An Active Inductor Based Transimpedance Amplifier with Two Local Feedbacks as a Fiber Optic Application

Ruwaida Al-Berwari, Muhammed Hameed Alsheikhjader
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Abstract

An important use of active inductor feedback is reported. It was evident that a frequency dependent impedance of an active inductor is similar to that of an ordinary spiral inductor which is a key advantage in integrated circuit design given the fact that Mosfet-based active inductor circuit occupies less volume on board a chip. In this work, a 42 dBΩ transimpedance (TIA) gain at 1 GHz is obtained with 33 𝑝𝐴 ⁄√ 𝐻𝑧 of input referred noise with a very low power consumption of 0.605 mW. The Common-Gate Common-Source input stage with an active inductor feedback is reported in this work for the first-time long side a second stage current mirror with additional local active inductor feedback. The extremely low level of power consumption is considered to be another key advantage for that matter despite the moderate levels of TIA gain, bandwidth and input-referred noise current spectral density with 1V DC supply voltage. The LTspice software was used for simulation.
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基于有源电感的双局部反馈跨阻放大器在光纤中的应用
报道了有源电感反馈的一个重要用途。很明显,有源电感的频率依赖阻抗类似于普通螺旋电感,这是集成电路设计中的一个关键优势,因为基于mosfet的有源电感电路在芯片上占用的体积较小。在这项工作中,在1 GHz时获得42 dBΩ跨阻(TIA)增益,输入参考噪声为33𝑝/ / /𝐻/ /,功耗极低,为0.605 mW。在本工作中,报告了具有有源电感反馈的共门共源输入级,用于具有附加本地有源电感反馈的第二级电流镜的第一次长侧。极低的功耗水平被认为是另一个关键优势,尽管在1V直流电源电压下,TIA增益、带宽和输入参考噪声电流谱密度水平适中。采用LTspice软件进行仿真。
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