一种在0.18 μm BiCMOS中具有高灵敏度和扩展分割范围的多模分频器

2016 IEEE International Conference on Electronics, Circuits and Systems (ICECS) Pub Date : 2016-12-01 DOI:10.1109/ICECS.2016.7841170

M. Kreissig, M. El-Shennawy, F. Ellinger

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引用次数: 2

摘要

本文提出了一种基于多模分频器(MMDs)的整数- n分频器，它覆盖了8到127的连续整数- n分频比范围，并使用电流模式逻辑(CML)构建。演示了一种新的强大而简单的模扩展，该扩展针对快速CML实现进行了优化。所提出的分频器是发射极耦合逻辑(ECL)级和源耦合逻辑(SCL)级的混合组合。在1 GHz至7.5 GHz的输入频率范围内，所需的输入电压水平小于45 mVPP，相当于100Ω负载下的−20 dBm。最大工作输入频率为8.1 GHz，而分压器的功耗仅为18.4 mW。该电路采用低成本的180nm BiCMOS工艺实现，是相视环电路(PLL)的重要组成部分。与可控电流偏置电路一起，它占用的面积小于0.09 mm2。

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A multi-modulus divider with high sensitivity and extended division range in 0.18 μm BiCMOS

This work presents an integer-N divider based on multi-modulus frequency dividers (MMDs) which covers a continuous integer-N divider ratio range of 8 to 127 and was built using current mode logic (CML). A new powerful and simple modulus extension for MMDs optimized for fast CML implementations is demonstrated. The proposed divider is a hybrid composition of emitter coupled logic (ECL) stages and source coupled logic (SCL) stages. Along an input frequency range of 1 GHz to 7.5 GHz the needed input voltage level is less than 45 mVPP which is equivalent to −20 dBm at a 100Ω load. The maximum operating input frequency is 8.1 GHz while the divider consumes only 18.4 mW. The circuit was implemented in a low cost 180 nm BiCMOS process and is an essential part of a phase looked loop circuit (PLL). Together with the controllable current biasing circuitry it occupies an area of less than 0.09 mm2.

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2016 IEEE International Conference on Electronics, Circuits and Systems (ICECS)

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