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研究目的在于分析光电集成电路( O E I C)光接收机中电感技术的作用和原理,以及最佳电感设计规则。基于精确的有源器件(包括金属半导体金属光电探测器和高电子迁移率晶体管)噪声等效电路模型和微波单片集成电路( M M I C)无源方型螺旋电感等效电路模型,提出了一种简单的计算光接收机跨阻特性和噪声特性的矩阵分析方法,讨论了电感对光接收机性能的影响,指出了电感的设计需要在光接收机稳定性、跨阻特性、噪声特性三方面基础上折衷考虑
The purpose of this study was to analyze the role and principle of inductance technology in optoelectronic integrated circuit (OEIC) optical receivers and the design rules for optimal inductance. The equivalent circuit model based on accurate active devices (including metal-semiconductor-metal photodetector and high electron mobility transistor) and the equivalent circuit model of microwave monolithic integrated circuit (MMI) , A simple matrix analysis method for calculating the transimpedance characteristics and noise characteristics of an optical receiver is proposed. The influence of the inductance on the performance of the optical receiver is discussed. The design of the inductor needs to be discussed in terms of the stability of the optical receiver, the transimpedance characteristics, Noise characteristics based on three aspects of compromise