The design of the Ku band Dielectric Resonator Oscillator

2008 International Conference on Electronic Packaging Technology & High Density Packaging Pub Date : 2008-07-28 DOI:10.1109/ICEPT.2008.4607000

Guoguang Yan

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引用次数: 6

Abstract

Phase noise is considered as a significant source of performance degradation of irreducible error rate in millimeter-wave and microwave systems, in particular, for applications employing low cost and moderate bit rate systems. Many new ways to improve oscillator phase noise have been proposed. There was the new developments using dielectric resonators assembled on monolithic microwave integrated circuits. The paper provides a new approach to accurately simulate the Dielectric Resonator and design the GaAs MESFET dielectric resonator oscillator (DRO) in the 12.75 GHz by negative resistance theory and Harmonic Balance theory with use of two EDA (electronic design automation) tool (CST&ADS). Passive microwave & RF component design is traditionally seen as CSTpsilas core competence. The soft of CST will be used in accurately simulate the dielectric resonator. The soft of advanced design systerm of the Agilent will be used in the nolinerity analyses and optimization design of the DRO . After the EDA tool simulate and optimization, The unprecedented performance of DRO was found . At @12.75 GHz, output power exceed 13 dBm, Phase noise less -104 dBc.

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Ku波段介质谐振振荡器的设计

相位噪声被认为是毫米波和微波系统中不可降低误码率的性能下降的一个重要来源，特别是在采用低成本和中等比特率系统的应用中。人们提出了许多改善振荡器相位噪声的新方法。在单片微波集成电路上装配介质谐振器有了新的发展。本文利用两种EDA(电子设计自动化)工具(CST&ADS)，利用负电阻理论和谐波平衡理论，提供了一种精确模拟介电谐振腔和设计12.75 GHz GaAs MESFET介电谐振振荡器(DRO)的新方法。无源微波和射频元件设计传统上被视为CSTpsilas的核心竞争力。CST软件将用于介质谐振腔的精确模拟。将采用安捷伦先进设计系统的软件进行DRO的非线性分析和优化设计。经过EDA工具的仿真和优化，发现DRO具有前所未有的性能。@12.75 GHz时，输出功率大于13dbm，相位噪声小于-104 dBc。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2008 International Conference on Electronic Packaging Technology & High Density Packaging

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