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Novel artificial dielectric lens antenna capable of reducing 5G base stations on large scale

An artificial medium, lens antenna technology, applied to antennas, antenna supports/installation devices, electrical components, etc., can solve the problems of reduced weak coverage, coverage, and increased proportion of dual-stream traffic, so as to achieve a large coverage distance, The effect of reducing energy consumption and wide coverage

Active Publication Date: 2020-09-25
XIAN HAITIAN ANTENNA TECH CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] Although the applicant has disclosed in the patent document CN110518353A that the miniaturized dielectric cylindrical lens multi-beam antenna (V2.5 version of the artificial dielectric lens) is applied to the high-speed rail, and has achieved the effect of reducing costs, but in this patent document, it is necessary to The horizontal lens single-beam unit and the vertical lens single-beam unit are used as a whole, at least two cylindrical lenses are used, and the use of two cylindrical lenses will inevitably increase its overall size, and its average RSRP, edge RSRP, coverage, dual-flow The proportion of traffic needs to be further increased, and the weak coverage rate needs to be further reduced

Method used

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  • Novel artificial dielectric lens antenna capable of reducing 5G base stations on large scale
  • Novel artificial dielectric lens antenna capable of reducing 5G base stations on large scale
  • Novel artificial dielectric lens antenna capable of reducing 5G base stations on large scale

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preparation example Construction

[0062] The specific technical scheme is as follows: Figures 1a-1e As shown, a new artificial dielectric lens antenna that can reduce 5G base stations on a large scale, including a cylindrical lens + / -45° dual-polarized single-beam antenna, which is excited by a + / -45° dual-polarized single antenna Lens composition; the + / -45° dual-polarized single antenna includes obliquely polarized +45° dipoles, obliquely polarized -45° dipoles and metal base plates; the obliquely polarized +45° dipoles And the oblique polarization -45° dipole is fixed on the metal base plate, and the RF jumper with coaxial head is welded; the oblique polarization +45° dipole and the oblique polarization -45° dipole are phase-centric Overlap; the cylindrical lens + / - 45° dual-polarized single-beam antenna provided by the present invention can realize a half-power vertical lobe width of about 30° and cover a horizontal 60° area. Wherein, the preparation method of the novel artificial medium cylindrical lens...

Embodiment 1

[0074] Such as Figures 1a-1e As shown, a new type of artificial dielectric lens antenna that can reduce 5G base stations on a large scale provided by this embodiment includes a cylindrical lens + / -45° dual-polarized single-beam antenna, which consists of a + / -45° dual-polarized single-beam antenna A new type of artificial dielectric cylindrical lens is excited; the + / -45° dual-polarized single antenna includes an obliquely polarized +45° dipole, an obliquely polarized -45° dipole and a metal base plate; the obliquely polarized + 45° dipole and oblique polarization -45° dipole are fixed on the metal base plate, and soldered RF jumper with coaxial head; the oblique polarization +45° dipole and oblique polarization -45° The dipoles are concentrically overlapped; among them, the height of the + / -45° dipole balun is 20±10mm, the metal base plate is rectangular, the length and width are 100x100mm, and the maximum radiation direction of the + / -45° dual-polarized single antenna is ra...

Embodiment 2

[0078] Such as Figure 2a-2e As shown, this embodiment provides a new type of artificial dielectric lens antenna that can reduce 5G base stations on a large scale, including an elliptical cylindrical lens + / -45° dual-polarized dual-beam antenna, and the elliptical cylindrical lens + / -45° double The polarized dual-beam antenna includes a new artificial dielectric elliptical cylinder lens and 2 + / -45° dual-polarized single antennas, and the two horizontally separated (160mm) + / -45° dual-polarized single antennas are used as a new artificial medium The double feed source of the elliptic cylindrical lens is fixed on the new artificial medium elliptical cylindrical lens; the + / -45° dual-polarized single antenna includes obliquely polarized +45° dipole, obliquely polarized -45° dipole and Metal base plate; the oblique polarization +45° dipole and oblique polarization -45° dipole are fixed on the metal base plate with a frame, and a radio frequency jumper with a coaxial head is welde...

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Abstract

The invention provides a novel artificial dielectric lens antenna capable of reducing 5G base stations on a large scale, which belongs to the field of antennas and 5G construction. The novel artificial dielectric lens antenna comprises a cylindrical lens + / -45-degree dual-polarized single-beam antenna and an elliptic cylindrical lens + / -45-degree dual-polarized dual-beam antenna, and is formed bya + / -45-degree dual-polarized single-antenna excitation novel artificial dielectric cylindrical lens. The invention further provides a co-station construction method based on the novel 5G lens antennaand an existing 5G antenna, and the existing 5G antenna comprises a 5G fixed beam antenna and a 5G large-scale antenna (5GmMIMO). The novel 5G lens antenna has the characteristics of high gain, widecoverage and low loss, and is better than a 5G fixed beam antenna. Therefore, on an existing 4G station site, the novel 5G lens antenna can replace an existing 5G fixed beam antenna, and independent construction of 5G base stations can be reduced on a large scale.

Description

technical field [0001] The invention relates to the field of 5G construction, in particular to a method for co-site construction based on a novel 5G lens antenna and a 5G antenna. Background technique [0002] 5G is a concentrated expression of new network technologies, and base station construction is being deployed on a large scale around the world. But with the construction of 5G network, the challenges it faces also follow. On the one hand, 5G's interconnection of all things, high speed, low latency, and ultra-large capacity requirements increase the energy consumption of base stations several times. The current 5G antenna feeder system adopts the AAU technology integrated with massive multi-antenna (mMIMO). According to the test, the current power consumption of a 5G single station is 3-4 times that of a 4G single station. The main factor for the increase in 5G power consumption. [0003] On the other hand, the 5G frequency band has risen from 2GHz to 3.5GHz, 5GHz fr...

Claims

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Application Information

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IPC IPC(8): H01Q15/02H01Q19/06H01Q1/12
CPCH01Q1/12H01Q15/02H01Q19/06
Inventor 陈滢肖良勇王建青任玉文焦西斌田建科王亚肖兵左宏李天佐王赟
Owner XIAN HAITIAN ANTENNA TECH CO LTD
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