KR101339020B1 - Antenna apparatus - Google Patents

Abstract

The present invention relates to an antenna device and, more specifically, to the antenna device is capable of reducing production costs as the composition is formed to be simple in order for a case not to be utilized as an emitter in a mobile communication terminal including the case made of conductive metal.

Description

Antenna apparatus

The present invention relates to an antenna device, and more particularly, to an antenna device capable of reducing manufacturing costs by simplifying the configuration of an antenna so as not to utilize the case as a radiator in a mobile communication terminal having a case made of a conductive metal. will be.

In recent years, in RFID systems and short-range wireless communication systems that are expanding in use, communication devices are equipped with communication devices in order to communicate with portable electronic devices such as mobile phones or with portable electronic devices, readers, and writers. . Patent Document 1 discloses an antenna mounted on a portable electronic device among these antennas.

1 is a diagram showing a state of communication in the proximity of the portable information terminal 21 and a reader and a writer of a patent document (Japanese Laid-Open Patent Publication No. 2006-270681). In the example of FIG. 1, of the electromagnetic waves radiated from the transmitting and receiving antenna unit 26 of the reader and the writer, a part of the magnetic field H is affected by a metal object such as the battery pack 25 in the terminal body 22. It is attenuated by reflection and absorption.

The metal layer 30 is disposed on the incident side of the electromagnetic wave rather than the communication surface CS of the antenna module 10. On the surface of the metal layer 30, an induced current (eddy current) is generated by the application of an external magnetic field, and the generated magnetic field H1 causes the induced current in the antenna coil 15 of the antenna module 10. do.

In the prior art as described above, the metal layer 30 is disposed close to the antenna module 10 such that the metal layer 30 covers a part of the antenna coil 15, thereby interposing the magnetic field component H1 generated in the metal layer 30 through the reader and the writer. Inductive coupling between the transmitting and receiving antenna unit 26 and the antenna coil 15 of the antenna module 10.

The prior art of FIG. 1 is intended to solve the problem that the communication characteristics fluctuate greatly according to the magnitude of the positional displacement between the centers of the antennas when the distance to the antenna on the communication side is extremely close. The magnetic flux that tries to bridge between the antenna coil 15 of the antenna module 10 on the portable information terminal 21 side and the transmission / reception antenna unit 26 on the reader and the writer side is the battery pack 25 in the case 200. In order to eliminate the blockage with a metal object such as), a metal layer 30 was formed to induce the magnetic flux. Therefore, a large effect cannot be obtained depending on the positional relationship of shields, such as the said battery pack 25. FIG.

In addition, there is a problem that the metal layer 30 does not work effectively to increase the communication distance in a state where the antenna device and the antenna on the communication counterpart are separated.

Therefore, in the related art, as proposed in Korean Patent Laid-Open Publication No. 2012-0099131 (published on September 5, 2012), since current flows in a conductor, slits and openings are formed in a metal material to block magnetic fields generated in a case made of a conductive metal body. To induce a current in the conductor layer. That is, in the prior art, for example, a case made of a conductive metal is used as a radiator.

However, the prior art as described above has a problem in that the manufacturing cost is increased because a separate electrode sheet must be additionally provided with the magnetic material in order to attach the loop-shaped antenna to the back of the conductive metal case.

Therefore, the present invention has been made to solve the above-mentioned conventional problems, an object of the present invention is to simplify the configuration of the antenna device installed in the case made of a conductive metal in the mobile communication terminal can reduce the manufacturing cost An antenna device is provided.

The present invention includes the following embodiments in order to achieve the above object.

Preferred embodiment of the antenna device according to the present invention is a case of a mobile communication terminal is made of metal and the opening is formed; An antenna sheet stacked on a magnetic sheet inside the case such that an antenna pattern is located in the opening region; And a cover made of a non-conductive material to seal the opening, wherein the antenna sheet is formed with an area smaller than the area of the opening and adhered to the cover so as not to overlap with the case.

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In another embodiment of the present invention, the antenna pattern is a loop antenna pattern provided with one or more turns, and the antenna sheet is characterized in that the loop antenna pattern is formed is a foldable foldable antenna.
The antenna sheet is characterized in that the terminal portion which is connected to the start and end of the loop antenna pattern provided with one or more turns, respectively, is directed toward the outside.

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In another embodiment of the present invention, the antenna sheet is folded so that the front portion at which the terminal portion is located is located in the opening portion, and the rear portion at which a loop antenna pattern extending from the front portion is formed is located at the lower side thereof. It is characterized in that the foldable antenna to be bonded.

In another embodiment of the present invention, the magnetic sheet preferably includes a first magnetic sheet disposed between the antenna sheet is folded to the front portion and the rear portion, and a second magnetic sheet bonded to the rear portion.

In another embodiment of the present invention, the antenna sheet is preferably a pattern of the long axis (L) of the loop antenna pattern is located in the horizontal axis of the horizontal line (H) of the first magnetic sheet.

In another embodiment of the present invention, the antenna device is cut in the opening is formed with a slit extending in the longitudinal direction of the case.

In another embodiment of the present invention, the antenna device is characterized in that the slit which is cut in the opening extending in the short axis direction of the case is formed.

In another embodiment of the present invention, the opening is preferably formed in the central portion in the short axis direction of the case.

In another embodiment of the present invention, the magnetic sheet is characterized in that any one selected from ferrite, metal foil and thin plate.

The present invention does not utilize the case of the mobile communication terminal as a radiator by providing a gap between the case and the antenna located in the opening formed in the case of the mobile communication terminal made of a conductive metal, so that a separate electrode sheet can be omitted. There is an effect that can reduce the manufacturing cost.

1 is a cross-sectional view showing a conventional antenna device,
2 is an exploded perspective view illustrating an antenna device according to the present invention;
3 is a plan view showing a fold antenna in the antenna device according to the present invention.
4 is a side view of a fold antenna in the antenna device according to the present invention;
5A and 5B are plan views of an antenna device installed in the antenna device according to the present invention;
6 is a sectional view showing an antenna device according to the present invention;
7 is a plan view showing a front portion of another embodiment of a fold antenna in the antenna device according to the present invention;
8 is a rear view showing a rear portion of another embodiment of a foldable antenna in the antenna device according to the present invention.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the antenna device according to the present invention will be described in detail.

2 is an exploded perspective view showing the antenna device according to the present invention.

Referring to FIG. 2, the antenna device according to the present invention includes a case 200 in which an opening 210 is formed at a central portion of a short axis, a cover 400 for sealing the opening 210 of the case 200, and The antenna sheet 100 is bonded inside the case 200, and the magnetic sheets 310 and 320 are attached to the antenna sheet 100.

The case 200 is made of a conductive metal material and is manufactured in a plate shape consisting of a long axis 200a and a short axis 200b to seal the rear surface of the mobile communication terminal and / or the battery. In addition, the case 200 has an opening 210 formed at the center of the short axis 200b and a slit 220 which is cut to extend from the opening 210 to the long axis 200a or the short axis 200b. 5b).

Here, the short axis 200b refers to a shorter distance among the upper, lower, left, and right edges of the case, and the long axis 200a refers to a long distance.

The cover 400 is made of a non-conductive material (for example, plastic) to be inserted into the opening 210 inside the case 200 to seal it.

The magnetic sheets 310 and 320 are laminated to the antenna sheet 100 as one or more. Here, the second magnetic sheet 320 stacked below the antenna sheet is applicable to a metal foil or a thin plate, not ferrite.

The antenna sheet 100 and the magnetic sheets 310 and 320 are release papers 500 (FIG. 5A and FIG. 5B) coated with adhesive liquid on both surfaces thereof so as not to contact the case 200 on the rear surface of the cover 400. ) Or by an adhesive.

For example, in the related art, in order to utilize the case 200 as a radiator in a mobile communication terminal having a case 200 made of a conductive metal, an electrode sheet and a magnetic sheet are laminated between the antenna and the case 200, and the case and the case. The antenna sheet was in contact so as to be electrically energized.

However, in the present invention, the antenna sheet 100 is bonded to the inner surface of the cover 400 of the non-conductive material so that the case 200 and the antenna sheet 100 do not come into contact with the gap spaced apart from the case 200.

More preferably, it does not overlap with the area of the antenna pattern 110 of the antenna sheet 100 and the opening 210 of the case 200. That is, the antenna sheet 100 is formed in the area of the opening 210 so that the antenna sheet 100 does not overlap with the case 200 so that the area of the antenna sheet 100 is smaller than the area of the opening 210.

Therefore, the case 200 is not in contact with the antenna sheet 100, and thus the induction current is not generated in the case 200 as the antenna sheet 100 is adhered to the cover 400 made of a non-conductive material. .

As described above, the present invention has been described in which the antenna sheet 100 and the magnetic sheets 310 and 320 are bonded to the cover 400 of the non-conductive material by using an adhesive solution or a release paper, It is also possible to bond the magnetic sheets 310 and 320 and the antenna sheet 100 to the inside of the case 200 by using a release paper applied.

In this case, the antenna pattern 110 (refer to FIGS. 3 and 4) of the antenna sheet 100 has a narrower area so as not to overlap the opening 210, and is located in the area of the opening 210 to provide the case 200. ) And the release paper 500 are bonded.

More preferably, the antenna sheet 100 may be manufactured in a fold shape and be folded with the magnetic sheet 310 interposed therebetween to increase the area of the antenna pattern 110. Such a foldable antenna sheet 100 is as shown in Figs.

3 is a plan view illustrating a fold antenna in the antenna device according to the present invention, and FIG. 4 is a side view of the fold antenna in the antenna device according to the present invention.

Referring to FIGS. 3 and 4, the antenna sheet 100 is a foldable antenna having a loop antenna pattern 110 that is wound at one or more turns to form a loop (top surface 100a). It is folded so as to be positioned at the lower surface (rear portion 100b), and the first magnetic sheet 310 (ferrite sheet) is positioned therebetween.

Here, the antenna sheet 100 is at least any one of a flexible printed circuit board (FPCB) method, a coil embedding method, a coil winding method, a pole plating method, a sputtering method, a conductive ink printing method, and a stamping method. The antenna loop pattern 110 is constructed in one way.

The antenna sheet 100 may be formed of one or more layers so that terminals connected to the start and end ends of the loop antenna pattern 110 are adjacent or spaced apart from each other. The antenna sheet 100 of FIGS. 3 and 4 shows neighboring terminal parts 120 as an example.

The terminal 120 has a first terminal 121 connected at the start end and a second terminal 122b connected at the end 122a. Here, the second terminal 122b may be connected through another layer through the through hole at the end 122a.

In addition, the antenna sheet 100 is positioned at the front portion 100a so that the terminal portion 120 is positioned close to the case 200 to face the outside of the case 200 and protrudes out of the antenna sheet. In this case, as described above, the terminal 120 does not overlap the area of the opening 210 so as not to contact the case 200.

The antenna sheet 100 has a center of the magnetic sheets 310 and 320 so that the loop antenna pattern 110 is not disposed outside the magnetic sheets 310 and 320 in order to prevent performance degradation of the antenna. Be placed at the site.

The antenna device according to the present invention includes the above configuration, and the following describes the operation of the present invention achieved through the above configuration.

5A and 5B are plan views of an antenna device installed in the antenna device according to the present invention, and FIG. 6 is a cross-sectional view showing the antenna device according to the present invention.

5A and 5B illustrate the antenna sheet 100 exposed through the opening 210 before the cover 400 is attached. 5A illustrates an embodiment in which the slit 220 extends in the direction of the long axis 200a of the case 200, and FIG. 5B illustrates an embodiment in which the slit 220 extends in the short axis 200b. Shown.

6 illustrates a process in which the antenna sheet 100 is adhered to the cover 400 in a state in which the cover 400 is seated in the opening 210.

First, the worker folds the antenna sheet 100, and sandwiches the first magnetic sheet 310 therebetween. At this time, the antenna sheet 100 is folded so that the terminal portion 120 is positioned in the front portion 100a so as to face the outside of the case 200, and the rear portion 100b is inside the case 200 (for example, a battery). Fold close to). In addition, the operator stacks the second magnetic sheet 320 on the rear portion 100b of the antenna sheet 100.

Here, the first magnetic sheet 310 is a sheet coated with ferrite, and the second magnetic sheet 320 may be replaced with a metal foil or a thin plate instead of ferrite.

In addition, the first magnetic sheet 310 and the second magnetic sheet 320 may be the same area or more than the antenna sheet 100.

Thereafter, the worker adheres the release paper 500 having an adhesive or an adhesive layer to the top surface of the antenna sheet 100, and adheres the antenna sheet 100 to the release paper 500. At this time, the antenna sheet 100 is bonded with the case 200 and the gap (a, b).

In addition, the worker seats and fixes the cover 400 between the openings 210 to seal the openings 210.

Here, the cover 400 is the antenna sheet 100 using a release paper 500 or an adhesive in a state in which the opening 210 is sealed or fixed to the opening 210 after the antenna sheet 100 is bonded. ) Can also be bonded.

In addition, the present invention, the antenna sheet 100, the first magnetic sheet 310 and the second magnetic sheet 320 is the opening (inside) of the case 200 by the release paper 500, the adhesive layer is coated on both sides 210 is bonded to be located in the formed area.

That is, in the above-described example, the antenna sheet 100 is attached to the cover 400, but the antenna sheet 100 and the magnetic sheet are formed by the release paper 500 (double-sided tape) on which the adhesive layer is formed. 200). In this case, the antenna sheet 100 maintains gaps a and b between the openings 210 of the case 200. Therefore, the loop antenna pattern 110 of the antenna sheet 100 does not overlap the opening 210.

 Therefore, the present invention does not utilize the case 200 as a radiator because the antenna sheet 100 has a case 200 and gaps a and b made of a conductive metal material. Therefore, the present invention does not use an electrode sheet between the case 200 and the antenna sheet 100, unlike the prior art.

In addition, in the present invention, the performance of the antenna sheet is improved when the center line of the width W of the loop antenna pattern is aligned with the center line H in the folded state.

That is, in the present invention, the antenna sheet 100 has a short axis in the center of the loop antenna pattern 110 in the folded state and in the folded state, for example, in the front portion 100a and the rear portion 100b. As the centerline H of S) coincides, the performance of the antenna is improved. This will be described with reference to FIGS. 7 and 8.

7 and 8 illustrate the folded state at the center line of the short axis S, which is equally applied to the folded state at the center line of the long axis L of FIGS. 1 to 4. However, in order to confirm various performances in the antenna sheet of the present invention was changed in the folding direction.

7 is a plan view showing a front portion of another embodiment of the fold antenna in the antenna device according to the present invention, Figure 8 is a rear view showing a rear portion of another embodiment of the foldable antenna in the antenna device according to the present invention.

7 and 8, another embodiment of the antenna sheet 100 is folded at the center line of the short axis S so that the front part 100a and the front part 100a are located. The loop antenna pattern 110 is folded into an extended rear portion 100b.

Here, the first magnetic sheet 310 and the second magnetic sheet 320 may be disposed such that the loop antenna pattern 110 of the antenna sheet 100 is positioned at the center portion.

The long axis L of the loop antenna pattern 110 refers to an axis having the longest length of the loop antenna pattern 110 on one surface. In addition, the short axis S of the spiral loop antenna pattern 110 refers to an axis having the shortest length of the loop antenna pattern 110 on one surface.

In the antenna sheet 100, at least 20% of the widths W of the patterns 110 formed on the long axis L of the spiral loop antenna pattern 110 are horizontal axis center horizontal lines of the first magnetic sheet 310 ( It is formed to be disposed above or below H).

For example, the width W of the patterns 110 formed on the long axis L of the spiral loop antenna pattern 110 is 1 cm, of which 0.3 cm, which is 30%, is the first magnetic sheet 310. When disposed on the horizontal axis H of the horizontal axis (H), 0.7cm, which is 70% of the width (W) of the patterns 110 formed on the long axis (L) is disposed below.

In the present invention, the antenna sheet 100 is 50% of the width (W) of the pattern antenna 110 is formed in the long axis of the loop antenna pattern 110, the upper and lower portions of the horizontal axis center horizontal line (H) of the magnetic sheet It is formed so that each is arranged.

That is, 50% of the width W of the patterns 110 formed in the long axis L of the loop antenna pattern 110 is disposed above the horizontal axis center horizontal line H of the magnetic sheets 310 and 320. 50% of the width (W) of the patterns 110 formed in the long axis (L) in the lower portion is arranged.

In this case, when the patterns 110 formed in the long axis L of the spiral loop antenna patterns 110 are arranged around the horizontal axis center horizontal line H of the magnetic sheets 310 and 320, the arrangement 110 has a different arrangement. Better antenna performance.

Applicant, to confirm the performance of such an antenna, the antenna 1 in which the loop antenna pattern 110 is disposed on the horizontal axis H of the first magnetic sheet 310 and the spiral loop antenna pattern 110 of the long axis are provided. The antenna 2 located above the horizontal axis center horizontal line H of the one magnetic sheet 310 and the antenna 3 located below the horizontal line H were compared. This is shown in Table 1 below.

Top Pattern (110) Array Antenna Performance Test Results Antenna type Freq. T-money Dongle Standard 1K Standard 4K Ultralight Type 4 Remarks NFC test standards 45 or more 30 or more 25 or more 13 or more V1.0 Reference 56 36 42 42 38 23 Domestic M250 Antenna 1 15.6 47 30 34 34 30 18 Specin Antenna 2 15.6 43 26 31 31 27 15 Spec out Antenna 3 15.6 43 27 29 30 26 14 Spec out

According to the results shown in Table 1, the performance of antenna 1 arranged around the horizontal axis H of the first magnetic sheet 310 of the long-held spiral loop antenna patterns 110 is the first magnetic sheet 310. It can be seen that the performance is better than that of the antenna 2 and the antenna 3 outside the horizontal center H of the horizontal axis.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the following claims And changes may be made without departing from the spirit and scope of the invention.

100: antenna sheet 100a: front part
100b: rear portion 110: loop antenna pattern
120: terminal 200: case
200a: Case long axis 200b: Case short axis
210: opening 220: slit
310: first magnetic sheet 320: second magnetic sheet
400: cover a, b: gap
500: release paper

Claims (12)

A case of the mobile communication terminal made of metal and having an opening;
An antenna sheet stacked on a magnetic sheet inside the case such that an antenna pattern is located in the opening region; And
A cover made of a non-conductive material to seal the opening;
The antenna sheet is formed with an area smaller than the area of the opening is bonded to the cover so as not to overlap with the case. delete delete The method of claim 1, wherein the antenna pattern
A loop antenna pattern with one or more turns,
The antenna sheet is an antenna device characterized in that the loop antenna pattern is formed is a foldable foldable antenna. The method of claim 1, wherein the antenna sheet
An antenna device, characterized in that the terminal portion connected to each of the start and end of the loop antenna pattern is provided to one or more turns to face the outside. The method of claim 5, wherein the antenna sheet
And the front part at which the terminal part is located is located at the opening part, and the rear part at which the loop antenna pattern extending from the front part is formed is folded to be located at the lower side, and is a foldable antenna bonded to the magnetic sheet. The method of claim 6, wherein the magnetic sheet is
An antenna device comprising a first magnetic sheet disposed between the antenna sheet is folded to the front portion and the rear portion, and a second magnetic sheet bonded to the rear portion. The method of claim 7, wherein the antenna sheet is
And a long axis L of the loop antenna pattern is positioned at a horizontal horizontal line H of the first magnetic sheet. The method of claim 1, wherein the antenna device
And an slit cut out from the opening and extending in the long axis direction of the case. The method of claim 1, wherein the antenna device
And a slit cut out from the opening and extending in a short direction of the case. The method of claim 1, wherein the opening
The antenna device is formed in the center in the short axis direction of the case. The method of claim 1, wherein the magnetic sheet is
Antenna device, characterized in that any one selected from ferrite, metal foil and thin plate.

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