JP7047930B2 - Audio equipment - Google Patents

Description

This disclosure relates to a core member having a winding core portion, a coil component provided with a conductor wire wound around the winding core portion, an external electrode, and an acoustic device using the coil component.

As an example of a coil component having a core member having a winding core portion, a conductor wire wound around the winding core portion, and an external electrode, the coil component described in Japanese Patent Application Laid-Open No. 2004-134957 (Patent Document 1). Can be mentioned. FIG. 7 is a plan view (top view) of the coil component 300 described in Patent Document 1. The coil component 300 includes a core member 301 having a winding core portion, a conductor wire 302 wound around the winding core portion, an external electrode 303, and a fixing portion 304.

The conductor wire 302 is wound around the core portion by reversing the extending direction of the coil on the way. The external electrode 303 includes a first external electrode 303a and a second external electrode 303b, and is provided at one end of the core member 301. One end of the conductor wire 302 is connected to the first external electrode 303a, and the other end of the conductor wire 302 is connected to the second external electrode 303b. The fixing portion 304 is provided at the other end portion of the core member 301 in order to increase the connection strength of the coil component 300 to the substrate.

Japanese Unexamined Patent Publication No. 2004-134957

Such a coil component may be used as a coil antenna of a communication technology called an NFMI (Near Field Magic Induction) method. The NFMI method is a communication technology that uses magnetic induction between two coil antennas, and has a shorter communication distance than a communication technology that uses high-frequency radio waves such as Bluetooth (registered trademark). However, it has the advantage of being less absorbed by the human body and water. Therefore, the NFMI method is being applied to audio devices such as wireless earphones.

However, in an acoustic device using the NFMI method, if the radiant magnetic field strength and reception sensitivity of the coil antennas are not sufficiently large, if the directions of the magnetic fields of the two coil antennas are deviated, the induced current becomes difficult to flow and sound interruption occurs. There is a risk.

That is, an object of this disclosure is to provide a coil component capable of improving the radiated magnetic field strength and reception sensitivity as a coil antenna, and an acoustic device capable of suppressing sound interruption using the coil component.

In the coil component according to this disclosure, the method of winding the conductor wire around the winding core portion is improved.

This disclosure is first directed to coil components.
A coil component according to this disclosure comprises a core member, a conductor wire, and a plurality of external electrodes. The core member has a winding core portion, a first flange portion connected to one end of the winding core portion, and a second flange portion connected to the other end of the winding core portion. The conductor wire is wound around the core portion. The plurality of external electrodes include first and second external electrodes.

The first and second external electrodes are provided on the first flange portion. One end of the conductor wire is connected to the first external electrode and the other end of the conductor wire is connected to the second external electrode. The conductor wire has a first coil portion extending from one end side of the winding core portion toward the other end side and a winding direction in the same winding direction as the first coil portion, from the other end side to the one end side of the winding core portion. Includes a second coil portion extending towards. The winding of the first coil portion and the winding of the second coil portion are alternately arranged at least a part of the winding core portion.

This disclosure is also directed to audio equipment.
An audio device according to this disclosure comprises a first audio device including a first coil component and a second audio device including a second coil component. The first and second coil components are coil components according to this disclosure, respectively. Then, by magnetic induction between the first coil component and the second coil component, voice communication is performed between the first acoustic device and the second acoustic device.

A coil component according to this disclosure can improve the radiated magnetic field strength and reception sensitivity as a coil antenna. Further, in the acoustic device according to this disclosure, since the coil component according to this disclosure is used as the coil antenna, the communication between the two coil antennas can be stabilized, and the sound interruption can be suppressed. ..

FIG. 1A is a perspective view of the coil component 100, which is the first embodiment of the coil component according to this disclosure. FIG. 1B is a perspective view showing a first coil portion 2a of the conductor wire 2. FIG. 1C is a perspective view showing a second coil portion 2b of the conductor wire 2. FIG. 2A is a first modification of the winding core portion 1a. FIG. 2B is a second modification of the winding core portion 1a. FIG. 3A is a perspective view of the coil component 200, which is the second embodiment of the coil component according to this disclosure. FIG. 3B is a perspective view showing the first coil portion 2a of the conductor wire 2. FIG. 3C is a perspective view showing the second coil portion 2b of the conductor wire 2. FIG. 4A is a perspective view showing a schematic configuration of an audio device 1000 which is an embodiment of an audio device according to this disclosure. FIG. 4B is a plan view (top view) showing a connection state between the first coil component 100A and the first flexible substrate 130A in FIG. 4A. It is a schematic block diagram of the main part of an audio apparatus 1000. FIG. 6A is a histogram showing the difference in radiated electric field strength depending on the structure of the coil component. FIG. 6B is a graph showing the difference in reception sensitivity depending on the structure of the coil component. It is a top view (top view) of the coil component 300 of the background technique.

The features of this disclosure will be described with reference to the drawings based on the embodiments of this disclosure. In the embodiments shown below, the same or common parts may be designated by the same reference numerals in the drawings, and the description thereof may not be repeated.

-First Embodiment of Coil Parts-
The coil component 100, which is the first embodiment of the coil component according to this disclosure, will be described with reference to FIGS. 1 and 2.

FIG. 1A is a perspective view of the coil component 100. The coil component 100 includes a core member 1, a conductor wire 2, a plurality of external electrodes 3, and a fixing portion 4. The fixing portion 4 includes a first fixing portion 4a and a second fixing portion 4b. As will be described later, the fixing portion 4 is a member (so-called dummy electrode) for improving the connection strength when the coil component 100 is connected to, for example, a flexible substrate by using a connecting member. That is, the fixed portion 4 is not an essential constituent requirement of the invention according to this disclosure.

The core member 1 has a winding core portion 1a, a first flange portion 1b connected to one end of the winding core portion 1a, and a second flange portion 1c connected to the other end of the winding core portion. ing. In this embodiment, the winding core portion 1a is a square columnar shape, and the first flange portion 1b and the second flange portion 1c are rectangular parallelepiped, but the shape is not limited thereto. The core member 1 is made of an electrically insulating material, more specifically, a non-magnetic material such as alumina, a magnetic material such as Ni—Zn-based ferrite, or a resin.

The conductor wire 2 is wound around the core portion 1a. The conductor wire 2 is composed of, for example, an insulatingly coated metal wire.

The plurality of external electrodes 3 include a first external electrode 3a and a second external electrode 3b. The first external electrode 3a and the second external electrode 3b are provided on the first flange portion 1b. Each of the plurality of external electrodes 3 is formed, for example, by baking a conductive paste containing a metal powder, plating, and attaching a metal piece.

One end of the conductor wire 2 is connected to the first external electrode 3a by a connecting member such as solder, and the other end of the conductor wire 2 is also connected to the second external electrode 3b. That is, the direction in which the coil portion formed by winding the conductor wire 2 around the winding core portion 1a is reversed in the middle.

In other words, the conductor wire 2 has a first coil portion 2a extending from one end side of the winding core portion 1a toward the other end side and a second coil portion 2a extending from the other end side of the winding core portion 1a toward one end side. The coil portion 2b of the above is included. FIG. 1B is a perspective view showing a first coil portion 2a of the conductor wire 2. FIG. 1C is a perspective view showing a second coil portion 2b of the conductor wire 2.

The first coil portion 2a and the second coil portion 2b indicate a predetermined portion of one conductor wire 2 as described above, but in order to make the arrangement easy to understand, colors are used in FIG. It is displayed differently. The first coil portion 2a and the second coil portion 2b have the same winding direction as shown by the arrows.

The windings of the first coil portion 2a and the windings of the second coil portion 2b are alternately arranged at least a part of the winding core portion 1a as shown in FIG. 1A. .. In the coil component 100, the winding of the first coil portion 2a and the winding of the second coil portion 2b are alternately arranged for each turn.

In the coil component 100, since the first coil portion 2a and the second coil portion 2b have the above-mentioned positional relationship, it is possible to improve the radiated magnetic field strength and the receiving sensitivity of the coil antenna as described later.

As shown in FIG. 2A, a first groove Ta into which the first coil portion 2a enters and a second groove Tb into which the second coil portion 2b enters are provided in the winding core portion 1a. It is preferable to have. In this case, the winding of the first coil portion 2a and the winding of the second coil portion 2b are surely alternately arranged in at least a part of the winding core portion 1a.

As shown in FIG. 2B, there is a first groove Ta in which a part of the first coil portion 2a enters and a part of the first coil portion 2a protrudes from the surface of the winding core portion 1a. , May be provided on the winding core portion 1a. The winding of the first coil portion 2a enters the first groove Ta and is stably wound around the winding core portion 1a. Further, the space between the windings of the first coil portion 2a functions as the second groove described above. Therefore, also in this case, the winding of the first coil portion 2a and the winding of the second coil portion 2b are surely alternately arranged at least a part of the winding core portion 1a.

-Second Embodiment of Coil Parts-
A coil component 200, which is a second embodiment of the coil component according to this disclosure, will be described with reference to FIG.

FIG. 3A is a perspective view of the coil component 200. The coil component 200 is different from the coil component 100 in the way in which the conductor wire 2 is wound. Since the other configurations are the same as those of the coil component 100, detailed description thereof will be omitted.

Also in the coil component 200, the direction in which the coil portion formed by winding the conductor wire 2 around the winding core portion 1a is reversed in the middle. That is, the conductor wire 2 has a first coil portion 2a extending from one end side of the winding core portion 1a toward the other end side and a second coil portion 2a extending from the other end side of the winding core portion 1a toward one end side. It includes a coil portion 2b. FIG. 3B is a perspective view showing the first coil portion 2a of the conductor wire 2. FIG. 3C is a perspective view showing the second coil portion 2b of the conductor wire 2.

As shown in FIG. 3A, at least a part of the winding of the first coil portion 2a and the winding of the second coil portion 2b are alternately arranged. However, in the coil component 200, the winding of the first coil portion 2a and the winding of the second coil portion 2b are alternately arranged every two turns.

Even in the coil component 200, since the first coil portion 2a and the second coil portion 2b are in the above positional relationship, the radiated magnetic field strength and the receiving sensitivity of the coil antenna can be improved. The winding of the first coil portion 2a and the winding of the second coil portion 2b may be alternately arranged every two turns or more.

-Embodiment of audio device-
The audio device 1000, which is an embodiment of the audio device according to this disclosure, will be described with reference to FIGS. 4 to 6.

FIG. 4A is a perspective view showing a schematic configuration of an audio device 1000 which is an embodiment of an audio device according to this disclosure. The audio device 1000 includes a first audio device 500A and a second audio device 500B. The audio device 1000 is, for example, a wireless earphone. The first audio device 500A is, for example, a right earphone. The second audio device 500B is, for example, the left earphone.

The first audio device 500A includes a first coil component 100A, a first flexible substrate 130A, a first substrate 110A, and a first communication module 120A. The second audio device 500B includes a second coil component 100B, a second flexible substrate 130B, a second substrate 110B, and a second communication module 120B. The first coil component 100A and the second coil component 100B are the coil components 100 of the invention according to the present disclosure.

The first communication module 120A includes electronic components 121A to 124A, is formed on the first substrate 110A, and is electrically connected to the first coil component 100A. In the first communication module 120A, voice communication is performed between the first audio device 500A and the second audio device 500B by magnetic induction between the first coil component 100A and the second coil component 100B. It is configured to be.

The first coil component 100A is arranged at one end of the first flexible substrate 130A. The other end of the first flexible substrate 130A is connected to the first substrate 110A in a bent state of the first flexible substrate 130A.

FIG. 4B is a plan view (top view) showing a connection state between the first coil component 100A and the first flexible substrate 130A in FIG. 4A. The first coil component 100A is connected on the first flexible substrate 130A so that the first fixing portion 4a and the second fixing portion 4b described above are on one end side of the first flexible substrate 130A. To.

That is, the first external electrode 3a is attached to the land L1 provided on the central side of the first flexible substrate 130A, and the second external electrode 3b is attached to the same land L2 with a connecting member such as solder. Connected using. On the other hand, the first fixing portion 4a is connected to the land L3 provided on one end side of the first flexible substrate 130A, and the second fixing portion 4b is connected to the same land L4.

Therefore, in the audio device 1000, it is not necessary to arrange the wiring (not shown) connecting the first coil component 100A and the first communication module 120A in the vicinity of one end of the first flexible substrate 130A. Therefore, when the first coil component 100A functions as the coil antenna of the first audio device 500A, the radiation of the magnetic field from the first coil component 100A and the incident of the magnetic field from the second coil component 100B are described above. It is not hindered by the wiring of.

Moreover, since there is no extra wiring, the cost can be reduced. Further, by reducing the space for arranging the extra wiring, the first flexible substrate 130A can be made smaller, and the cost can be reduced.

The second communication module 120B is formed on the second substrate 110B and is electrically connected to the second coil component 100B. In the second communication module 120B, voice communication is performed between the second audio device 500B and the first audio device 500A by magnetic induction between the second coil component 100B and the first coil component 100A. It is configured to be.

The second coil component 100B is arranged at one end of the second flexible substrate 130B. The other end of the second flexible substrate 130B is connected to the second substrate 110B in a bent state.

The second coil component 100B is also connected on the second flexible substrate 130B so that the first fixing portion 4a and the second fixing portion 4b described above are on one end side of the second flexible substrate 130B. To.

Therefore, in the audio device 1000, it is not necessary to arrange the wiring (not shown) connecting the second coil component 100B and the second communication module 120B in the vicinity of one end of the second flexible substrate 130B. Therefore, when the second coil component 100B functions as the coil antenna of the second audio device 500B, the radiation of the magnetic field from the second coil component 100B and the incident of the magnetic field from the first coil component 100A are described above. It is not hindered by the wiring of.

Further, as described above, the cost can be reduced because there is no extra wiring. Further, by reducing the space for arranging the extra wiring, the second flexible substrate 130B can be made smaller, and the cost can be reduced.

In the audio device 1000, the winding core portion 1a of the first coil component 100A in the first audio device 500A and the winding core portion 1a of the second coil component 100B in the second audio device 500B are acceptable. It is used in a state where it rides on the same axis within the range of deviation. At that time, the bending angles of the first flexible substrate 130A and the second flexible substrate 130B are set so as to realize the above conditions.

FIG. 5 is a schematic configuration diagram of a main part of the audio device 1000. In the first audio device 500A, for example, a communication module with an outside, a speaker system, a power management system connected to a power source, and the like are further connected to the first board 110A (not shown). The wirings L1A to L3A are wirings for connecting them to the first communication module 120A.

Further, in the second audio device 500B, for example, a speaker system, a power management system connected to a power supply, and the like are further connected to the second substrate 110B (not shown). Wiring L1B and L2B are wirings connecting them and the second communication module 120B.

As the acoustic device 1000, coil components 100A and 100B capable of improving the radiated magnetic field strength and reception sensitivity as a coil antenna are used. Therefore, the communication between the two coil antennas can be stabilized, and the sound interruption can be suppressed.

-Experimental example of coil parts-
An experimental example of a coil component according to this disclosure will be described with reference to FIG.

FIG. 6A is a histogram showing the difference in radiated electric field strength depending on the structure of the coil component. What is described as an embodiment is a simulation result of the magnetic field strength generated when a current of 10.6 MHz alternating current is applied to the coil component 100 according to this disclosure. In this simulation, it is assumed that the measurement is performed at a position 250 mm away from the first flange portion 1b along the direction of the central axis of the winding core portion 1a.

In the comparative example, the winding of the conductor wire is not folded back in the middle, one end of the conductor wire is connected to the first flange portion, and the other end of the conductor wire is connected to the second flange portion. This is the result of performing the same simulation for the coil parts.

FIG. 6B is a graph showing the difference in reception sensitivity depending on the structure of the coil component. What is described as an embodiment is a simulation result of an induced voltage generated in the coil component 100 when a magnetic field of various intensities is applied to the coil component 100 according to this disclosure. The comparative example is the result of performing the same simulation for the above-mentioned conventional coil parts.

From FIGS. 6A and 6B, it can be seen that the performance of the coil component 100 is improved in both the radiation magnetic field strength and the reception sensitivity as compared with the conventional coil component. The improvement of the radiated magnetic field strength leads to the improvement of the induced voltage, and the stable communication distance is extended.

For example, as a result of simulating under predetermined conditions, it was found that the communication distance of the coil component 100 is extended by 5 mm to 10 mm as compared with the conventional coil component. Due to this increase in communication distance, when the coil component 100 is used as a coil antenna for wireless earphones, even if there are individual differences in the distance between the left and right ears in the human body, a sufficient margin for stable communication should be secured. Can be done.

Therefore, when the coil component according to this disclosure is used as an antenna coil of an acoustic device such as a wireless earphone, it is possible to stabilize the communication between the two coil antennas and to suppress the sound interruption. can.

The embodiments disclosed in this specification are exemplary, and the invention according to this disclosure is not limited to the above-described embodiments and modifications. That is, the scope of the invention according to this disclosure is indicated by the scope of claims, and is intended to include all modifications within the meaning and scope equivalent to the scope of claims. Further, various applications and modifications can be added within the above range.

The invention according to this disclosure is applied to, for example, a coil antenna in NFMI communication technology, and an audio device such as a wireless earphone including such a coil antenna, but is not limited thereto.

100 Coil component 1 Core member 1a Winding core 1b 1st flange 1c 2nd flange 2 Conductor wire 2a 1st coil 2b 2nd coil 3 External electrode 3a 1st external electrode 3b 2nd External electrode 4 Fixing part 4a First fixing part 4b Second fixing part 500A First acoustic device 500B Second acoustic device 1000 Acoustic device

Claims (4)

An audio device including a first audio device including a first coil component and a second audio device including a second coil component.
The first audio device is formed on the first coil component, the first flexible substrate, the first substrate, and the first substrate, and is electrically connected to the first coil component. Including the first communication module
The first coil component is arranged at one end of the first flexible substrate, and the other end of the first flexible substrate is the first flexible substrate in a bent state. It is connected to the board and
The second audio device is formed on the second coil component, the second flexible substrate, the second substrate, and the second substrate, and is electrically connected to the second coil component. Including the second communication module
The second coil component is arranged at one end of the second flexible substrate, and the other end of the second flexible substrate is the second flexible substrate in a bent state. It is connected to the board and
The first communication module and the second communication module are a first acoustic device and a second acoustic device by magnetic induction between the first coil component and the second coil component. It is configured to perform voice communication with and
The first coil component and the second coil component are each
A core member having a winding core portion, a first flange portion connected to one end of the winding core portion, and a second flange portion connected to the other end of the winding core portion.
The conductor wire wound around the core and the conductor wire
A coil component including a plurality of external electrodes including a first and second external electrode.
The first and second external electrodes are provided on the first flange portion.
One end of the conductor wire is connected to the first external electrode, and the other end of the conductor wire is connected to the second external electrode.
The conductor wire has a first coil portion extending from one end side of the winding core portion toward the other end side and the other end side of the winding core portion in the same winding direction as the first coil portion. Includes a second coil portion extending from to one end side
An acoustic device in which the winding of the first coil portion and the winding of the second coil portion are alternately arranged in at least a part of the winding core portion. The acoustic device according to claim 1, wherein the winding of the first coil portion and the winding of the second coil portion are alternately arranged for each turn. The acoustic device according to claim 1, wherein the winding of the first coil portion and the winding of the second coil portion are alternately arranged for each of a plurality of turns. The acoustic device according to any one of claims 1 to 3, wherein a fixing portion is provided on the second flange portion.

Images