KR102446112B1 - Detection coil of wireless power transmission system and coil structure including the same - Google Patents

Abstract

The present invention is a detection coil disposed between a power transmitting coil and a power receiving coil in a wireless power transmission system and detecting foreign substances located between the transmitting coil and the receiving coil. It provides a detection coil of a wireless power transmission system including a plurality of unit coil cells consisting of first and second connection lines respectively connected, and a third connection line disposed to face the first and second connection lines.

Description

Detection coil of a wireless power transmission system and a coil structure including the same

The present invention relates to a detection coil of a wireless power transmission system and a coil structure including the same, and more particularly, to a detection coil and coil structure capable of detecting a relatively small foreign matter.

Electric charging systems such as electric vehicles, AGVs (Automated Guided Vehicles), and robots are equipped with batteries to receive power. At this time, when the remaining amount of the battery is below a certain level, it is necessary to charge the battery, and an electric vehicle or the like moves to a charging station to charge the battery, and a power receiving cable is connected to the electric vehicle to receive power.

However, in such a charging method, it is necessary to move to a charging station to charge the battery, and there is an inconvenience of connecting a cable for charging.

Accordingly, there is a growing demand for a non-contact charging system capable of receiving electric power while an electric vehicle is running and automatically charging electric power without connecting a cable for charging even when moving to an electric charging station.

In order to receive power through such non-contact, wireless charging technology is required. The wireless charging technology is a technology in which a power transmission coil wirelessly transmits power to a power receiving coil provided in an electric vehicle, and there is a clearance space of a predetermined distance or more between the power transmitting coil and the power receiving coil.

At this time, when a foreign object is present in the clearance space between the transmitting coil and the receiving coil during wireless power transmission, a fire may occur due to heat of the external foreign material as well as cause a malfunction of the wireless charging system.

As a conventional technique for solving such a problem, by arranging a detection coil between the power transmission coil and the power receiving coil to detect the voltage induced in the detection coil, a technique for determining whether an external foreign substance exists between the power transmission coil and the power reception coil is have.

However, since the detection coil applied to the prior art has a structure in which the coil is uniformly distributed as a whole on the power transmission coil, there is a limit in detecting a relatively small foreign material such as a coin.

In order to solve the problems of the prior art as described above, an object of the present invention is to provide a detection coil of a wireless power transmission system capable of detecting a relatively small-sized foreign matter, such as a coin.

Another object of the present invention is to provide a detection coil of a wireless power transmission system capable of forming a detection coil according to the size of various transmission units.

Another object of the present invention is to provide a detection coil of a wireless power transmission system capable of improving detection sensitivity of foreign matter by minimizing parasitic capacitance or confirming a detection position of foreign matter.

The technical problems to be achieved in the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned can be clearly understood by those of ordinary skill in the art to which the present invention belongs from the description below. There will be.

In order to solve the above problems, the present invention is a detection coil that is disposed between a power transmission coil and a power reception coil in a wireless power transmission system, and detects foreign substances located between the transmission coil and the reception coil, and is a spiral wound a plurality of times. A wireless power transmission system comprising a plurality of unit coil cells comprising a coil, first and second connection lines respectively connected to both ends of the spiral coil, and a third connection line disposed to face the first and second connection lines. A detection coil is provided.

Here, the spiral coil may be formed of at least one of a polygonal spiral, a circular spiral, and an elliptical spiral.

In addition, the plurality of unit coil cells may be connected to each other through first to third connection lines to form a coil chain.

In addition, in the detection coil, a plurality of coil chains arranged in a vertical direction may be arranged in a horizontal direction.

Also, in the detection coil, a plurality of coil chains arranged in a horizontal direction may be arranged in a vertical direction.

Also, in the detection coil, a plurality of coil chains arranged in a vertical direction may be arranged in a horizontal direction, and a plurality of coil chains arranged in a horizontal direction may be arranged in a vertical direction.

In addition, the detection coil may be arranged such that the spiral coils do not overlap each other, or the spiral coils are arranged such that they overlap each other.

In addition, the detection coil of the wireless power transmission system of the present invention further includes a substrate on which the spiral coil and the first to third connection lines are disposed, and the substrate corresponds to one end of the spiral coil located in the center of the spiral coil. A first via hole may be formed, and a second via hole may be formed corresponding to one end of the second connection line.

In addition, the detection coil may further include a fourth connection line disposed under the substrate and connecting one end of the spiral coil and one end of the second connection line through the first and second via holes.

In addition, the detection coil of the wireless power transmission system of the present invention further includes a substrate on which the detection coil is disposed, and when any one of the coil chains arranged in the horizontal direction and the vertical direction is disposed on the top of the substrate, the other is on the bottom of the substrate can be placed in

In addition, the detection coil of the wireless power transmission system of the present invention may further include a multilayer substrate on which the detection coil is disposed, and the coil chains arranged in the horizontal direction and the vertical direction may be disposed on different layers.

In addition, the present invention provides a coil structure for detecting external foreign substances in a wireless power transmission system, a power transmitting coil transmitting AC power, a power receiving coil spaced apart from the transmitting coil and receiving AC power transmitted by the transmitting coil, and power transmission It is disposed between the coil and the power receiving coil, and includes a detection coil for detecting foreign substances located between the power transmitting coil and the power receiving coil, wherein the detection coil includes a spiral coil wound spirally a plurality of times, and a first connected to both ends of the spiral coil, respectively. It provides a coil structure of a wireless power transmission system including a plurality of unit coil cells consisting of first and second connection lines, and a third connection line disposed to face the first and second connection lines.

According to the present invention, by intensively arranging a spiral coil wound a plurality of times at a specific location on the power transmission coil, a minute change in magnetic field at a specific location can be detected, and through this, a relatively small external foreign material such as a coin can be detected. can do.

In addition, according to the present invention, since a coil chain can be formed by connecting a plurality of unit coil cells, and the detection coil can be formed by arranging the coil chains, it is possible to form a detection coil according to the size of various transmission units. There are advantages that can be

In addition, according to the present invention, by arranging each of the spiral coils so as not to overlap each other, parasitic capacitance generated between the respective spiral coils can be minimized to improve the detection sensitivity of foreign substances.

In addition, according to the present invention, by arranging each spiral coil to overlap each other, it is possible to confirm the detection position of the foreign matter.

The effects obtainable in the present invention are not limited to the above-mentioned effects, and other effects not mentioned may be clearly understood by those of ordinary skill in the art from the following description. will be.

1 is a diagram for explaining a wireless charging method of a wireless power transmission system according to an embodiment of the present invention.
2 is a schematic block diagram of a wireless power transmission system according to an embodiment of the present invention.
3 is a diagram illustrating a coil structure of a wireless power transmission system according to an embodiment of the present invention.
4 is a view for explaining a method of detecting a foreign object in the wireless power transmission system according to an embodiment of the present invention.
5 is a diagram illustrating a unit coil cell included in a detection coil of a wireless power transmission system according to an embodiment of the present invention.
6 is a view illustrating various embodiments of a spiral coil included in the unit coil cell of FIG. 5 .
7 is a diagram illustrating a coil chain configured through the unit coil cell of FIG. 5 .
FIG. 8 is a diagram illustrating an arrangement structure of the coil chain of FIG. 7 .
9 is a diagram illustrating an arrangement structure of a coil chain according to a shape of a spiral coil.
10 is an enlarged view of the arrangement structure of the coil chain shown in FIG. 8(c).
11 is a view illustrating a structure in which spiral coils are arranged to overlap as the coil chain arrangement structure of FIG. 7 .

In order to fully understand the configuration and effect of the present invention, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, and may be embodied in various forms and various modifications may be made. However, the description of the present embodiment is provided so that the disclosure of the present invention is complete, and to fully inform those of ordinary skill in the art to which the present invention pertains the scope of the invention. In the accompanying drawings, components are enlarged in size than actual for convenience of description, and ratios of each component may be exaggerated or reduced.

Terms such as 'first' and 'second' may be used to describe various elements, but the elements should not be limited by the above terms. The above term may be used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, a 'first component' may be termed a 'second component', and similarly, a 'second component' may also be termed a 'first component'. can Also, the singular expression includes the plural expression unless the context clearly dictates otherwise. Unless otherwise defined, terms used in the embodiments of the present invention may be interpreted as meanings commonly known to those of ordinary skill in the art.

1 is a diagram for explaining a wireless charging method of a wireless power transmission system according to an embodiment of the present invention.

Referring to FIG. 1 , a power transmission unit (Tx Unit) may be installed on the ground, and a power reception unit (Rx Unit) may be installed below an electric vehicle and an Automated Guided Vehicle (AGV). Here, when the electric vehicle and the AGV move to the ground where the power transmission unit (Tx Unit) is installed, the power transmission unit (Tx Unit) and the power receiving unit (Rx Unit) may be disposed to face each other while being spaced apart from each other by a predetermined distance or more.

Accordingly, the power receiving unit (Rx Unit) can receive power wirelessly from the power transmitting unit (Tx Unit).

At this time, as shown in (a) of FIG. 1 , the power transmission unit (Tx Unit) may be installed only in a specific area of the ground. Accordingly, the power receiving unit (Rx Unit) may wirelessly receive power from the power transmitting unit (Tx Unit) in a stopped state after the electric vehicle and the AGV move to the specific area.

In addition, as shown in FIG. 1B , the power transmission unit (Tx Unit) may be installed along a path through which electric vehicles, AGVs, and the like move. Accordingly, the power receiving unit (Rx Unit) may wirelessly receive power from the power transmitting unit (Tx Unit) while the electric vehicle and the AGV are moving.

2 is a schematic block diagram of a wireless power transmission system according to an embodiment of the present invention.

As shown in FIG. 2 , the wireless power transmission system may include a power transmission unit 10 and a power reception unit 20 .

The power transmission unit 10 includes a first control unit 11 , an inverter 12 , a first communication unit 13 , and a power transmission coil 110 , and the power reception unit 20 includes a second control unit 21 , a converter 22 . ), the second communication unit 23 and the battery 24 may be included.

The second control unit 21 of the power receiving unit 20 may obtain battery 24 information from the battery 24 of the power receiving unit 20 . In addition, the second communication unit 23 of the power receiving unit 20 may transmit battery 24 information to the first communication unit 23 of the power transmission unit 10 .

The power transmission coil 110 may transmit communication power required for transmission of the battery 24 information to the power reception coil 120 . Accordingly, even when the battery 24 of the power receiving unit 20 is completely discharged, the power receiving unit 20 may transmit battery 24 information to the power transmitting unit 10 .

Here, the battery 24 information may be transmitted in an in-band communication method. Here, the in-band communication method is a communication method using the same frequency band as the wireless power transmission frequency.

The first control unit 11 of the power transmission unit 10 may control the inverter 12 of the power transmission unit 10 based on the battery 24 information of the reception unit 20 .

The inverter 12 may convert the received DC power (Input Power) into AC power. In addition, the transmitting coil 110 may transmit AC power converted by the inverter 12 to the receiving coil 120 .

The power receiving coil 120 may receive AC power from the power transmitting coil 110 . The converter 22 of the power receiving unit 20 may convert AC power into DC power, and the second control unit 21 of the power receiving unit 20 uses the converted DC power to convert the battery of the power receiving unit 20 . (24) can be charged.

3 is a diagram illustrating a coil structure of a wireless power transmission system according to an embodiment of the present invention, and FIG. 4 is a view for explaining a method of detecting a foreign object in a wireless power transmission system according to an embodiment of the present invention to be.

As shown in FIG. 3 , the coil structure of the wireless power transmission system according to an embodiment of the present invention may include a transmitting coil 110 , a receiving coil 120 , and a detecting coil 130 .

The transmitting coil 110 may transmit AC power. In addition, the power receiving coil 120 is spaced apart from the power transmitting coil 110 and may receive AC power transmitted by the power transmitting coil 110 .

The detection coil 130 is disposed between the power transmission coil 110 and the power reception coil 120 , and detects a foreign object (FO) 1 located between the power transmission coil 110 and the power reception coil 120 . can do. Here, the foreign material 1 may be a metallic material such as a saw, a hammer, and a coin, or a living organism such as a cat and a mouse.

As shown in FIG. 4 , the detection coil 130 includes a plurality of coils terminating the power transmission coil 110 in the horizontal direction a plurality of times, and a plurality of coils traversing the power transmission coil 110 in a vertical direction a plurality of times. It may be arranged in a matrix form on the power transmission coil 110 .

When there is no foreign object 1 between the power transmission coil 110 and the power reception coil 120 , the power transmission coil 110 and the power reception coil 120 by AC power transmitted from the transmission coil 110 to the reception coil 120 . ), a constant magnetic flux is generated, and a constant voltage is induced in the detection coil 130 by this magnetic flux.

On the other hand, when there is an external foreign substance 1 between the power transmission coil 110 and the power reception coil 120, the magnetic flux generated between the power transmission coil 110 and the reception coil 120 changes, The voltage of the detection coil 130 is also changed by the changed magnetic flux.

As such, the wireless power transmission system according to an embodiment of the present invention detects the voltage induced in the detection coil 130 to determine whether an external foreign material 1 is present between the transmission coil 110 and the reception coil 120 . can judge

However, since the detection coil 130 shown in FIG. 4 has a structure in which the coil is uniformly distributed as a whole on the power transmission coil 110, there is a limit in detecting the foreign matter 1 having a relatively small size such as a coin. there is

5 is a diagram illustrating a unit coil cell included in a detection coil of a wireless power transmission system according to an embodiment of the present invention, and FIG. 6 is a view showing various embodiments of a spiral coil included in the unit coil cell of FIG. FIG. 7 is a diagram illustrating a coil chain configured through the unit coil cell of FIG. 5 .

5 , the detection coil 130 may include a plurality of unit coil cells 131 . Here, the plurality of unit coil cells 131 includes a spiral coil 131a wound in a spiral a plurality of times, and a first connection line 131b and a second connection line 131c respectively connected to both ends of the spiral coil 131a. and a third connection line 131d disposed to face the first connection line 131b and the second connection line 131c.

As shown in FIG. 6 , the spiral coil 131a may be formed of at least one of a polygonal spiral such as a square spiral (a), a rhombic spiral (d), and a hexagonal spiral (e), a circular spiral, and an elliptical spiral (b). have.

The coil structure of the wireless power transmission system according to an embodiment of the present invention may further include a substrate 140 on which the detection coil 130 is disposed. Here, the detection coil 130 may be formed in the form of a pattern printed on the substrate 140 .

The substrate 140 has a spiral coil 131a and first to third connection lines 131b to 131d disposed thereon, and corresponds to one end of the spiral coil 131a located in the center of the spiral coil 131a, the first A via hole 131e may be formed, and a second via hole 131f may be formed to correspond to one end of the second connection line 131c.

The detection coil 130 may further include a fourth connection line 131g disposed under the substrate 140 .

Here, the fourth connection line 131g may connect one end of the spiral coil 131a and one end of the second connection line 131c through the first via hole 131e and the second via hole 131f.

7 , a plurality of unit coil cells 131 may be connected to each other through first to third connection lines 131b to 131d to form a coil chain 132 .

Specifically, the second connection line 131c of the unit coil cell 131 is connected to the first connection line 131b of another unit coil cell 131 , and the third connection line of the unit coil cell 131 is connected to the second connection line 131b of the other unit coil cell 131 . 131d may be connected to the third connection line 131d of another unit coil cell 131 to configure the coil chain 132 .

As such, the detection coil 130 according to the embodiment of the present invention detects a minute change in the magnetic field at a specific location by intensively disposing the spiral coil 131a wound a plurality of times at a specific location on the power transmission coil 110 . can, and through this, it is possible to detect even a relatively small external foreign matter (1), such as a coin.

Accordingly, it is possible to prevent fire and malfunction of the wireless power transmission system that may occur due to the relatively small size of the external foreign material 1 in advance.

FIG. 8 is a view showing the arrangement structure of the coil chain of FIG. 7 , and FIG. 9 is a view showing the arrangement structure of the coil chain according to the shape of a spiral coil.

As shown in (a) of Figure 8, the detection coil 130, a plurality of coil chains 132 arranged in a vertical direction may be arranged in a horizontal direction (left and right direction), Figure 8 (b) As shown in , a plurality of coil chains 132 arranged in a horizontal direction may be arranged in a vertical direction (up and down direction). Here, the coil chains 132 arranged in the horizontal direction or the vertical direction may be arranged so that each spiral coil 131a has a grid shape, or there is no empty space between each spiral coil 131a.

Further, as shown in FIG. 8C , in the detection coil 130 , a plurality of coil chains 132 arranged in a vertical direction are arranged in a horizontal direction (left and right direction), and a plurality of detection coils 130 are arranged in a horizontal direction. The coil chains 132 of the may be arranged in a vertical direction (up and down direction).

As such, the coil structure of the wireless power transmission system according to an embodiment of the present invention may be configured as a coil chain 132 by connecting a plurality of unit coil cells 131 , and the detection coil is arranged by arranging the coil chain. Since it can be formed, there is an advantage that the detection coil 130 can be formed according to the size of various transmission units.

As described above, the spiral coil 131a of the unit coil cell 131 is a polygonal spiral such as a square spiral (a), a rhombic spiral (d), and a hexagonal spiral (e), a circular spiral, and an elliptical spiral (b). It may be made of at least one, and the arrangement structure of the coil chain 132 of FIG. 8 may vary depending on the shape of the spiral coil 131a.

Specifically, the arrangement structure of the coil chain 132 may have a rectangular matrix shape when the spiral coil 131a is formed in a square spiral, as shown in FIG. As shown in (b), when the spiral coil 131a is formed in a circular spiral shape, it may have a circular matrix shape.

In addition, the arrangement structure of the coil chain 132 may have a triangular matrix form when the spiral coil 131a is formed of a triangular spiral, as shown in FIG. As shown in (d), when the spiral coil 131a is formed of a rhombus spiral, it may have a Rhombus matrix shape.

In addition, the arrangement structure of the coil chain 132 may have a hexagonal matrix shape when the spiral coil 131a is formed of a hexagonal spiral, as shown in FIG. 9E .

FIG. 10 is an enlarged view of the arrangement structure of the coil chain shown in FIG. 8(c) , and FIG. 11 is a view showing the arrangement structure of the coil chain of FIG. 7 in which spiral coils are arranged to overlap.

As shown in FIG. 10 , the detection coil 130 may be arranged so that the spiral coils 131a do not overlap each other.

Specifically, the coil chain 132 may be connected to provide an insertion space into which the spiral coil 131a of the other coil chain 132 can be inserted between the spiral coils 131a. Then, the spiral coil 131a of the coil chain 132 arranged in the horizontal direction is inserted into the insertion space of the coil chain 132 arranged in the vertical direction, and in the insertion space of the coil chain 132 arranged in the horizontal direction. By inserting the spiral coils 131a of the coil chain 132 arranged in the vertical direction, the spiral coils 131a may be arranged so as not to overlap each other.

In this way, each spiral coil 131a of the coil chain 132 arranged in the vertical and horizontal directions is arranged so as not to overlap with each other, thereby minimizing the parasitic capacitance generated between each spiral coil 131a to minimize foreign matter (1). can improve detection sensitivity.

Here, in the detection coil 130 , both of the coil chains 132 arranged in the horizontal and vertical directions are disposed on the substrate 140 , or any one of the coil chains 132 arranged in the horizontal and vertical directions is disposed on the substrate. When disposed on the upper portion of the 140 , the other one may be disposed on the lower portion of the substrate 140 .

In addition, the substrate 140 may be formed of the multi-layer substrate 140 , and in this case, the coil chains 132 arranged in the horizontal direction and the vertical direction may be arranged on different layers.

On the other hand, as shown in FIG. 10 , in order to improve the detection sensitivity of the foreign object 1, the directions of the induced currents induced in the coil chains 132 arranged in the horizontal direction and the vertical direction, respectively, are reinforced without canceling each other. It is preferable to arrange the unit coil cells 131 as much as possible.

11 , the detection coil 130 may be arranged such that the spiral coils 131a overlap each other.

Specifically, the coil chain 132 may be connected so that an insertion space is not provided between the spiral coils 131a. In addition, by arranging the coil chains 132 arranged in the horizontal direction in the empty space of the coil chains 132 arranged in the vertical direction, each spiral coil 131a may be arranged to overlap.

As described above, each spiral coil 131a of the coil chain 132 arranged in the vertical and horizontal directions is arranged to overlap each other, so that the detection position of the foreign material 1 can be confirmed. That is, if the coil chain 132 with a voltage change among the coil chains 132 arranged in the vertical direction is detected, the X-coordinate of the foreign material 1 can be checked, and the voltage among the coil chains 132 arranged in the horizontal direction is detected. When the coil chain 132 with a change is detected, the Y coordinate of the foreign material 1 can be checked, and the detection coordinates (X, Y) of the foreign material 1 can be confirmed.

Here, in the detection coil 130 , both of the coil chains 132 arranged in the horizontal and vertical directions are disposed on the substrate 140 , or any one of the coil chains 132 arranged in the horizontal and vertical directions is disposed on the substrate. When disposed on the upper portion of the 140 , the other one may be disposed on the lower portion of the substrate 140 .

In addition, the substrate 140 may be formed of the multi-layer substrate 140 , and in this case, the coil chains 132 arranged in the horizontal direction and the vertical direction may be arranged on different layers.

On the other hand, as shown in FIG. 10 , in order to improve the detection sensitivity of the foreign object 1, the directions of the induced currents induced in the coil chains 132 arranged in the horizontal direction and the vertical direction, respectively, are reinforced without canceling each other. It is preferable to arrange the unit coil cells 131 as much as possible.

In the detailed description of the present invention, although specific embodiments have been described, various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention is not limited to the described embodiments, and should be defined by the following claims and their equivalents.

110: power transmission coil
120: faucet coil
130: detection coil
131: unit coil cell
132: coil chain

Claims (16)

A detection coil disposed between a power transmitting coil and a power receiving coil in a wireless power transmission system to detect foreign substances located between the power transmitting coil and the power receiving coil,
spiral coil wound multiple times in a spiral;
first and second connection lines respectively connected to both ends of the spiral coil; and
A plurality of unit coil cells including a third connection line facing the first and second connection lines
A detection coil of a wireless power transmission system comprising a.
The method of claim 1,
The spiral coil is
consisting of at least one of a polygonal spiral, a circular spiral, and an elliptical spiral
Detection coil of wireless power transmission system.
The method of claim 1,
The plurality of unit coil cells
connected to each other through the first to third connection lines to form a coil chain
Detection coil of wireless power transmission system.
4. The method of claim 3,
The detection coil is
A plurality of the coil chains arranged in the vertical direction are arranged in the horizontal direction.
Detection coil of wireless power transmission system.
4. The method of claim 3,
The detection coil is
A plurality of the coil chains arranged in the horizontal direction are arranged in the vertical direction
Detection coil of wireless power transmission system.
4. The method of claim 3,
The detection coil is
A plurality of the coil chains arranged in a vertical direction are arranged in a horizontal direction, and a plurality of the coil chains arranged in a horizontal direction are arranged in a vertical direction.
Detection coil of wireless power transmission system.
7. The method of claim 6,
The detection coil is
The spiral coils are arranged so that they do not overlap each other
Detection coil of wireless power transmission system.
7. The method of claim 6,
The detection coil is
The spiral coils are arranged to overlap each other
Detection coil of wireless power transmission system.
The method of claim 1,
Further comprising a substrate on which the spiral coil and the first to third connection lines are disposed,
the substrate is
A first via hole is formed to correspond to one end of the spiral coil located in the center of the spiral coil, and a second via hole is formed to correspond to one end of the second connection line.
Detection coil of wireless power transmission system.
10. The method of claim 9,
The detection coil is
a fourth connection line disposed under the substrate and connecting one end of the spiral coil and one end of the second connection line through the first and second via holes;
Detection coil of wireless power transmission system.
7. The method of claim 6,
Further comprising a substrate on which the detection coil is disposed,
When any one of the coil chains arranged in a horizontal direction and a vertical direction is arranged on the upper part of the substrate, the other one is arranged on the lower part of the substrate.
Detection coil of wireless power transmission system.
7. The method of claim 6,
Further comprising a multilayer substrate on which the detection coil is disposed,
The coil chains arranged in the horizontal direction and the vertical direction are arranged in different layers.
Detection coil of wireless power transmission system.
As a coil structure for detecting foreign substances in a wireless power transmission system,
a transmission coil for transmitting AC power;
a power receiving coil spaced apart from the power transmitting coil and receiving the AC power transmitted by the transmitting coil; and
It is disposed between the power transmission coil and the power reception coil, and includes a detection coil for detecting foreign substances located between the power transmission coil and the power reception coil,
The detection coil is
A plurality of unit coil cells comprising a spiral coil wound spirally a plurality of times, first and second connection lines respectively connected to both ends of the spiral coil, and a third connection line disposed to face the first and second connection lines containing
A coil structure of a wireless power transmission system.
14. The method of claim 13,
The plurality of unit coil cells
connected to each other through the first to third connection lines to form a coil chain
A coil structure of a wireless power transmission system.
15. The method of claim 14,
The detection coil is
A plurality of the coil chains arranged in a vertical direction are arranged in a horizontal direction, or a plurality of the coil chains arranged in a horizontal direction are arranged in a vertical direction.
A coil structure of a wireless power transmission system.
15. The method of claim 14,
The detection coil is
A plurality of the coil chains arranged in a vertical direction are arranged in a horizontal direction, and a plurality of the coil chains arranged in a horizontal direction are arranged in a vertical direction.
A coil structure of a wireless power transmission system.

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