Stacked Multi-Channel Receiver Architecture for Power-Efficient High-Speed Optical Links

Dan Li; Zhuoqi Guo; Yongjun Shi; Yihua Zhang; Dong Yang; Shengwei Gao; Xiaoyan Gui; Shiquan Fan; Li Geng

doi:10.1109/LPT.2019.2898937

Stacked Multi-Channel Receiver Architecture for Power-Efficient High-Speed Optical Links

Dan Li
, Zhuoqi Guo
, Yongjun Shi
, Yihua Zhang
, Dong Yang
, Shengwei Gao
, Xiaoyan Gui
, Shiquan Fan
, Li Geng

电子与信息学部

Xi'an Jiaotong University

科研成果: 期刊稿件 › 文章 › 同行评审

2 引用（Scopus）

摘要

The power supply discrepancy between advanced CMOS technology and legacy optical module leads to poor power efficiency or extra DC-DC component. A new stacked multi-channel receiver architecture and its synergetic power supply scheme for power-efficient optical links are proposed to solve the problem. Consequently, power reduction can be achieved thanks to the full utilization of available power supply headroom and the reuse of supply current. As a proof of concept, a stacked 2 × 10 Gb/s optical receiver with a synergetic-integrated linear multi-output regulator is implemented in 0.18- μ m CMOS technology, demonstrating the feasibility of the proposed architecture. State-of-the-art receiver performance and power efficiency are achieved.

源语言	英语
文章编号	8641374
页（从-至）	501-504
页数	4
期刊	IEEE Photonics Technology Letters
卷	31
期	7
DOI	https://doi.org/10.1109/LPT.2019.2898937
出版状态	已出版 - 1 4月 2019

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10.1109/LPT.2019.2898937

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引用此

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abstract = "The power supply discrepancy between advanced CMOS technology and legacy optical module leads to poor power efficiency or extra DC-DC component. A new stacked multi-channel receiver architecture and its synergetic power supply scheme for power-efficient optical links are proposed to solve the problem. Consequently, power reduction can be achieved thanks to the full utilization of available power supply headroom and the reuse of supply current. As a proof of concept, a stacked 2 × 10 Gb/s optical receiver with a synergetic-integrated linear multi-output regulator is implemented in 0.18- μ m CMOS technology, demonstrating the feasibility of the proposed architecture. State-of-the-art receiver performance and power efficiency are achieved.",

keywords = "CMOS, linear multi-output regulator, low noise, optical receiver, power efficiency, stacked multi-channel receiver",

author = "Dan Li and Zhuoqi Guo and Yongjun Shi and Yihua Zhang and Dong Yang and Shengwei Gao and Xiaoyan Gui and Shiquan Fan and Li Geng",

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AU - Li, Dan

AU - Guo, Zhuoqi

AU - Shi, Yongjun

AU - Zhang, Yihua

AU - Yang, Dong

AU - Gao, Shengwei

AU - Gui, Xiaoyan

AU - Fan, Shiquan

AU - Geng, Li

PY - 2019/4/1

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N2 - The power supply discrepancy between advanced CMOS technology and legacy optical module leads to poor power efficiency or extra DC-DC component. A new stacked multi-channel receiver architecture and its synergetic power supply scheme for power-efficient optical links are proposed to solve the problem. Consequently, power reduction can be achieved thanks to the full utilization of available power supply headroom and the reuse of supply current. As a proof of concept, a stacked 2 × 10 Gb/s optical receiver with a synergetic-integrated linear multi-output regulator is implemented in 0.18- μ m CMOS technology, demonstrating the feasibility of the proposed architecture. State-of-the-art receiver performance and power efficiency are achieved.

AB - The power supply discrepancy between advanced CMOS technology and legacy optical module leads to poor power efficiency or extra DC-DC component. A new stacked multi-channel receiver architecture and its synergetic power supply scheme for power-efficient optical links are proposed to solve the problem. Consequently, power reduction can be achieved thanks to the full utilization of available power supply headroom and the reuse of supply current. As a proof of concept, a stacked 2 × 10 Gb/s optical receiver with a synergetic-integrated linear multi-output regulator is implemented in 0.18- μ m CMOS technology, demonstrating the feasibility of the proposed architecture. State-of-the-art receiver performance and power efficiency are achieved.

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Stacked Multi-Channel Receiver Architecture for Power-Efficient High-Speed Optical Links

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