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Low consumption dielectric material high temperature complex dielectric constant test device and method

A technology of complex permittivity and dielectric materials, applied in measurement devices, measurement of resistance/reactance/impedance, circuits, etc., can solve problems such as low measurement accuracy, difficulty in adapting to the current testing requirements, and complex testing devices.

Inactive Publication Date: 2008-05-28
UNIV OF ELECTRONICS SCI & TECH OF CHINA
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  • Application Information

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Problems solved by technology

These test devices are complex and have low measurement accuracy, and it is difficult to adapt to the higher temperature test status of low-loss material complex dielectric constant.

Method used

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  • Low consumption dielectric material high temperature complex dielectric constant test device and method
  • Low consumption dielectric material high temperature complex dielectric constant test device and method
  • Low consumption dielectric material high temperature complex dielectric constant test device and method

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Embodiment Construction

[0052] In the high-temperature complex permittivity testing device for low-loss dielectric materials provided by the present invention, in the cylindrical high-Q resonant cavity, in order to increase the connection between the upper end cover 2 and the cavity barrel 1, and to prevent microwave leakage, a total of 8 Fasten the connecting bolts. The lower end cover 3 and the lower end of the cylindrical cavity 1 are fixedly connected by welding, and the connecting waveguide 4 and the inner layer 22 of the upper end cover are fixedly connected by welding; the high temperature waveguide 41, the heat insulation waveguide 42 and the cooling waveguide 43 can be welded Fixed connection, other methods can also be used, but it should be ensured that there is no microwave leakage. The cavity diameter and cavity length of the entire cylindrical high-Q resonant cavity can be specifically designed according to the test frequency range and the selected working mode of the high-Q cavity.

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Abstract

The invention discloses a device and a method for testing high-temperature complex permittivityes of low-loss dielectric materials, which belongs to the micro-wave, millimeter wave low-loss dielectric materials complex permittivityes testing technique. The testing device comprises a micro wave signal source, a cylinder type high Q resonant cavity, a scalar network analyzer, and a vacuum high-temperature furnace, wherein the cylinder type high Q resonant cavity comprises a cylinder cavity tube, an upper end cover, a lower end cover, and a connecting wave guide, whole resonant cavity adopts thin-wall precious metals to form a cavity, and adopts high-temperature resisting material to form a supporting body. Adoption of the testing device comprises testing a resonating frequency rate of an empty cavity f0 and a non-loading quality factor Q0, and testing the resonating frequency rate f0 epsilon and the non-loading factor Q0 epsilon of a rear resonating cavity of a testing sample of a loading low-loss dielectric under the same high temperature, and calculating out the high-temperature complex permittivityes of the low-loss dielectric materials. The invention has the advantages of wide applying frequency range, high testing temperature, low cost, convenient testing, and little testing error, and is applicable to high temperature tests of the complex permittivityes of the low-loss dielectric materials in each microwave, millimeter wave frequency band range.

Description

technical field [0001] The invention belongs to the technical field of microwave and millimeter wave, in particular to the complex permittivity testing technology of microwave and millimeter wave low-loss dielectric material. Background technique [0002] Microwave and millimeter wave low-loss dielectric materials are widely used in microwave and millimeter wave devices and systems. As a basic parameter of microwave and millimeter wave media, complex permittivity and its temperature characteristics are the main basis for evaluating the performance of low-loss dielectric materials, and are also important parameters for microwave device design. In the research and application of low-loss dielectric materials and their performance evaluation, they must pass the actual test of their performance parameters. When the measured medium is an anisotropic material, the direction of the electric field in the test device should be the same as the direction of the electric field when the...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01R27/26G01R31/00H01P7/00
Inventor 李恩李仲平聂在平郭高凤何凤梅张大海张其劭王金明
Owner UNIV OF ELECTRONICS SCI & TECH OF CHINA
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