KR101051239B1 - Stacked Monopole Antennas for Broadband Communications Devices - Google Patents

Abstract

The present invention relates to a stacked monopole antenna for a broadband communication device, the antenna is provided with a plurality of component sheets arranged from the bottom of the antenna to the top, a gap for impedance matching adjustment is provided every two component sheets, It is formed around the integral connecting neck, and the bottom of the antenna is provided with a feed-in line, and the component sheet obtains the desired wide bandwidth by adjusting the height stacked by the component sheet.

Monopole antennas, stacked antennas, barrels, triangular pyramids, polygons, component sheets

Description

Stacked unipolar antennas for broadband communication devices {STACKED MONOPOLE ANTENNA FOR BROADBAND COMMUNICATION EQUIPMENT}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a stacked monopole antenna for a broadband communication device, and more particularly to a miniaturized stacked antenna having excellent gain and broadband characteristics.

Recently, the telecommunications device industry has been continuously developed due to the rapid growth of the electronic communication market, especially the mobile phone market. As the demand for multi-frequency mobile phones increases rapidly, it is assumed that antennas for such communication devices will also operate at two or more frequencies.

At the same time, the volume of mobile phones has been greatly reduced in recent years, which forces the miniaturization of the antenna, which is true that the miniaturization of the antenna limits the gain and bandwidth of the antenna.

In order to miniaturize the antenna and conceal the antenna in a mobile phone with a short length, it is natural that a reduced volume internal antenna is used in place of an exposed helix antenna. When concealing such a small antenna in a communication device, the design of the antenna must take into account factors of broadband generation capability, easy impedance matching with feed-in lines while reducing volume. In practice, broadband antennas currently in use are difficult to meet the requirements of this design, and to transmit and transmit good signals.

The present invention has excellent gain and broadband characteristics, and provides a CDMA (code division multiple access) system, a Pan Europe mobile telephone system, a digital communication system, a personal communication system, a personal mobile telephone system, and a broadband code division multiple access system. It is a primary object to provide a stacked monopole antenna for a broadband communication device having an operating frequency suitable for an inclusive system.

In order to achieve the above object, the present invention provides a plurality of component sheets arranged from the bottom to the top, a gap provided between the two component sheets for adjusting impedance matching, between the two component sheets. An integrated connect neck formed in the gap, and a feed-in line provided at the bottom of the antenna, wherein the component sheet is adapted to obtain an antenna from which the desired broadband width is obtained by adjusting the height stacked by the component sheet. to provide.

In a preferred embodiment, the plurality of component sheets are stacked to jointly form a barrel or form a barrel from bottom to top.

In a preferred embodiment, the plurality of component sheets are laminated to form a triangular pyramid shape, or to form a triangular pyramidal sheet member, the area of which is reduced from the bottom to the top thereof.

In another preferred embodiment, the plurality of component sheets are laminated to form a polygonal sheet member jointly or to form a polygonal barrel.

In another preferred embodiment, the plurality of component sheets are laminated to form a rectangular sheet member jointly or to form an antenna in a rectangular shape.

According to the present invention, the impedance matching can be adjusted by adjusting the gap between the component sheets, so that the desired wide bandwidth can be adjusted according to the stack height, and an antenna having excellent gain and wide band characteristics can be provided.

Hereinafter, with reference to the accompanying drawings will be described in detail the present invention.

First, referring to FIG. 1, in the first embodiment, the monopole antenna 10 is made of metal (copper or the like), punched into a triangular radiating element, and its frequency is a CDMA (Code Division Multiple Access) system 824-. 894MHZ), Plate Euro Mobile Phone System (GMS, 880-894MHZ), Digital Communication System (DSC, 1710-1880MHZ), Personal Communication System (PCS, 1850-1990MHZ), Personal Mobile Phone System (PHS, 1905-1920MHZ), And wideband code division multiple access system (WCDMA, 2010-2025MHZ).

In the above-described first embodiment of the present invention, the monopole antenna 10 is provided with a plurality of component sheets 11, 12, ..., arranged from the bottom to the top. An adjustable gap 13 is provided between the two component sheets 11, 22,. In this embodiment, the gap 13 is provided such that the unipolar antenna has a set distance from the centerline 14 to the edge portion of each component sheet 11, 12,..., Component sheet 11. , 12, ... are formed around an integral connecting neck 15, at the bottom of which a feed-in line is formed.

In this first preferred embodiment, the component sheets 11, 12, ... form jointly a triangular sheet member in which the area of the component sheets 11, 12, ... is reduced from the bottom to the top. Taking a typical mobile telephone as an example, in the preferred embodiment, the height of each component sheet 11, 12, ... is about 8 mm, the adjustable gap 13 is about 0.5 mm, and the feed-in line When 16 is about 5 mm, the total length L of the monopole antenna 10 is about 130 mm, and the bottom width W is about 18 mm.

The impedance bandwidth and impedance matching of the monopole antenna 10 can be tailored by the adjustment of the adjustable gap 13 formed between the component sheets 11, 12, ..., the fundamental mode resonance being set to occur at 900 MHz. And the total length of the monopole antenna 10 may be determined at three quarters of the wavelength of the resonance frequency.

As shown in Fig. 2, in the second embodiment, the first embodiment (Fig. 1) is folded to form a barrel (the second embodiment forms a triangular pyramid shape), in a similar part. Similar reference numerals will be used. In a second embodiment, the antenna 100 has a plurality of component sheets 110, 120,..., An adjustable gap 130, an integral connecting neck 150, and a feed-in line 160 similar to the first embodiment. ), And by the mulch-folding processing mode, the component sheets 110, 120, ... are folded and stacked, so that the monopole antenna 10 has a small height (approximately 10 mm). Therefore, the entire monopole antenna 10 can be installed and connected to the circuit board 20 of the mobile telephone as shown in FIG.

FIG. 4 shows a third embodiment of the present invention, in which an antenna, similar to the foregoing embodiment, includes a plurality of component sheets 110a, 120a,..., An adjustable gap, and an integral connecting neck ( 150a), and the component sheets 110a and 120a are integrally connected to be folded to form the stacked antenna 100a and to form a stacked polygonal sheet member. FIG. 5 shows a fourth embodiment according to the invention with a plurality of component sheets 110b, 120b, ..., and using a polygonal stacked antenna 100b which is not exactly the same as the third embodiment but is similar. In the drawings, the component sheets 110b, 120b, ... are folded and stacked to provide a small height (about 20 mm) of a monopole antenna 100b. Fig. 9 shows a fifth embodiment of the present invention having a plurality of component sheets similar to the fourth embodiment, but the component sheets are rectangular in shape and are stacked to form a rectangular stacked antenna 100c. The antenna 100c is installed in a housing (shown in dashed lines in the diagram), the feed-in line extends out of the housing, and each component sheet has a plurality of connecting necks provided separately in the center between the two sides thereof. Equipped.

According to the above-described configuration, when the aforementioned triangular pyramidal antenna (FIG. 2) was tested at the frequency of the global communication system 824-2025MHZ, the present invention was able to obtain a desired wide bandwidth, as shown in FIG. The standing wave velocity (VSWR) was less than or equal to 2.5 at a frequency of 780-2000MHZ, which was very ideal.

7A, 7B, 8A, and 8B are diagrams of the radiation patterns obtained respectively under tests at 824MHZ and 2025MHZ. When using 824MHZ, the maximum gain of the E-Plan (Fig. 7A) is 0.69 dBi, and the maximum gain of the H-Plan (Fig. 7B) is 0.86 dBi. From this radiation pattern, it can be seen that the H-plan has a very good omnidirectional radiation function. Under the test at 2025MHZ, the maximum gain of the E-Plan (Fig. 8A) is 0.43 dBi and the maximum gain of the H-Plan (Fig. 8B) is 2.12 dBi. From this, it can be seen that the H-plan has a function close to that of omnidirectional radiation.

According to the above-described antenna design, the present invention can adjust the impedance matching by adjusting the gap between the component sheets, so that the desired broadband width can be adjusted according to the stack height, and the antenna has excellent gain and broadband characteristics. Can be.

The preferred embodiments described above are exemplary and do not limit the scope of the present invention. Although a typical mobile phone is taken as an example, it is apparent that the design of the antenna can be used for other wireless communication devices. Also, it will be apparent to those skilled in the art that various modifications and changes can be made without departing from the scope of the present invention.

1 is a plan view showing a first embodiment of the present invention,

2 is a perspective view showing a second embodiment of the present invention;

3 is a plan view showing the installation of the second embodiment of FIG. 2 on a circuit board;

4 is a plan view showing a third embodiment of the present invention;

5 is a perspective view showing a fourth embodiment of the present invention;

6 is a standing wave speed test graph of the present invention,

7a and 7b show the radiation pattern of the E-plan and H-plan of the present invention under 824MHZ,

8A and 8B show the radiation patterns of the E-plan and H-plan of the present invention under 2025MHZ, and

9 is a perspective view showing a fifth embodiment of the present invention.

Claims (10)

In the stacked monopole antenna for a broadband communication device, The antenna is provided with a plurality of component sheets arranged from the bottom of the antenna to the top, a gap for impedance matching adjustment is provided between the two component sheets, and an integrated connecting neck is provided in the gap between the two component sheets. neck is formed, and the bottom of the antenna is provided with a feed-in line, And said plurality of component sheets adjusts the height stacked by said component sheets so that a desired wide bandwidth is obtained. The method of claim 1, And said plurality of component sheets are stacked together from bottom to top to form one sheet member. The method of claim 2, And said plurality of component sheets form one triangular sheet member in which the area of said component sheet gradually decreases from the bottom to the top thereof. The method of claim 2, And said plurality of component sheets form one polygonal sheet member. The method of claim 1, And the plurality of component sheets are further folded to form a stacked antenna in a barrel shape. The method of claim 5, And said barrel-shaped stacked antenna has a triangular pyramid shape. The method of claim 5, And said barrel shaped stacked antenna has a polygonal barrel shape. And said plurality of component sheets form a rectangular stacked antenna of one rectangular shape. The method of claim 8, And the antenna is installed in the housing and the feed-in line extends out of the housing. The method of claim 8, A stacked monopole antenna for a broadband communication device, characterized in that each of said two component sheets has three connecting necks provided in the center between both side surfaces of said component sheet.

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