Low-jitter differential clock driver circuits for high-performance high-resolution ADCs

机译：适用于高性能高分辨率ADC的低抖动差分时钟驱动器电路

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High-performance analog to digital converters (ADCs) require low-jitter clocks in order to obtain high resolutions (above 12 effective bits) at high-speed operation frequencies (input frequency higher than 80MHz). In these ultra-low-jitter applications, clock driver circuits consider multi-stage architectures usually comprised by a front-end differential amplifier, and a differential-to-single (D2S) conversion in voltage mode, followed by an output digital buffer. This paper proposes an alternative to perform the D2S operation in current mode as a way to optimize the trade-offs between power consumption and output jitter. Different clock driver circuit topologies with ultra-low-jitter specifications (<; 200fs) are introduced and compared in a 0.18μm commercial CMOS process.

机译：高性能模数转换器（ADC）需要低抖动时钟，以便在高速工作频率（输入频率高于80MHz）下获得高分辨率（12个有效位以上）。在这些超低抖动应用中，时钟驱动器电路考虑了通常由前端差分放大器，电压模式下的差分至单（D2S）转换以及输出数字缓冲器组成的多级架构。本文提出了一种在电流模式下执行D2S操作的替代方法，以优化功耗与输出抖动之间的权衡。引入了具有超低抖动规格（<; 200fs）的不同时钟驱动器电路拓扑，并在0.18μm的商用CMOS工艺中进行了比较。

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《Conference on Design of Circuits and Integrated Systems》|2015年|1-4|共4页
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Juan Nunez; Antonio J. Gines; Eduardo J. Peralias; Adoracion Rueda;
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ADC; Clock recovery; flash; low jitter; low power; pipeline; ultra-low-jitter clock driver;

机译：ADC;时钟恢复;闪存;低抖动;低功耗;流水线;超低抖动时钟驱动器;

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专利

1. Design methodology for low-jitter differential clock recovery circuits in high performance ADCs [J] . Nunez Juan, Gines Antonio J., Peralias Eduardo J., Analog Integrated Circuits and Signal Processing . 2016,第3期

机译：高性能ADC中低抖动差分时钟恢复电路的设计方法
2. Universal Low-Jitter Level Shifter Drives High-Performance ADCs [J] . Robert LeBoeuf Electronic Design . 2002,第19期

机译：通用低抖动电平转换器驱动高性能ADC
3. Low-jitter on-chip clock for RSFQ circuit applications [J] . Y.Zhang, D.Gupta Superconductor Science & Technology . 1999,第11期

机译：用于RSFQ电路应用的低抖动片上时钟
4. Low-jitter differential clock driver circuits for high-performance high-resolution ADCs [C] . Juan Nunez, Antonio J. Gines, Eduardo J. Peralias, Conference on Design of Circuits and Integrated Systems . 2015

机译：低抖动速度时钟驱动电路，用于高性能高分辨率ADC
5. High-performance mmwave circuits and low-power low-jitter high-speed interface circuits in CMOS [D] . Guo, Shita. 2015

机译：CMOS中高性能MMWAVE电路和低功耗低抖动高速接口电路
6. Rigorously modeling self-stabilizing fault-tolerant circuits: An ultra-robust clocking scheme for systems-on-chip [O] . Danny Dolev, Matthias Függer, Markus Posch, -1

机译：严格建模自稳定的容错电路：片上系统的超鲁棒时钟方案
7. Design methodology for low-jitter differential clock recovery circuits in high performance ADCs [O] . Núñez, Juan, Ginés, A. J., Peralías, E., 2016

机译：高性能ADC中低抖动差分时钟恢复电路的设计方法

Low-jitter differential clock driver circuits for high-performance high-resolution ADCs

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