硅RFIC中频率产生的颠覆性设计解决方案

2005 IEEE International Wkshp on Radio-Frequency Integration Technology: Integrated Circuits for Wideband Comm & Wireless Sensor Networks Pub Date : 2005-12-01 DOI:10.1109/RFIT.2005.1598883

Y. Deval, O. Mazouffre, C. Majek, H. Lapuyade, T. Taris, J. Bégueret

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引用次数: 1

摘要

本文从电路或结构的角度提出了硅射频集成电路中频率产生的一些新方法。当需要频率合成时，锁相环(PLL)通常会发挥作用，但关键构建块(如射频分频器)的设计是一个非常具有挑战性的问题。对于后者，提出了一种同步环振荡器(SRO)，该振荡器在20 GHz以上的频率上提供双模分频，且功耗低。经典锁相环的替代方案，如注入锁定振荡器(ILO)和阶乘延迟锁定环(F-DLL)也被提出。基于仿真和实验测量，讨论了这些方法的优缺点。

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Disruptive design solutions for frequency generation in silicon RFIC

This paper presents some new approaches for frequency generation in silicon RF integrated circuits, from either the circuit or the architecture point of view. While a phase locked loop (PLL) is classically brought into play whenever a frequency synthesis is needed, the design of key building blocks such as the RF frequency divider is a very challenge. Concerning the latter, the synchronized ring oscillator (SRO), which provides dual-modulus division at frequency above 20 GHz while consuming little power, is presented. Alternative solutions to the classical PLL, such as injection locked oscillator (ILO) and factorial delay locked loop (F-DLL) are presented as well. Advantages and drawbacks of these approaches are discussed, based upon simulation and experimental measurements.

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2005 IEEE International Wkshp on Radio-Frequency Integration Technology: Integrated Circuits for Wideband Comm & Wireless Sensor Networks

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