it is power efficient and friendly to process scaling. However, the two-step structure, which is widely used for medium or high-resolution SAR ADCs, usually contains a closed-loop residue amplifier that is not friendly to technology scaling. As transistors continue to scale, the intrinsic gain of transistors and supply voltage drop, which post challenges on the design of high gain amplifiers for the closed-loop residue amplifier. To ease the amplifier design in advanced processes, a linearized open-loop amplifier with expansive loading compensation is explored in this project as a residue amplifier. The incomplete settling technique is also employed in the design to lower the power consumption of the amplifier. Schematic simulation in GF65nm shows that the ADC achieves 65dB SNDR, 88dB SFDR while consuming 5mW at the sampling rate of 400MS/s.
identifier.uri http://hdl.handle.net/10735.1/5780
subject Successive approximation analog-to-digital converters
subject Transistor amplifiers
format.mimetype application/pdf
date.created 2017-05
date.issued 2017-05
date.submitted May 2017
date.updated 2018-05-31T17:42:35Z
rights ©2017 The Author. Digital access to this material is made possible by the Eugene McDermott Library. Further transmission, reproduction or presentation (such as public display or performance) of protected items is prohibited except with permission of the author.
language.iso en

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