CN106027114B - control method of mobile terminal and mobile terminal - Google Patents

Abstract

The invention discloses a control method of a mobile terminal and the mobile terminal. Wherein, the method comprises the following steps: and acquiring the amplitude or frequency of the antenna signal detected and received by the receiving antenna, and controlling the mobile terminal to switch to the target working mode according to the amplitude or frequency. The invention solves the technical problems that in the related art, the radio module, the near field communication module and the wireless charging module need to be switched among different working modes through a manual switch, and the control efficiency is low.

Description

The control method and mobile terminal of mobile terminal

Technical field

The present invention relates to the communications fields, in particular to the control method and mobile terminal of a kind of mobile terminal.

Background technique

With the continuous development of mobile terminal technology, FM receiver FM radio has been the most basic module of mobile phone, In conjunction with the popularization of the close range wireless communication NFC function of the functions such as identification, on-line payment, near field transmission, NFC is also in The high-end essential function of intelligent machine, and existing NFC near-field communication mostly uses induction coil as antenna.In addition, with The maturation and popularization of wireless charging technology, the wireless charging technology based on electromagnetic induction are gradually introduced intelligence wearing and channel radio Letter field, also becomes a big attraction of smart phone with unlimited charge function, and currently used wireless charging uses electromagnetism sense Principle is answered, wireless charging is realized by energy variation, the receiving module front end of charging receives day as charging using coupling coil Line.

However, mainly logical about the switching between FM receiver, NFC near-field communication and wireless charging in the prior art The physical switch of manual mode is crossed to realize on-off control, there are the low technical problems of control efficiency.

For above-mentioned problem, currently no effective solution has been proposed.

Summary of the invention

The embodiment of the invention provides a kind of control method of mobile terminal and mobile terminals, at least to solve the relevant technologies It needs to realize different operating mould by manual switch between middle radio receiver module, near field communication module and wireless charging module Switching between formula, the low technical problem of control efficiency.

According to an aspect of an embodiment of the present invention, a kind of control method of mobile terminal is provided, the mobile terminal Control method includes: to obtain the amplitude or frequency of the aerial signal that receiving antenna receives, according to amplitude or frequency control movement Terminal switches to target operational mode.

Further, the target operational mode be it is following any one: the first operating mode, the second operating mode and the Three operating modes, wherein the first operating mode be radio submodule and the cooperative mode of near-field communication submodule, second Operating mode is radio submodule and the cooperative mode of wireless charging submodule, and third operating mode is wireless charging electronics Module and the cooperative mode of near-field communication submodule.

Further, switching to target operational mode according to amplitude or frequency control mobile terminal includes: to belong in amplitude First default amplitude range, or, control mobile terminal switches to the first work in the case that frequency belongs to the first predeterminated frequency range Operation mode.

Further, switching to target operational mode according to amplitude or frequency control mobile terminal includes: to belong in amplitude Second default amplitude range, or, control mobile terminal switches to the second work in the case that frequency belongs to the second predeterminated frequency range Operation mode.

Further, switching to target operational mode according to amplitude or frequency control mobile terminal includes: to belong in amplitude Third presets amplitude range, or, control mobile terminal switches to third work in the case that frequency belongs to third predeterminated frequency range Operation mode.

Further, the above method further include: get the trigger signal for starting radio, control in mobile terminal Radio receiver module work.

Further, when detecting the electricity of mobile terminal in electric power detection module lower than default power threshold, generation is mentioned Show signal.

According to another aspect of an embodiment of the present invention, a kind of mobile terminal is additionally provided, which includes: communication mould Block, wherein communication module includes following any two: radio submodule, near-field communication submodule and wireless charging submodule, Receiving antenna is used for receiving antenna signal, and control module is connect with receiving antenna and communication module respectively, for detecting antenna The amplitude or frequency of signal, and control and receive antenna and be connected with communication module.

Further, above-mentioned control module includes: control submodule, the input terminal of control submodule and receiving antenna it is defeated Exit port connection, the first output end of control submodule are connect with communication module；CPU submodule, the input terminal of CPU submodule with The second output terminal of control submodule connects, and the output end of CPU submodule and the control terminal of control submodule connect；Wherein, CPU Submodule generates control signal for detecting the amplitude or frequency of aerial signal；Control submodule, for according to control signal Antenna is controlled and received to be connected with communication module.

Further, CPU submodule belongs to the first default amplitude range in the amplitude for detecting aerial signal, or, frequency When belonging to the first predeterminated frequency range, first control signal is generated；CPU submodule belongs in the amplitude for detecting aerial signal Two default amplitude ranges, or, generating second control signal when frequency belongs to the second predeterminated frequency range；CPU submodule is detecting Amplitude to aerial signal belongs to the default amplitude range of third, or, generating third control when frequency belongs to third predeterminated frequency range Signal processed.

Further, when communication module includes near-field communication submodule and radio submodule, control submodule is also wrapped Include: the first control submodule and the second control submodule, the first output port of the first control submodule by first resistor with The first input port of CPU submodule connects, and the first input port of CPU submodule is grounded by second resistance, the second control First output port of submodule is connected ground connection by inductance with 3rd resistor, the control terminal and CPU of the first control submodule First output port of module connects, the second output terminal mouth of the first control submodule and the first port of near-field communication submodule The first end of connection, the input terminal of the first control submodule and receiving antenna connects, for when receiving first control signal, The first end for controlling and receiving antenna is connect with near-field communication submodule, control terminal and the CPU submodule of the second control submodule The connection of second output terminal mouth, the second output terminal mouth of the second control submodule and the second port of near-field communication submodule, second The input terminal of control submodule and the second end of receiving antenna connect, for controlling and receiving when receiving first control signal The second end of antenna is connect with near-field communication submodule, and the first end of receiving antenna is connect with radio submodule, receiving antenna Second end connect and be grounded with first resistor by inductance.

Further, when communication module includes wireless charging submodule and radio submodule, control submodule is also wrapped Include: the first control submodule and the second control submodule, the first output port of the first control submodule by first resistor with The first input port of CPU submodule connects, and the first input port of CPU submodule is grounded by second resistance, the second control First output port of submodule is connected ground connection by inductance with 3rd resistor, the control terminal and CPU of the first control submodule First output port of module connects, the second output terminal mouth of the first control submodule and the first port of wireless charging submodule The first end of connection, the input terminal of the first control submodule and receiving antenna connects, for when receiving second control signal, The first end for controlling and receiving antenna is connect with wireless charging submodule, control terminal and the CPU submodule of the second control submodule The connection of second output terminal mouth, the second output terminal mouth of the second control submodule are connect with the second port of wireless charging submodule, The input terminal of second control submodule and the second end of receiving antenna connect, for controlling when receiving second control signal The second end of receiving antenna is connect with wireless charging submodule, and the first end of receiving antenna is connect with radio submodule, is received The second end of antenna is connected and is grounded with first resistor by inductance.

Further, mobile terminal further include: filter module, respectively with the first end of receiving antenna and radio submodule Connection, for being filtered to aerial signal.

Further, mobile terminal further include: electric power detection module is connect with wireless charging control submodule, is used for When detecting that the electricity of mobile terminal is lower than default power threshold, standby signal is generated.

Further, receiving antenna is wire coil.

Further, the shell inner surface of mobile terminal is arranged in receiving antenna.

In embodiments of the present invention, it using the control method of mobile terminal, is received this method comprises: obtaining receiving antenna inspection The amplitude or frequency of the aerial signal arrived switch to target operational mode according to amplitude or frequency control mobile terminal, wherein mesh It includes at least one following for marking operating mode: near-field communication subpattern, wireless charging subpattern and radio receiver mode solve phase It needs to realize by manual switch between radio receiver module, near field communication module and wireless charging module in the technology of pass different Switching between operating mode, the low technical problem of control efficiency.

Detailed description of the invention

The drawings described herein are used to provide a further understanding of the present invention, constitutes part of this application, this hair Bright illustrative embodiments and their description are used to explain the present invention, and are not constituted improper limitations of the present invention.In the accompanying drawings:

Fig. 1 is a kind of flow chart of the control method of according to embodiments of the present invention one mobile terminal；

Fig. 2 is a kind of structural schematic diagram of according to embodiments of the present invention one optional mobile terminal；

Fig. 3 is a kind of flow chart of the control method of according to embodiments of the present invention one optional mobile terminal；

Fig. 4 is the structural schematic diagram of the according to embodiments of the present invention one optional mobile terminal of another kind；

Fig. 5 is a kind of structural schematic diagram of according to embodiments of the present invention two mobile terminal.

Specific embodiment

In order to enable those skilled in the art to better understand the solution of the present invention, below in conjunction in the embodiment of the present invention Attached drawing, technical scheme in the embodiment of the invention is clearly and completely described, it is clear that described embodiment is only The embodiment of a part of the invention, instead of all the embodiments.Based on the embodiments of the present invention, ordinary skill people The model that the present invention protects all should belong in member's every other embodiment obtained without making creative work It encloses.

It should be noted that description and claims of this specification and term " first " in above-mentioned attached drawing, " Two " etc. be to be used to distinguish similar objects, without being used to describe a particular order or precedence order.It should be understood that using in this way Data be interchangeable under appropriate circumstances, so as to the embodiment of the present invention described herein can in addition to illustrating herein or Sequence other than those of description is implemented.In addition, term " includes " and " having " and their any deformation, it is intended that cover Cover it is non-exclusive include, for example, the process, method, system, product or equipment for containing a series of steps or units are not necessarily limited to Step or unit those of is clearly listed, but may include be not clearly listed or for these process, methods, product Or other step or units that equipment is intrinsic.

Embodiment 1

According to embodiments of the present invention, a kind of embodiment of the control method of mobile terminal is provided, it should be noted that The step of process of attached drawing illustrates can execute in a computer system such as a set of computer executable instructions, also, It, in some cases, can be to be different from shown in sequence execution herein although logical order is shown in flow charts The step of out or describing.

According to embodiments of the present invention, a kind of control method of mobile terminal is provided.Fig. 1 is according to an embodiment of the present invention A kind of flow chart of the control method of mobile terminal, as shown in Figure 1, this method includes the following steps, namely S102 to step S104:

Step S102: the amplitude or frequency of the aerial signal that receiving antenna inspection receives are obtained.

Step S104: target operational mode is switched to according to amplitude or frequency control mobile terminal.

In the present embodiment, above-mentioned target operational mode be it is following any one: the first operating mode, the second operating mode With third operating mode, wherein the first operating mode be radio submodule and the cooperative mode of near-field communication submodule, Second operating mode is radio submodule and the cooperative mode of wireless charging submodule, and third operating mode is wireless charging Electronic module and the cooperative mode of near-field communication submodule.

In the present embodiment, by obtaining the amplitude or frequency of the aerial signal that receiving antenna inspection receives, according to amplitude Or frequency control mobile terminal switches to target operational mode, solves radio receiver module, near field communication module in the related technology It needs to realize the switching between different working modes by manual switch between wireless charging module, control efficiency is low Technical problem, meanwhile, near-field communication submodule, wireless charging submodule and radio receiver module in the present embodiment can be using same One wire coil is also solved and is limited by antenna length as antenna, and the receiving antenna of smart phone radio FM module is not Energy is built-in or is difficult to built-in problem, and is able to achieve the three-in-one function of antenna.

In the present embodiment, it is illustrated so that the control method of mobile terminal is applied to mobile terminal as an example, wherein above-mentioned Receiving antenna can be coil, such as can be wire coil, which can be set on the shell of mobile terminal, when When mobile terminal-opening or shutdown after mini system operation, the both ends default of the wire coil is connect with control module, in conjunction with Described in Fig. 2, S11, S23 access are opened at this time, and when having, target device (target device is used for transmitting antenna signal) is close to be received When antenna (such as can be wire coil), the target operational mode of the mobile terminal is judged, specifically, passes through control The amplitude or frequency size of module detection aerial signal determine whether it is near-field communication submodule or wireless charging submodule Transmitting antenna it is close, when the transmitting antenna of system detection to near-field communication submodule close to when, control module control intelligence opens It closes so that S12, S21 access are connected, other accesses disconnect；When detect the transmitting antenna of wireless charging submodule close to when, Control module control intelligent switch makes S13, and S22 access is connected, remaining access disconnects；What needs to be explained here is that in this reality It applies in example, radio receiver module function can be opened simultaneously with near-field communication submodule or wireless charging submodule or individually be beaten It opens.

In a kind of alternative embodiment provided by the present application, in conjunction with described in Fig. 3, the control method of the mobile terminal of the application Process is as follows: being illustrated so that the control method of above-mentioned mobile terminal is applied to mobile terminal (such as mobile phone) as an example, to realize Subject to the control method of the mobile terminal of the present embodiment, above-mentioned receiving antenna can be the coil being arranged on mobile phone battery cover, tool Body is without limitation.

Step S201: start；

Step S202: working condition judgement；

Step S203:NFC function is opened；

Step S204:S12, S21 access is connected, remaining disconnection；

Step S205: wireless charging function is opened；

Step S206:S13, S22 access is connected, remaining disconnection；

Step S207:NFC function is not opened with wireless charging two；

Step S208:S11, S23 access is connected, remaining disconnection；

Step S209: terminate.

In the present embodiment, by obtaining the amplitude or frequency of the aerial signal that receiving antenna inspection receives, according to amplitude Or frequency control mobile terminal switches to target operational mode, wherein target operational mode be it is following any one: the first work Mode, the second operating mode and third operating mode, wherein the first operating mode is radio submodule and near-field communication submodule The cooperative mode of block, the second operating mode are radio submodule and the cooperative mode of wireless charging submodule, the Three operating modes are wireless charging submodule and the cooperative mode of near-field communication submodule, solve radio reception in the related technology It needs to realize between different working modes by manual switch between machine module, near field communication module and wireless charging module Switching, the low technical problem of control efficiency, meanwhile, near-field communication submodule, wireless charging submodule in the present embodiment and Radio receiver module can be also solved and be limited by antenna length using the same wire coil as antenna, smart phone radio reception The receiving antenna of machine FM module cannot be built-in or be difficult to built-in problem, and is able to achieve the three-in-one function of antenna.

Optionally, in the present embodiment, switching to target operational mode according to amplitude or frequency control mobile terminal includes: Step S1042: in the case where amplitude belongs to the first default amplitude range or, frequency belongs to the first predeterminated frequency range, control Mobile terminal switches to the first operating mode.

Optionally, in the present embodiment, switching to target operational mode according to amplitude or frequency control mobile terminal includes: Step S1044: in the case where amplitude belongs to the second default amplitude range or, frequency belongs to the second predeterminated frequency range, control Mobile terminal switches to the second operating mode.

Optionally, in the present embodiment, switching to target operational mode according to amplitude or frequency control mobile terminal includes: Step S1046: in the case where amplitude belongs to the default amplitude range of third or, frequency belongs to third predeterminated frequency range, control Mobile terminal switches to third operating mode.

Optionally, in the present embodiment, the control method of mobile terminal further include:

Step S10: the trigger signal for starting radio is got.

Step S12: the radio receiver module work in control mobile terminal.

Optionally, in the present embodiment, detect that the electricity of mobile terminal is lower than default electricity threshold in electric power detection module When value, standby signal is generated.

In the present embodiment, it is still carried out so that the control method of mobile terminal is applied to mobile terminal (such as mobile phone) as an example Illustrate, in conjunction with described in Fig. 2, when mobile terminal-opening or shutdown after mini system operation, the both ends default of the wire coil and control Molding block connects, wherein above-mentioned control module includes: control submodule and CPU submodule, wherein control submodule The connection of the output port of input terminal and receiving antenna, the first output end of control submodule are connect with communication module, CPU submodule Input terminal and the second output terminal of control submodule connect, the control terminal of the output end of CPU submodule and control submodule connects It connects.Above-mentioned CPU submodule generates control signal for detecting the amplitude or frequency of aerial signal；Control submodule is used for root Antenna is controlled and received according to control signal to be connected with communication module.

Optionally, in the present embodiment, CPU submodule belongs to the first default amplitude model in the amplitude for detecting aerial signal It encloses, or, generating first control signal when frequency belongs to the first predeterminated frequency range；CPU submodule is detecting aerial signal Amplitude belongs to the second default amplitude range, or, generating second control signal when frequency belongs to the second predeterminated frequency range；CPU Module belongs to third in the amplitude for detecting aerial signal and presets amplitude range, or, when frequency belongs to third predeterminated frequency range, It generates third and controls signal.

In a kind of preferred embodiment, above-mentioned control submodule further include: single-chip microcontroller U1 and single-chip microcontroller U2, when target work When operation mode is near-field communication subpattern, the port S11 of single-chip microcontroller U1 is inputted by the first of first resistor R1 and CPU submodule The first input port of port (such as can be GPIO port shown in Fig. 2) connection, CPU submodule passes through second resistance R2 Ground connection, the port S23 of single-chip microcontroller U2 are connected ground connection by inductance Lm with 3rd resistor R3；The port S10 of single-chip microcontroller U1 and CPU The first output port (port OUT_1 that first output port can be CPU submodule shown in Fig. 2) of module connects, The port S12 of single-chip microcontroller U1 and the first port (first port can be the port ANT_1) of near-field communication submodule 303 connect It connects, the input terminal (input terminal can be A1) of the first control submodule is connect with the first end of receiving antenna 32, for connecing When receiving first control signal, the first end for controlling and receiving antenna 32 is connect with near-field communication submodule 303；

(the second output terminal mouth can be in Fig. 2 the second output terminal mouth of the port S20 of single-chip microcontroller U2 and CPU submodule Shown in CPU submodule the port OUT_2) connection, the second end of the port S21 of single-chip microcontroller U2 and near-field communication submodule 303 Mouthful (first port can be the port ANT_2) connection, the input terminal (input terminal can be A2) of the second control submodule with The second end of receiving antenna 32 connects, for when receiving first control signal, controlling and receiving the second end of antenna 32 and close Field communication submodule 303 connects；The first end of receiving antenna 32 is connect with radio submodule 301, and the second of receiving antenna 32 It connects and is grounded with first resistor by inductance in end.

In another preferred embodiment, above-mentioned control submodule further include: single-chip microcontroller U1 and single-chip microcontroller U2 works as target When operating mode is wireless charging subpattern, the port S11 of single-chip microcontroller U1 is first defeated by first resistor R1 and CPU submodule Inbound port (such as can be GPIO port shown in Fig. 2) connection, the first input port of CPU submodule pass through second resistance R2 ground connection, the port S23 of single-chip microcontroller U2 are connected ground connection by inductance Lm with 3rd resistor R3；The port S10 of single-chip microcontroller U1 and CPU The first output port (port OUT_1 that first output port can be CPU submodule shown in Fig. 2) of submodule is even It connects, the port S13 of single-chip microcontroller U1 and the first port (first port can be the port L1) of wireless charging submodule 305 connect It connects, the input terminal (input terminal can be A1) of the first control submodule is connect with the first end of receiving antenna 32, for connecing When receiving second control signal, the first end for controlling and receiving antenna 32 is connect with wireless charging submodule 305；

(the second output terminal mouth can be in Fig. 2 the second output terminal mouth of the port S20 of single-chip microcontroller U2 and CPU submodule Shown in CPU submodule the port OUT_2) connection, the second end of the port S22 of single-chip microcontroller U2 and wireless charging submodule 305 Mouth (first port can be the port L2) connection, the input terminal (input terminal can be A2) of the second control submodule and reception The second end of antenna 32 connects, for when receiving second control signal, controlling and receiving the second end and wireless charging of antenna 32 Electronic module 303 connects；The first end of receiving antenna is connect with radio submodule, the second end of receiving antenna by inductance with First resistor is connected and is grounded.

Optionally, in the present embodiment, mobile terminal 300 further include: filter module 36, respectively with the of receiving antenna 32 One end and radio submodule 301 connect, for being filtered to aerial signal.

Optionally, Fig. 4 is the structural schematic diagram of the according to embodiments of the present invention one optional mobile terminal of another kind, is such as schemed Shown in 4, near-field communication submodule, wireless charging submodule and radio receiver module in the present embodiment can use the same metal Coil is solved and is limited by antenna length as antenna, the receiving antenna of smart phone radio FM module cannot it is built-in or It is difficult to built-in problem, and then can be realized the three-in-one function of antenna

It follows that for being needed between radio receiver module, near field communication module and wireless charging module in the prior art The switching between different working modes, the low technical problem of control efficiency are realized by manual switch, and the application proposes one The control method of kind of mobile dress, by obtaining the amplitude or frequency of the aerial signal that receiving antenna inspection receives, according to amplitude or Frequency control mobile terminal switches to target operational mode, wherein target operational mode be it is following any one: the first Working mould Formula, the second operating mode and third operating mode, wherein the first operating mode is radio submodule and near-field communication submodule Cooperative mode, the second operating mode are radio submodule and the cooperative mode of wireless charging submodule, third Operating mode is wireless charging submodule and the cooperative mode of near-field communication submodule, also solves and is limited by antenna length The receiving antenna of system, smart phone radio FM module cannot be built-in or be difficult to built-in problem, and is able to achieve antenna Three-in-one function.

Embodiment 2

According to embodiments of the present invention, a kind of mobile terminal is provided.Fig. 5 is a kind of according to embodiments of the present invention two movement The structural schematic diagram of terminal, as shown in figure 5, the mobile terminal 300 includes:

Communication module 30, wherein communication module includes at least one following: radio submodule 301, near-field communication submodule Block 303 and wireless charging submodule 305.

Receiving antenna 32 is used for receiving antenna signal.

Control module 34, connect with receiving antenna and communication module respectively, for detecting the amplitude or frequency of aerial signal, And it controls and receives antenna and is connected with communication module.

Optionally, in the present embodiment, control module 34 includes:

The output port of control submodule, the input terminal of control submodule and receiving antenna connects, and the of control submodule One output end is connect with communication module.

The second output terminal of CPU submodule, the input terminal of CPU submodule and control submodule connects, CPU submodule it is defeated The connection of the control terminal of outlet and control submodule.

Wherein, CPU submodule generates control signal for detecting the amplitude or frequency of aerial signal；Control submodule, It is connected for controlling and receiving antenna according to control signal with communication module.

Optionally, in the present embodiment, CPU submodule belongs to the first default amplitude model in the amplitude for detecting aerial signal It encloses, or, generating first control signal when frequency belongs to the first predeterminated frequency range；CPU submodule is detecting aerial signal Amplitude belongs to the second default amplitude range, or, generating second control signal when frequency belongs to the second predeterminated frequency range；CPU Module belongs to third in the amplitude for detecting aerial signal and presets amplitude range, or, when frequency belongs to third predeterminated frequency range, It generates third and controls signal.

Optionally, in the present embodiment, when communication module includes near-field communication submodule 303 and radio submodule 301 When, control submodule further include: the first control submodule (such as can be single-chip microcontroller U1 shown in Fig. 2) and the second control Module (such as can be single-chip microcontroller U2 shown in Fig. 2),

The first output port (such as the port S11 that can be single-chip microcontroller U1 shown in Fig. 2) of first control submodule It is connect by first resistor R1 with the first input port (such as can be GPIO port shown in Fig. 2) of CPU submodule, The first input port of CPU submodule is grounded by second resistance R2, the first output port of the second control submodule (such as can To be the port S23 of single-chip microcontroller U2 shown in Fig. 2) it is connected with 3rd resistor R3 ground connection by inductance Lm；

The control terminal (such as the port S10 that can be single-chip microcontroller U1 shown in Fig. 2) and CPU of first control submodule The first output port (port OUT_1 that first output port can be CPU submodule shown in Fig. 2) of module connects, The second output terminal mouth (such as the port S12 that can be single-chip microcontroller U1 shown in Fig. 2) of first control submodule and near field are logical Interrogate first port (first port can be the port the ANT_1) connection of submodule 303, the input terminal of the first control submodule (input terminal can be A1) connect with the first end of receiving antenna 32, for when receiving first control signal, control to be connect The first end for receiving antenna 32 is connect with near-field communication submodule 303；

The control terminal (such as the port S20 that can be single-chip microcontroller U2 shown in Fig. 2) and CPU of second control submodule The second output terminal mouth (port OUT_2 that the second output terminal mouth can be CPU submodule shown in Fig. 2) of module connects, The second output terminal mouth (such as the port S21 that can be single-chip microcontroller U2 shown in Fig. 2) of second control submodule and near field are logical Interrogate second port (first port can be the port the ANT_2) connection of submodule 303, the input terminal of the second control submodule (input terminal can be A2) connect with the second end of receiving antenna 32, for when receiving first control signal, control to be connect The second end for receiving antenna 32 is connect with near-field communication submodule 303；The first end and radio submodule 301 of receiving antenna 32 connect It connects, the second end of receiving antenna 32 is connected and is grounded with first resistor by inductance.

Optionally, in the present embodiment, when communication module includes wireless charging submodule 305 and radio submodule 301 When, control submodule further include: the first control submodule and the second control submodule,

The first output port (such as the port S11 that can be single-chip microcontroller U1 shown in Fig. 2) of first control submodule It is connect by first resistor R1 with the first input port (such as can be GPIO port shown in Fig. 2) of CPU submodule, The first input port of CPU submodule is grounded by second resistance R2, the first output port of the second control submodule (such as can To be the port S23 of single-chip microcontroller U2 shown in Fig. 2) it is connected with 3rd resistor R3 ground connection by inductance Lm；

The control terminal (such as the port S10 that can be single-chip microcontroller U1 shown in Fig. 2) and CPU of first control submodule The first output port (port OUT_1 that first output port can be CPU submodule shown in Fig. 2) of module connects, The second output terminal mouth (such as the port S13 that can be single-chip microcontroller U1 shown in Fig. 2) and wireless charging of first control submodule The first port (first port can be the port L1) of electronic module 305 connects, and (this is defeated for the input terminal of the first control submodule Entering end can be A1) it is connect with the first end of receiving antenna 32, for controlling and receiving antenna when receiving second control signal 32 first end is connect with wireless charging submodule 305；

The control terminal (such as the port S20 that can be single-chip microcontroller U2 shown in Fig. 2) and CPU of second control submodule The second output terminal mouth (port OUT_2 that the second output terminal mouth can be CPU submodule shown in Fig. 2) of module connects, The second output terminal mouth (such as the port S22 that can be single-chip microcontroller U2 shown in Fig. 2) and wireless charging of second control submodule The second port (first port can be the port L2) of electronic module 305 connects, and (this is defeated for the input terminal of the second control submodule Entering end can be A2) it is connect with the second end of receiving antenna 32, for controlling and receiving antenna when receiving second control signal 32 second end is connect with wireless charging submodule 303；The first end of receiving antenna 32 is connect with radio submodule 301, is connect The second end for receiving antenna 32 is connected and is grounded with first resistor by inductance.

Optionally, in the present embodiment, mobile terminal 300 further include: filter module 36, respectively with the of receiving antenna 32 One end and radio submodule 301 connect, for being filtered to aerial signal.

Optionally, in the present embodiment, mobile terminal 300 further include:

Electric power detection module 38 is connect with wireless charging control submodule 303, for detecting mobile terminal 300 When electricity is lower than default power threshold, standby signal is generated.

Optionally, in the present embodiment, above-mentioned receiving antenna 32 can be wire coil.

Optionally, in the present embodiment, the table on the inside of the shell of mobile terminal 300 can be set in above-mentioned receiving antenna 32 Face.

In the present embodiment, a kind of mobile terminal is provided, which includes: communication module 30, wherein communication mould Block includes at least one following: radio submodule 301, near-field communication submodule 303 and wireless charging submodule 305, is received Antenna 32, is used for receiving antenna signal, and control module 34 is connect, for detecting antenna respectively with receiving antenna and communication module The amplitude or frequency of signal, and control and receive antenna and be connected with communication module, so solve in the related technology radio receiver module, It needs to realize the switching between different working modes by manual switch between near field communication module and wireless charging module, The low technical problem of control efficiency, meanwhile, near-field communication submodule, wireless charging submodule and radio mould in the present embodiment Block can be also solved and be limited by antenna length using the same wire coil as antenna, smart phone radio FM module Receiving antenna cannot be built-in or be difficult to built-in problem, and be able to achieve the three-in-one function of antenna.

The serial number of the above embodiments of the invention is only for description, does not represent the advantages or disadvantages of the embodiments.

In the above embodiment of the invention, it all emphasizes particularly on different fields to the description of each embodiment, does not have in some embodiment The part of detailed description, reference can be made to the related descriptions of other embodiments.

In several embodiments provided herein, it should be understood that disclosed technology contents can pass through others Mode is realized.Wherein, the apparatus embodiments described above are merely exemplary, such as the division of the unit, Ke Yiwei A kind of logical function partition, there may be another division manner in actual implementation, for example, multiple units or components can combine or Person is desirably integrated into another system, or some features can be ignored or not executed.Another point, shown or discussed is mutual Between coupling, direct-coupling or communication connection can be through some interfaces, the INDIRECT COUPLING or communication link of unit or module It connects, can be electrical or other forms.

The unit as illustrated by the separation member may or may not be physically separated, aobvious as unit The component shown may or may not be physical unit, it can and it is in one place, or may be distributed over multiple On unit.It can some or all of the units may be selected to achieve the purpose of the solution of this embodiment according to the actual needs.

It, can also be in addition, the functional units in various embodiments of the present invention may be integrated into one processing unit It is that each unit physically exists alone, can also be integrated in one unit with two or more units.Above-mentioned integrated list Member both can take the form of hardware realization, can also realize in the form of software functional units.

If the integrated unit is realized in the form of SFU software functional unit and sells or use as independent product When, it can store in a computer readable storage medium.Based on this understanding, technical solution of the present invention is substantially The all or part of the part that contributes to existing technology or the technical solution can be in the form of software products in other words It embodies, which is stored in a storage medium, including some instructions are used so that a computer Equipment (can for personal computer, server or network equipment etc.) execute each embodiment the method for the present invention whole or Part steps.And storage medium above-mentioned includes: that USB flash disk, read-only memory (ROM, Read-Only Memory), arbitrary access are deposited Reservoir (RAM, Random Access Memory), mobile hard disk, magnetic or disk etc. be various to can store program code Medium.

The above is only a preferred embodiment of the present invention, it is noted that for the ordinary skill people of the art For member, various improvements and modifications may be made without departing from the principle of the present invention, these improvements and modifications are also answered It is considered as protection scope of the present invention.

Claims (12)

1. a kind of control method of mobile terminal characterized by comprising

Obtain the amplitude or frequency of the aerial signal that receiving antenna receives；

The mobile terminal, which is controlled, according to the amplitude or frequency switches to target operational mode；

Wherein, the operating mode of the mobile terminal includes: the first operating mode, the second operating mode and third operating mode, The target operational mode be it is following any one: first operating mode, second operating mode and the third work Operation mode, wherein first operating mode be radio submodule and the cooperative mode of near-field communication submodule, it is described Second operating mode is radio submodule and the cooperative mode of wireless charging submodule, and the third operating mode is nothing Line charge electronic module and the cooperative mode of near-field communication submodule, wherein the near-field communication submodule, the wireless charging Electronic module and the radio submodule use the same wire coil as antenna；

Wherein, the mobile terminal includes: filter module, respectively with the first end of the receiving antenna and the radio submodule Block connection, for being filtered to the aerial signal.

2. the control method of mobile terminal according to claim 1, which is characterized in that controlled according to the amplitude or frequency It includes: to belong to the first default amplitude range in the amplitude that the mobile terminal, which switches to target operational mode, or, frequency belongs to In the case where first predeterminated frequency range, controls the mobile terminal and switch to first operating mode.

3. the control method of mobile terminal according to claim 1, which is characterized in that controlled according to the amplitude or frequency It includes: to belong to the second default amplitude range in the amplitude that the mobile terminal, which switches to target operational mode, or, frequency belongs to In the case where second predeterminated frequency range, controls the mobile terminal and switch to second operating mode.

4. the control method of mobile terminal according to claim 1, which is characterized in that controlled according to the amplitude or frequency It includes: to belong to third in the amplitude to preset amplitude range that the mobile terminal, which switches to target operational mode, or, frequency belongs to In the case where third predeterminated frequency range, controls the mobile terminal and switch to the third operating mode.

5. the control method of mobile terminal according to claim 2 or 3, which is characterized in that the method also includes:

Get the trigger signal for starting radio；

Control the radio receiver module work in the mobile terminal.

6. the control method of mobile terminal according to claim 1, which is characterized in that detect institute in electric power detection module When stating the electricity of mobile terminal lower than default power threshold, standby signal is generated.

7. a kind of mobile terminal characterized by comprising

Communication module, wherein the communication module includes: radio submodule, near-field communication submodule and wireless charging submodule Block, the near-field communication submodule, the wireless charging submodule and the radio submodule use the same wire coil As antenna；

Receiving antenna is used for receiving antenna signal；

Control module is connect with the receiving antenna and the communication module respectively, for detecting the amplitude of the aerial signal Or frequency, and control the receiving antenna and be connected with the communication module；

Filter module is connect with the first end of the receiving antenna and the radio submodule respectively, for the antenna Signal is filtered；

The control module includes:

Control submodule, the input terminal of the control submodule are connect with the output port of the receiving antenna, control First output end of module is connect with the communication module；

The input terminal of CPU submodule, the CPU submodule is connect with the second output terminal of the control submodule, CPU The output end of module is connect with the control terminal of the control submodule；

Wherein, the CPU submodule generates control signal for detecting the amplitude or frequency of the aerial signal；The control Submodule is connected for controlling the receiving antenna according to the control signal with the communication module；

When the near-field communication submodule and the radio submodule work together, the control submodule further include: the First output port of one control submodule and the second control submodule, first control submodule passes through first resistor and institute The first input port connection of CPU submodule is stated, the first input port of the CPU submodule is grounded by second resistance, institute The first output port of the second control submodule is stated to connect with 3rd resistor ground connection by inductance；

The control terminal of first control submodule is connect with the first output port of the CPU submodule, first control The second output terminal mouth of submodule is connect with the first port of the near-field communication submodule, first control submodule it is defeated Enter end to connect with the first end of the receiving antenna, for when receiving first control signal, controlling the receiving antenna The first end is connect with the near-field communication submodule；

The control terminal of second control submodule is connect with the second output terminal mouth of the CPU submodule, second control The second port of the second output terminal mouth of submodule and the near-field communication submodule, the input terminal of second control submodule It is connect with the second end of the receiving antenna, for when receiving the first control signal, controlling the receiving antenna The second end is connect with the near-field communication submodule；

The first end of the receiving antenna is connect with the radio submodule, the second end of the receiving antenna by inductance with First resistor is connected and is grounded.

8. mobile terminal according to claim 7, which is characterized in that the CPU submodule is detecting the antenna letter Number amplitude belong to the first default amplitude range, or, when frequency belongs to the first predeterminated frequency range, generate the first control letter Number；The CPU submodule belongs to the second default amplitude range in the amplitude for detecting the aerial signal, or, frequency belongs to When two predeterminated frequency ranges, second control signal is generated；The CPU submodule belongs in the amplitude for detecting the aerial signal Third presets amplitude range, or, generating third when frequency belongs to third predeterminated frequency range and controlling signal.

9. mobile terminal according to claim 8, which is characterized in that when the wireless charging submodule and the radio When submodule works together, the control submodule further include: the first control submodule and the second control submodule,

First output port of first control submodule passes through the first input port of first resistor and the CPU submodule The first input port of connection, the CPU submodule is grounded by second resistance, the first output of second control submodule It is connected with 3rd resistor ground connection by inductance port；

The control terminal of first control submodule is connect with the first output port of the CPU submodule, first control The second output terminal mouth of submodule is connect with the first port of the wireless charging submodule, first control submodule it is defeated Enter end to connect with the first end of the receiving antenna, for when receiving the second control signal, controlling the reception day The first end of line is connect with the wireless charging submodule；

The control terminal of second control submodule is connect with the second output terminal mouth of the CPU submodule, second control The second output terminal mouth of submodule is connect with the second port of the wireless charging submodule, second control submodule it is defeated Enter end to connect with the second end of the receiving antenna, for when receiving the second control signal, controlling the reception day The second end of line is connect with the wireless charging submodule；

The first end of the receiving antenna is connect with the radio submodule, the second end of the receiving antenna by inductance with First resistor is connected and is grounded.

10. mobile terminal according to claim 7, which is characterized in that the mobile terminal further include:

Electric power detection module is connect, in the electricity for detecting the mobile terminal with the wireless charging control submodule When lower than default power threshold, standby signal is generated.

11. mobile terminal according to claim 7, which is characterized in that the receiving antenna is wire coil.

12. mobile terminal according to claim 7, which is characterized in that the receiving antenna is arranged in the mobile terminal Shell inner surface.