Experimental characterization and compact modeling of microwave injection-locked pulsed oscillators

11th International Conference 'Microwave and Telecommunication Technology'. Conference Proceedings (IEEE Cat. No.01EX487) Pub Date : 2001-09-10 DOI:10.1109/CRMICO.2001.961505

E. Calandra, R. Ruggirello

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Abstract

The problem of predicting, by computer-aided means, the complex phenomena observable in the dynamic response of microwave injection-locked pulsed-oscillators (ILPO) under both continuous-wave and modulated input signal drive is addressed. The proposed method makes use of characterization data taken on ILPO under both short- and long-pulse (or non-pulsed) sinusoidal operation in order to derive a nonlinear differential model in the stroboscopic time domain capable of describing the behaviour of the injection-locked oscillator under all operating conditions, including the undriven one with its associated intra-pulse amplitude and frequency variation (chirp). The experimental verification results presented show that the proposed characterization and modeling approach not only reduces the complexity of the model identification phase with respect to standard, equivalent-circuit based, methods, but also permits one to couple an excellent computational efficiency to a reasonably good simulation accuracy in predicting the ILPO response to real-world input signals.

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微波注入锁定脉冲振荡器的实验表征与紧凑建模

研究了在连续波和调制输入信号驱动下，用计算机辅助预测微波注入锁定脉冲振荡器(ILPO)动态响应中的复杂现象的问题。所提出的方法利用在短脉冲和长脉冲(或非脉冲)正弦操作下对ILPO进行的表征数据，以便在频频时域中推导出能够描述所有操作条件下注入锁定振荡器行为的非线性微分模型，包括未驱动振荡器及其相关的脉冲内幅度和频率变化(chirp)。实验验证结果表明，与基于等效电路的标准方法相比，所提出的表征和建模方法不仅降低了模型识别阶段的复杂性，而且在预测ILPO对实际输入信号的响应时，可以将出色的计算效率与相当好的仿真精度相结合。

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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11th International Conference 'Microwave and Telecommunication Technology'. Conference Proceedings (IEEE Cat. No.01EX487)

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