一种采用65nm CMOS多相采样的32- 48gb /s串行发射机

2013 IEEE International Solid-State Circuits Conference Digest of Technical Papers Pub Date : 2013-03-28 DOI:10.1109/ISSCC.2013.6487627

A. Hafez, Ming-Shuan Chen, C. Yang

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引用次数: 33

摘要

串行链路发射机广泛应用于光收发器和多千兆以太网等应用。在几十Gb/s时，比特率的工作范围较窄;受多路复用速度和串行化器最后阶段的设置和保持时间限制的限制。这种约束导致使用延迟匹配缓冲器[1]或延迟校准环路[1-2]来保证在所有PVT角上始终以所需的比特率满足时间约束。这种额外的电路增加了发射机的功率、面积和整体复杂性。与技术的固有速度相比，当数据速率很高时，时间限制和功耗损失尤为严重。

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A 32-to-48Gb/s serializing transmitter using multiphase sampling in 65nm CMOS

Serial-link transmitters are widely used in applications like optical transceivers and multi-gigabit Ethernet. At tens of Gb/s, the operating range of bit-rates is narrow; limited by the speed of the multiplexing and the setup and hold time constraints of the last stage in the serializer. This constraint leads to using delay-matching buffers [1] or delay calibration loops [1-2] to guarantee that timing constraints are always met at the desired bit-rate across all PVT corners. This additional circuitry increases power, area, and overall complexity of the transmitter. The timing constraint and power penalty are particularly severe when the data rate is high compared to the inherent speed of the technology.

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2013 IEEE International Solid-State Circuits Conference Digest of Technical Papers

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