Coupled-oscillator systems: Efficient simulation with harmonic-balance based oscillator models

2014 International Conference on Numerical Electromagnetic Modeling and Optimization for RF, Microwave, and Terahertz Applications (NEMO) Pub Date : 2014-05-14 DOI:10.1109/NEMO.2014.6995676

A. Suárez, F. Ramírez, S. Sancho

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引用次数: 1

Abstract

A two-level simulation methodology for coupled-oscillator systems is presented. The inner level corresponds to the harmonic-balance analysis of the elementary oscillator in free-running regime, so as to obtain a one-port reduced-order model. The outer level corresponds to the analysis of the coupled system, deriving a formulation that explicitly relates the oscillation-frequency deviation and the amplitude and phase distributions to magnitudes characterizing the coupling network and oscillator elements. A stability analysis based on this formulation is also carried out obtaining a mathematical condition that determines the stable phase-shift interval. The formulation provides valuable insight into the system behavior and allows the derivation of realistic criteria for an optimum coupled-system performance. The two-level analysis has been extended to injection-locked systems, which enables an investigation of the impact of the number of oscillator elements and relative position of the injection signal on the locking bandwidth.

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耦合振荡器系统:基于谐波平衡的振荡器模型的高效仿真

提出了一种耦合振荡器系统的两级仿真方法。内能级对应于自由运行状态下的基本振子的谐波平衡分析，从而得到一个单端口降阶模型。外一级对应于耦合系统的分析，推导出一个公式，该公式明确地将振荡频率偏差、幅度和相位分布与表征耦合网络和振荡器元件的幅度联系起来。在此基础上进行了稳定性分析，得到了确定稳定相移区间的数学条件。该公式提供了对系统行为的有价值的见解，并允许推导出最佳耦合系统性能的现实标准。两级分析已扩展到注入锁定系统，从而可以研究振荡器元件的数量和注入信号的相对位置对锁定带宽的影响。

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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2014 International Conference on Numerical Electromagnetic Modeling and Optimization for RF, Microwave, and Terahertz Applications (NEMO)

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