KR102387975B1 - Antenna - Google Patents

Abstract

An antenna according to an embodiment of the present invention includes a base film, a 1-1 radiation pattern disposed in a plurality of turns on one surface and the other surface of a first region included in the base film, and a first radiation pattern included in the base film A first radiation pattern including a 1-2 radiation pattern disposed in a plurality of turns on one surface and the other surface of region 2 and electrically connected to the 1-1 radiation pattern and a second region including the base film a 2-1 radiation pattern disposed in a plurality of turns on one surface and the other surface, wherein the second region is a region surrounding the first region, and the 1-2 radiation pattern on one surface of the second region and the 2-1 radiation pattern are alternately arranged by one turn.

Description

antenna {ANTENNA}

The present invention relates to an antenna. More particularly, it relates to an antenna capable of achieving reduction in manufacturing cost by improving the usability of a radiation pattern design area and reducing the overall antenna size.

A smart phone is a representative mobile communication device possessed by all modern people, and the recent manufacturing trend for these devices is a reality that is moving toward a thinner and lighter direction.

On the other hand, in recent smartphones, since a lot of additional parts that can implement more diverse functions are mounted, securing space for parts installation is more important than anything else, but this is in direct opposition to the recent manufacturing trend that is moving in the direction of thin and light. , which leads to paradoxical results in which the manufacturing cost also rises.

Accordingly, various smartphone manufacturers are actively conducting research and development on new technologies that can reduce the size of components mounted on their smartphones and at the same time reduce manufacturing costs, and antennas are no exception.

On the other hand, a representative aspect of the recently developed antenna by reflecting this is that one antenna module consists of both an NFC (Near Field Communication) antenna and a MST (Magnetic Secure Transmission) antenna. In addition to secure payment, it became possible to secure space for the installation of other parts.

However, since these antenna modules include only NFC antennas and MST antennas, they cannot implement the wireless charging function that is competitively installed in recent mobile communication devices. There is a problem in that there is no choice but to suffer losses in terms of securing space for

On the other hand, when the WPC antenna and the MST antenna are mounted together, it is common that the MST antenna has a shape surrounding the WPC antenna, so a separate space for mounting the MST antenna is essential, which increases the size of the entire antenna module and There is a problem that causes an increase in manufacturing cost.

The present invention reflects these problems and implements non-contact near field communication (NFC), magnetic secure payment (MST) and wireless charging (WPC) functions through one antenna, thereby having an overwhelming advantage in terms of securing space for installation of parts. It relates to an antenna of a new and advanced technology that can dramatically reduce the overall antenna size by improving the usefulness of the radiation pattern design area at the same time.

Republic of Korea Patent Publication No. 10-2018-0049390 (2018.04.27)

The technical problem to be solved by the present invention is to provide an antenna that can take an overwhelming advantage in terms of securing space for installing parts by implementing non-contact short-range communication, magnetic secure payment, and wireless charging functions through one antenna.

Another technical problem to be solved by the present invention is to provide an antenna capable of remarkably reducing the size of the entire antenna by improving the usefulness of the radiation pattern design area.

The technical problems of the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned will be clearly understood by those skilled in the art from the following description.

An antenna according to an embodiment of the present invention for achieving the above technical problem is a base film, a first 1-1 radiation pattern disposed in a plurality of turns (Turn) on one surface and the other surface of the first region included in the base film and A first radiation pattern including a 1-2 radiation pattern electrically connected to the first-1 radiation pattern and disposed in a plurality of turns on one surface and the other surface of the second region included in the base film, and the base film and a 2-1 radiation pattern arranged in a plurality of turns on one surface and the other surface of the second region including the second region, wherein the second region is a region surrounding the first region, and from one surface of the second region The 1-2 radiation pattern and the 2-1 radiation pattern are alternately arranged one turn at a time.

According to an embodiment, a ratio of the width of any one of the 1-2 radiation patterns to the width of any one of the 2-1 radiation patterns on one surface of the second region is 1:1 to 3 It may be any one of :1.

According to an embodiment, the second region further includes a spacer disposed between the 1-2 radiation pattern and the 2-1 radiation pattern alternately disposed on one surface of the second region, wherein the spacer portion and the second-first radiation pattern are provided. A ratio of the widths of the radiation pattern and the first and second radiation patterns may be any one of 1:3:3 to 1:3:9.

According to an embodiment, the outermost pattern disposed in the first direction on one surface of the second region is a 2-1 radiation pattern of one turn, and the outermost pattern disposed in the second direction is a first-turn pattern of one turn. The second radiation pattern, and the pattern immediately inside the first 1-2 radiation pattern of one turn may be the second radiation pattern of another turn.

According to an embodiment, a 2-2 radiation pattern disposed in a plurality of turns on one surface of a third region that is a region between the second region and the first region and electrically connected to the 2-1 radiation pattern is formed. may include more.

According to an embodiment, the outermost pattern disposed in the first direction on one surface of the second region is the 2-1 radiation pattern of one turn, and the pattern immediately inside the 2-1 radiation pattern of the one turn is Another one-turn 2-1 radiation pattern, and the outermost pattern disposed in the second direction is the 2-1 radiation pattern of one turn, The pattern may be a 1-2 radiation pattern.

According to an embodiment, the outermost pattern disposed in the first direction on one surface of the second region is the 2-1 radiation pattern of one turn, and the pattern immediately inside the 2-1 radiation pattern of the one turn is It is another turn 2-1 radiation pattern, and the outermost pattern disposed in the second direction becomes the 2-1 radiation pattern of one turn, and two turns immediately inside the 2-1 radiation pattern of the one turn The pattern of may be the 2-1 radiation pattern, and the patterns of the two turns immediately inside the inner 2-1 radiation pattern among the 2-1 radiation patterns of the two turns may be the 1-2 radiation patterns.

According to an embodiment, a 3-1 radiation pattern disposed in a plurality of turns on one surface or the other surface of a fourth region that is included in the base film and surrounds the second region and the first radiation pattern on one surface of the base film A third radiation pattern including a 3-2 radiation pattern disposed in one or more turns spaced apart from the innermost pattern of the 1-1 radiation pattern by a predetermined distance, wherein the third radiation pattern may be an NFC pattern .

The base film further includes a third radiation pattern disposed in a plurality of turns on one surface or the other surface of a fourth region that is a region surrounding the second region, wherein the third radiation pattern may be an NFC pattern. .

According to an embodiment, a plurality of first vias are disposed at one end and the other end of the 1-1 radiation pattern and the 1-2 radiation pattern and pass through the base film, and one end and the other end of the 2-1 radiation pattern. It may further include a plurality of second vias that pass through the base film.

According to an embodiment, the 1-1 radiation pattern and the 1-2 radiation pattern may be a WPC pattern, and the 2-1 radiation pattern may be an MST pattern.

According to the present invention as described above, on one side of the second region included in the base film, the first 1-2 radiation pattern, which is a WPC pattern responsible for the wireless charging function, and the 2-1 radiation, which is the MST pattern, which is a magnetic security payment function, is responsible for the wireless charging function. Unlike the prior art, since a separate space for disposing the MST pattern on the outside of the WPC pattern is not required since the patterns are alternately arranged one turn at a time, there is an effect that the overall antenna size can be remarkably reduced compared to the prior art.

In addition, when the ratio of the width of one turn of the 1-2 radiation pattern to the width of one turn of the 2-1 radiation pattern is set to 2:1, the overall manufacturing cost is reduced by reducing the area of the FPCB, which is the base film. can be reduced by 25% or more, and Rdc of the MST pattern can be implemented as 1.4Ω, which has the effect of remarkably reducing the manufacturing cost compared to the prior art and implementing the same level of magnetic security payment function.

In addition, the 3COMBO antenna can be implemented by including the third radiation pattern responsible for the NFC function on the edge of the base film, which has the effect of taking an overwhelming advantage in terms of securing space for installing parts.

In addition, Rdc can be improved to 1.8Ω by additionally arranging the 2-2 radiation pattern in the third zero, which is an empty area in terms of antenna design, which has the effect of meeting the specifications of various mobile communication device manufacturers. .

In addition, one turn disposed on the outermost side of the 1-2 radiation patterns disposed in the second direction is removed, and Rdc can be improved to 1.8Ω by additionally arranging the 2-1 radiation pattern in the removed area, It has the effect of being able to meet the specifications required by various mobile communication device manufacturers.

Effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the following description.

1 is a top view of an antenna according to a first embodiment of the present invention.
2 is a bottom view of an antenna according to a first embodiment of the present invention.
3 is an enlarged top view of a part of one surface of a second region included in a base film in the antenna according to the first embodiment of the present invention.
4 is a cross-sectional view taken along the direction A to A' of the top view shown in FIG. 3 .
5 is a view showing the ratio of the width of one turn of the antenna according to the prior art (left) and the antenna according to the first embodiment of the present invention (right, the first 1-2 radiation pattern and one turn of the 2-1 radiation pattern) It is a sample photo of (when the ratio of the width of the ) is 2:1.
6 is a table in which the specifications of the antenna according to the prior art and the antenna according to the first embodiment of the present invention are compared and described.
7 is a top view of an antenna according to a second embodiment of the present invention.
8 is a top view of an antenna according to a third embodiment of the present invention.
9 is an exploded view for each layer showing a stacked structure in the case of further including some components in the antenna according to the first embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Advantages and features of the present invention, and a method for achieving them will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, and only these embodiments allow the publication of the present invention to be complete, and common knowledge in the technical field to which the present invention pertains. It is provided to fully inform the possessor of the scope of the invention, and the present invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout.

Unless otherwise defined, all terms (including technical and scientific terms) used herein may be used with the meaning commonly understood by those of ordinary skill in the art to which the present invention belongs. In addition, terms defined in a commonly used dictionary are not to be interpreted ideally or excessively unless clearly defined in particular. The terminology used herein is for the purpose of describing the embodiments and is not intended to limit the present invention. In this specification, the singular also includes the plural unless specifically stated otherwise in the phrase.

As used herein, “comprises” and/or “comprising” refers to a referenced component, step, operation and/or element of one or more other components, steps, operations and/or elements. The presence or addition is not excluded.

1 is a top view of an antenna 100 according to a first embodiment of the present invention, and FIG. 2 is a bottom view.

The antenna 100 according to the first embodiment of the present invention has a first radiation pattern including a base film 10, a 1-1 radiation pattern 20-1, and a 1-2 radiation pattern 20-2. (20) and the 2-1 radiation pattern (30-1) may be included, and other typical configurations required to achieve the object of the present invention, for example, an input terminal (not shown), an output terminal ( Needless to say, it may further include a third radiation pattern 40 and the like).

The base film 10 is a film having flexibility and insulating properties as a component that becomes the basic body of the antenna 100 according to the first embodiment of the present invention, and more specifically, a polyimide film, a polyester film, and a polyparavinyl film. It can be implemented as an acid film, a polyethylene phthalate film, a thermoplastic polyurethane film, and the like.

The base film 10 can be implemented in various shapes as well as the shape shown in FIG. 1 , and the shape of the base film 10 is a mobile communication device on which the antenna 100 according to the first embodiment of the present invention is mounted. (not shown) may be diversified according to the internal component mounting design.

The first radiation pattern 20 includes a 1-1 radiation pattern 20-1 and a 1-2 radiation pattern 20-2, and will be described below starting with the 1-1 radiation pattern 20-1. do.

The 1-1 radiation pattern 20 - 1 is disposed in a plurality of turns on one surface and the other surface of the first region I included in the base film 10 .

Here, the first region (I) of the base film 10 means a region that falls within a predetermined distance from the center or its vicinity of the base film 10, and the predetermined distance, the area and shape of the first region (I) are The 1-1 radiation pattern 20-1 may be different depending on the overall area and shape.

On the other hand, one side of the base film 10 means either the upper surface or the lower surface of the base film 10, and when one surface is the upper surface, the other surface becomes the lower surface, and when one surface is the lower surface, the other surface becomes the upper surface. , The description will be continued on the basis that one surface is the upper surface with reference to FIG. 1 and the other surface is the lower surface with reference to FIG. 2 .

The 1-1 radiation pattern 20-1 disposed in a plurality of turns on one surface or the other surface of the first region I included in the base film 10 is formed by patterning a metal conductive material such as copper or containing copper. The surface of the metal foil may be plated with tin, gold, nickel or solder to be disposed on one side of the base film 10, and more specifically, a casting in which the liquid base film 10 is sprayed on the rolled metal foil and thermally cured; Laminating, in which the base film 10 and the rolled metal foil are placed and thermocompression-bonded, a metal seed layer is deposited on the base film 10, the base film 10 is placed in an electrolyte dissolved in the metal, and electricity is applied to place the metal foil A known method such as electroplating may be used.

On the other hand, it is sufficient if the 1-1 radiation pattern 20-1 is arranged in a plurality of turns, and the specific number of turns may be different depending on the specifications of the antenna 100 according to the first embodiment of the present invention. Of course, it will be said that the number of turns shown in FIGS. 1 and 2 corresponds to an example.

The 1-2 radiation pattern 20-2 is arranged in a plurality of turns on one surface and the other surface of the second region II included in the base film 10, and the 1-1 radiation pattern 20-1 and electrically connected.

Here, the second region (II) of the base film 10 refers to a region surrounding the first region (I) described above, and, like the first region (I), its area and shape have the same area and shape as the 1-2 radiation pattern ( 20-2) It may be different depending on the overall area and shape.

On the other hand, it is sufficient that the second region (II) surrounds the first region (I), but there may be a space between the second region (II) and the first region (I). Referring to, it can be seen that a space such as a crescent moon exists inside the second region (II) and below the first region (I), which will be described later as the third region (III).

The one side and the other side of the base film 10, the material and implementation method of the first 1-2 radiation pattern 20-2, and the plurality of turns are the same as the description of the 1-1 radiation pattern 20-1, so it will be omitted. Hereinafter, the electrical connection between the 1-1 radiation pattern 20-1 and the 1-2 radiation pattern 20-2 will be described.

Referring to FIG. 1 , it can be confirmed that the outermost pattern of the 1-1 radiation pattern 20-1 is connected to the 1-2 radiation pattern 20-2, through which the 1-1 radiation pattern An input signal input to ( 20 - 1 ) may be input to the 1-2 th radiation pattern ( 20 - 2 ), so that both patterns may be electrically connected.

In this case, the 1-1 radiation pattern 20-1 and the 1-2 radiation pattern 20-2 are not configured separately, but a region in which a part of one first radiation pattern 20 is disposed is the first radiation pattern 20-2. It is intentionally classified and explained according to whether it is the region (I) or the second region (II), and when viewed as a whole, it can be viewed as a single radiation pattern and manufacturing is also performed at once.

On the other hand, at one end and the other end of the 1-1 radiation pattern 20-1 and the 1-2 radiation pattern 20-2, a plurality of first vias V1 penetrating the base film 10 are disposed. Since the inside of the first via V1 is implemented with a conductive material, the 1-1 radiation patterns 20-1 disposed on one surface and the other surface of the base film 10 are formed on one side and the other side of the base film 10 The 1-2 radiation patterns 20-2 disposed on the other surface may be electrically connected to each other.

The first radiation pattern 20 including the 1-1 radiation pattern 20-1 and the 1-2 radiation pattern 20-2 described above can be viewed as a WPC pattern in charge of a wireless charging function.

The 2-1 radiation pattern 30 - 1 is disposed in a plurality of turns on one surface and the other surface of the second region II included in the base film 10 .

Here, the second region (II), one and the other surface of the base film 10, the material and implementation method of the 2-1 radiation pattern 30-1, and the plurality of turns are the 1-1 radiation pattern 20-1 Since it is the same as the description for , it will be omitted, and only the differences will be described below.

The 2-1 radiation pattern 30-1 is disposed only in the second region II, like the 1-2 radiation pattern 20-2, and is different from the 1-1 radiation pattern 20-1. It is not disposed at all in the first region (I) included in the base film 10 , and referring to FIG. 2 , the 1-1 radiation pattern 20-1 and the 1-2 radiation pattern 20-2 It can be seen that, differently from, only a small portion is disposed on the other surface of the base film 10 .

This is because there is no need to generally arrange the 2-1 radiation pattern 30-1 up to the other surface of the base film 10 in relation to the function to be implemented by the 2-1 radiation pattern 30-1. An input terminal of the 1-1 radiation pattern 20-1 (not shown), an output terminal of the 1-2 radiation pattern 20-2 (not shown), and a 3-2 radiation pattern 40 to be described later Since the input terminal (not shown separately) and the output terminal (not shown) of -2) of -2) are disposed across the 2-1 radiation pattern 30-1, so-called so-called for electrical connection in the corresponding area This is because a jump is configured, and for this purpose, a plurality of second vias V2 penetrating the base film 10 may be disposed at one end and the other end of the 2-1 radiation pattern 30 - 1 .

The 2-1 radiation pattern 30-1 described above can be viewed as an MST pattern in charge of a magnetic security payment function.

So far, the base film 10, the 1-1 radiation pattern 20-1, and the 1-2 radiation pattern 20-2, which are the components included in the antenna 100 according to the first embodiment of the present invention, have been The first radiation pattern 20 and the 2-1 radiation pattern 30-1 included have been described, and the 1-1 radiation pattern 20-1 and the 1-2 radiation pattern 20-2 are The WPC pattern, the 2-1 radiation pattern 30-1 is referred to as an MST pattern, and unlike the prior art, the MST pattern does not surround the WPC pattern. The arrangement of these two patterns is an innovative technical feature of the antenna 100 according to the first embodiment of the present invention, and will be described in detail below.

3 is an enlarged top view of a part of one surface of the second region (II) included in the base film 10 in the antenna 100 according to the first embodiment of the present invention.

Referring to FIG. 3 , it can be seen that the 1-2 radiation patterns 20-2 and the 2-1 radiation patterns 30-1 are alternately arranged one turn at a time on one surface of the second region II. , this eliminates the need for the 2-1 th radiation pattern 30-1 responsible for the MST function to surround the 1-2 th radiation pattern 20-1 for the WPC function, and 2-1 Since a separate space outside the 1-2 radiation pattern 20-2 in which the radiation pattern 30-1 is to be disposed is not required, the size of the entire antenna is dramatically increased by improving the usefulness of the radiation pattern design area. can be reduced

More specifically, by adjusting the width of turns of the 1-2 radiation pattern 20-2 and the 2-1 radiation pattern 30-1 in the second region II limited to one surface of the base film 10, This can be achieved. Referring to FIG. 4 showing a cross-sectional view taken along the A to A′ direction of the top view shown in FIG. 3 , the first and second radiation patterns 20 disposed on the other surface of the base film 10 . On one surface of the base film 10 corresponding to each other based on the width of one turn of -2), one turn of the 1-2 radiation pattern 20-2 and one turn of the 2-1 radiation pattern 30-1 It can be confirmed that the turns are arranged at the same time, which in turn divides the width of one turn of the 1-2 first radiation pattern 20-2 disposed on the other surface of the base film 10, and the corresponding base film 10 A 1-2 radiation pattern 20-2 and a 2-1 radiation pattern 30-1 are simultaneously disposed on one surface of the .

Here, the ratio of the width of one turn of the 1-2 radiation pattern 20-2 (left arrow) and the width of one turn of the 2-1 radiation pattern 30-1 (right arrow) is 1:1 It may be any one of 3:1, and it is most preferable to implement it as 2:1. In this case, the Rdc of the 2-1 radiation pattern 30-1 responsible for the MST function is similar to the prior art in which the size is large. This is because it can be between 1.4 Ω and 1.8 Ω. Hereinafter, it will be described with reference to FIGS. 5 and 6 .

5 is a view showing the ratio of the width of one turn of the antenna according to the prior art (left) and the antenna 100 (right) according to the first embodiment of the present invention, and one turn of the 1-2 radiation pattern and one of the 2-1 radiation patterns. is a sample photograph of a case in which the ratio of the widths of turns is 2:1), and FIG. 6 is a table in which the specifications of the antenna according to the prior art and the antenna 100 according to the first embodiment of the present invention are compared and described.

Referring to FIG. 5, since the antenna according to the prior art is disposed in a form in which the MST pattern surrounds the WPC pattern, referring to FIG. 6, it can be confirmed that the size of the FPCB, which is the base film 10, is 48*76.55 mm ² .

On the other hand, referring to FIG. 5 , since the antenna 100 according to the first embodiment of the present invention is not arranged in a form in which the MST pattern surrounds the WPC pattern, unlike the antenna according to the prior art, referring to FIG. 6 , It can be seen that the size of the FPCB, which is the base film 10, has been remarkably reduced to 48*51 mm ² .

This can be seen as a very significant difference in the manufacturing cost of the actual antenna, because the FPCB, which is the base film 10, has the largest proportion in the actual antenna manufacturing cost, and the area of the base film 10 is extremely small. Although it is possible to remarkably reduce the manufacturing cost only by reducing a portion, the antenna 100 according to the first embodiment of the present invention reduces the size of the base film 10 compared to the antenna according to the prior art by about 1,226 mm ² It was confirmed that cost reduction of 25% or more was achieved in the actual delivery process.

Meanwhile, referring back to FIG. 6 , it can be confirmed that Rdc of the MST pattern of the antenna according to the prior art is 1.7 Ω, and the 2-1 radiation pattern that is the MST pattern of the antenna 100 according to the first embodiment of the present invention. Since Rdc of (30-1) is also 1.4 Ω, it can be confirmed that the size of the entire antenna is drastically reduced, thus significantly reducing manufacturing cost and at the same time realizing the same level of magnetic security payment performance.

Let us return to the description of FIG. 4 again.

Referring to FIG. 4 , a spacer G disposed between the 1-2 radiation patterns 20-2 and the 2-1 radiation patterns 30-1 alternately disposed on one surface of the second region II ), it is possible to prevent a short circuit between the 1-2 radiation pattern 20-2 and the 2-1 radiation pattern 30-1 due to the presence of the separation portion G.

Here, the ratio of the widths of the spacing portion G, the 2-1 radiation pattern 30-1, and the 1-2 radiation pattern 20-2 may be any one of 1:3:3 to 1:3:9. The most preferable ratio of the width of one turn of the 1-2 radiation pattern 20-2 and the width of one turn of the 2-1 radiation pattern 30-1 is 2:1. Preferably, a ratio of the widths of the spacing portion G, the second-first radiation pattern 30-1, and the first-second radiation pattern 20-2 may be 1:3:6.

On the other hand, by branching the width of one turn of the 1-2 radiation pattern 20-2 disposed on the other surface of the base film 10 previously, the 1-2 radiation pattern ( 20-2) and the 2-1 radiation pattern 30-1 are said to be arranged at the same time, and more specifically, the above-described separation portion G is included, and the second radiation pattern 30-1 disposed on one surface of the base film 10 is included. The sum of the width of one turn of the 1-2 radiation pattern 20-2, the width of the separation portion G, and the width of one turn of the 2-1 radiation pattern 30-1 is the corresponding base film 10 ) is the same as the width of one turn of the 1-2 radiation pattern 20-2 disposed on the other surface.

Let us return to the description of FIG. 2 again.

Referring to FIG. 1 , it can be seen that the pattern is arranged in a plurality of turns on the edge region of one side of the base film 10 , which is one side or the other side of the fourth region IV that surrounds the second region. It can be seen that the 3-1 radiation pattern 40-1 disposed in A 3-2 radiation pattern 40-2 arranged in one or more turns spaced apart from the innermost pattern of the pattern 20-1 by a predetermined distance, the 3-1 radiation pattern 40-1 and the 3-2 radiation pattern 40-1 The radiation pattern including the radiation pattern 40 - 2 is the third radiation pattern 40 .

Here, the third radiation pattern 40 may be an NFC pattern responsible for a non-contact short-range communication function, and since the third radiation pattern 40 is included, the antenna 100 according to the first embodiment of the present invention is a 3COMBO antenna. can be

On the other hand, in the antenna 100 according to the first embodiment of the present invention, the third radiation pattern 40 may not be an essential configuration, and if the third radiation pattern 40 is not included, it may be a 2COMBO antenna, In order to take an overwhelming advantage in terms of securing space for installing parts, it would be desirable to implement a 3COMBO antenna including even the third radiation pattern 40 .

So far, the antenna 100 according to the first embodiment of the present invention has been described. According to the present invention, on one side of the second region (II) included in the base film 10, the WPC pattern 1-2 radiation pattern 20-2 that is in charge of the wireless charging function and the magnetic security payment function are Unlike the prior art, since the 2-1 radiation pattern 30-1, which is the MST pattern, is alternately arranged one turn at a time, a separate space for disposing the MST pattern on the outside of the WPC pattern is not required. The size can be significantly reduced. In addition, when the ratio of the width of one turn of the 1-2 radiation pattern 20-2 to the width of one turn of the 2-1 radiation pattern 30-1 is set to 2:1, the base film (10) By reducing the area of the FPCB, the overall manufacturing cost can be reduced by more than 25%, and Rdc of the MST pattern can be implemented as 1.4Ω, which dramatically reduces the manufacturing cost compared to the prior art while maintaining the same level of magnetic security A payment function can be implemented. Furthermore, it is possible to implement a 3COMBO antenna including up to the third radiation pattern 40 in charge of the NFC function on the edge of the base film 10, so it is possible to take an overwhelming advantage in terms of securing space for installing parts. .

Hereinafter, the antenna 100 according to the second and third embodiments of the present invention will be additionally described, and the same reference numerals as those used for the antenna 100 according to the first embodiment of the present invention will be omitted. .

Previously, it was said that Rdc of the MST pattern of the prior art was between 1.4 Ω and 1.8 Ω, and the Rdc of the MST pattern included in the antenna 100 according to the first embodiment of the present invention was also said that 1.4 Ω, and a mobile communication device (not shown). ) There is a need to improve the Rdc of the MST pattern to 1.8Ω according to the specifications required by the manufacturer, and according to the antenna 100 according to the second and third embodiments of the present invention, Rdc can be implemented as 1.8Ω.

7 is a top view of the antenna 100 according to a second embodiment of the present invention, and FIG. 8 is a top view of the antenna 100 according to a third embodiment of the present invention.

Referring to FIG. 7 , a plurality of turns are arranged on one surface of the third region (III), which is a region between the second region (II) and the first region (I), which has been withheld from the description above, and the 2-1 radiation pattern It can be seen that the 2-2 radiation pattern 30-2 electrically connected to 30-1 is disposed, and the 2-2 radiation pattern 30-2 is also the 2-1 radiation pattern ( Like 30-1), it is an MST pattern responsible for the magnetic security payment function, and a pattern including the 2-1 radiation pattern 30-1 and the 2-2 radiation pattern 30-2 is combined with the second radiation pattern ( 30) can be seen.

Meanwhile, referring to FIG. 1 , the antenna 100 according to the first embodiment of the present invention is the outermost one disposed in the first direction (left direction based on the upper surface, hereinafter the same) on one surface of the second region II. The pattern is the 2-1 radiation pattern 30-1 of one turn, and the outermost pattern disposed in the second direction (the right direction with respect to the upper surface, hereinafter the same) is the one-turn 1-2 radiation pattern 20 -2) However, while the pattern immediately inside the 1-2 radiation pattern of one turn is the 1-2 radiation pattern 20-2 of another turn, referring to FIG. 7 , the second region (II) The outermost pattern disposed in the first direction on one surface of the one-turn 2-1 radiation pattern 30-1, the pattern immediately inside the 2-1 radiation pattern 30-1 of one turn is another It is the 2-1 radiation pattern 30-1 of one turn, and the outermost pattern disposed in the second direction (right) becomes the 2-1 radiation pattern 30-1 of one turn, and the second-second radiation pattern 30-1 of one turn It can be confirmed that the pattern of the two turns immediately inside the 1 radiation pattern is the 1-2 radiation pattern 20-2, and the antenna 100 according to the second embodiment of the present invention is applied to the first embodiment of the present invention. The number of turns of the MST pattern responsible for the magnetic security payment function is greater than that of the antenna 100 according to the antenna 100 .

Through these structural features, the antenna 100 according to the second embodiment of the present invention can improve Rdc from 1.4Ω to 1.8Ω, so that it can meet the specifications required by various mobile communication device manufacturers (not shown). have.

Referring to FIG. 8 , no pattern is disposed on one surface of the third region (III), but the outermost pattern disposed in the first direction on one surface of the second region (II) is the 2-1 radiation of one turn The pattern 30-1, but the pattern immediately inside the 2-1 radiation pattern 30-1 of one turn is the 2-1 radiation pattern 30-1 of another turn, and is disposed in the second direction. The outermost pattern is the 2-1-th radiation pattern 30-1 of one turn, and the pattern of two turns immediately inside the 2-1-th radiation pattern 30-1 of one turn is also the 2-1-th radiation pattern 30 -1), and the pattern of two turns immediately inside of the second 2-1 radiation pattern 30-1 of the inner 2-1 radiation pattern 30-1 of the two turns is the 1-2 radiation pattern 20- 2), the antenna 100 according to the third embodiment of the present invention also has a larger number of turns of the MST pattern responsible for the magnetic security payment function than the antenna 100 according to the first embodiment of the present invention. .

Comparing FIG. 8 with FIG. 7 , it can be seen that the 1-2 radiation patterns 20-2 are arranged one less turn on one surface of the second region II in the second direction, and thus one less turn is arranged. The 2-1 radiation pattern 30-1 is instead disposed in the remaining area, and through this structural feature, the antenna 100 according to the third embodiment of the present invention changes Rdc from 1.4Ω to 1.8Ω. As it can be improved, it can meet the specifications required by various mobile communication device (not shown) manufacturers.

So far, the antenna 100 according to the second and third embodiments of the present invention has been described. According to the present invention, Rdc can be improved to 1.8Ω by additionally disposing the 2-2 radiation pattern 30-2 in the third region III, which is an empty region in terms of antenna design. It may meet the specifications required by the device (not shown) manufacturer. In addition, by removing one turn disposed at the outermost of the 1-2 radiation patterns 20-2 disposed in the second direction, and additionally arranging the 2-1 radiation patterns 30-1 in the removed area, Rdc can be improved to 1.8Ω, so it can meet the specifications required by various mobile communication device manufacturers (not shown).

Although not described in detail for redundant description, all descriptions applied to the antenna 100 according to the first embodiment of the present invention are equally applied to the antenna 100 according to the second and third embodiments of the present invention. will say

9 is an exploded view for each layer showing a stacked structure in the case of further including some components in the antenna 100 according to the first embodiment of the present invention.

Referring to FIG. 9 , the antenna 100 according to the first embodiment of the present invention may further include any one or more of a first sheet 50 , a second sheet 60 , and a lower sponge 70 .

The first sheet 50 serves to radiate by assisting the magnetic field formed by at least one of all radiation patterns included in the antenna 100 according to the first embodiment of the present invention, and is a kind of auxiliary radiation sheet. It can be viewed as a nano sheet and can be implemented as a thin film metal.

More specifically, the first sheet 50 may be implemented with any one metal material selected from a nano-grain alloy, an iron-based amorphous alloy, and ferrite, the nano-grain alloy is a Fe-based magnetic alloy, and the Fe-based magnetic alloy is Fe-Si-B -Cu-Nb may be, and in this case, it will be preferable that Fe- is 73-80 at%, the sum of Si and B is 15-26 at%, and the sum of Cu and Nb is 1-5 at%.

On the other hand, the shape of the first sheet 50 is such that the first sheet 50 is disposed on the radiation patterns disposed on one surface of the base film 10 so as not to deviate from the outer circumferential surface of the base film 10. 50) is preferably implemented to be the same as or similar to the shape of the outer circumferential surface of the base film 10 in the region where it is disposed, and the outer circumferential surface of the base film 10 and the outer circumferential surface of the first sheet 50 in order to maximize the auxiliary radiation effect It would be desirable to minimize the distance between them as much as possible.

As such, the shape of the first sheet 50 is implemented to be the same as or similar to the shape of the outer peripheral surface of the base film 10, and the antenna 100 according to the first embodiment of the present invention is a mobile communication device (not shown). When it is mounted on the bar, interference with other components must also be considered, and the shape of the first sheet 50 may be implemented in a concave shape different from the shape of the outer peripheral surface of the base film 10 . This is to prevent interference with a geomagnetic sensor mounted on a mobile communication device (not shown), and when the first sheet 50 overlaps with a geomagnetic sensor, etc., interference with the geomagnetic sensor due to the magnetic permeability of the first sheet 50 This is because the sensing accuracy may be impaired.

In addition, the shape of the first sheet 50 described above can be changed according to parts mounted on a mobile communication device (not shown) as well as a geomagnetic sensor, etc., of course, the shape of the dent according to the geomagnetic sensor, etc. It will correspond to one embodiment.

The second sheet 60 is disposed on the first sheet 50 .

The description of the second sheet 60 is basically the same as the description of the first sheet 50, so a detailed description will be omitted, and in the antenna 100 according to the first embodiment of the present invention, one sheet ( When 50 is a nano sheet, the second sheet 60 may be a ferrite (Graphite) sheet.

The lower sponge 70 is implemented with a cushioning material and at the same time peeled off the lower surface to allow the antenna 100 according to the first embodiment of the present invention to be adhered to a mobile communication device (not shown). is the composition

It goes without saying that the descriptions of the first sheet 50 , the second sheet 60 and the lower sponge 70 described above are equally applied to the antenna 100 according to the second and third embodiments of the present invention. .

Although the embodiments of the present invention have been described above with reference to the accompanying drawings, those of ordinary skill in the art to which the present invention pertains can realize that the present invention can be embodied in other specific forms without changing the technical spirit or essential features. you will be able to understand Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive.

100: antenna
10: base film
20: first radiation pattern
20-1: 1-1 radiation pattern
20-2: 1-2 radiation pattern
30: second radiation pattern
30-1: 2-1 radiation pattern
30-2: 2-2 radiation pattern
40: third radiation pattern
40-1: 3-1 radiation pattern
40-2: 3-2 radiation pattern
50: first sheet
60: second sheet
70: bottom sponge
G: Separation
V1: first via
V2: second via
I: first area
II: second area
III: third area
IV: the fourth area

Claims (10)

base film;
A 1-1 radiation pattern disposed in a plurality of turns on one surface and the other surface of the first region included in the base film and a plurality of turns on one surface and the other surface of the second region included in the base film, , a first radiation pattern including a 1-2 radiation pattern electrically connected to the 1-1 radiation pattern; and
a 2-1 radiation pattern arranged in a plurality of turns on one surface and the other surface of the second region included in the base film;
In the antenna comprising a,
The second area is
an area surrounding the first area,
On one surface of the second region, the 1-2 radiation pattern and the 2-1 radiation pattern are alternately arranged by one turn,
In the antenna,
The outermost pattern disposed in the first direction on one surface of the second region is the 2-1 radiation pattern of one turn,
The outermost pattern disposed in the second direction is the first 1-2 radiation pattern of one turn, and the pattern immediately inside the first 1-2 radiation pattern of one turn is the 1-2 radiation pattern of another turn,
antenna. According to claim 1,
In one surface of the second region, the ratio of the width of any one of the 1-2 radiation patterns to the width of any one of the 2-1 radiation patterns is any one of 1:1 to 3:1 ,
antenna. According to claim 1,
a spacer disposed between the 1-2 radiation patterns and the 2-1 radiation patterns alternately disposed on one surface of the second region;
further comprising,
A ratio of the widths of the spacing portion, the 2-1 radiation pattern and the 1-2 radiation pattern,
any one of 1:3:3 to 1:3:9,
antenna. delete According to claim 1,
a 2-2 radiation pattern disposed in a plurality of turns on one surface of a third region, which is a region between the second region and the first region, and electrically connected to the 2-1 radiation pattern;
Antenna further comprising a. 6. The method of claim 5,
The outermost pattern disposed in the first direction on one surface of the second region is the 2-1 radiation pattern of one turn, and the pattern immediately inside the 2-1 radiation pattern of one turn is the second pattern of another turn -1 is the radiation pattern,
The outermost pattern disposed in the second direction is a 2-1 radiation pattern of one turn, and the pattern of two turns immediately inside the 2-1 radiation pattern of one turn is a 1-2 radiation pattern,
antenna. According to claim 1,
The outermost pattern disposed in the first direction on one surface of the second region is the 2-1 radiation pattern of one turn, and the pattern immediately inside the 2-1 radiation pattern of one turn is the second radiation pattern of another turn. 2-1 radiation pattern,
The outermost pattern disposed in the second direction is a 2-1 radiation pattern of one turn, and the patterns of two turns immediately inside the 2-1 radiation pattern of one turn are the 2-1 radiation patterns, and the two Among the 2-1 radiation patterns of the turn, the patterns of the two turns immediately inside the inner 2-1 radiation pattern are the 1-2 radiation patterns,
antenna. According to claim 1,
A 3-1 radiation pattern disposed in a plurality of turns on one surface or the other surface of the fourth region included in the base film and surrounding the second region, and the 1-1 radiation pattern on one surface of the base film a third radiation pattern including a 3-2 radiation pattern arranged in one or more turns spaced apart from the innermost pattern by a predetermined distance;
further comprising,
The third radiation pattern,
NFC pattern,
antenna. According to claim 1,
a plurality of first vias disposed at one end and the other end of the 1-1 radiation pattern and the 1-2 radiation pattern and passing through the base film; and
a plurality of second vias disposed at one end and the other end of the 2-1 radiation pattern and passing through the base film;
Antenna further comprising a. According to claim 1,
The 1-1 radiation pattern and the 1-2 radiation pattern are,
WPC pattern,
The 2-1 radiation pattern is
MST pattern,
antenna.

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