Size Reduction and Harmonics Suppression in Microwave Power Dividers

Sobhan Roshani, None Salah I. Yahya, Yazeed Y. Ghadi, Saeed Roshani, Fariborz Parandin, Behnam D. Yaghouti
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Abstract

In this paper, several types of microstrip power divider are studied and compared in terms of harmonics suppression and size reductions. The importance of this research lies in the fact that power dividers are critical components in various communication systems, and their performance directly affects the overall system efficiency. The conventional structure of the power divider has an acceptable performance at operating frequency in terms of excellent output ports isolation, low insertion loss, and high return loss, but occupies large size and passes unwanted signals at higher frequencies along with desired signal without any suppression. Harmonics are popular distortion and has different distortion impacts in many different facilities. Recently, several techniques are introduced to overcome these drawbacks. Applied open stubs, applied resonators, lumped reactive components such as capacitors and inductors, coupled lines, defected ground structure (DGS), and electronic band gaps are common methods, which are widely used to overcome these drawbacks. Finally, the study results show that the resonator-based power dividers and coupled-line-based power dividers have good performances in terms of size reduction and harmonic suppression but increase insertion loss parameter. Furthermore, the lumped reactive component-based power dividers and applied DGS and electromagnetic bandgap cells suppress unwanted harmonics, but they need extra process to fabrication, which is undesirable. Moreover, the open-stub-based power dividers have moderate performance with simple structure, but size reduction and harmonics suppression are not so superior in this method.
微波功率分压器的尺寸减小与谐波抑制
本文对几种类型的微带功率分配器进行了谐波抑制和尺寸减小方面的研究和比较。本研究的重要性在于功率分配器是各种通信系统中的关键部件,其性能直接影响系统的整体效率。传统的功率分配器结构在工作频率下具有良好的输出端口隔离性、低插入损耗和高回波损耗等性能,但其体积较大,并且在较高频率下将不需要的信号与所需的信号一起传递而没有任何抑制。谐波是一种常见的失真,在许多不同的设施中具有不同的失真影响。最近,引入了几种技术来克服这些缺点。应用开路存根、应用谐振器、集总无功元件(如电容器和电感器)、耦合线、缺陷接地结构(DGS)和电子带隙是克服这些缺点的常用方法。最后,研究结果表明,基于谐振器的功率分压器和基于耦合线的功率分压器在减小尺寸和抑制谐波方面具有良好的性能,但增加了插入损耗参数。此外,基于集总无功分量的功率分压器和应用的DGS和电磁带隙电池抑制了不必要的谐波,但它们需要额外的工艺来制造,这是不希望的。此外,基于开路存根的功率分配器结构简单,性能适中,但尺寸减小和谐波抑制效果不佳。
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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