首页> 外文会议>2010 Proceedings of the ESSCIRC >A 0.08 mm2, 7mW Time-Encoding Oversampling Converter with 10 bits and 20MHz BW in 65nm CMOS

【24h】

A 0.08 mm2, 7mW Time-Encoding Oversampling Converter with 10 bits and 20MHz BW in 65nm CMOS

机译：在65nm CMOS中具有10位和20MHz带宽的0.08 mm 2 7mW时间编码过采样转换器

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

This work presents an area- and power-efficient realization of a new Time-Encoding Oversampling Converter (TEOC) consisting of a 3rd-order CT loop filter and a self-oscillating PWM which displays similar performance than a standard multibit CT-ΣΔ modulator but has the complexity of a single bit design. The introduced Time-Encoding Quantizer (TEQ) is implemented inside a ΣΔ modulator by replacing a multibit quantizer. An innovative TEQ is used to overcome design issues in a 1.0V supply-voltage 65nm digital CMOS technology. The TEQ allows an exchange of amplitude-resolution by time-resolution. The approach of time-resolution alleviates the scaling difficulties of mixed-signal circuits in nano-scale technologies. The TEOC features a 63dB dynamic-range and a peak-SNDR of 61 dB over a 20MHz signal bandwidth. Clocked at 2.5GHz, the complete ADC consumes 7mW from a single 1.0V supply, including also the reference buffers. The ADC core results in an attractively small area of 0.08mm² and in a Figure-of-Merit (FoM=Pwr/2 BW 2ENOB) of 0.17pJ/conversion-step.

机译：这项工作提出了一种新的时间编码过采样转换器（TEOC）的面积和功率效率实现方法，该转换器由三阶CT环路滤波器和自激PWM组成，其性能与标准多位CT-ΣΔ调制器相似，但具有一位设计的复杂性。引入的时间编码量化器（TEQ）通过替换多位量化器在ΣΔ调制器内部实现。创新的TEQ用于克服1.0V电源电压65nm数字CMOS技术中的设计问题。 TEQ允许通过时间分辨率交换幅度分辨率。时间分辨率的方法减轻了纳米技术中混合信号电路的缩放难度。 TEOC在20MHz信号带宽上具有63dB的动态范围和61dB的SNDR峰值。完整的ADC时钟频率为2.5GHz，从1.0V单电源（包括参考缓冲器）消耗的功耗为7mW。 ADC内核的面积非常小，仅为0.08mm²，品质因数（FoM = Pwr / 2 BW 2 ^{ENOB ）为0.17pJ /转换步长。}

著录项

来源
《2010 Proceedings of the ESSCIRC 》|2010年|430-433|共4页
会议地点
作者
Prefasi Enrique; Paton Susana; Hernandez Luis; Gaggl Richard; Wiesbauer Andreas; Hauptmann Joerg;
展开▼
作者单位

展开▼
会议组织
原文格式 PDF
正文语种
中图分类电子电路 ;
关键词

相似文献

外文文献
专利

1. A 7 mW 20 MHz BW Time-Encoding Oversampling Converter Implemented in a 0.08 mm$^{2}$ 65 nm CMOS Circuit [J] . Prefasi E., Paton S., Hernandez L. Solid-State Circuits, IEEE Journal of . 2011 ,第7期

机译：一个采用0.08 mm的7 mW 20 MHz BW时间编码过采样转换器，采用65 nm CMOS电路实现。 $ ^ {2} $ 65 nm CMOS电路
2. Time-Encoding Analog-to-Digital Converters: Bridging the Analog Gap to Advanced Digital CMOS?Part 2: Architectures and Circuits [J] . Georges G.E. Gielen, Luis Hernandez, Pieter Rombouts Solid-State Circuits Magazine, IEEE . 2020 ,第3期

机译：时间编码的模数转换器：将模拟间隙桥接到高级数字CMOS？第2部分：架构和电路
3. Time-Encoding Analog-to-Digital Converters: Bridging the Analog Gap to Advanced Digital CMOS-Part 1: Basic Principles [J] . Georges G.E. Gielen, Luis Hernandez, Pieter Rombouts Solid-State Circuits Magazine, IEEE . 2020 ,第2期

机译：时间编码模数转换器：将模拟隙桥接到高级数字CMOS-第1部分：基本原则
4. A 0.08 mm2, 7mW Time-Encoding Oversampling Converter with 10 bits and 20MHz BW in 65nm CMOS [C] . Prefasi Enrique, Paton Susana, Hernandez Luis, 2010 Proceedings of the ESSCIRC . 2010

机译：在65nm CMOS中具有10位和20MHz带宽的0.08 mm 2 7mW时间编码过采样转换器
5. A 10-bit 100MHz analog -to -digital converter in 0.25μm CMOS using folding, interpolation and averaging techniques [D] . Carnu, Ovidiu. 2005

机译：使用折叠，插值和平均技术为0.25μm的10位100MHz模拟-Digital转换器
6. A 12-Bit High-Speed Column-Parallel Two-Step Single-Slope Analog-to-Digital Converter (ADC) for CMOS Image Sensors [O] . Tao Lyu, Suying Yao, Kaiming Nie, 2014

机译：用于CMOS图像传感器的12位高速列并行两步单斜率模数转换器（ADC）
7. A Wideband Supply Modulator for 20MHz RF Bandwidth Polar PAs in 65nm CMOS [O] . Shrestha, R., van der Zee, Ronan A.R., de Graauw, Anton, 2009

机译：用于65nm CMOS的20MHz RF带宽极性功率放大器的宽带电源调制器

A 0.08 mm2, 7mW Time-Encoding Oversampling Converter with 10 bits and 20MHz BW in 65nm CMOS

摘要

著录项

相似文献

相关主题

期刊订阅