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A miniaturized planar dual-band high-precision satellite navigation antenna

A satellite navigation antenna and dual-band technology, which is applied in the field of satellite navigation antennas, can solve the problems of antenna phase center elevation difference, increase the volume of positioning equipment, antenna low elevation angle gain, etc., reduce the thickness of the antenna, and facilitate large-scale applications. The effect of simple production and assembly process

Active Publication Date: 2020-10-16
SHANGHAI HUACE NAVIGATION TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The traditional two-piece stacked antenna solution is not only bulky and thick, but on the one hand increases the volume of the positioning equipment, on the other hand it also brings adverse effects on the low elevation gain of the antenna and the elevation difference of the antenna phase center.

Method used

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  • A miniaturized planar dual-band high-precision satellite navigation antenna
  • A miniaturized planar dual-band high-precision satellite navigation antenna
  • A miniaturized planar dual-band high-precision satellite navigation antenna

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Embodiment 1

[0025] The present invention includes a dielectric board 11 and a printed circuit backplane 10; the dielectric board 11 includes four high-frequency feed points 1, a high-frequency radiation surface 4, four low-frequency feed points 2, and a low-frequency radiation surface 6; the high-frequency radiation surface 4 It is separated from the low-frequency radiation surface 6 by a curved gap; the inner circle of the low-frequency radiation surface 6 is evenly distributed with short-circuit columns 7; the upper branches 8 and the lower branches 9 are evenly distributed around the dielectric board 11, and the characteristics are: the above-mentioned upward branches 8 and The printed circuit bottom plate 10 is in contact, the downward branch 9 is connected to the low frequency radiation surface 6 , and a rectangular coupling gap is formed between the upward branch 8 and the downward branch 9 . like figure 2 As shown, an overall side view of the present invention is provided.

[002...

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Abstract

The invention provides a miniature planar dual-frequency-band high precision satellite navigation antenna. The miniature planar dual-frequency-band high precision satellite navigation antenna includesa dielectric plate and a printed circuit base plate, wherein the dielectric plate includes a plurality of high frequency feeding points, a high frequency radiating surface, a plurality of low frequency feeding points, and a low frequency radiating surface; short circuit pins are distributed in the inner ring of the low frequency radiating surface; upward branch knots and downward branch knots aredistributed around the dielectric plate; the upward branch knots contact the printed circuit base plate; the downward branch knots are connected to the low frequency radiating surface; and coupling slits are formed between the upward branch knots and the downward branch knots. The miniature planar dual-frequency-band high precision satellite navigation antenna preferably solves the problems of antenna miniaturization, dual-frequency-band, antenna phase center elevation and the like, provides a design scheme for the miniature planar dual-frequency-band of the high precision satellite navigation antenna, effectively reduces the volume of the antenna, and effectively reduces the weight of the antenna at the same time.

Description

technical field [0001] The invention relates to the field of satellite navigation antennas, in particular to a miniaturized plane dual-band high-precision satellite navigation antenna. Background technique [0002] With the continuous improvement of my country's Beidou satellite navigation system, applications related to Beidou positioning and navigation have been vigorously developed, covering traditional surveying and mapping measurements to current unmanned automatic driving, drones and other hot spots. In order to achieve high-precision navigation and positioning, the current positioning equipment often receives satellite signals in different frequency bands of Beidou, GPS (Global Positioning System), and GLONASS (Global Navigation Satellite System) navigation systems at the same time to achieve multi-system joint positioning, and further improve the positioning through real-time differential technology. Improve positioning accuracy. [0003] In order to meet the needs ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01Q1/38H01Q1/50H01Q5/20H01Q5/307
CPCH01Q1/38H01Q1/50H01Q5/20H01Q5/307
Inventor 吕波钟文涛吴鼎
Owner SHANGHAI HUACE NAVIGATION TECH
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