A 14b 60 MS/s Pipelined ADC Adaptively Cancelling Opamp Gain and Nonlinearity

Miyahara Y.; Sano M.; Koyama K.; Suzuki T.

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A 14b 60 MS/s Pipelined ADC Adaptively Cancelling Opamp Gain and Nonlinearity

机译：一个14b 60 MS / s流水线ADC自适应消除运算放大器的增益和非线性

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Opamp gain and nonlinearity are adaptively cancelled in a pipelined ADC that features global zero-forcing LMS feedback. Two unique circuit concepts are incorporated into the design. One is a programmable gain element that adjusts the opamp gain and nonlinearity error, and the other is a digitally implemented oversampling quantizer that detects the error polarity with high precision. The total opamp-induced error is removed using an opamp input error monitoring algorithm, which also eliminates the opamp noise and offset. The proposed nonlinearity-cancelled bottom-plate sampling helps to realize accurate inter-stage residue transfer and to alleviate the stringent requirement in the design of high-gain wideband opamps. A 60 MS/s pipelined ADC is prototyped in 0.18 µm CMOS. The chip exhibits a 14b INL with a 91 dB SFDR at 1.6 V using a plain un-cascoded two-stage opamp.

机译：在具有全局零强制LMS反馈功能的流水线ADC中，自适应消除了运算放大器的增益和非线性。设计中引入了两个独特的电路概念。一种是可编程增益元件，可调节运算放大器增益和非线性误差，另一种是数字实现的过采样量化器，可以高精度检测误差极性。使用运算放大器输入误差监视算法消除了运算放大器引起的总误差，该算法还消除了运算放大器的噪声和失调。提出的取消非线性的底板采样有助于实现准确的级间残留物转移，并减轻了高增益宽带运算放大器设计中的严格要求。 60 MS / s的流水线ADC原型为0.18 µm CMOS。该芯片采用普通的无级联两级运算放大器，在1.6 V电压下具有14b INL和91 dB SFDR。

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来源
《IEEE Journal of Solid-State Circuits》 |2014年第2期|416-425|共10页
作者
Miyahara Y.; Sano M.; Koyama K.; Suzuki T.;
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作者单位

Asahi Kasei Microdevices, Atsugi, Japan|c|;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Adaptive cancellation; background calibration; bottom-plate sampling; capacitor-array multiplying digital-to-analog converter (MDAC); digital calibration; opamp gain and nonlinearity calibration; pipelined analog-to-digital converter (ADC); switched-capacitor amplifier;

机译：自适应消除;背景校准;底板采样;电容器阵列乘法数模转换器（MDAC）;数字校准;运算放大器增益和非线性校准;流水线式模数转换器（ADC）;开关电容器放大器;

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1. A 12-bit 60-MS/s 36-mW SHA-less opamp-sharing pipeline ADC in 130nm CMOS [J] . X. Wen, J. Chen, Y. You, Journal of instrumentation: an IOP and SISSA journal . 2016,第1期

机译：采用130nm CMOS的12位60MS / s 36mW无SHA运算放大器共享流水线ADC
2. A 75.3-dB SNDR 24-MS/s Ring Amplifier-Based Pipelined ADC Using Averaging Correlated Level Shifting and Reference Swapping for Reducing Errors From Finite Opamp Gain and Capacitor Mismatch [J] . Hung Tsung-Chih, Kuo Tai-Haur IEEE Journal of Solid-State Circuits . 2019,第5期

机译：一个基于75.3 dB SNDR 24-MS / s环形放大器的流水线ADC，采用平均相关电平转换和基准交换来减少有限的运算放大器增益和电容器不匹配引起的误差
3. A 75.3-dB SNDR 24-MS/s Ring Amplifier-Based Pipelined ADC Using Averaging Correlated Level Shifting and Reference Swapping for Reducing Errors From Finite Opamp Gain and Capacitor Mismatch [J] . Hung Tsung-Chih, Kuo Tai-Haur IEEE Journal of Solid-State Circuits . 2019,第5期

机译：基于75.3-DB SNDR 24-MS / S环形放大器的流水线ADC，使用平均相关电平移位和参考交换，用于减少有限opamp增益和电容器不匹配的误差
4. A 1V 10b 60MS/s Hybrid Opamp-Reset/Switched-RC pipelined ADC [C] . Carnes, Josh, Gil-Cho Ahn, Solid-State Circuits Conference, 2007 IEEE Asian . 2007

机译：一个1V 10b 60MS / s混合运算放大器复位/开关RC流水线ADC
5. Triple Sampling an Application to a 14b 10MS/s Cyclic ADC [D] . Sivakumar, Balasubramanian 2012

机译：对14b 10MS / s循环ADC的应用进行三次采样
6. A Highly Linear CMOS Image Sensor Design Based on an Adaptive Nonlinear Ramp Generator and Fully Differential Pipeline Sampling Quantization with a Double Auto-Zeroing Technique [O] . Chuangze Li, Benguang Han, Jie He, 2020

机译：基于自适应非线性斜坡发生器和双差分自动归零技术的全差分流水线采样量化的高度线性CMOS图像传感器设计
7. “Split-ADC ” Digital Background Correction of Open-Loop Residue Amplifier Nonlinearity Errors in a 14b Pipeline ADC [O] . John A. Mcneill, Senior Member, Sanjeev Goluguri, 2008

机译：14b流水线ADC中开环残差放大器非线性误差的“ Split-ADC”数字背景校正

A 14b 60 MS/s Pipelined ADC Adaptively Cancelling Opamp Gain and Nonlinearity

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