KR101950373B1 - Electromagnetic booster for wireless charge and method for producing same - Google Patents

Abstract

According to the present invention, there is provided a magnetic sheet comprising a magnetic sheet (10) and a magnetic body part having a metal radiator layer (20) disposed on the magnetic sheet, wherein the magnetic sheet comprises a first magnetic sheet member ) And a second magnetic substance sheet member (12) located at the center, wherein the first magnetic substance sheet member and the second magnetic substance sheet member have mutual permeability different from each other.

Description

Technical Field [0001] The present invention relates to an electromagnetic booster for wireless charging,

The present invention relates to an electromagnetic booster for wireless charging, and more particularly to a multifunctional high efficiency electromagnetic charging booster for wireless charging, which has a magnetic body sheet and a magnetic body part made of a metal radiator layer, and a manufacturing method thereof.

BACKGROUND ART A mobile terminal such as a mobile phone or a PDA (Personal Digital Assistants) is driven by a rechargeable battery. In order to charge the battery, a separate charging device is used to supply electric energy to the battery of the mobile terminal.

In recent years, wireless charging or solid state charging technology has been developed and used in many electronic devices in recent years. This wireless charging technique uses wireless power transmission and reception, for example, a system in which a battery can be automatically charged by simply placing a cellular phone on a charging pad without connecting a separate charging connector.

Such wireless charging techniques include an electromagnetic induction method using a coil, a resonance method using resonance, and a radio frequency (RF) / microwave radiation (RF) method in which electric energy is converted into a microwave.

 Currently, electromagnetic induction is the main method. However, in recent years, experiments have been successfully conducted to transmit electric power wirelessly from a distance of several tens of meters using microwaves at home and abroad. In the near future, The world seems to be opened.

 The power transmission method by electromagnetic induction is a method of transmitting power between the primary coil and the secondary coil. When a magnet is moved to a coil, an induced current is generated, which generates a magnetic field at the transmitting end and induces a current according to the change of the magnetic field at the receiving end to generate energy. This phenomenon is called magnetic induction phenomenon, and the power transmission method using the phenomenon is excellent in energy transmission efficiency.

The electromagnetic induction method is applied to various devices in a way that has the most practical use.

In 2005, MIT's Soljacic Professor, Coupled Mode Theory, introduced a system in which electricity is transmitted wirelessly, even at distances of a few meters from the charging device, using resonant power transmission principles. The MIT team's wireless charging system uses resonance (resonance), which uses a physics concept that resonates at the same frequency as a wine bottle next to the tuning fork. Instead of resonating the sound, the researchers resonated electromagnetic waves that contained electrical energy. The resonant electrical energy is transmitted directly only when there is a device with a resonant frequency, and unused portions are not re-absorbed into the air, but are reabsorbed into the electromagnetic field. Therefore, unlike other electromagnetic waves, they will not affect the surrounding machine or body .

The radio wave radiation system is a new concept of power transmission system that converts energy into microwave which is advantageous for wireless transmission and transfers energy. The concept of a signal used in a radio communication system such as a radio or a wireless telephone is not a concept of a signal, but an electric energy is transmitted. When a normal communication transmits a signal to a carrier wave, a wireless power transmission is a method of sending only a carrier wave.

A system for wirelessly charging a terminal using a wireless LAN includes an antenna capable of receiving a wireless LAN, a switch for switching a path by distinguishing a wireless LAN signal and a charging signal from each other, A resonator for extracting the components, and an electromagnetic booster for boosting the extracted DC to the main power of the terminal. The output of the electromagnetic booster is used as the charging voltage of the terminal.

The electromagnetic booster includes a magnetic layer and a metal coil, and current wireless charging technology satisfies the values of permeability and loss ratio according to the frequency (magnetic resonance type: 100 to 200 kHz / magnetic induction type: 200 to 300 kHz, 6.78 MHz) The thickness of the magnetic substance layer, the thickness of the metal coils, the number of turns and the like are the main factors of the electromagnetic charging booster for wireless charging.

Conventionally, as shown in FIG. 11, the wireless charging booster includes a magnetic layer 1 made of a ferrite sintered body, a ferrite composite, a Sendust sintered body, a sendust composite or the like, A structure in which an adhesive layer (A) placed on a magnetic body layer and a metal coil body (2) placed on the adhesive layer and serving as a radiator are laminated.

Such a conventional booster for wireless charging causes the metal coils 2 to be formed in the same magnetic layer 1 to cause frequency interference, offset, and extinction of each other due to different operating frequencies, And the adhesive layer A or the adhesive layer and the air layer located between the magnetic substance layer 1 and the metal coil body 2 serve as impediments to the improvement of the permeability, the lowering of the loss rate and the increase of the charging efficiency. Which is a bottleneck in the slim design of wireless charging devices.

It is therefore an object of the present invention to provide an electromagnetic booster for wireless charging capable of preventing malfunction due to frequency interference.

Another object of the present invention is to provide an electromagnetic booster for wireless charging, which has an effect of improving the bandwidth, improving the permeability, reducing the loss rate, and enabling the slim design of the wireless charging station.

It is still another object of the present invention to provide a preferable method for manufacturing the electromagnetic booster for wireless charging described above.

According to an aspect of the present invention, there is provided an electromagnetic magnetic booster,

And a magnetic body part having a magnetic substance sheet and a metal radiator layer disposed on the magnetic substance sheet,

Wherein the magnetic substance sheet is composed of a first magnetic substance sheet member positioned at a side portion on the same plane and a second magnetic substance sheet member positioned at a central portion, and wherein the first magnetic substance sheet member and the second magnetic substance sheet member have mutual permeability different from each other An electromagnetic booster for wireless charging is provided.
According to another aspect of the present invention, there is provided an electromagnetic booster for wireless charging, comprising: a base film including a film body and an adhesive layer; A first magnetic substance sheet member disposed on the adhesive layer and including an opening; A second magnetic substance sheet member disposed on the adhesive layer and disposed at a predetermined distance inside the opening of the first magnetic substance sheet member; A first coil disposed on the first magnetic substance sheet member; And a second coil disposed on the second magnetic substance sheet member, wherein a lower surface of the first magnetic substance sheet member is in direct contact with the adhesive layer, Wherein a magnetic permeability of the first magnetic substance sheet member and the second magnetic substance sheet member is different from each other, and a height from an upper surface of the base film to an upper surface of the second magnetic substance sheet member is greater than a height of the first magnetic substance sheet member Wherein a height from an upper surface of the base film to an upper surface of the second coil is greater than a height from an upper surface of the base film to an upper surface of the first coil.
The height from the upper surface of the base film to the upper surface of the second magnetic substance sheet member may be greater than the height from the upper surface of the base film to the upper surface of the first magnetic substance sheet member.
Wherein the first magnetic substance sheet member includes an inner side surface and an outer side surface, the second magnetic substance sheet member includes an outer surface, and an inner surface of the first magnetic substance sheet member is connected to an outer surface of the second magnetic substance sheet member They can be spaced apart from each other.
The height of the first magnetic substance sheet member or the height of the second magnetic substance sheet member may be greater than the distance between the inner surface of the first magnetic substance sheet member and the outer surface of the second magnetic substance sheet member.
The height of the first magnetic substance sheet member or the height of the second magnetic substance sheet member may be greater than the thickness of the film body.
The first magnetic substance sheet member and the first coil may be for short-range communication, and the second magnetic substance sheet member and the second coil may be for wireless power charging.
The upper and lower surfaces of the first coil and the second coil may include planes.
The thickness of the first coil or the second coil may be 5 [mu] m to 340 [mu] m.
The second magnetic substance sheet member may include at least two of Fe, Si, and C.
A mobile terminal according to an embodiment includes a battery; And a wireless charging electromagnetic booster disposed on the battery; Wherein the electromagnetic charging booster for wireless charging comprises: a base film including a film body and an adhesive layer; A first magnetic substance sheet member disposed on the adhesive layer and including an opening; A second magnetic substance sheet member disposed on the adhesive layer and disposed at a predetermined distance inside the opening of the first magnetic substance sheet member; A first coil disposed on the first magnetic substance sheet member; And a second coil disposed on the second magnetic substance sheet member, wherein a lower surface of the first magnetic substance sheet member is in direct contact with the adhesive layer, Wherein a magnetic permeability of the first magnetic substance sheet member and the second magnetic substance sheet member is different from each other, and a height from an upper surface of the base film to an upper surface of the second magnetic substance sheet member is greater than a height of the first magnetic substance sheet member Wherein a height from an upper surface of the base film to an upper surface of the second coil is greater than a height from an upper surface of the base film to an upper surface of the first coil.
The height from the upper surface of the base film to the upper surface of the second magnetic substance sheet member may be greater than the height from the upper surface of the base film to the upper surface of the first magnetic substance sheet member.
Wherein the first magnetic substance sheet member includes an inner side surface and an outer side surface, the second magnetic substance sheet member includes an outer surface, and an inner surface of the first magnetic substance sheet member is connected to an outer surface of the second magnetic substance sheet member They can be spaced apart from each other.
The height of the first magnetic substance sheet member or the height of the second magnetic substance sheet member may be larger than the distance between the inner surface of the first magnetic substance sheet and the outer surface of the second magnetic substance sheet.
The height of the first magnetic substance sheet member or the height of the second magnetic substance sheet member may be greater than the thickness of the film body.
The first magnetic substance sheet member and the first coil may be for short-range communication, and the second magnetic substance sheet member and the second coil may be for wireless power charging.
The upper and lower surfaces of the first coil and the second coil may include planes.
The thickness of the first coil or the second coil may be 5 [mu] m to 340 [mu] m.
The second magnetic substance sheet member may include at least two of Fe, Si, and C.

Preferably, according to the present invention, the first magnetic substance sheet member and the second magnetic substance sheet member contact each other or are spaced apart from each other with an air gap therebetween.

Preferably, according to the present invention, the metal radiator layer is a first metal radiator layer member and a second metal radiator layer member respectively disposed on the surfaces of the first magnetic substance sheet member and the second magnetic substance sheet member, Wherein the layer member and the second metal radiator layer member are in the form of a thin film coil.

Preferably, according to the present invention, a recess portion corresponding to the shape of the metal radiator layer is formed on the surface of the magnetic substance sheet, and the metal radiator layer is partially or entirely filled in the recess portion in the depth direction thereof. A booster is provided.

Preferably, according to the present invention, the metal radiator layer is a first metal radiator layer member and a second metal radiator layer member respectively disposed on the first magnetic sheet member and the second magnetic sheet member via an adhesive, The electromagnetic booster for wireless charging is characterized in that the first metal radiator layer member and the second metal radiator layer member are in a thin film coil shape.

Preferably, according to the present invention, there is provided an electromagnetic booster for wireless charging, wherein the first magnetic substance sheet member and the second magnetic substance sheet member are the same in height (thickness) or different from each other.

Preferably, according to the present invention, the magnetic substance sheet is made of a magnetic composition containing a magnetic substance and a binder.

Preferably, the magnetic material is Fe, Ni, Co, Mn, Al, Zn, Cu, Ba, Ti, Sn, Sr, P, B, N, C, W, Cr, Bi, And an alloy or ferrite composed of a combination of one or more elements selected from the group consisting of iron and iron.

Preferably, according to the present invention, the magnetic substance is a powder having a particle size of 3 nm to 50 탆.

Preferably, according to the present invention, the binder is one or a mixture of two or more selected from the group consisting of a polyvinyl alcohol (PVA) resin, a polysiloxane resin, an epoxy resin, an acrylate resin, a urethane resin, a polyimide resin and a polyamide resin The electromagnetic booster for wireless charging is provided.

Preferably, according to the present invention, the magnetic composition contains 10 to 95 wt% of a magnetic substance and 5 to 90 wt% of a binder.

Preferably, according to the present invention, the magnetic material composition further comprises at least one additive selected from the group consisting of a silane coupling agent, a defoaming agent, and a crosslinking agent. do.

Preferably, according to the present invention, there is provided an electromagnetic booster for wireless charging, characterized in that the magnetic composition contains 2 wt% or less of the additive.

Preferably, according to the present invention, the electromagnetic radiation booster for wireless charging is characterized in that the metal radiator layer is made of Ag, Au, Cu or Al.

Preferably, according to the present invention, the electromagnetic radiation booster for wireless charging is characterized in that the metal radiator layer has a thickness (height) of 5 to 1 mm.

Preferably, according to the present invention, the metal radiator layer has a pitch of 5 to 500 μm.

Preferably, according to the present invention, there is provided an electromagnetic booster for wireless charging, further comprising a BF (base film) laminated on the metal radiator layer.

Preferably, according to the present invention, there is provided an electromagnetic booster for wireless charging, further comprising a BF (base film) laminated on the back surface of the magnetic sheet.

 According to another aspect of the present invention, there is provided a method for manufacturing an electromagnetic magnetic booster comprising a magnetic sheet and a metal radiator layer disposed on the magnetic sheet,

Forming a magnetic substance sheet with a first magnetic substance sheet member located at a side edge on the same plane and a second magnetic substance sheet member located at a central portion and having a magnetic permeability different from that of the first magnetic substance sheet member; And laminating a metal radiator layer on the magnetic sheet. The present invention also provides a method of manufacturing the electromagnetic booster for wireless charging.

Preferably, according to the present invention, the metal radiator layer is formed by metal plating and etching, silk screen printing, pattern coating, or sputtering. do.

According to the present invention, the step of laminating the metal radiator layer may include engraving the surface of the magnetic material sheet to form a concave portion having a shape corresponding to the metal radiator layer; And forming a metal radiator layer by inserting a metal thin film coil in the recessed portion.

Preferably, according to the present invention, a laser exposure method, a dry etching method after masking, or a step forming method in which a difference between a corresponding area of the engraved area and a non-corresponding area is used, Is provided.

The electromagnetic booster for wireless charging according to the present invention is capable of preventing malfunction due to frequency interference while maximizing the effect of wireless charging, being suitable for designing various functions, improving bandwidth, increasing permeability and reducing loss rate , The productivity can be improved by reducing the material and the process cost, and the slim design of the wireless charging device can be realized.

1 is a plan view of an electromagnetic booster having a magnetic sheet according to a first embodiment of the present invention,
Fig. 2 is a sectional view of Fig. 1,
3 is a cross-sectional view of an electromagnetic booster having a magnetic sheet according to a second embodiment of the present invention,
Fig. 4 is a sectional view of Fig. 3,
5 is a cross-sectional view of an electromagnetic booster having a laminated structure according to a third embodiment of the present invention,
6 is a sectional view of an electromagnetic booster having a laminated structure according to a fourth embodiment of the present invention,
7 is a sectional view of an electromagnetic booster having a laminated structure according to a fifth embodiment of the present invention,
8 is a cross-sectional view of an electromagnetic booster having a laminated structure according to a sixth embodiment of the present invention,
9 is a sectional view of an electromagnetic booster having a laminated structure according to a seventh embodiment of the present invention,
10 is a sectional view of an electromagnetic booster having a laminated structure according to an eighth embodiment of the present invention,
11 is a plan view and a cross-sectional view of a conventional electromagnetic booster.

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

An electro magnetic booster according to the present invention comprises a magnetic body sheet 10 and a magnetic body part having a metal radiator layer 20 disposed on top of the magnetic body sheet.

In the present invention, the magnetic sheet 10 is composed of the first magnetic sheet member 11 positioned on the side of the same plane and the second magnetic sheet member 12 located at the center, The sheet members have different permeabilities from each other.

According to the present invention, when the magnetic sheet 10 is composed of a magnetic material having a different magnetic permeability from each other, frequency interference, offset, and extinction due to different operating frequencies can be prevented, and as a result, malfunctions can be prevented. As a result, it is possible to efficiently use the wirelessly charged products requiring various functions.

For example, the NFC operating frequency is about 13.56 MHz, and the wireless charging operating frequency is about 200-300 KHz or about 6.78 MHz for the magnetic induction type and about 100-200 KHz for the self resonance type.

In the present invention, the first magnetic substance sheet member and the second magnetic substance sheet member may be arranged so as to be in contact with each other as shown in Figs. 1 and 2 illustrating the first embodiment of the present invention, As shown in Figs. 3 and 4 exemplifying the example, they may be arranged so as to be spaced apart from each other with an air gap therebetween.

The metal radiator layer 20 has a thin film coil shape and is formed of a first metal sheet member 11 and a second metal sheet member 12 which are respectively disposed on the surfaces of the first magnetic substance sheet member 11 and the second magnetic substance sheet member 12 as in the first and second embodiments, The radiator layer member 21 and the second metal radiator layer member 22 may be constituted. In the plan view of Figs. 1 and 3, reference numeral 23 denotes a lead.

When the metal radiator layer 20 is formed on the surface of the magnetic substance sheet 10, recesses corresponding to the shape of the metal radiator layer 20 are formed on the surface of the magnetic substance sheet 10, So that the metal radiator layer 20 is partially or entirely filled. By using the in-mold type, it is possible to make the thickness of the metal lighter layer 20, which is closely related to the performance during wireless charging, to be as thin as possible, and to be as thick as the magnetic substance sheet 10 The wireless charging effect can be maximized. Further, the material and process cost of the magnetic substance sheet can be lowered, the material and process cost of the metal radiator can be lowered, and slimming of the electromagnetic booster can be achieved. In the conventional electromagnetic booster, the radiator coil is approximately 0.35 to 1.0 mm, but according to the present invention, it is possible to manufacture the metal radiator layer to a thickness of several micrometers.

In the electromagnetic booster of the present invention, the metal radiator layer 20 may be disposed on the magnetic sheet 10 via the adhesive A as in the embodiment shown in Figs.

In the electromagnetic booster of the present invention, the first magnetic substance sheet member 11 and the second magnetic substance sheet member 12 may have the same height or different thicknesses. For example, as shown in the fourth and seventh embodiments, the height of the first magnetic substance sheet member 11 may be made higher than the height of the second magnetic substance sheet member 12, and as shown in the fifth and eighth embodiments The height of the first magnetic substance sheet member 11 may be made lower than the height of the second magnetic substance sheet member 12 as shown in FIG.

In the present invention, the magnetic substance sheet is made of a magnetic composition containing a magnetic substance and a binder.

In the magnetic composition of the present invention, the magnetic material is preferably Fe, Ni, Co, Mn, Al, Zn, Cu, Ba, Ti, Sn, Sr, P, B, N, C, W, Cr, , Cd, and the like, or an alloy or ferrite composed of a combination of two or more kinds of elements, and the property is a powder having a particle size of 3 nm to 50 탆.

The binder in the present magnetic body composition is preferably one or more kinds selected from the group consisting of a polyvinyl alcohol (PVA) resin, a polysiloxane resin, an epoxy resin, an acrylate resin, a urethane resin, a polyimide resin, / RTI >

In the present magnetic body composition, the mixing ratio of the magnetic substance and the binder is suitably 10 to 95 wt% of the magnetic substance and 5 to 90 wt% of the binder.

The present magnetic composition may also contain other conventional additives well known in the art in an amount of up to 2% by weight. Examples of such additives include a silane coupling agent, a defoaming agent, and a crosslinking agent.

In the electromagnetic booster of the present invention, the metal radiator layer 20 is made of a metal such as Ag, Au, Cu, Al, etc., and has a thickness in the range of 5 탆 to 1 mm, a pitch of 5 to 500 탆 Range.

The electromagnetic booster of the present invention can be produced by laminating a base film (30) on an assembly of a magnetic substance sheet (10) and a metal radiator layer (20). The base film 30 may be laminated on the metal radiator layer 20 or laminated on the back surface of the magnetic sheet 10 (the non-formation surface of the metal radiator layer). In the illustrated example, the base film 30 is composed of the film body 32 and the adhesive layer 31 formed on the film body 32. However, the base film 30 can be formed without using the adhesive layer 31, .

Hereinafter, a method for manufacturing the electromagnetic booster of the present invention will be described.

The electromagnetic booster according to the present invention comprises a first magnetic substance sheet member located at a side portion on the same plane and a magnetic substance sheet formed by a second magnetic substance sheet member located at a central portion and having a magnetic permeability different from that of the first magnetic substance sheet member, And a metal radiator layer.

Here, the metal radiator layer may be formed by metal plating and etching, silk screen printing, pattern coating, or sputtering.

Further, in the lamination of the metal radiator layers, a method may be employed in which recesses of a shape corresponding to the metal radiator layer are formed on the surface of the magnetic sheet, and a metal thin film coil is inserted in the recess to form a metal radiator layer.

Laser exposure, dry etching after masking, and a step forming method in which a difference between a corresponding area of the engraved area and a non-corresponding area is used.

10: magnetic sheet
11: first magnetic substance sheet member
12: second magnetic member member
20: metal radiator layer
21: first metal radiator layer member
22: a second metal radiator layer member
30: base film
A: Adhesive

Claims (20)

An electromagnetic magnetic booster, comprising:
A base film comprising a film body and an adhesive layer;
A first magnetic substance sheet member disposed on the adhesive layer and including an opening;
A second magnetic substance sheet member disposed on the adhesive layer and disposed at a predetermined distance inside the opening of the first magnetic substance sheet member;
A first coil disposed on the first magnetic substance sheet member; And
And a second coil disposed on the second magnetic sheet member,
The lower surface of the first magnetic substance sheet member is in direct contact with the adhesive layer,
The lower surface of the second magnetic substance sheet member is in direct contact with the adhesive layer,
The magnetic permeability of the first magnetic substance sheet member and the second magnetic substance sheet member are different from each other,
The height from the upper surface of the base film to the upper surface of the second magnetic body sheet member is different from the height from the upper surface of the base film to the upper surface of the first magnetic body sheet member,
Wherein a height from an upper surface of the base film to an upper surface of the second coil is greater than a height from an upper surface of the base film to an upper surface of the first coil. The electromagnetic booster according to claim 1, wherein the height from the upper surface of the base film to the upper surface of the second magnetic substance sheet member is greater than the height from the upper surface of the base film to the upper surface of the first magnetic substance sheet member. The magnetic recording medium according to claim 1, wherein the first magnetic substance sheet member comprises an inner side surface and an outer side surface,
Wherein the second magnetic substance sheet member includes an outer surface,
And the inner surface of the first magnetic substance sheet member is disposed apart from the outer surface of the second magnetic substance sheet member so as to face each other. The magnetic sheet member according to claim 1, wherein a height of the first magnetic substance sheet member or a height of the second magnetic substance sheet member is larger than a separation distance between an inner surface of the first magnetic substance sheet member and an outer surface of the second magnetic substance sheet member Electromagnetic booster. The electromagnetic booster according to claim 1, wherein a height of the first magnetic substance sheet member or a height of the second magnetic substance sheet member is greater than a thickness of the film body. The electromagnetic booster according to claim 1, wherein the first magnetic substance sheet member and the first coil are for short-distance communication, and the second magnetic substance sheet member and the second coil are for charging with wireless power. The electromagnetic booster for wireless charging according to claim 1, wherein the upper and lower surfaces of the first coil and the upper and lower surfaces of the second coil include planes. The electromagnetic booster for wireless charging according to claim 1, wherein the thickness of the first coil or the second coil is 5 mu m to 340 mu m. The electromagnetic-wave absorber according to claim 1, wherein the second magnetic substance sheet member comprises at least two of Fe, Si and C, In a mobile terminal,
Battery; And
And a wireless charging electromagnetic booster disposed on the battery,
The electromagnetic charging booster for wireless charging,
A base film comprising a film body and an adhesive layer;
A first magnetic substance sheet member disposed on the adhesive layer and including an opening;
A second magnetic substance sheet member disposed on the adhesive layer and disposed at a predetermined distance inside the opening of the first magnetic substance sheet member;
A first coil disposed on the first magnetic substance sheet member; And
And a second coil disposed on the second magnetic sheet member,
The lower surface of the first magnetic substance sheet member is in direct contact with the adhesive layer,
The lower surface of the second magnetic substance sheet member is in direct contact with the adhesive layer,
The magnetic permeability of the first magnetic substance sheet member and the second magnetic substance sheet member are different from each other,
The height from the upper surface of the base film to the upper surface of the second magnetic body sheet member is different from the height from the upper surface of the base film to the upper surface of the first magnetic body sheet member,
Wherein a height from an upper surface of the base film to an upper surface of the second coil is greater than a height from an upper surface of the base film to an upper surface of the first coil. The mobile terminal according to claim 10, wherein the height from the upper surface of the base film to the upper surface of the second magnetic substance sheet member is greater than the height from the upper surface of the base film to the upper surface of the first magnetic substance sheet member. 11. The magnetic recording and reproducing apparatus according to claim 10, wherein the first magnetic substance sheet member includes an inner side surface and an outer side surface,
Wherein the second magnetic substance sheet member includes an outer surface,
Wherein the inner surface of the first magnetic substance sheet member is spaced apart from the outer surface of the second magnetic substance sheet member so as to face each other. The mobile terminal according to claim 12, wherein a height of the first magnetic substance sheet member or a height of the second magnetic substance sheet member is larger than a separation distance between an inner surface of the first magnetic substance sheet and an outer surface of the second magnetic substance sheet. The mobile terminal of claim 10, wherein a height of the first magnetic substance sheet member or a height of the second magnetic substance sheet member is greater than a thickness of the film body. The mobile terminal of claim 10, wherein the first magnetic substance sheet member and the first coil are for short-distance communication, and the second magnetic substance sheet member and the second coil are for wireless power charging. 11. The mobile terminal according to claim 10, wherein the upper and lower surfaces of the first coil and the upper and lower surfaces of the second coil include planes. The mobile terminal according to claim 10, wherein the thickness of the first coil or the second coil is 5 占 퐉 to 340 占 퐉. The mobile terminal of claim 10, wherein the second magnetic substance sheet member comprises at least two of Fe, Si, and C. delete delete

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