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A dual-loop antenna applied to 4g-mimo smart glasses

A 4G-MIMO and dual-loop antenna technology, applied in the field of wearable antennas, can solve problems such as design space constraints, fixed structures, and reduced coupling

Active Publication Date: 2021-04-30
UNIV OF ELECTRONICS SCI & TECH OF CHINA
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

External decoupling includes parasitic element decoupling, matching circuit decoupling, floor printing seam decoupling, and neutral line decoupling. These methods are decoupling structures added outside the antenna structure; among them, adding a matching circuit to reduce The antenna bandwidth obtained by the coupling method is narrow. In addition, most matching circuits are similar to filter structures, so multimode decoupling can be achieved by referring to the theory of multimode filters. However, if the number of decoupling modes increases, the design will be difficult. It will become very difficult, because the matrix corresponding to the filter will become very complicated; the floor printing slot decoupling is actually for the antenna elements that share the floor, it is to reduce the gap between the two antenna elements through the slot The flow of the floor current between the ground, thereby reducing the coupling; there is no standard criterion for the design of the neutral line, it is difficult to reduce the broadband mutual coupling
Internal decoupling includes odd and even mode decoupling, mirror antenna element decoupling, eigenmode theoretical decoupling, and multi-polarization decoupling; eigenmodes can achieve good isolation for frequency bands below 1GHz, but it is difficult to control the frequency of multiple eigenmodes , because the flexibility to modify the radiator is very limited; in addition, there are methods for flawlessly decoupling antennas that share a floor, but this structure is too bulky for mobile terminals
[0005] For the dual-loop antenna applied to 4G-MIMO smart glasses, two simple loop antennas achieve frequency band coverage through matching circuits; since the two antennas do not share the floor structure, the defective ground and floor slots are decoupled None of the methods can achieve the reduction of mutual coupling; and, because the glasses have a single form and a fixed structure, the design space required for the matching circuit decoupling scheme is also greatly limited

Method used

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  • A dual-loop antenna applied to 4g-mimo smart glasses
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  • A dual-loop antenna applied to 4g-mimo smart glasses

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Embodiment 1

[0023] This embodiment provides a dual-loop antenna applied to 4G-MIMO smart glasses, the structure of which is as follows figure 1 As shown, the double-loop antenna forms two symmetrical double-antenna structures on the left and right, and the middle of the two antennas is connected through the dielectric substrate of the spectacle frame; specifically, it includes: the dielectric substrate 1 of the spectacle frame, and the spectacle leg dielectric vertically connected to the dielectric substrate 1 of the spectacle frame The substrate 2, the metal ring 3 arranged on the front of the dielectric substrate 1 of the spectacle frame, the metal floor 4 arranged on the outside of the dielectric substrate 2 of the glasses legs, and the microstrip feeder 5, the grounding short circuit 6, and the matching circuit 7; wherein, the metal ring 3 Use an open metal ring, and the opening position is facing the connection between the spectacle frame dielectric substrate 1 and the spectacle leg d...

Embodiment 2

[0028] This embodiment provides a dual-loop antenna for loading and decoupling parasitic elements applied to 4G MIMO smart glasses. Its structure is as follows: figure 2 As shown, the difference between it and Embodiment 1 is that the dual-loop antenna further includes a decoupling parasitic element 8 , which is arranged along the upper edge of the dielectric substrate of the spectacle frame and maintains a uniform gap with the metal ring 3 .

[0029] Further, the width of the metal ring is 2mm. The decoupling parasitic element has a width of 1mm and a length of 200mm. The gap between the decoupling parasitic element and the metal loop antenna is 1 mm. In addition, in order to meet the requirements of high isolation and to meet the aesthetics of the smart glasses antenna, the middle part of the decoupling parasitic element has a downward depression along the edge of the glasses frame, and the degree of depression is 10mm.

[0030] In this embodiment, the metal ring 3 antenn...

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Abstract

The invention belongs to the technical field of wearable antennas, and in particular relates to a double-loop antenna applied to 4G-MIMO smart glasses. MIMO antenna structure; the present invention realizes coverage of frequency bands such as GSM850 / 900, GSM1800 / 1900, UMTS2100 and LTE2300 / 2500 by loading a matching circuit; further, the present invention effectively reduces two antennas by loading a decoupled parasitic element The near-field coupling between the two antennas makes the minimum isolation of the two antennas in the low frequency band reach below ‑15dB; moreover, the introduction of decoupling parasitic elements has little effect on the self-impedance of the antenna itself, and the bandwidth can still cover the two sides of 4G. frequency bands 824‑960MHz and 1710‑2690MHz. It can be seen that the double-loop antenna of the present invention not only meets the application of smart glasses, but also meets the requirement of decoupling.

Description

technical field [0001] The invention belongs to the technical field of wearable antennas, and in particular relates to a double-loop antenna applied to 4G-MIMO smart glasses. Background technique [0002] In recent years, multiple-input multiple-output MIMO technology has been proposed, which can effectively improve the performance of wireless communication systems, and use the characteristics of multipath to improve the channel capacity and communication quality of the system; in this technology, the design of the antenna plays an important role. Very important role as it is the communication transport tool between transmitter and receiver. In order to obtain the performance of the MIMO system, the antennas on the transmitter and receiver should be uncorrelated; theoretically speaking, when the distance between the two antennas reaches more than half the wavelength of the antenna, the antennas will not affect each other, but this This is impossible for miniaturized smart d...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01Q1/27H01Q1/36H01Q1/38H01Q1/48H01Q1/50H01Q5/00H01Q23/00
CPCH01Q1/273H01Q1/36H01Q1/38H01Q1/50H01Q1/48H01Q5/00H01Q23/00H01Q1/521
Inventor 王艳艳班永灵赵星影公晓庆李肖飞王冰
Owner UNIV OF ELECTRONICS SCI & TECH OF CHINA
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