P. Francese, T. Toifl, M. Braendli, P. Buchmann, T. Morf, M. Kossel, C. Menolfi, L. Kull, T. Andersen, Hazar Yueksel
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引用次数: 6
摘要
报道了一种采用22nm SOI CMOS技术实现的16gb /s接收机。模拟前端接受从发射机侧施加的轨对轨输入共模。它由一个基线漂移补偿的无源线性均衡器组成,该均衡器将接收到的信号交流耦合到具有调节的共模电平的后续有源CTLE。可编程无源线性均衡器具有适合于低频均衡的频率响应,例如皮肤效应损耗。当其零点被编程为200mhz最小频率时,测量到的最大中频峰值为7db。接收机结构为半速率,包括一个8分接DFE和一个波特率CDR。在发射机没有FFE的情况下,0.9 Vppd的PRBS31 NRZ数据在8 GHz下通过衰减为34 dB的铜通道无差错恢复(BER< 10-12)。
A 16 Gb/s receiver with DC wander compensated rail-to-rail AC coupling and passive linear-equalizer in 22 nm CMOS
A 16 Gb/s receiver implemented in 22 nm SOI CMOS technology is reported. The analog frontend accepts a rail-to-rail input common-mode imposed from the transmitter side. It consists of a baseline wander compensated passive linear equalizer that AC-couples the received signal to the subsequent active CTLE with a regulated common-mode level. The programmable passive linear equalizer features a frequency response suitable for low-frequency equalization such as for skin-effect losses. When its zero is programmed at 200 MHz minimum frequency, the measured maximum mid-band peaking is 7 dB. The receiver architecture is half-rate and comprises an 8-tap DFE and a baud-rate CDR. With no FFE at the transmitter, 0.9 Vppd PRBS31 NRZ data are recovered error-free (BER<;10-12) across a copper channel with 34 dB attenuation at 8 GHz.
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