KR101962242B1 - Antenna equipment - Google Patents

Abstract

The present invention relates to an antenna device, comprising: a first antenna conductor connected to a communication module; and a second antenna conductor separated from the first antenna conductor, located corresponding to the first antenna conductor, and configured to be connected to at least one communication module. The first and second antenna conductors are coupled and connected to each other, and communication modules connected to the first and second antenna conductors are different, wherein the second antenna conductor is connected to an FM module.

Description

ANTENNA EQUIPMENT

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an antenna device, and more particularly, to an antenna device capable of additionally transmitting and receiving an FM radio signal.

Global Climate Change Because of natural disasters such as typhoons, heavy rains, earthquakes and tsunamis, which are caused by global warming, it is becoming important for the general public to communicate quickly and accurately before and after a disaster.

Since the initial emergency alert broadcasting system in Korea is based on the analog TV system, the emergency alert broadcasting message signal is encoded using the vertical blanking interval (VBI) of the analog TV signal, and then added and transmitted.

In addition, in order to receive the disaster alarm broadcasting message signal, a separate receiver for receiving the disaster alarm broadcasting message signal is distributed to each region. When a disaster occurs in the region, the disaster occurrence situation is transmitted to the receiver of the corresponding region, After receiving the disaster alert broadcast message signal, a method of secondarily transmitting the disaster alarm broadcast message signal to the home of the corresponding region is constructed.

However, in case of a disaster occurring nationally, it was a fact that the management of the disaster broadcasting and the subject of broadcasting were vague and lacked in awareness, and the distribution of receivers and the like was limited.

Since 2009, mobile terminals such as DMB (Digital Multimedia Broadcasting) have been widely used, and standards for disaster alert broadcasting using DMB have been established and established.

However, unlike the case of the past, a portable terminal such as a smart phone is not equipped with a DMB antenna. Therefore, if the user does not have an accessory such as an earphone, This makes it impossible to listen to disaster warning broadcasts and has little effect on disaster warning.

In addition, although the currently available mobile terminal does not have the function of receiving the FM radio signal, the FM radio signal can be received by the portable terminal in the near future, so that it becomes possible to listen to the FM broadcast. In this case, In case of warning broadcasting, the number of people who confirm the disaster warning broadcasting greatly increases.

However, in most portable terminals such as a smart phone having a metal body, it is difficult to secure a space for installing a separate antenna. Therefore, it is difficult to add an FM antenna for an FM radio signal.

Korean Patent Publication No. 10-2005-0103870 (Publication Date: November 1, 2005, entitled Antenna Apparatus)

The problem to be solved by the present invention is to additionally enable reception of an FM radio signal.

According to an aspect of the present invention,

A first antenna conductor connected to the communication module and a second antenna conductor spaced apart from the first antenna conductor and corresponding to the first antenna conductor and connectable to at least one communication module, The antenna conductor and the second antenna conductor are coupled to each other and the first antenna conductor and the communication module connected to the second antenna conductor are different from each other and the second antenna conductor is connected to the FM module .

The communication module connected to the first antenna conductor may be one of an NFC module, a WPT module, an MST module, and a DMB module.

The antenna device may further include a switching unit having a plurality of output terminals connected to a plurality of communication modules different from an input terminal connected to one end of the second antenna conductor, One of the plurality of output terminals of the switching unit may be connected to the FM module and the other may be connected to one of the NFC module, the WPT module, the MST module, and the DMB module .

The switching unit may further include an output terminal connected to the ground.

At least one end of the first antenna conductor and the second antenna conductor may be grounded or floating.

The antenna device according to the above feature may further include a matching circuit connected to the floating end.

The matching circuit may form at least one of an inductive component, a capacitive component, and a resistive component.

The antenna device may further include a dummy conductor connected between the output terminal of the switching unit and the FM module.

According to another aspect of the present invention, there is provided an antenna device including a first antenna conductor connected to a communication module, a second antenna conductor spaced apart from the first antenna conductor and corresponding to the first antenna conductor, And a diplexer having an input connected to one end of the conductor, a first output connected to the FM module, and a second output connected to the FM module and another communication module, The communication modules connected to the first and second output terminals of the lager are different from each other.

The communication module connected to the first antenna conductor may be one of an NFC module, a WPT module, an MST module, and a DMB module.

The communication module at the second output terminal of the diplexer may be one of an NFC module, a WPT module, an MST module, and a DMB module.

At least one end of the first antenna conductor and the second antenna conductor may be grounded or floating.

The antenna device according to the above feature may further include a matching circuit connected to the floating end.

The matching circuit may form at least one of an inductive component, a capacitive component, and a resistive component.

The antenna device may further include a dummy conductor connected between the first output terminal of the diplexer and the FM module.

According to this aspect, since a plurality of communication modules including an FM module for transmitting and receiving an FM radio signal use one antenna conductor, it is not necessary to install an antenna conductor for the FM module.

 This reduces the installation cost of additional antenna devices for the FM module.

Further, in the case of an electronic device, such as a mobile phone, in which space for installing additional components is insufficient, the antenna conductor already provided is used, so that the design is easy and the space utilization is improved.

1 is a block diagram of an antenna apparatus according to an embodiment of the present invention.
FIG. 2 and FIG. 3 are block diagrams of another example antenna apparatus according to an embodiment of the present invention.
4A to 4E are views schematically showing formation positions of a first antenna conductor and a second antenna conductor in an antenna device according to an embodiment of the present invention.
5 is a block diagram of an antenna apparatus according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, if it is judged that it is possible to make the gist of the present invention obscure by adding a detailed description of a technique or configuration already known in the field, it is omitted from the detailed description. In addition, terms used in the present specification are terms used to appropriately express the embodiments of the present invention, which may vary depending on the person or custom in the relevant field. Therefore, the definitions of these terms should be based on the contents throughout this specification.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to limit the invention. The singular forms as used herein include plural forms as long as the phrases do not expressly express the opposite meaning thereto. As used herein, the meaning of "comprising" embodies certain features, areas, integers, steps, operations, elements and / or components, And the like.

Hereinafter, an antenna device according to an embodiment of the present invention will be described with reference to the accompanying drawings.

First, an antenna device according to an embodiment of the present invention will be described with reference to FIGS. 1 to 4. FIG.

1, the antenna device of the present embodiment includes a first antenna conductor 11, a first antenna conductor 11, and a second antenna conductor 11 connected to a communication module unit 30 having a plurality of communication modules 31-33, A second antenna conductor 12 positioned so as to be spaced apart from the first antenna conductor 12 and a switching unit 12 connected to the first power terminal I1 and the output terminals A1 and A2 connected to the communication module unit 30, 21).

One end of the first antenna conductor 11 is connected to one communication module (for example, the NFC module 31) belonging to the communication module unit 30 and the other end is connected to the NFC module 31 and the antenna conductor 11 is connected to the corresponding NFC module 31 to form a closed loop with the first antenna 11 as shown in FIG.

However, if it is not necessary to form a closed loop between the communication module connected to the first antenna conductor 11 and the antenna conductor 11 connected like the NFC module 31, The sides may be open or floating, which may be grounded or not connected to anywhere.

The second antenna conductor 12 is spaced apart from the first antenna conductor 11 so as to correspond to the first antenna conductor 11 and has one end opened or grounded (see FIGS. 1 and 2) Is connected to the input terminal (I1) of the switching unit (21).

The first antenna conductor 11 and the second antenna conductor 12 are each in the form of a coil and the total length of the antenna conductors 11 and 12 may be approximately 50 cm to 90 cm, But may be varied depending on the type of the communication module 31-33 to be connected.

At this time, the first antenna conductor 11 and the second antenna conductor 12 are positioned so as to correspond to each other as described above.

The first antenna conductor 11 and the second antenna conductor 12 may be located on the same surface of the same substrate 100, as shown in FIGS. 4 (a) and 4 (b). In this case, the second antenna conductor 12 is located in the interior of the first antenna conductor 11, that is, the inner space formed by being surrounded by the first antenna conductor 11, The second antenna conductor 12 may be located in the outer space, and in this case, the first antenna conductor 11 is located in the inner space formed by being surrounded by the second antenna conductor 12.

However, as shown in FIGS. 4C and 4D, the first antenna conductor 11 and the second antenna conductor 12 are disposed on opposite sides of one substrate 100, that is, And the corresponding antenna conductors 11 and 12 can be positioned on the lower surface.

In this case, the first antenna conductor 11 and the second antenna conductor 12 may be positioned at positions corresponding to each other with the substrate 100 interposed therebetween as shown in FIG. 4 (e).

The first antenna conductor 11 and the second antenna conductor 12 are spaced apart from each other by a predetermined distance so that the first antenna conductor 11 and the second antenna conductor 12 are coupled inductively Structure.

In the example shown in FIGS. 1 and 2, one end of the second antenna conductors 11 and 12 is grounded or floating, but in contrast to a signal such as a user's manual operation or relay, A switching unit such as an automatic switch in which a switching operation is performed may be provided at one end of the second antenna conductor 12. [

Therefore, according to the operation of the corresponding switching unit connected to the corresponding antenna coil 12 in accordance with the operation state of the antenna device, the corresponding antenna coil 12 is connected to the ground or remains in a floating state without changing the structure of the antenna device, It is possible to improve the operation efficiency.

The first switching unit 21 is connected to the first switching unit 21 by an electrical signal such as a manual switch or a relay in which the switching state is determined by the manual operation of the user and the output terminals A1 and A2 contacting the input terminal I1 are determined. And an automatic switch having a contact state.

The first switching unit 21 is a switch having one input terminal I1 and a plurality of output terminals A1 and A2 and the number of the output terminals A1 and A2 is a communication Is determined by the number of modules 31-33.

In addition, the first switching unit 21 may have an output terminal (e.g., a third output terminal) A3 connected to the ground as shown in the figure.

Further, in another alternative example, when either end of the antenna coil 12 has a floating state, additional matching may be applied to the corresponding end of the corresponding antenna coil 12, which maintains the floating state, Circuit 40 may be connected. At this time, the matching circuit 400 may include a reactor, a capacitor, and a resistor, which may be formed of a thin metal layer or a plating layer and form at least one of an inductive component, a capacitive component, and a resistive component. And may include at least one.

The communication module unit 30 includes an NFC module 31 (i.e., a short-range wireless communication module) 31 connected to both ends of the first antenna conductor 11, a first output terminal An FM module 32 connected to the first switching unit A1 and a DMB module 33 connected to the second output terminal A2 of the first switching unit 21. [

However, the communication modules 31-33 belonging to the communication module unit 30 are not limited to this, and some communication modules 32-33 may be omitted or other communication modules may be added as needed. In this way, when another communication module is added or subtracted, the number of output terminals of the first switching unit 21 is also increased or decreased by the number of the communication modules to be added or subtracted.

These communication modules 31-33 include a transmitter for transmitting a signal in the corresponding state to the outside through the associated antenna conductors 11 and 12 and a receiver for receiving a signal received and input to the antenna conductors 11 and 12 .

The transmitter includes an oscillator for generating a signal having a frequency of a corresponding magnitude in response to an applied input signal, a power amplifier for amplifying the generated signal to a corresponding magnitude, and a receiver for removing a noise component, And a matching circuit for matching the impedance to the impedance.

The receiver may further include a matching circuit for matching the impedance of the receiver with the impedance of the antenna, a power amplifier for amplifying the received signal, and a rectifier for rectifying the received signal.

However, the configurations of the transmitter and the receiver are not limited thereto, and some of the components may be omitted or other components may be added as needed.

The NFC module 31 is a communication module for short-range wireless communication and uses a band of approximately 13.56 MHz.

Therefore, the signal received through the first antenna conductor 11 is applied to the NFC module 31, and the NFC module 32 performs a short-range wireless communication operation on the signal of the corresponding frequency.

Among the two communication modules 32 and 33 connected to the switching unit 21, the FM module 32 is a communication module for transmitting and receiving an FM radio signal, and uses a microwave of approximately 100 MHz And the DMB module 33 is a communication module for transmitting and receiving DMB broadcasting signals.

Since the plurality of communication modules 32 and 33 are connected to one antenna conductor 12 by using the switching unit 21 as described above, the plurality of communication modules 32 and 33 are connected to each other by using one antenna, that is, Transmission and reception of signals through communications are performed.

For example, when the contact state of the switching unit 21 is connected to the first output terminal A1, a signal received through the second antenna conductor 12 is transmitted to the FM module 32, It is possible to perform listening. In this case, the second antenna conductor 12 functions as an FM antenna conductor for the FM antenna device.

Generally, in the case of an FM antenna device, the monopole length (1/4?) Can be around 83 cm (90 MHz standard). 3, when the length of the second antenna conductor 12 required for FM resonance in the operation of the FM module 32 is longer than that of the other communication module 33, the corresponding output terminal of the switching unit 21 An additional dummy conductor 50 may be further provided between the antenna module A1 and the FM module 32. [

The dummy conductor 50 may be an element that is wound on a ferrite or a printed circuit structure in a pattern, or may be an element that is wound on a general dielectric or printed in a pattern. As another example, the dummy conductor 50 may be a conductive pattern formed on a printed circuit board (PCB) used in an antenna device.

Alternatively, however, the FM resonance length can be adjusted using the matching circuit 40 in addition to the dummy conductors 50, so that at least one of the dummy conductors 50 and the matching circuit 40 can be omitted, if necessary .

At this time, the resistance value of the dummy conductor 50 and the matching circuit 40 may be approximately 50? To 200?, But the present invention is not limited to this and can be determined according to the input impedance of the communication module belonging to the communication module 30.

If the contact state of the switching unit 21 is connected to the second output terminal A2, a signal received through the second antenna conductor 12 is input to the DMB module 33, .

The first antenna conductor 11 and the second antenna conductor 12 are connected to each other via the first and second antenna conductors 11 and 12, A problem may arise in the impedance mapping of the corresponding communication module 31-33 during operation.

Therefore, impedance matching operation of each communication module can be performed in various ways in order to prevent such impedance matching problem.

First, the communication module connected to the second antenna conductor 12 according to the operation of the switching unit 21 selects one of the two output terminals A1 and A2.

Therefore, the impedance matching is adjusted using the NFC module 31 connected to the first and second antenna conductors 11 and 12 and the matching circuit incorporated in the FM module 32. In this case, the first antenna conductor 11 functions as an antenna conductor for the NFC module 31 and the second antenna conductor 12 acts as a predetermined communication module (e.g., FM module 32) for impedance matching As the antenna conductor.

1 to 3, the NFC module 31 and the FM module 32 or the communication module capable of operating at the same time using the first and second antenna conductors 11 and 12 are connected to the NFC module 31 ) And an FM module 32. [

In this case, the type of communication module that can be used by using the second antenna conductor 12 is substantially fixed to one.

Therefore, in order to increase the operation efficiency using the switching unit 21, a plurality of matching circuits capable of selecting one by using a separate switching unit in the NFC module 31 are designed as another method. In this case, if one of the plurality of communication modules 32 and 33 is selected according to the operation of the switching unit 21, the matching circuit of the NFC module 31 is also selected as the matching circuit suitable for the selected communication module 32 or 33 do.

Therefore, the user can select and use a desired communication module among the plurality of communication modules 32 and 33 connected to the switching unit 21 by using the switching unit 21 as needed.

Alternatively, the connection state of the switching unit 21 may be connected to the third output terminal A3, which is a ground terminal, and then the corresponding communication module may be used.

In this case, the NFC module 31, which is a communication module connected to the first antenna conductor 11, operates independently of other communication modules connected to the switching unit 21. Therefore, the impedance matching of the corresponding communication module 31 connected to the first antenna conductor 11 is performed based on the impedance with the antenna conductor 11.

In this case, the antenna device shown in FIGS. 1 to 4 disables the operation of the communication modules 32 and 33 connected to the switching unit 21, and then the communication module (not shown) connected to the first antenna conductor 11 31).

However, when the impedance matching of the NFC module 31 is adjusted based on the case where the switching unit 21 is connected to the ground, the input unit I1 is connected to the communication module by the operation of the switching unit 21 And is connected to the first output terminal A1 or the second output terminal A2.

In this case, since the NFC module 31 performs impedance matching based on the case where the switching unit 21 is connected to the ground, the switching unit 21 is connected to the FM module 32 or the DMB module 33 The operation of the NFC module 31 is not normally performed and the operation is disabled due to the performance. Accordingly, the antenna device of FIG. 1 to FIG. 4 is an antenna device for the corresponding communication module 32 or 33 connected to the switching unit 21. In this case, the operation of the communication module 31 connected to the first antenna conductor 11 can be deactivated in order to prevent the influence of the operation due to the NFC module 31. [

Next, an antenna device according to another embodiment of the present invention will be described with reference to FIG.

The antenna device shown in FIG. 5 uses a diplexer 22 instead of the switching unit 21, and the antenna device shown in FIGS. 1 to 4, .

Therefore, in FIG. 5, the components having the same structures as those of FIG. 1 to FIG. 4 and performing the same function are denoted by the same reference numerals as those of FIG. 1 to FIG. 4, and a detailed description thereof will be omitted.

5 has a first antenna conductor 11 connected to the corresponding communication module (NFC module) 31, a second antenna conductor 12 having one end floated or opened, For example, the FM module 32 and the DMB module 32, which are connected to the other end of the second antenna conductor 12 and are not connected to the first antenna conductor 11 at the output terminals A11 and A12, And a diplexer 22 to which the liquid crystal panel 33 is connected.

The diplexer 22 is a generally known diplexer. The diplexer 22 separates a signal applied to an input terminal according to a frequency band, passes a signal of a desired frequency band, and blocks a signal of an undesired frequency band .

Therefore, since the FM module 32 and the DMB module 33 are connected to the two output terminals A11 and A12 of the diplexer 22, the DMB module 33 is connected to the diplexer 22 via the second antenna conductor 12 The diplexer 22 outputs the signals having the corresponding frequency bands to the two communication modules 32 and 33 connected to the respective output terminals A11 and A12.

In this manner, the diplexer 22 outputs the signals simultaneously inputted to the devices 32 and 33 connected to the output terminals A11 and A12 of the diplexer 22, respectively.

In this case, the communication module operated using the first and second antenna conductors 11 and 12 is connected to the communication module 31 and the diplexer 22 connected to the first antenna conductor 11, A total of three communication modules 31-33 can simultaneously operate as the two communication modules 32, In this case, the impedance matching operation of the NFC module 31 is determined in consideration of the operation of the two communication modules 32 and 33.

 As already described, one of the two communication modules connected to the diplexer 22 is not limited to the FM module 32 and the DMB module 33.

The communication module 31 connected to the first antenna conductor 11 may be another kind of communication module that is not connected to the diplexer 22, One end of the one antenna conductor 11 may be grounded or floating.

In addition, a matching circuit may be connected to at least one of the first and second antenna conductors 11 and 12 being in a floating state.

A dummy conductor 50 may be disposed between the first output terminal A11 of the diplexer 22 and the FM module 32. [

The antenna conductors 11 and 12, which can be commonly used with a plurality of communication modules including the NFC module 31 and the FM module 32 in the antenna apparatuses shown in Figs. 1 to 5, It may be located in the battery cell of the device.

Thus, since a plurality of communication modules including the FM module for transmitting and receiving FM radio signals use one antenna conductor 12, it is unnecessary to install a separate antenna conductor for the FM module.

This reduces the installation cost of the antenna device. In the case of an electronic device, such as a mobile phone, in which space for installing additional components is insufficient, the existing antenna conductor is used, so that the design is easy and space utilization is improved .

The embodiments of the antenna apparatus of the present invention have been described above. The present invention is not limited to the above-described embodiments and the accompanying drawings, and various modifications and changes may be made by those skilled in the art to which the present invention pertains. Accordingly, the scope of the present invention should be determined not only by the claims of the present specification, but also by equivalents to the claims.

11: first antenna conductor 12: second antenna conductor
21: switching unit 22: diplexer
30: communication module module 31: NFC module
32: FM module 33: DMB module
40: matching circuit 50: dummy conductor

Claims (15)

A first antenna conductor coupled to one of the NFC module, the WPT module, the MST module, and the DMB module;
A second antenna conductor spaced apart from the first antenna conductor and positioned to correspond to the first antenna conductor; And
And a plurality of output terminals connected to a plurality of communication modules different from an input terminal connected to one end of the second antenna conductor,
Lt; / RTI >
Wherein the first antenna conductor and the second antenna conductor are coupled and coupled to each other,
One of the plurality of output terminals of the switching unit is connected to the FM module and the other is connected to one of the NFC module, the WPT module, the MST module and the DMB module
Antenna device. delete delete The method of claim 1,
Wherein the switching unit further comprises an output terminal connected to a ground. The method of claim 1,
And the other end of the second antenna conductor is grounded or floating. The method of claim 5,
And a matching circuit coupled to the floating end. The method of claim 6,
Wherein the matching circuit forms at least one of an inductive component, a capacitive component, and a resistive component. 8. The method according to any one of claims 1 to 7,
A dummy conductor connected between the output terminal of the switching unit and the FM module,
Further comprising: A first antenna conductor coupled to one of the NFC module, the WPT module, the MST module, and the DMB module;
A second antenna conductor spaced apart from the first antenna conductor and positioned to correspond to the first antenna conductor; And
A diplexer having an input connected to one end of the second antenna conductor, a first output connected to the FM module, and a second output connected to the FM module and another communication module,
Lt; / RTI >
Wherein the first antenna conductor and the communication module connected to the first and second output terminals of the diplexer are different from each other,
The communication module connected to the second output terminal of the diplexer may be one of an NFC module, a WPT module, an MST module, and a DMB module
Antenna device. delete delete The method of claim 9,
And the other end of the second antenna conductor is grounded or floating. The method of claim 12,
And a matching circuit coupled to the floating end. The method of claim 13,
Wherein the matching circuit forms at least one of an inductive component, a capacitive component, and a resistive component. 15. The method according to any one of claims 9 to 13,
A dummy conductor connected between the first output of the diplexer and the FM module,
Further comprising:

Images