Design techniques for high speed current steering DACs

机译：高速电流转向DAC的设计技术

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This paper proposes an optimized latch circuit with embedded delays and a new method to ensure robust synchronization in presence of mismatches that is very useful in the design of high-speed current steering digital to analog converters (DACs). The proposed circuit is validated as part of a 10 bit 100 MHz DAC designed using a standard 180 nm CMOS process. The measured integral nonlinearity lies between -0.42LSB and 0.68LSB and the measured differential nonlinearity is better than 0.73 LSB. The layout occupies 390 mum* 538 mum core area. The DAC operates from 3.3-V power supply and produces 16.5 mA full swing output current. At 100 MS/s, a measured spurious free dynamic range (SFDR) of 66 dB has been obtained for a 2 MHz input signal.

机译：本文提出了一种具有嵌入式延迟的优化锁存电路和一种新方法，以确保在存在不匹配的不匹配中的鲁棒同步，这在设计高速电流转换器（DAC）的高速电流转换器（DAC）方面非常有用。所提出的电路被验证为使用标准180nm CMOS工艺设计的10位100 MHz DAC的一部分。测量的整体非线性位于-0.42LSB和0.68LSB之间，测量的差分非线性优于0.73LSB。布局占用390毫米* 538毫米核心区域。 DAC从3.3V电源运行，生产16.5 mA全挥杆输出电流。在100 ms / s处，已经获得了2 MHz输入信号的测量杂散的自由动态范围（SFDR）为66dB。

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《Institute of Electrical and Electronics Engineers Northeast Workshop on Circuits and Systems 》|2007年||共4页
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CMOS integrated circuits; digital-analogue conversion; flip-flops; integrated circuit design; synchronisation; CMOS process; current 16.5 mA; digital to analog converters; embedded delays; high speed current steering DAC; integral nonlinearity; optimized latch circuit; robust synchronization; size 180 nm; spurious free dynamic range; voltage 3.3 V;

机译：CMOS集成电路;数字 - 模拟转换;触发器;集成电路设计;同步;CMOS工艺;当前16.5 mA;数字到模拟转换器;嵌入式延迟;高速电流转向DAC;整体非线性;优化的锁存电路;鲁棒同步;尺寸180 nm;杂散的自由动态范围;电压3.3 V;

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1. Redundancy-bandwidth scalable techniques for signal- independent element transition rates in high-speed current- steering DACs [J] . Lai Longqiang, Li Xueqing, Yang Huazhong International journal of circuit theory and applications . 2018 ,第5期

机译：冗余带宽可扩展技术，用于高速电流控制DAC中与信号无关的元件转换速率
2. Compensation and Calibration Techniques for Current-Steering DACs [J] . Samantha M. McDonnell, Vipul J. Patel, Luke Duncan, IEEE circuits and systems magazine . 2017 ,第2期

机译：电流导向DAC的补偿和校准技术
3. Novel Analog Calibration Technique for Current-Steering DACs' Dynamic Performance [J] . Darji Pallavi G., Parikh Chetan D. Circuits, systems, and signal processing . 2016 ,第7期

机译：用于电流控制DAC动态性能的新型模拟校准技术
4. Design Techniques for High Speed Current Steering DACs [C] . Iliasse Benamrane, Yvon Savaria IEEE North-East Workshop on Circuits and Systems . 2007

机译：高速电流转向DAC的设计技术
5. Behavioral simulation of digital to analog converters simulation of segmented current steering DAC with utilization of perfect sampling technique. [D] . Warecki, Sylwester. 2002

机译：数模转换器的行为仿真，利用完美的采样技术对分段电流控制DAC进行仿真。
6. A CMOS Current Steering Neurostimulation Array with Integrated DAC Calibration and Charge Balancing [O] . Elliot Greenwald, Christoph Maier, Qihong Wang, -1

机译：具有集成DAC校准和电荷平衡的CMOS电流控制神经刺激阵列
7. Linearization for High-Speed Current-Steering DACs Using Neural Networks [O] . Daniel Beauchamp, Keith M. Chugg 2021

机译：使用神经网络的高速电流转向DAC的线性化

Design techniques for high speed current steering DACs

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