WO2017008384A1 - Antenna structure and mobile terminal - Google Patents

Abstract

Provided is an antenna structure, comprising: a coil structure for receiving a wireless charging signal and an FM radio signal, and an adjustment circuit for adjusting the FM radio signal. The coil structure comprises a first contact and a second contact for providing the wireless charging signal to a wireless charging receiving circuit, and a third contact for providing the FM radio signal to an FM radio, wherein the first contact and the second contact are respectively connected to the wireless charging receiving circuit, and the third contact is connected to the adjustment circuit. The adjustment circuit comprises a first terminal and a second terminal, wherein the first terminal is connected to the FM radio via a matching circuit, and the second terminal is connected to the third contact of the coil structure. Also disclosed is a mobile terminal.

Description

Antenna structure and mobile terminal Technical field

The utility model relates to the field of mobile terminal design, in particular to an antenna structure and a mobile terminal.

Background technique

At present, the wireless charging technology of the mobile terminal is very mature, and the wireless charging function of the mobile terminal needs to have a specific coil as the receiving antenna; and most mobile terminals have FM (Frequency Modulation) FM radio function, FM of the mobile terminal. The radio function also requires a specific antenna to receive radio and broadcast signals.

In the existing mobile terminal, the receiving antenna supporting the wireless charging and the receiving antenna supporting the FM radio function are separately set in the mobile terminal, and FIG. 1 is a schematic structural diagram of the wireless charging antenna and the FM radio receiving antenna in the prior art, as shown in FIG. 1 . As shown, the wireless charging coil and the FM radio receiving antenna are independently arranged, which not only increases the design cost, but also increases the weight and volume of the mobile terminal, and reduces resource utilization.

Utility model content

In view of this, the embodiments of the present invention are expected to provide an antenna structure and a mobile terminal, which can realize reasonable multiplexing of the wireless charging antenna and the FM radio receiving antenna, reduce the design cost of the mobile terminal, and improve the utilization efficiency of resources.

To achieve the above objective, the technical solution of the embodiment of the present invention is implemented as follows:

An embodiment of the present invention provides an antenna structure, where the antenna structure includes: a coil structure for receiving a wireless charging signal and an FM radio signal, and an adjustment circuit for adjusting an FM radio signal;

The coil structure includes a first contact that provides a wireless charging signal to a wireless charging receiving circuit And a second contact, and a third contact for providing an FM radio signal to the FM radio; wherein the first contact and the second contact are respectively connected to a wireless charging receiving circuit, the third contact and the adjusting circuit Connected

The adjustment circuit includes a first terminal and a second terminal, the first terminal being coupled to the FM radio via a matching circuit, and the second terminal being coupled to the third contact of the coil structure.

In the above solution, the coil structure includes a metal coil that receives a wireless charging signal and an FM radio signal, and a ferrite that shields the metal coil signal, and the metal coil is pasted on the ferrite.

In the above solution, the first contact and the second contact of the coil structure are respectively connected to the wireless charging receiving circuit through two metal domes.

In the above solution, the first contact and the second contact of the coil structure are two terminals of the metal coil; and the third contact of the coil structure is a tap in the middle of the coil structure.

In the above solution, a resonant capacitor is connected between the first terminal and the second terminal of the adjusting circuit;

The adjustment circuit further includes a third terminal connected to the second contact of the coil structure;

a parallel inductor is connected between the third terminal of the adjusting circuit and the resonant capacitor;

A series inductance is further connected between the first terminal of the adjustment circuit and the resonant capacitor.

The embodiment of the present invention further provides a mobile terminal, wherein the mobile terminal includes: a main processor CPU that controls the antenna structure to implement a wireless charging function and an FM radio function, a wireless charging receiving circuit, an FM radio, and an FM radio signal matching. An antenna structure for receiving a wireless charging signal and an FM radio signal; wherein

The CPU is connected to a wireless charging receiving circuit and an FM radio;

The antenna structure includes a coil structure for receiving a wireless charging signal and an FM radio signal, and an adjustment circuit for adjusting an FM radio signal; wherein

The coil structure includes a first contact and a second contact that provide a wireless charging signal for a wireless charging receiving circuit, and a third contact that provides an FM radio signal to the FM radio; wherein the first contact and the second contact The contacts are respectively connected to the wireless charging receiving circuit, and the third contact is connected to the adjusting circuit;

The adjustment circuit includes a first terminal and a second terminal, the first terminal is connected to the matching circuit, and the second terminal is connected to the third contact of the coil structure;

The first terminal of the matching circuit is connected to the second terminal of the adjusting circuit, and the second terminal is connected to the FM radio.

In the above solution, the coil structure includes a metal coil that receives a wireless charging signal and an FM radio signal, and a ferrite that shields the metal coil signal, and the metal coil is pasted on the ferrite.

In the above solution, the first contact and the second contact of the coil structure are respectively connected to the wireless charging receiving circuit through two metal domes.

In the above solution, the first contact and the second contact of the coil structure are two terminals of the metal coil; and the third contact of the coil structure is a tap in the middle of the coil structure.

In the above solution, a resonant capacitor is connected between the first terminal and the second terminal of the adjusting circuit;

The adjustment circuit further includes a third terminal connected to the second contact of the coil structure;

a parallel inductor is connected between the third terminal of the adjusting circuit and the resonant capacitor;

A series inductance is further connected between the first terminal of the adjustment circuit and the resonant capacitor.

The antenna structure and the mobile terminal provided by the embodiments of the present invention include a coil structure for receiving a wireless charging signal and an FM radio signal, and an adjustment circuit for adjusting an FM radio signal; wherein the coil structure includes providing a wireless charging signal for the wireless charging receiving circuit a first contact and a second contact, and a third contact for providing an FM radio signal to the FM radio; wherein the a contact and a second contact are respectively connected to the wireless charging receiving circuit, and the third contact is connected to the adjusting circuit; the adjusting circuit includes a first terminal and a second terminal, and the first terminal passes through the matching circuit The FM radio is connected and the second terminal is connected to the third contact of the coil structure. In this way, the function of the wireless charging antenna and the FM radio receiving antenna can be realized by one coil structure, and the reasonable multiplexing of the wireless charging antenna and the FM radio receiving antenna can be realized, so that the mobile terminal does not need to design too many antenna structures, and the mobile terminal is lowered. Design costs and improve the efficiency of resource utilization.

DRAWINGS

1 is a schematic structural diagram of a wireless charging antenna and an FM radio receiving antenna in the prior art;

2 is a schematic structural view of an antenna of the present invention;

Figure 3 is a schematic view showing the structure of the coil of the present invention;

Figure 4 is a schematic structural view of the adjustment circuit of the present invention;

FIG. 5 is a schematic structural view of a mobile terminal of the present invention.

detailed description

In the embodiment of the present invention, the mobile terminal includes: a main processor CPU that controls an antenna structure to implement a wireless charging function and an FM radio function, a wireless charging receiving circuit, an FM radio, a matching circuit for adjusting an FM radio signal, and a receiving wireless charging. An antenna structure of a signal and an FM radio signal; wherein the CPU is connected to a wireless charging receiving circuit and an FM radio; the antenna structure includes a coil structure for receiving a wireless charging signal and an FM radio signal, and an adjusting circuit for adjusting an FM radio signal; The coil structure includes a first contact and a second contact that provide a wireless charging signal for the wireless charging receiving circuit, and a third contact that provides an FM radio signal to the FM radio; wherein the first contact and the first contact The two contacts are respectively connected to the wireless charging receiving circuit, the third contact is connected to the adjusting circuit; the adjusting circuit comprises a first terminal and a second terminal, the first terminal is connected with the matching circuit, the second terminal and the coil a third contact of the structure is connected; the first terminal of the matching circuit is opposite to the second terminal of the regulating circuit , And a second terminal The FM radio is connected.

In an embodiment, the CPU manages and controls the wireless charging receiving circuit and the FM radio through commands, unified scheduling management, and implements a wireless charging function and an FM radio function. The matching circuit and the adjusting circuit match and adjust the FM radio signal to adjust the performance of the FM radio; the coil structure acts as an antenna, and the wireless charging receiving circuit and the FM radio receive signals transmitted from an external transmitting end, thereby implementing wireless charging. Reasonable multiplexing of the receiving circuit and the FM radio receiving antenna.

The antenna structure and the mobile terminal of the embodiment of the present invention will be described in detail below with reference to the accompanying drawings and embodiments.

2 is a schematic structural view of an antenna according to an embodiment of the present invention. In this embodiment, the antenna structure includes: a coil structure 21 and an adjustment circuit 22;

Wherein the coil structure 21 is configured to receive a wireless charging signal and an FM radio signal;

3 is a schematic structural view of a coil according to an embodiment of the present invention. As shown in FIG. 3, in the embodiment of the present invention, the coil structure 21 includes a metal coil 211 that receives a wireless charging signal and an FM radio signal, and an iron that shields a metal coil signal. The oxygen coil 212 is adhered to the ferrite 212 by a backing; the ferrite 212 is located between the mobile terminal main board and the metal coil 211, so that the signal on the metal coil 211 can be shielded to avoid the metal coil. The signal on 211 interferes with other functions of the mobile terminal.

The metal coil 211 includes three contacts, wherein the first contact and the second contact are connected to a wireless charging receiving circuit to provide a wireless charging signal for the wireless charging receiving circuit; the third contact and the adjusting circuit Connected to provide an FM radio signal for the FM radio; here, since the FM radio receiving antenna is shorter than the metal coil required for the wireless charging receiving circuit receiving antenna, the first contact and the second contact of the coil structure are metal The two terminals of the coil 211; the third contact of the coil structure is a tap in the middle of the metal coil. In the embodiment of the present invention, the third contact is merely taken as an example of the tapping method shown in FIG. 3, and is not limited to this range.

In the embodiment of the present invention, the first contact, the second contact, and the third contact of the coil structure 21 may be connected to the wireless charging receiving circuit and the FM radio through a metal dome, or may be connected by other wireless methods. The charging receiving circuit is connected to the FM radio, and the present invention is not limited to the connection method herein.

For example, in the embodiment of the present invention, the first contact and the second contact of the coil structure 21 are connected to the wireless charging receiving circuit through a metal dome. At this time, the coil structure 21 serves as a receiving antenna of the wireless charging receiving circuit. The wireless charging receiving circuit receives the signal. Here, the number of turns, the material, and the like of the metal coil 211 in the coil structure 21 can be determined according to the wireless charging debugging situation;

The third contact of the coil structure 21 is connected to the FM radio by a metal dome. At this time, the coil structure 21 serves as a receiving antenna of the FM radio and receives signals for the FM radio. In the embodiment of the present invention, the reason why the center tap of the coil is used as the third contact is because the length of the coil required for the FM radio receiving antenna is shorter than that of the wireless receiver receiving antenna; in practical applications, the third touch The position of the tap of the point depends on the commissioning situation.

The adjustment circuit 22 is configured to adjust an FM radio signal to adjust performance when the coil structure is improved as an FM antenna;

4 is a schematic structural diagram of an adjustment circuit according to an embodiment of the present invention. As shown in FIG. 4, the adjustment circuit 22 includes a first terminal 221 and a second terminal 222, wherein between the first terminal 221 and the second terminal 222 A resonant capacitor 223 is connected, the first terminal 221 is connected to the FM radio through a matching circuit, and the second terminal 222 is connected to the third contact of the coil structure.

In the embodiment of the present invention, the adjustment circuit 22 further includes a third terminal 224, and the third terminal 224 is connected to the second contact of the coil structure 21; the third terminal 224 of the adjustment circuit and the resonant capacitor 223 Connected to the connected parallel inductor 225; a series inductor 226 is further connected between the first terminal 221 of the regulating circuit and the resonant capacitor.

In practical applications, if the shunt inductor 225 is not required, the connection between the third terminal and the second contact of the coil structure 21 can be broken, as shown by the dashed line in FIG. 4;

The wireless charging receiving circuit and the FM radio may be used at the same time. In the embodiment of the present invention, the resonant capacitor 223 is configured to isolate the influence of the signal frequency during wireless charging operation on the FM radio. Since wireless charging works, the wireless charging protocol stipulates that its operating frequency is 115KHZ to 205KHZ, and usually the operating frequency of the FM radio is 70MHZ to 90MHZ or 87.5MHZ to 108MHZ. Therefore, by properly selecting the capacitance value of the resonant capacitor 223, the wireless can be wirelessly charged. The low frequency signal in the charging signal is isolated. In the debug FM phase, if the FM radio signal at the third contact of the coil structure 21 is still offset from the target value, it may be considered to increase the series inductance 226 between the resonant capacitor 223 and the first terminal, or at the resonant capacitor 223 and A parallel inductor 225 is added between the third terminals. By adjusting the inductance of the series inductor 226 and the shunt inductor 225, a higher quality FM radio signal is obtained.

In the embodiment of the present invention, only the adjustment circuit structure shown in FIG. 4 is taken as an example, and is not limited to this range.

5 is a schematic structural diagram of a mobile terminal according to an embodiment of the present invention. As shown in FIG. 5, the mobile terminal main processor CPU 51, a wireless charging receiving circuit 52, an FM radio 53, a matching circuit 54, and an antenna structure 55;

The CPU 51 is connected to the wireless charging receiving circuit 52 and the FM radio 53 and configured to control the antenna structure to implement a wireless charging function and an FM radio function;

The antenna structure 55 is configured to receive a wireless charging signal and an FM radio signal;

In the embodiment of the present invention, the antenna structure 55 includes a coil structure 551 and an adjustment circuit 552, wherein the coil structure 551 is configured to receive a wireless charging signal and an FM radio signal;

In an embodiment, the coil structure 551 includes a metal coil configured to receive a wireless charging signal and an FM radio signal, and a ferrite configured to shield the metal coil signal; the metal coil The adhesive is adhered to the ferrite; the ferrite is located between the mobile terminal main board and the metal coil, so that the signal on the metal coil can be shielded to prevent the signal on the metal coil from interfering with other functions of the mobile terminal.

The coil structure 51 includes three contacts, wherein the first contact and the second contact are connected to a wireless charging receiving circuit to provide a wireless charging signal for the wireless charging receiving circuit; the third contact and the adjusting circuit Connected to provide an FM radio signal for the FM radio; here, since the FM radio receiving antenna is shorter than the metal coil required for the wireless charging receiving circuit receiving antenna, the first contact and the second contact of the coil structure are metal The two terminals of the coil; the third contact of the coil structure is a tap in the middle of the metal coil.

In the embodiment of the present invention, the first contact, the second contact, and the third contact of the coil structure 551 may be connected to the wireless charging receiving circuit and the FM radio through a metal dome, and may also adopt other connection methods and wireless. The charging receiving circuit is connected to the FM radio, and the present invention is not limited to the connection method herein.

For example, in the embodiment of the present invention, the first contact and the second contact of the coil structure 551 are connected to the wireless charging receiving circuit through a metal dome. At this time, the coil structure 551 serves as a receiving antenna of the wireless charging receiving circuit. The wireless charging receiving circuit receives the signal. Here, the number of turns, the material, and the like of the metal coil in the coil structure 551 can be determined according to the wireless charging debugging situation;

The third contact of the coil structure 551 is connected to the FM radio by a metal dome. At this time, the coil structure 551 serves as a receiving antenna of the FM radio and receives signals for the FM radio. In the embodiment of the present invention, the reason why the center tap of the coil is used as the third contact is because the length of the coil required for the FM radio receiving antenna is shorter than that of the wireless receiver receiving antenna; in practical applications, the third The position of the tap of the contact depends on the commissioning situation.

The adjustment circuit 552 is configured to adjust an FM radio signal to adjust performance when the coil structure is improved as an FM antenna;

In an embodiment, the adjustment circuit 552 includes a first terminal and a second terminal, wherein a resonant capacitor is connected between the first terminal and the second terminal, the first terminal is connected to the matching circuit, and the second The terminal is connected to the third contact of the coil structure;

The adjustment circuit 553 further includes a third terminal, the third terminal and the second structure of the coil The contacts are connected; a parallel inductor is connected between the third terminal of the adjusting circuit and the resonant capacitor; and a series inductor is further connected between the first terminal of the adjusting circuit and the resonant capacitor.

In practical applications, if the shunt inductor 225 is not required, the connection between the third terminal and the second contact of the coil structure 21 can be broken;

The wireless charging receiving circuit and the FM radio may be used at the same time. In the embodiment of the present invention, the resonant capacitor 3 is configured to isolate the influence of the signal frequency during wireless charging operation on the FM radio. Due to the wireless charging operation, the wireless charging protocol stipulates that its operating frequency is 115KHZ to 205KHZ, and usually the FM radio operates at 70MHZ to 90MHZ or 87.5MHZ to 108MHZ. Therefore, the capacitor value of the resonant capacitor 3 can be reasonably selected to be wireless. The low frequency signal in the charging signal is isolated. In the debug FM phase, if the FM radio signal at the third contact of the coil structure 551 is still deviated from the target value, it may be considered to increase the series inductance 6 between the resonant capacitor and the first terminal, or in the resonant capacitor and the third A parallel inductance is added between the terminals, and the FM radio signal of higher quality is obtained by adjusting the series inductance and the parallel inductance value.

The matching circuit 54 is configured to adjust an FM radio signal, the first terminal of the matching circuit is connected to the second terminal of the adjusting circuit, and the second terminal is connected to the FM radio, as shown in FIG. 5, the matching circuit 54 An inductor is connected between the first terminal and the second terminal, and the first terminal and the second terminal are grounded through a capacitor respectively. The embodiment of the present invention is merely an example of the matching circuit shown in FIG. 5, but the scope is not limited. The components and the connection relationship of the matching circuit can be set according to actual conditions, and the embodiment of the present invention is incorrect. This is limited.

The antenna structure and the working process of the mobile terminal of the utility model are as follows:

When the antenna structure acts as an FM radio receiver antenna:

When the user operates the mobile terminal through an IO interface (such as a button or a touch screen) and enables the FM radio application, the CPU receives the task of turning on the FM radio and issues a command to call the FM radio function. After the FM radio receives the command from the CPU, it starts to work and is received through the antenna structure. From external radio station signals. At this time, the coil structure serves as an FM radio receiving antenna, receives a broadcast station signal from the outside, and transmits the signal to the receiving end of the FM radio through a contact such as a shrapnel. By properly selecting the inductance and capacitance parameters of the adjustment circuit and the matching circuit, the effective signal can be transmitted to the FM radio to adequately filter the excess invalid noise signal to avoid false or invalid signals.

When the antenna structure is used as a wireless charging receiving circuit to receive the antenna:

When the user places the mobile terminal on the wireless charging transmitting end (such as the wireless charging stand), the CPU initiates the wireless charging function by command, the wireless charging receiving circuit opens the receiving path, and starts receiving the signal from the wireless charging transmitting end through the antenna structure. At this time, the antenna structure is charged with a wireless charging receiving antenna;

When the antenna structure is used as both the wireless charging receiving circuit receiving antenna and the FM radio receiving antenna, the working process is as follows:

As with the above two processes, when the user performs wireless charging while listening to the FM radio, since the operating frequencies of the two functions are far apart, the inductance and capacitance parameters of the adjustment circuit and the matching circuit can be effectively used to effectively operate the FM radio. The signal is isolated from the wireless charging signal so that it does not affect the completion of both functions.

The antenna structure of the present invention can be used as a receiving antenna of a wireless charging receiving circuit, and can also be reused as an FM radio receiving antenna, which can meet the requirements of wireless charging and realize the function of FM radio, thereby simplifying the mobile terminal. The antenna structure reduces the production cost of the mobile terminal and improves the utilization of resources.

While the present invention has been described above in terms of a preferred embodiment, the present invention is not limited thereto, and various changes and modifications may be made to the present invention without departing from the spirit of the invention. All are within the scope of the claims of the present invention.

The above is only the preferred embodiment of the present invention and is not intended to limit the scope of the present invention.

Claims (10)

1. An antenna structure includes: a coil structure for receiving a wireless charging signal and an FM radio signal, and an adjusting circuit for adjusting an FM radio signal;

   The coil structure includes a first contact and a second contact that provide a wireless charging signal for a wireless charging receiving circuit, and a third contact that provides an FM radio signal to the FM radio; wherein the first contact and the second contact The contacts are respectively connected to the wireless charging receiving circuit, and the third contact is connected to the adjusting circuit;

   The adjustment circuit includes a first terminal and a second terminal, the first terminal being coupled to the FM radio via a matching circuit, and the second terminal being coupled to the third contact of the coil structure.
2. The antenna structure according to claim 1, wherein said coil structure comprises a metal coil that receives a wireless charging signal and an FM radio signal, and a ferrite that shields the metal coil signal, said metal coil being attached to the ferrite.
3. The antenna structure according to claim 2, wherein the first contact and the second contact of the coil structure are respectively connected to the wireless charging receiving circuit by two metal domes.
4. The antenna structure according to any one of claims 1 to 3, wherein the first contact and the second contact of the coil structure are two terminals of a metal coil; and the third contact of the coil structure is a coil structure The middle tap.
5. The antenna structure according to claim 1, wherein a resonant capacitor is connected between the first terminal and the second terminal of the adjusting circuit;

   The adjustment circuit further includes a third terminal connected to the second contact of the coil structure;

   a parallel inductor is connected between the third terminal of the adjusting circuit and the resonant capacitor;

   A series inductance is further connected between the first terminal of the adjustment circuit and the resonant capacitor.
6. A mobile terminal includes: controlling an antenna structure to implement a wireless charging function and FM radio Main function CPU of the machine function, wireless charging receiving circuit, FM radio, matching circuit for adjusting FM radio signal, antenna structure for receiving wireless charging signal and FM radio signal;

   The CPU is connected to a wireless charging receiving circuit and an FM radio;

   The antenna structure includes a coil structure for receiving a wireless charging signal and an FM radio signal, and an adjustment circuit for adjusting an FM radio signal; wherein

   The coil structure includes a first contact and a second contact that provide a wireless charging signal for a wireless charging receiving circuit, and a third contact that provides an FM radio signal to the FM radio; wherein the first contact and the second contact The contacts are respectively connected to the wireless charging receiving circuit, and the third contact is connected to the adjusting circuit;

   The adjustment circuit includes a first terminal and a second terminal, the first terminal is connected to the matching circuit, and the second terminal is connected to the third contact of the coil structure;

   The first terminal of the matching circuit is connected to the second terminal of the adjusting circuit, and the second terminal is connected to the FM radio.
7. The mobile terminal of claim 6, wherein said coil structure comprises a metal coil that receives a wireless charging signal and an FM radio signal, and a ferrite that shields the metal coil signal, said metal coil being attached to the ferrite.
8. The mobile terminal of claim 7, wherein the first contact and the second contact of the coil structure are respectively connected to the wireless charging receiving circuit by two metal domes.
9. The mobile terminal according to any one of claims 6 to 8, wherein the first contact and the second contact of the coil structure are two terminals of a metal coil; and the third contact of the coil structure is a coil structure The middle tap.
10. The mobile terminal according to claim 6, wherein a resonance capacitor is connected between the first terminal and the second terminal of the adjustment circuit;

    The adjustment circuit further includes a third terminal connected to the second contact of the coil structure;

    a parallel inductor is connected between the third terminal of the adjusting circuit and the resonant capacitor;

    A series inductance is further connected between the first terminal of the adjustment circuit and the resonant capacitor.

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