KR101038655B1 - Multi-band rod antenna convertible of operating frequency with broadband using coupling - Google Patents

Abstract

PURPOSE: A multi-band rod antenna is provided to change the band width of operational frequency by adjusting a gap between a metal rod and sleeves which are in combination with the metal rod. CONSTITUTION: A multi-band rod antenna includes a metal rod(130) and an insulator(140). The upper end and the lower end of the metal rod are inserted into the lower side of an upper sleeve(110) and into the upper side of a lower sleeve(120). The metal rod is based on a conductor. The insulator with the pre-set thickness is formed on the outer circumference of the metal rod. The insulator separates the metal rod from each sleeve.

Description

Multi-Band Rod Antenna convertible of Operating Frequency with Broadband using coupling}

The present invention relates to a multi-band load antenna capable of wideband conversion of an operating frequency band using a coupling, and more particularly, to adjust the physical length of the antenna to secure the operating frequency band of the multi-band load antenna in a wide band or The present invention relates to a multi-band load antenna capable of wideband conversion of an operating frequency band using a coupling instead of a separate matching circuit.

With the development of information and communication technology, the portable terminal is accelerating the multimediaization of the portable terminal by adding a multimedia function in addition to the voice communication and text message transmission and reception functions of the past.

As such, as the multimedia is accelerated, terminals having a function of receiving a digital multimedia (Audio) Broadcast (DMB, DAB) have been developed.

However, since the terrestrial digital multimedia broadcasting uses the VHF band, a problem arises in that the reception rate of the antenna mounted in a mobile phone or a portable personal information terminal (Personnal) decreases. 174 ~ 240MHz) and L-Band (1452 ~ 1492MHz), there was a problem to secure bandwidth at the same time, and to overcome this, a long physical load antenna was required.

1 is a view showing a schematic configuration of a rod antenna 1 operating in a multiband including a conventional upper sleeve and a lower sleeve.

As shown in FIG. 1, a load antenna 1 operating in a conventional multi-band is pulled in and pulled out in a multi-stage manner, and when the DMB or DAB broadcast is watched, the load antenna is drawn out, and when not viewed The rod antenna was introduced.

However, since the rod antenna 1 operating in the conventional multi-band is operated as a monopole antenna because the upper sleeve 10 and the lower sleeve 20 are electrically connected to each other in a rolled structure 30, the load antenna 1 operates in a monopole antenna. There is a problem that the physical length of the load antenna drawn out of the mobile communication terminal increases by requiring / 4 wavelength as the antenna length, and a separate matching circuit is required to secure an operating frequency band for operating in a multi-band. There was a problem with.

Therefore, in the load antenna including the upper sleeve and the lower sleeve, a practical and high utilization that can provide a multi-band load antenna capable of increasing the physical length of the load antenna and wideband conversion of the operating frequency band without a separate matching circuit. Technology is desperately needed.

Accordingly, the present invention has been made to solve the above problems, the present invention is a multi-band load antenna including a plurality of sleeves to adjust the physical length of the antenna to convert the operating frequency band to a wide band or a separate matching circuit Instead of having a metal rod coupled to at least one or more sleeves of the plurality of sleeves and a cylindrical insulator formed on the outer circumferential surface of the metal rod to a predetermined thickness using a coupling of the operating frequency band An object of the present invention is to provide a multiband load antenna capable of wideband conversion.

In order to achieve the above object, a multi-band load antenna capable of wideband conversion of an operating frequency band using a coupling according to an embodiment of the present invention, in the rod antenna including an upper sleeve and a lower sleeve, the upper end and the lower side A metal rod having an end inserted into a lower side of the upper sleeve and an upper side of the lower sleeve, respectively, and formed of a rod-shaped conductive conductor; And a predetermined thickness formed on an outer circumferential surface of the metal rod to space the predetermined distance to couple the metal rod and the sleeve to each other. Cylindrical insulator; characterized in that it comprises a.

As described above, the present invention is a multi-band load antenna including a plurality of sleeves, instead of adjusting the physical length of the antenna or a separate matching circuit to convert the operating frequency band to a wide band, the plurality of sleeves A multi-band rod antenna capable of wideband conversion of an operating frequency band using a coupling, including a metal rod coupled to at least one of the sleeves by coupling and a cylindrical insulator formed on the outer circumferential surface of the metal rod to a predetermined thickness. It is effective to provide.

1 is a diagram showing a schematic configuration of a rod antenna operating in a multi-band including a conventional upper sleeve and a lower sleeve
2 is a view showing a schematic configuration of a multi-band load antenna capable of wideband conversion of an operating frequency band using a coupling according to an embodiment of the present invention
3 is a view showing a standing wave ratio of a multi-band load antenna capable of wideband conversion of an operating frequency band using a coupling according to an embodiment of the present invention.
4 is a view showing a schematic configuration of a multi-band load antenna capable of wideband conversion of an operating frequency band using a coupling according to another embodiment of the present invention
5 is a view showing a schematic configuration of a multi-band load antenna capable of wideband conversion of an operating frequency band using a coupling according to another embodiment of the present invention

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

2 is a diagram illustrating a schematic configuration of a multi-band load antenna 100 capable of wideband conversion of an operating frequency band using a coupling according to an embodiment of the present invention.

As shown in FIG. 2, the multi-band load antenna 100 capable of wideband conversion of an operating frequency band using a coupling according to an embodiment of the present invention includes an upper sleeve 110 and a lower sleeve 120. A rod antenna comprising: a metal rod 130 having an upper end and a lower end inserted into a lower side of the upper sleeve 110 and an upper side of the lower sleeve 120, respectively, and formed of a rod-shaped conductive conductor; And a cylindrical insulator 140 formed on the outer circumferential surface of the metal rod 130 to space the metal rod 130 from the upper sleeve 110 and the lower sleeve 120 at a predetermined interval. Include.

In addition, in the multi-band load antenna 100 capable of wideband conversion of the operating frequency band by using the coupling according to the embodiment of the present invention, the insulator 140, the protrusion 141 is formed around the center of the outer peripheral surface Thus, the upper sleeve 110 and the lower sleeve 120 is spaced apart by a predetermined interval and the cross section of the outer peripheral surface is made of a stepped structure.

Here, the stepped structure refers to a structure in which a step is formed due to a difference between the center and the remaining area of the outer circumferential surface constituting the outer circumferential surface of the insulator 140 as high and low, as shown in the figure.

On the other hand, the upper sleeve 110 and the lower sleeve 120 are coupled to each other and the metal rod 130 and each other, using a coupling according to an embodiment of the present invention broadband of the operating frequency band The convertible multiband rod antenna 100 changes the bandwidth of the operating frequency by adjusting the distance between the metal rod 130 and the sleeves 110 and 120 and the metal rod length of the region where the coupling occurs. Let's do it.

3 is a view showing a standing wave ratio of a multi-band load antenna capable of wideband conversion of an operating frequency band using a coupling according to an embodiment of the present invention.

As shown in the figure, a multi-band load antenna capable of wideband conversion of an operating frequency band using a coupling according to an embodiment of the present invention uses a VHF band (174-240 MHz) and an L-Band (1452-1492 MHz). It can be seen that the operating frequency band included.

4 is a diagram illustrating a schematic configuration of a multiband load antenna 200 capable of wideband conversion of an operating frequency band using a coupling according to another embodiment of the present invention.

As shown in FIG. 4, the multi-band load antenna 200 capable of wideband conversion of an operating frequency band by using a coupling according to another embodiment of the present invention includes an upper sleeve 210 and a lower sleeve 220. In the rod antenna including, the upper portion is coupled to the rolling structure 250 is electrically connected to the lower side of the upper sleeve 210 and the lower end is a rod-shaped conductive conductor inserted into the upper side of the lower sleeve 220 A metal rod 230 formed of; And a cylindrical insulator 240 formed on the outer circumferential surface of the region excluding the upper portion of the metal rod 230 to space the lower portion of the metal rod 230 from the lower sleeve 220 at a predetermined interval. Include.

In addition, in the multi-band load antenna 200 capable of wideband conversion of an operating frequency band by using a coupling according to another embodiment of the present invention, the insulator 240 has a protrusion 241 around an upper portion of an outer circumferential surface thereof. It is formed is spaced between the upper sleeve 210 and the lower sleeve 220 at a predetermined interval, and the cross section of the outer peripheral surface is made of a stepped structure.

Here, the stepped structure refers to a structure in which a step is formed due to the difference between the upper and lower portions of the outer circumferential surface constituting the outer circumferential surface of the insulator 240 and the remaining area as shown in the drawing.

On the other hand, the lower sleeve 220 is coupled to each other and the metal rod 230, and a multi-band load antenna capable of wideband conversion of the operating frequency band using the coupling according to another embodiment of the present invention In operation 200, the interval between the metal rod 230 and the lower sleeve 220 and the length of the metal rod in the region where the coupling occurs are changed to change the bandwidth of the operating frequency.

5 is a diagram illustrating a schematic configuration of a multi-band load antenna 300 capable of wideband conversion of an operating frequency band by using a coupling according to another embodiment of the present invention.

As shown in FIG. 5, the multi-band load antenna 300 capable of wideband conversion of an operating frequency band using a coupling according to another embodiment of the present invention includes an upper sleeve 310 and a lower sleeve 320. In the rod antenna including a, the upper end is inserted into the lower side of the upper sleeve 310, the lower portion is coupled to the rolling structure 350 is electrically connected to the upper side of the lower sleeve 320 and rod-shaped conductivity A metal rod 330 formed of a conductor; And a cylindrical insulator 340 formed on the outer circumferential surface of the region excluding the lower portion of the metal rod 330 so as to be spaced apart from the upper sleeve 310 by a predetermined distance from the upper sleeve 310. Include.

In addition, in the multi-band load antenna 300 capable of wideband conversion of the operating frequency band by using the coupling according to another embodiment of the present invention, the insulator 340 is a protrusion 341 around the lower side of the outer peripheral surface Is formed is spaced apart between the upper sleeve 310 and the lower sleeve 320 at a predetermined interval and the cross section of the outer peripheral surface is made of a stepped structure.

Here, the stepped structure refers to a structure in which a step is formed due to a difference between the lower and lower regions of the outer circumferential surface constituting the outer circumferential surface of the insulator 340, as shown in the drawing.

On the other hand, the upper sleeve 310, the metal rod 330 and the mutual coupling coupled to each other, a multi-band load capable of wideband conversion of the operating frequency band using the coupling according to another embodiment of the present invention The antenna 300 changes the bandwidth of the operating frequency by adjusting the gap between the metal rod 330 and the upper sleeve 310 and the metal rod length of the region where the coupling occurs.

As described above, the present invention is a multi-band load antenna including a plurality of sleeves, instead of adjusting the physical length of the antenna or a separate matching circuit to convert the operating frequency band to a wide band, at least one of the plurality of sleeves Provides a multi-band load antenna capable of wideband conversion of the operating frequency band by using a coupling including a metal rod coupled to one or more sleeves and a coupling and a cylindrical insulator formed to a predetermined thickness on the outer circumferential surface of the metal rod It works.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, It is within the scope of the present invention that component changes to such an extent that they can be coped evenly within a range that does not deviate from the scope of the present invention.

1,100,200,300: Rod antenna 10,110,210,103: Upper sleeve
20,120,220,320: Lower sleeve 30,250,350: Rolled structure
130,230,330: Metal Rod 140,240,340: Insulator
141,241,341: protrusions

Claims (5)

A rod antenna comprising an upper sleeve and a lower sleeve,
A metal rod having an upper end and a lower end inserted into a lower side of the upper sleeve and an upper side of the lower sleeve, respectively, and formed of a rod-shaped conductive conductor; And
A predetermined thickness is formed on an outer circumferential surface of the metal rod to space the predetermined distance so that the metal rod and the sleeve are coupled to each other. Cylindrical insulator; Multiband load antenna capable of wideband conversion of the operating frequency band by using a coupling comprising a.
A rod antenna comprising an upper sleeve and a lower sleeve,
A metal rod formed of a rod-shaped conductive conductor having an upper side coupled to a rolling structure electrically connected to a lower side of the upper sleeve and having a lower end inserted into an upper side of the lower sleeve; And
A cylindrical insulator formed at a predetermined thickness on an outer circumferential surface of an area excluding the upper part coupled to the rolled structure of the metal rod, and having a predetermined distance from the lower part of the metal rod and the lower sleeve to each other for coupling coupling; A multi-band load antenna capable of wideband conversion of the operating frequency band using a coupling comprising a.
A rod antenna comprising an upper sleeve and a lower sleeve,
A metal rod having an upper end inserted into a lower side of the upper sleeve and coupled with a rolling structure in which a lower portion is electrically connected to an upper side of the lower sleeve, and formed of a rod-shaped conductive conductor; And
And a cylindrical insulator formed on the outer circumferential surface of the region excluding the lower portion of the metal rod, the cylindrical insulator separating the upper portion of the metal rod and the upper sleeve from each other by a predetermined distance for coupling coupling. Multi-band load antenna capable of wideband conversion of the operating frequency band by using a coupling.
The said insulator of any one of Claims 1-3,
Protruding portion is formed around the outer circumference to separate the upper sleeve and the lower sleeve at a predetermined interval, and the cross section of the outer circumference has a stepped structure. antenna.
The method according to claim 4,
Multi-band conversion of the operating frequency band using a coupling, characterized in that for changing the bandwidth of the operating frequency by adjusting the distance between the metal rod and the sleeve and the length of the metal rod in the region where the coupling occurs Band Load Antenna.

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