Delta–Sigma D/A Converter Using Binary- Weighted Digital-to-Analog Differentiator for Second-Order Mismatch Shaping

Heng-Yu Jian; Zhiwei Xu; Chang M.-C.F.

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Delta–Sigma D/A Converter Using Binary- Weighted Digital-to-Analog Differentiator for Second-Order Mismatch Shaping

机译：Delta-Sigma D / A转换器使用二进制加权的数模差模具，用于二阶失配型

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A multibit digital-analog (D/A) differentiator is used in the forward correction path of a dual-truncation delta-sigma (DeltaSigma) D/A converter (DAC) to obtain the desired second-order noise-shaping function for converting mismatch-induced in-band quantization noise to out-of-band frequencies. The multibit D/A differentiator can be configured by embedding binary-weighted current-steering DAC elements into digital differentiators without concern of linearity. In simulations, the newly proposed DeltaSigma DAC is 20 dB more effective in noise reduction than widely adopted first-order noise-shaping methods under the identical mismatch conditions of DAC elements (2% in average global mismatch and 0.3% in adjacent element mismatch). This method also offers advantages of compact circuit implementation with smaller routing area and less power consumption over those of thermometer-coded or digital signal processing based counterparts with the same second-order mismatch shaping.

机译：多维测数字 - 模拟（D / A）差管用于双截断Δ-sigma（Deltasigma）D / A转换器（DAC）的正向校正路径，以获得用于转换不匹配的所需的二阶噪声整形功能 - 带带外频率的带内量化噪声。可以通过将二进制加权电流转向DAC元件嵌入数字差分器而不担心线性度来配置MultiBIT D / A差异。在仿真中，新提出的Deltasigma DAC在降噪中比在DAC元素的相同失配条件下广泛采用的一流噪声整理方法更有效（平均全球错位的2％，相邻元件不匹配为0.3％）。该方法还提供了紧凑的电路实现的优势，路由区域较小，功耗较少，在基于温度计编码或基于数字信号处理的对应物的对应部分具有相同的二阶失配塑造。

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《IEEE transactions on circuits and systems. II, Express briefs》 |2008年第1期|p.6-10|共5页
作者
Heng-Yu Jian; Zhiwei Xu; Chang M.-C.F.;
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正文语种 eng
中图分类通信;
关键词
delta-sigma modulation; digital signal processing chips; digital-analogue conversion; forward error correction; DAC elements; binary-weighted current-steering; compact circuit implementation; delta-sigma D/A converter; digital signal processing; digital-to-analog;

机译：Delta-sigma调制;数字信号处理芯片;数字 - 模拟转换;向前纠错;DAC元件;二进制加权电流转向;紧凑型电路实现;DELTA-SIGMA D / A转换器;数字信号处理;数模计;

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专利

1. Delta–Sigma D/A Converter Using Binary- Weighted Digital-to-Analog Differentiator for Second-Order Mismatch Shaping [J] . Jian H.-Y., Xu Z., Frank Chang M.-C. IEEE transactions on circuits and systems. II, Express briefs . 2008,第1期

机译：使用二进制加权数模微分器的Delta-Sigma D / A转换器用于二阶失配整形
2. Delta–Sigma D/A Converter Using Binary- Weighted Digital-to-Analog Differentiator for Second-Order Mismatch Shaping [J] . Heng-Yu Jian, Zhiwei Xu, Chang M.-C.F. IEEE transactions on circuits and systems. II, Express briefs . 2008,第1期

机译：使用二进制加权数模微分器的Delta-Sigma D / A转换器用于二阶失配整形
3. Tunable Mismatch Shaping for Quadrature Bandpass Delta-Sigma Data Converters [J] . Waqas Akram, Earl E. Swartzlander Journal of VLSI signal processing systems . 2011,第2期

机译：正交带通Delta-Sigma数据转换器的可调失配整形
4. An audio ADC delta-sigma modulator with 100 dB SINAD and 102 dB DR using a second-order mismatch-shaping DAC [C] . Fogleman, E., Welz, . 2000

机译：使用二阶失配整形DAC的音频ADCΔ-Σ调制器，具有100 dB SINAD和102 dB DR
5. The analysis and design of mismatch-shaping digital-to-analog converters. [D] . Welz, Jared Eugene. 2002

机译：形状不匹配的数模转换器的分析和设计。
6. A tight signal-band power bound on mismatch noise in a mismatch shaping digital-to-analog converter [O] . Jared Welz, Ian Galton 2004

机译：失配整形数模转换器中的失配噪声限制了一个严格的信号带功率

Delta–Sigma D/A Converter Using Binary- Weighted Digital-to-Analog Differentiator for Second-Order Mismatch Shaping

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