A Planar Microwave Resonant Antenna with Dual Frequency Points and High Radiation Efficiency

Abstract

The invention discloses a novel dual-frequency / high-radiation-efficiency planar microwave resonant antenna, which includes a rectangular dielectric substrate, the bottom surface of which is a ground radiation patch, and a right-angled fold line symmetrical concave metal foil placed on the upper surface of the dielectric substrate. Chip feeder. Solder the inner core directly to the feeder using the SMA connector, and connect the ground radiation patch. The invention uses the electromagnetic simulation software ANSYS HFSS for simulation design, real-time simulation by changing the shape and size of the feeding antenna, and joint calculation of multi-parameter simulation data and simulation diagrams to optimize the structure, material and process of the antenna, confirm The reliability of the simulation results. Increase the effective radiation resistance of the antenna, reduce the generation of high-order modes, improve the radiation efficiency of the antenna, improve the overall effect of the antenna system, and realize the requirements of dual frequency points and high radiation efficiency on the same substrate and the same plane, and achieve dual frequency points Applications.

Description

technical field [0001] The invention relates to the field of radio frequency microwaves, in particular to a planar dual-frequency point microwave resonant antenna with high radiation efficiency, which is applied to research in the field of nuclear magnetic resonance. Background technique [0002] With the increasing progress of nuclear magnetic resonance technology, as a non-destructive measurement technology, it has been valued due to its high resolution, rapidity, accuracy and rich information in the analysis of substances, and it provides an important analytical measurement for multidisciplinary research. technical support. By applying radio-frequency microwaves, when the frequency matches the Larmor precession of the spins, a resonance is generated. In its experiments and applications, it is necessary to use antennas with higher radiation efficiency to provide a microwave environment for related pulse modulation experiments. Nowadays, the most widely used antenna in th...

AI Technical Summary

Problems solved by technology

Today's multi-frequency point antenna design generally has a complex structure. Some of them introduce spurious resonances of different resonance frequencies, and some use multiple coupling feeds to form multi-frequency points.

The design of multi-layer stacking and three-dimensional design is difficult to manufacture, and the shape and volume are limited by the application environment

[0005] Existing multi-frequency antennas have a clear purpose in design, resulting in a relatively single application range. They are mostly used in mobile communications, and there are even multi-frequency antennas with eight operating frequency points, but they cannot be applied to realize multiple pulse sequences. The NMR experiment

The operating frequency points are only distributed in the low frequency band, or are only distributed in the high frequency band, which cannot meet the requirements for the resonance frequency of nuclear magnetic resonance related experiments. Therefore, it is necessary to further improve the performance of the antenna to make it more flexible for different operating frequency bands. experiment

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