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Multi-branch loading-based three passband high-temperature superconductive filter

A high-temperature superconducting and tee-band technology, which is applied to waveguide devices, resonators, electrical components, etc., can solve the problems of large occupation and large circuit area, improve the stop band characteristics, improve the selectivity characteristics, and reduce the number of resonators. effect of number

Inactive Publication Date: 2013-10-23
EAST CHINA JIAOTONG UNIVERSITY
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Problems solved by technology

However, the above-mentioned applications are all based on the design method of a single-band filter. At the same time, an external impedance matching network will result in a larger circuit area and greater entry and exit loss, as well as the difficulty of design.

Method used

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  • Multi-branch loading-based three passband high-temperature superconductive filter
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  • Multi-branch loading-based three passband high-temperature superconductive filter

Examples

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Embodiment Construction

[0020] The present invention will be further described through the following examples in conjunction with the accompanying drawings.

[0021] Example.

[0022] This embodiment consists of three parts: a uniform impedance resonator 100 loaded with stubs, an input feeder 507, and an output feeder 508. It is characterized in that multi-mode and multi-passbands are realized by loading multiple stubs on one resonator; interdigitated coupling is adopted. The structure produces multiple transmission zeros and improves the passband selectivity.

[0023] exist figure 1 Among them, the uniform impedance resonator 100 with stub loading is composed of four half-wavelength open-circuit stub loading and one 1 / 4-wavelength short-circuit stub loading. On the traditional uniform impedance resonator 101, six modes are generated by loading the first open stub 102, the second open stub 103, the third open stub 104, the fourth open stub 105 and the short stub 106 to form three passbands.

[002...

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Abstract

A multi-branch loading-based three passband high-temperature superconductive filter is characterized in that four open circuit branches and one short circuit branch are loaded on a uniform impedance resonator, wherein the short circuit branch is loaded at the middle position point of the uniform impedance resonator; the first and third open circuit branches are loaded on the uniform impedance resonator by being symmetrical about the short circuit branch; the second and fourth open circuit branches are loaded on the uniform impedance resonator by being symmetrical about the short circuit branch, and are the same as or opposite to the direction of the first and third open circuit branches on the uniform impedance resonator; an incoming feeder and an outgoing feeder are coupled with the branch loaded uniform impedance resonator by gaps; and the incoming and outgoing feeders are coupled in an interdigital manner. The multi-branch loading-based three passband high-temperature superconductive filter realizes the control on the band pass position and band width of the filter, is capable of effectively reducing the number of the resonators, and effectively improving the stop band property of the filter, has the good characteristics of linear phase and steep out-of-band property, and realizes the miniaturization of the filter.

Description

technical field [0001] The invention belongs to the technical field of microwave communication equipment, and relates to a microwave filter. Background technique [0002] With the rapid development of the communication industry, various communication standards exist at the same time, and the frequency resources are becoming more and more tight, so that the frequency band used by each communication standard is often divided into several non-adjacent parts. Therefore, realizing multi-band sharing is an important topic in the design of modern microwave communication systems. As a key device in the communication system, the multi-frequency design of the microwave filter has become a key technology. Usually, it can be implemented by connecting a broadband bandpass filter in series with multiple narrowband bandstop filters; or by connecting multiple different bandpass filters in parallel. In order to achieve impedance matching at the input and output terminals, it is usually nece...

Claims

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Application Information

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IPC IPC(8): H01P1/203H01P7/08H01P1/205
Inventor 刘海文雷久淮占昕官雪辉张晓燕
Owner EAST CHINA JIAOTONG UNIVERSITY
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