Alireza Zandieh, Naftali Weiss, Thelinh Nguyen, David Haranne, S. Voinigescu
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引用次数: 16
摘要
提出了一种输入带宽为60ghz的6 ~ 8位128-GS/s SAR ADC结构的模拟前端。它包括数据路径、25%占空比dc- 32ghz正交时钟发生器、4个主电路和32个从电路,由CMOS系列开关组成。32个从CMOS t&h中的每一个驱动$\pmb{50}-\Omega$输出缓冲器(用于测试)或30-fF保持电容器,代表32个SAR子adc中的每一个提供的负载。为了实现创纪录的带宽和采样率,数据分配网络和单端差分时钟放大器使用新颖的0.8 v n-MOS和1.2 v p-MOS Cherry-Hooper缓冲器,具有良好的共模和100 GHz以上的电源抑制,通过小信号和大信号测量验证。32ghz正交时钟发生器采用新颖的80ghz输入带宽、0.8 V准cml静态分频器和感应峰值CMOS逻辑电路实现。模拟前端的总功耗为320兆瓦,其中数据采样交织器消耗120兆瓦,时钟产生单元消耗200兆瓦。它占用的总模具面积为$\mathbf{0.65}\ \mathbf{mm}\乘以\mathbf{0.37}\ \mathbf{mm}$。
128-GS/s ADC Front-End with Over 60-GHz Input Bandwidth in 22-nm Si/SiGe FDSOI CMOS
The analog front-end of a 6-to-8 bit 128-GS/s SAR ADC architecture with record 60-GHz input bandwidth is presented. It includes the data path, 25% duty-cycle dc-32 GHz quadrature clock generator, 4 master, and 32 slave track-and-hold (T&H) circuits formed with CMOS series switches. Each of the 32 slave CMOS T&Hs drives either a $\pmb{50}-\Omega$ output buffer (for testing) or a 30-fF hold capacitor, representative of the load provided by each of the 32 SAR sub-ADCs. To achieve record bandwidth and sampling rate, the data distribution network and the single-ended-to-differential clock amplifier use novel 0.8-V n-MOS and 1.2-V p-MOS Cherry-Hooper buffers with good common-mode and supply rejection beyond 100 GHz, validated through small-and large-signal measurements. The 32-GHz quadrature clock generator is realized with a novel 80-GHz input bandwidth, 0.8- V quasi-CML static divider, followed by inductively-peaked CMOS logic circuits. The total power consumption of the analog frontend is 320 mW of which 120 mWare consumed by the data sampling interleaver and 200 mW bv the clock generation unit. It occupies a total die area of $\mathbf{0.65}\ \mathbf{mm}\times \mathbf{0.37}\ \mathbf{mm}$.
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