稳频振荡器内部参数对自激特性形成的影响

2018 International Conference on Actual Problems of Electron Devices Engineering (APEDE) Pub Date : 2018-09-01 DOI:10.1109/APEDE.2018.8542305

V. Noskov, K. Ignatkov, A. P. Chupahin

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引用次数: 0

摘要

在雷达目标反射的强、弱发射电平与自身振荡电平相当的情况下，通过附加高q腔的稳频计算了自差振荡器的特性。在这些特性的数值模拟中，我们取不同的内部振荡器参数(非等时性和非等同性)、耦合系数和到目标的距离。结果表明，在稳定谐振腔的强耦合下，可以降低非谐波信号的畸变程度，扩大自激系统的动态范围。通过8mm稳定混合-集成双meza Gunn二极管的实验数据，验证了自激特性分析结果。

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Influence of Internal Parameters of Frequency-Stabilized Oscillators on Formation of Autodyne Characteristics

A calculation of autodyne oscillator characteristics is performed with frequency stabilization by the additional high-Q cavity for cases of the strong and weak reflected (from the radar target) emission, when its level is commensurable with the level of own oscillations. At numerical simulation of these characteristics, we take different values of internal oscillator parameters (non-isochronity and non-isodromity), coupling coefficients and a distance to the target. It is shown that at strong coupling of the stabilizing resonator, we can achieve the reduced degree of anharmonic signal distortions and the dynamic range extension of autodyne system. Analysis results of autodyne characteristics are confirmed by experimental data obtained for the stabilized hybrid-intergrated two-meza Gunn diode of 8mm-range.

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2018 International Conference on Actual Problems of Electron Devices Engineering (APEDE)

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