Glitch Energy Reduction and SFDR Enhancement Techniques for Low-Power Binary-Weighted Current-Steering DAC

Fang-Ting Chou; Chung-Chih Hung

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Glitch Energy Reduction and SFDR Enhancement Techniques for Low-Power Binary-Weighted Current-Steering DAC

机译：低功耗二进制加权电流控制DAC的故障抑制和SFDR增强技术

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This brief proposes a glitch reduction approach by dynamic capacitance compensation of binary-weighted current switches in a current-steering digital-to-analog converter (DAC). The method was proved successfully by a 10-bit 400-MHz pure binary-weighted current-steering DAC with a minimum number of retiming latches. The experiment results yield very low-glitch energy during major carry transitions at output, which is <;1 pVs. This brief utilizes a layout structure to improve the spurious-free dynamic range at high signal frequencies. This chip was implemented in a standard 0.18-μm CMOS technology and consumes 20.7 mW at 400 MS/s.

机译：本简介提出了一种通过电流转向数模转换器（DAC）中的二进制加权电流开关的动态电容补偿来减少毛刺的方法。该方法已通过具有最少数量的重定时锁存器的10位400 MHz纯二进制加权电流控制DAC成功证明。实验结果在输出的主要进位跃迁期间产生非常低的毛刺能量，该毛刺能量小于1 pVs。本简介利用布局结构来改善高信号频率下的无杂散动态范围。该芯片采用标准的0.18-μmCMOS技术实现，在400 MS / s的功耗为20.7 mW。

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《IEEE transactions on very large scale integration (VLSI) systems》 |2016年第6期|2407-2411|共5页
作者
Fang-Ting Chou; Chung-Chih Hung;
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作者单位

Department of Electrical and Computer Engineering, National Chiao Tung University, Hsinchu, Taiwan;

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原文格式 PDF
正文语种 eng
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关键词
Binary weighted; current switch; digital-to-analog converter (DAC); dynamic capacitance; glitch energy; glitch energy.;

机译：二进制加权;电流开关;数模转换器（DAC）;动态电容;毛刺能量;毛刺能量;

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专利

1. Random Swapping Dynamic Element Matching Technique for Glitch Energy Minimization in Current-Steering DAC [J] . Circuits and Systems II: Express Briefs, IEEE Transactions on . 2010,第5期

机译：随机导通动态元件匹配技术，可最小化电流导引DAC中的故障能量
2. The analysis and improvement of a current-steering DACs dynamic SFDR-I: the cell-dependent delay differences [J] . Tao Chen, Gielen G.G.E. IEEE transactions on circuits and systems . I , Regular papers . 2006,第1期

机译：电流导向DAC动态SFDR-I的分析和改进：取决于单元的延迟差异
3. The Analysis and Improvement of a Current-Steering DACs Dynamic SFDR-I: The Cell-Dependent Delay Differences [J] . Tao Chen, Georges G. E. Gielen IEEE Transactions on Circuits and Systems. I, Regular Papers . 2006,第1期

机译：电流控制DAC动态SFDR-I的分析和改进：取决于单元的延迟差异
4. A novel glitch reduction circuitry for binary-weighted DAC [C] . Fang-Ting Chou, Chia-Min Chen, Zong-Yi Chen, IEEE Asia Pacific Conference on Circuits and Systems . 2014

机译：用于二进制加权DAC的新型毛刺降低电路
5. A presentation and low-level energy usage analysis of two low-power architectural techniques [D] . Gavin, Peter 2015

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6. Orthopaedic and non-orthopaedic applications of a single-energy iterative metal artefact reduction technique and other metal artefact reduction techniques explained [O] . Robert Khor, Kevin Buchan, Ahilan Kuganesan, 2016

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7. The analysis and improvement of a current-steering DACs dynamic SFDR-I: the cell-dependent delay differences [O] . Gielen Georges 2006

机译：电流导向DAC动态SFDR-I的分析和改进：取决于单元的延迟差异

Glitch Energy Reduction and SFDR Enhancement Techniques for Low-Power Binary-Weighted Current-Steering DAC

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