用于10GbE光接收器的15mw无电感跨阻放大器和1thz + GBP限制放大器

2015 IEEE Radio Frequency Integrated Circuits Symposium (RFIC) Pub Date : 2015-05-17 DOI:10.1109/RFIC.2015.7337795

S. Ray, M. Hella

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引用次数: 3

摘要

提出了一种无电感的10gb /s光接收机，包括一种新型的双反馈环跨阻放大器(TIA)和三阶嵌套反馈的限幅放大器(LA)。基于电流缓冲器的TIA在辅助放大器中采用有源Cherry-Hooper (CH)级，并在1pF光电二极管输入电容存在的情况下重用尾电流源以实现10gbps的操作。在四级限制放大器中使用嵌套反馈，无需使用消耗面积的电感器，即可实现增益带宽积(GBP)>1THz。该光接收器采用IBM 130nm CMOS技术，在30 μA的输入电流下，以10gbps的速度实现了BER< 10-12，在50 Ω缓冲器的输出端提供了600 mV p-p。光学测试证实，数据速率为7.5 Gbps时，灵敏度为-13.8 dBm，主要受用于测量的850nm光源的限制。该接收器在1.2V电源下耗散108mW，而核心面积仅为0.08 mm2。

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A 15-mW 7-GHz inductorless transimpedance amplifier and a 1-THz+ GBP limiting amplifier for 10GbE optical receivers

An inductorless 10 Gb/s optical receiver including a novel transimpedance amplifier (TIA) with dual feedback loop and a limiting amplifier (LA) with third-order nested feedback is presented. The current-buffer based TIA employs an active Cherry-Hooper (CH) stage in the auxiliary amplifier and reuses the tail current source to achieve 10 Gbps operation in the presence of a 1pF photodiode input capacitance. The use of nested feedback in the four stage limiting amplifier enables a gain-bandwidth-product (GBP)>1THz without the use of area-consuming inductors. Implemented in IBM 130nm CMOS technology, the optical receiver achieves a BER<;10-12 at 10 Gbps for an input current of 30 μA, delivering 600 mV p-p at the output of the 50 Ω buffer. Optical testing confirmed a -13.8 dBm sensitivity for a data rate of 7.5 Gbps, mainly limited by the 850nm source used for measurement. The receiver dissipates 108mW from a 1.2V supply, while occupying a core area of only 0.08 mm2.

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2015 IEEE Radio Frequency Integrated Circuits Symposium (RFIC)

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