Study of parameters of the avalanche diode generator

IF 0.2 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC

Visnyk NTUU KPI Seriia-Radiotekhnika Radioaparatobuduvannia Pub Date : 2023-03-28 DOI:10.30837/rt.2023.1.212.13

O.D. Menyailo, V.G. Mahonin, M.S. Svitlichnyi

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Abstract

The article is devoted to the development and analysis of an avalanche diode generator. The equivalent circuit of the generator is considered and its simplified analysis is carried out. Using the elements of graphic analysis, the conditions of stability of generator oscillations were obtained. The original design of the avalanche diode generator is proposed and considered. A feature of the generator design is the use of a combined oscillating system, which is a three-dimensional resonator in the form of a metal ring made of aluminum alloy placed on a double-sided foil dielectric. Thanks to the top cover made of the same foil dielectric, the oscillating system has a closed nature. The electromagnetic energy supply and output system is made using printed technologies based on a double-sided foil dielectric. The avalanche diode is located in the center of this structure and has a thermal connection with the external radiator. On the one hand, such a decision allowed us to increase significantly the Q-factor of the oscillating system compared to the oscillating system made by the printed method and, at the same time, gave an opportunity to combine the developed auto-generator with other elements of the waveguide path made in the printed version. The developed generator has the possibility of both mechanical, by changing the volume of the resonator with the help of special backlash-free elements, and electronic adjustment, by changing the supply current. The article contains the results of experimental studies of the proposed design of the auto-generator, in particular the dependence of the output power on the frequency of oscillations and on the supply current, as well as the Q factor on the supply current. The research results indicate a fairly high Q-factor of such an oscillating system and, as a result, increased stability of oscillations. In addition, this design to a certain extent improves the overall manufacturability of the design and its material capacity in comparison with the waveguide version.

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雪崩二极管发生器参数的研究

本文介绍了一种雪崩二极管发生器的研制与分析。考虑了发电机的等效电路，并对其进行了简化分析。利用图形分析的方法，得到了发电机振荡稳定的条件。提出并考虑了雪崩二极管发生器的原始设计。发电机设计的一个特点是使用组合振荡系统，这是一个三维谐振器，其形式是由铝合金制成的金属环，放置在双面箔电介质上。由于顶盖由相同的箔介质制成，振荡系统具有封闭性。采用印刷技术制作了基于双面箔介质的电磁能量供应和输出系统。雪崩二极管位于该结构的中心，并与外部散热器有热连接。一方面，这样的决定使我们能够显着增加振荡系统的q因子，而不是通过印刷方法制作的振荡系统，同时，提供了将开发的自动发生器与印刷版本中制作的波导路径的其他元件相结合的机会。开发的发电机有两种可能性，一种是机械式的，通过特殊的无反冲元件改变谐振器的体积，另一种是电子调节，通过改变电源电流。本文介绍了所提出的自动发电机设计的实验研究结果，特别是输出功率对振荡频率和电源电流的依赖关系，以及Q因子对电源电流的依赖关系。研究结果表明，这种振荡系统具有相当高的q因子，从而提高了振荡的稳定性。此外，与波导版本相比，该设计在一定程度上提高了设计的整体可制造性和材料容量。

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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Visnyk NTUU KPI Seriia-Radiotekhnika Radioaparatobuduvannia ENGINEERING, ELECTRICAL & ELECTRONIC-

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