CN104868250A - Control method, control device and electronic device - Google Patents
Control method, control device and electronic device Download PDFInfo
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- CN104868250A CN104868250A CN201410058915.8A CN201410058915A CN104868250A CN 104868250 A CN104868250 A CN 104868250A CN 201410058915 A CN201410058915 A CN 201410058915A CN 104868250 A CN104868250 A CN 104868250A
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Abstract
The present invention discloses a control device. The control device comprises an antenna body, a matching circuit, a first switch unit and a second switch unit. The matching circuit is arranged at a signal feed point, one end of the matching circuit and one end of the first switch unit are connected with one end of the antenna body, and the other end of the first switch unit is grounded. One end of the second switch unit is connected with the other end of the antenna body, and the other end of the second switch unit is grounded, wherein the antenna body can work in a first mode, a second mode or a third mode, and the first and second switch units both work in a first state or a second state. The antenna body is used to start an antenna of the corresponding mode, and the antenna of the corresponding mode is utilized to transmit and receive a radio frequency signal, and is decided by the states of the first and second switch units. The present invention also discloses a control method and an electronic device, so that the antenna design difficulty can be reduced, and the production cost can be saved.
Description
Technical field
The present invention relates to control technology, be specifically related to a kind of control method, equipment and electronic equipment.
Background technology
On the one hand, the frivolous sexual development of mobile terminal forces the space shared by antenna be built in terminal to diminish.On the other hand, for realizing the multifunction of mobile terminal, need antenna can work in more frequency range.For reaching the object reaching multiband in limited taking up room, all adopting the mode regulating antenna-matching circuit at present, attempting the loss by regulating this circuit to reduce antenna-reflected energy, and then make the emittance of antenna reach the demand of different frequency range.Although adopt such scheme can realize different frequency ranges, only for the antenna of same type as loop antenna, make the Antenna Operation of same type in different frequency ranges.If need the antenna arranging multiple type in the terminal, then multiple independently antenna must be set respectively, add the size that antenna is shared in the confined space of terminal.
Summary of the invention
For solving the technical problem of existing existence, embodiments providing a kind of control method, equipment and electronic equipment, without the need to arranging multiple stand-alone antenna, antenna taking in the device space can be reduced.
For achieving the above object, the technical scheme of the embodiment of the present invention is achieved in that
Embodiments provide a kind of control appliance, described equipment comprises: antenna body, match circuit, the first switch element and second switch unit; Signal feed place is provided with described match circuit, and one end of described match circuit is connected with one end of described antenna body; One end of described first switch element is connected with one end of described antenna body, the other end ground connection of described first switch element; One end of described second switch unit is connected with the described other end of described antenna body, the other end ground connection of described second switch unit; Wherein, described antenna body can work in the first pattern or the second pattern or the third pattern; Described first switch element, second switch unit all can work in the first state or the second state;
Described antenna body, for starting the antenna of corresponding modes, and utilizes the antenna of described corresponding modes to carry out the transmitting-receiving of radiofrequency signal; Wherein, corresponding modes antenna by described first switch element and described second switch unit state and determine;
Described match circuit, for regulating the first parameter of the antenna of described corresponding modes to preset value, makes the antenna of described first parameter value and described corresponding modes match.
In such scheme, described antenna body comprises: the first radiant body, the second radiant body and the 3rd radiant body; Wherein,
One end of described first radiant body is connected with described one end of described match circuit, and described one end of described first switch element is connected with described first radiant body in the primary importance of described first radiant body;
One end of described second radiant body is connected with described one end of described match circuit, and the other end of described second radiant body is connected with described one end of described second switch unit;
One end of described 3rd radiant body is connected with described one end of described second switch unit.
In such scheme, in described first radiant body, the second radiant body and the 3rd radiant body, the length of described second radiant body is the longest.
In such scheme, the distance between described first switch element and described signal feed place is different from the distance between described second switch unit and described signal feed place.
The embodiment of the present invention additionally provides a kind of control method, and be applied in a control appliance, described control appliance comprises: antenna body, match circuit, the first switch element and second switch unit; Signal feed place is provided with described match circuit, and one end of described match circuit is connected with one end of described antenna body; One end of described first switch element is connected with one end of described antenna body, the other end ground connection of described first switch element; One end of described second switch unit is connected with the other end of described antenna body, the other end ground connection of described second switch unit; Wherein, described antenna body can work in the first pattern or the second pattern or the third pattern; Described first switch element, second switch unit all can work in the first state or the second state;
Described method comprises:
Obtain the first instruction; Described first instruction is for detecting the state of described first switch element and the first switch element;
Respond described first instruction, the state of described first switch element and the first switch element is detected, and generates the first testing result;
According to described first testing result, start the antenna of corresponding modes, and utilize the antenna of described corresponding modes to carry out the transmitting-receiving of radiofrequency signal.
In such scheme, described according to described first testing result, start the antenna of corresponding modes, comprising:
When described first switch element of described first testing result sign is in the first state and second switch unit is in the second state, start the first mode antenna;
When described first switch element of described first testing result sign is in the second state and second switch unit is in the second state, start the second mode antenna;
When described first switch element of described first testing result sign is in the second state and second switch unit is in the first state, start the third mode antenna.
In such scheme, after the antenna starting described corresponding modes, described method also comprises:
Described match circuit regulates the first parameter of the antenna of described corresponding modes to corresponding preset value, and the antenna of described first parameter value and described corresponding modes is matched.
In such scheme, described method also comprises:
When described first switch element of described first testing result sign is in the first state and second switch unit is in the first state, close described antenna body.
In such scheme, described method also comprises:
Obtain the second instruction; Described second instruction for detect present mode antenna residing for network frequency range;
Respond described second instruction, detect the network frequency range residing for antenna of present mode, and generate the second testing result;
When the antenna that described second testing result characterizes present mode does not mate with described network frequency range, switch to the antenna of corresponding modes, make the antenna of described corresponding modes utilize described network frequency range to carry out the transmitting-receiving of radiofrequency signal.
The embodiment of the present invention additionally provides a kind of electronic equipment, and described electronic equipment comprises aforesaid control appliance.
The control method that the embodiment of the present invention provides, control appliance and electronic equipment, described control appliance comprises: antenna body, match circuit, the first switch element and second switch unit; Signal feed place is provided with described match circuit, and one end of described match circuit is connected with one end of described antenna body; One end of described first switch element is connected with one end of described antenna body, the other end ground connection of described first switch element; One end of described second switch unit is connected with the described other end of described antenna body, the other end ground connection of described second switch unit; Wherein, described antenna body can work in the first pattern or the second pattern or the third pattern; Described first switch element, second switch unit all can work in the first state or the second state; Described antenna body, for starting the antenna of corresponding modes, and utilizes the antenna of described corresponding modes to carry out the transmitting-receiving of radiofrequency signal; Wherein, corresponding modes antenna by described first switch element and described second switch unit state and determine; Described match circuit, for regulating the first parameter of the antenna of described corresponding modes to preset value, makes the antenna of described first parameter value and described corresponding modes match.Utilizing the present invention, without the need to arranging multiple stand-alone antenna, antenna taking in the device space can be reduced.
Accompanying drawing explanation
The circuit composition schematic diagram of the control appliance that Fig. 1 provides for the embodiment of the present invention;
The realization flow schematic diagram of the first embodiment of the control method that Fig. 2 provides for the embodiment of the present invention;
The realization flow schematic diagram of the second embodiment of the control method that Fig. 3 provides for the embodiment of the present invention;
The realization flow schematic diagram of the 3rd embodiment of the control method that Fig. 4 provides for the embodiment of the present invention.
Embodiment
Below in conjunction with accompanying drawing to a preferred embodiment of the present invention will be described in detail, should be appreciated that following illustrated preferred embodiment is only for instruction and explanation of the present invention, is not intended to limit the present invention.
The circuit composition schematic diagram of the control appliance that Fig. 1 provides for the embodiment of the present invention; As shown in Figure 1, described control appliance comprises: antenna body 10, match circuit 11, first switch element 12 and second switch unit 13; Signal feed place is provided with described match circuit 11, and one end of described match circuit 11 is connected with one end of described antenna body 10; One end of described first switch element 12 is connected with one end of described antenna body 10, the other end ground connection of described first switch element 12; One end of described second switch unit 13 is connected with the described other end of described antenna body 10, the other end ground connection of described second switch unit 13; Described first switch element 12, second switch unit 13 all can work in the first state or the second state; The Determines of described first switch element 12, second switch unit 13 antenna body 10 can work in the first pattern or works in the second pattern or work in the third pattern; Wherein, described first state can be connection status, and the second state is off state; The first pattern described is IFA antenna, and described the second pattern is monopole antenna, and the third pattern described is loop antenna.
As shown in Figure 1, F point place is considered as signal feed place, when control appliance receives/sends signal, the antenna of corresponding modes is started according to the first switch element 12 and the state of second switch unit 13, and utilize the antenna of described corresponding modes to carry out the transmitting-receiving of radiofrequency signal, described match circuit 11 regulates the first parameter of the antenna of described corresponding modes to corresponding preset value, and the antenna of described first parameter value and described corresponding modes is matched.Wherein, described first parameter can be the resistance value of antenna.
As shown in Figure 1, described antenna body 10 comprises: the first radiant body 101, second radiant body 102 and the 3rd radiant body 103; For convenience of understanding, line segment 1 can be considered as the first radiant body 101 in FIG, line segment 2 is considered as the second radiant body 102, line segment 3 is considered as the 3rd radiant body 103; One end of described first radiant body 101 is connected with described one end of described match circuit 11, and described one end of described first switch element 12 is connected with described first radiant body 101 in the primary importance of described first radiant body 101; One end of described second radiant body 102 is connected with described one end of described match circuit 11, and the other end of described second radiant body 102 is connected with described one end of described second switch unit 13; One end of described 3rd radiant body 103 is connected with described one end of described second switch unit 13; Wherein, described one end of described match circuit 11 can be the output of described match circuit 11.
In the embodiment of the present invention, in the first radiant body 101, second radiant body 102 and the 3rd radiant body 103, the length of described second radiant body 102 is the longest; First switch element 12, second switch unit 13 are set in different positions, make the distance between described first switch element 12 and described signal feed F place be different from distance between described second switch unit 13 and described signal feed F place.As shown in Figure 1, compared with second switch unit 13, the distance between the first switch element 12 and signal feed F place is nearer.Certainly, the distance that also can arrange second switch unit 13 distance signal feedback point F place is nearer.
Concrete, when the first switch element 12 is in connection status and second switch unit 13 is in off-state, start IFA antenna; When described first switch element 12 is in off-state and second switch unit is in off-state, start monopole antenna; When the first switch element 12 is in off-state and second switch unit 13 is in connection status, start loop antenna.
Here, although IFA and monopole itself is the antenna of 1/4 wavelength, but due to the other end ground connection of the first switch element 12 in IFA antenna, effective access of IFA antenna is made to be shorter in length than effective access length of monopole antenna, so the working frequency range of IFA antenna is higher than monopole antenna; Loop antenna is inherently 1/2 wavelength antennas, and the operating frequency of itself is higher.Described IFA antenna, monopole antenna, Loop antenna operating frequency separately please refer to existing related data, do not explain here.
As can be seen here, in the embodiment of the present invention, according to the state of the first switch element, second switch unit, start the antenna of corresponding modes, and utilize the antenna of described corresponding modes to carry out the transmitting-receiving of radiofrequency signal; Without the need to arranging multiple stand-alone antenna, the proper communication of equipment can be ensured by means of only the antenna enabling corresponding modes, decreasing antenna taking in the device space simultaneously.
Embodiments provide a kind of first embodiment of control method, described embodiment is applied in a control appliance, described control appliance as shown in Figure 1, composition graphs 1, described control appliance comprises: antenna body, match circuit, the first switch element and second switch unit; Signal feed place is provided with described match circuit, and one end of described match circuit is connected with one end of described antenna body; One end of described first switch element is connected with one end of described antenna body, the other end ground connection of described first switch element; One end of described second switch unit is connected with the other end of described antenna body, the other end ground connection of described second switch unit.Described antenna body can work in the first pattern or the second pattern or the third pattern; Described first switch element, second switch unit all can work in the first state or the second state; Wherein, described first state can be connection status, and the second state is off state; The first pattern described is IFA antenna, and described the second pattern is monopole antenna, and the third pattern described is loop antenna; The operating frequency of these three kinds of antennas please refers to existing related data, no longer illustrates here.
The realization flow schematic diagram of the first embodiment of the control method that Fig. 2 provides for the embodiment of the present invention, as shown in Figure 2, described method comprises:
Step 201: obtain the first instruction; Described first instruction is for detecting the state of described first switch element and the first switch element;
Here, when described control appliance powers on or access in network, generate the first instruction.
Step 202: respond described first instruction, detects the state of described first switch element and the first switch element, and generates the first testing result;
Here, respond the first instruction, the connection of the first switch element, second switch unit or off-state are detected.
Step 203: according to described first testing result, starts the antenna of corresponding modes, makes the antenna of described corresponding modes carry out the transmitting-receiving of radiofrequency signal.
Here, according to the first switch element, the connection of second switch unit or off-state, start IFA antenna or monopole antenna or loop antenna.
In the present invention's preferred embodiment, after the antenna starting corresponding modes, described method also comprises:
Described match circuit regulates the first parameter of the antenna of described corresponding modes to corresponding preset value, and the antenna of described first parameter value and described corresponding modes is matched; Wherein, described first parameter can be antenna impedance value.The resistance value of different mode antenna is different, and when starting the antenna of a certain pattern, match circuit regulates antenna impedance value, and the antenna of resistance value and this pattern is matched.
As can be seen here, in the present embodiment, according to connection or the off-state of the first switch element, second switch unit, start the antenna of corresponding modes; Without the need to arranging multiple stand-alone antenna, the proper communication of equipment can be ensured by means of only the antenna enabling corresponding modes, decreasing antenna taking in the device space simultaneously.
Embodiments provide a kind of second embodiment of control method, described embodiment is applied in a control appliance, described control appliance as shown in Figure 1, composition graphs 1, described control appliance comprises: antenna body, match circuit, the first switch element and second switch unit; Signal feed place is provided with described match circuit, and one end of described match circuit is connected with one end of described antenna body; One end of described first switch element is connected with one end of described antenna body, the other end ground connection of described first switch element; One end of described second switch unit is connected with the other end of described antenna body, the other end ground connection of described second switch unit.Described antenna body can work in the first pattern or the second pattern or the third pattern; Described first switch element, second switch unit all can work in the first state or the second state; Wherein, described first state can be connection status, and the second state is off state; The first pattern described is IFA antenna, and described the second pattern is monopole antenna, and the third pattern described is loop antenna; The operating frequency of these three kinds of antennas please refers to existing related data, no longer illustrates here.
The realization flow schematic diagram of the second embodiment of the control method that Fig. 3 provides for the embodiment of the present invention, as shown in Figure 3, described method comprises:
Step 301: obtain the first instruction; Described first instruction is for detecting the state of described first switch element and the first switch element;
Here, when described control appliance powers on or access in network, generate the first instruction.
Step 302: respond described first instruction, detects the state of described first switch element and the first switch element, and generates the first testing result;
Here, respond the first instruction, the connection of the first switch element, second switch unit or off-state are detected.
Step 303: when described first switch element of described first testing result sign is in the first state and second switch unit is in the second state, start the first mode antenna; When described first switch element of described first testing result sign is in the second state and second switch unit is in the second state, start the second mode antenna; When described first switch element of described first testing result sign is in the second state and second switch unit is in the first state, start the third mode antenna.
Here, when the first switch element is in connection status and second switch unit is in off-state, IFA antenna is started; When described first switch element is in off-state and second switch unit is in off-state, start monopole antenna; When the first switch element is in off-state and second switch unit is in connection status, start Loop antenna; When the first switch element is in off-state and second switch unit is in off-state, close antenna body.
Step 304: utilize the antenna of described corresponding modes to carry out the transmitting-receiving of radiofrequency signal.
In the present invention's preferred embodiment, after startup corresponding modes antenna, described method also comprises:
Described match circuit regulates the first parameter of the antenna of described corresponding modes to corresponding preset value, and the antenna of described first parameter value and described corresponding modes is matched; Wherein, described first parameter can be antenna impedance value.The resistance value of different mode antenna is different, and when starting the antenna of a certain pattern, match circuit regulates antenna impedance value, and the antenna of resistance value and this pattern is matched.
As can be seen here, in the present embodiment, according to connection or the off-state of the first switch element, second switch unit, start the antenna of corresponding modes; Without the need to arranging multiple stand-alone antenna, the proper communication of equipment can be ensured by means of only the antenna enabling corresponding modes, decreasing antenna taking in the device space simultaneously.
Embodiments provide a kind of second embodiment of control method, described embodiment is applied in a control appliance, described control appliance as shown in Figure 1, composition graphs 1, described control appliance comprises: antenna body, match circuit, the first switch element and second switch unit; Signal feed place is provided with described match circuit, and one end of described match circuit is connected with one end of described antenna body; One end of described first switch element is connected with one end of described antenna body, the other end ground connection of described first switch element; One end of described second switch unit is connected with the other end of described antenna body, the other end ground connection of described second switch unit.Described antenna body can work in the first pattern or the second pattern or the third pattern; Described first switch element, second switch unit all can work in the first state or the second state; Wherein, described first state can be connection status, and the second state is off state; The first pattern described is IFA antenna, and described the second pattern is monopole antenna, and the third pattern described is Loop antenna; The operating frequency of this Three models antenna please refers to existing related data, no longer illustrates here.
The realization flow schematic diagram of the 3rd embodiment of the control method that Fig. 4 provides for the embodiment of the present invention; As shown in Figure 4, described method comprises:
Step 401: obtain the first instruction; Described first instruction is for detecting the state of described first switch element and the first switch element;
Here, when described control appliance powers on or access in network, generate the first instruction.
Step 402: respond described first instruction, detects the state of described first switch element and the first switch element, and generates the first testing result;
Here, respond the first instruction, the connection of the first switch element, second switch unit or off-state are detected.
Step 403: according to described first testing result, starts the antenna of corresponding modes, and utilizes the antenna of described corresponding modes to carry out the transmitting-receiving of radiofrequency signal.
Here, when the first switch element is in connection status and second switch unit is in off-state, IFA antenna is started; When described first switch element is in off-state and second switch unit is in off-state, start monopole antenna; When the first switch element is in off-state and second switch unit is in connection status, start Loop antenna; When the first switch element is in off-state and second switch unit is in off-state, close antenna body.
Step 404: obtain the second instruction; Described second instruction for detect present mode antenna residing for network frequency range;
Here, in control appliance, preset a frequency range sense cycle, when the described cycle arrives, generate the second instruction; Or, when control appliance starts certain mode antenna, generate the second instruction.
Step 405: respond described second instruction, detects the network frequency range residing for antenna of present mode, and generates the second testing result;
Step 406: when the antenna that described second testing result characterizes present mode does not mate with described network frequency range, switch to the antenna of corresponding modes, make the antenna of described corresponding modes utilize described network frequency range to carry out the transmitting-receiving of radiofrequency signal.
Here, consider that Three models antenna all has the working frequency range worked separately; When the network frequency range residing for described present mode antenna do not supported by described first testing result sign present mode antenna, switch present mode antenna to the antenna can supporting current network frequency range.
In the present invention's preferred embodiment, after the antenna starting corresponding modes, described method also comprises:
Described match circuit regulates the first parameter of the antenna of described corresponding modes to corresponding preset value, and the antenna of described first parameter value and described corresponding modes is matched; Wherein, described first parameter can be antenna impedance value.The resistance value of the antenna of different mode is different, and when starting the antenna of a certain pattern, match circuit regulates antenna impedance value, and the antenna of resistance value and this pattern is matched.
As can be seen here, in the present embodiment, according to connection or the off-state of the first switch element, second switch unit, start the antenna of corresponding modes; Meanwhile, when current network frequency range do not supported by the antenna started, switchable antenna is to the antenna can supporting current network frequency range; Without the need to arranging multiple stand-alone antenna, getting final product proper communication by means of only the antenna enabling corresponding modes, decreasing antenna taking in electronic device space.
Present invention also offers a kind of electronic equipment, described electronic equipment comprises a control appliance; Described in the composition structure of this control appliance and method of work Fig. 1 to Fig. 4 as the aforementioned thereof, repeat no more here.
In several embodiments that the application provides, should be understood that disclosed equipment and method can realize by another way.Apparatus embodiments described above is only schematic, such as, the division of described unit, be only a kind of logic function to divide, actual can have other dividing mode when realizing, and as: multiple unit or assembly can be in conjunction with, maybe can be integrated into another system, or some features can be ignored, or do not perform.In addition, the coupling each other of shown or discussed each part or direct-coupling or communication connection can be by some interfaces, and the indirect coupling of equipment or unit or communication connection can be electrical, machinery or other form.
The above-mentioned unit illustrated as separating component or can may not be and physically separates, and the parts as unit display can be or may not be physical location, namely can be positioned at a place, also can be distributed in multiple network element; Part or all of unit wherein can be selected according to the actual needs to realize the object of the present embodiment scheme.
In addition, each functional unit in various embodiments of the present invention can all be integrated in a processing unit, also can be each unit individually as a unit, also can two or more unit in a unit integrated; Above-mentioned integrated unit both can adopt the form of hardware to realize, and the form that hardware also can be adopted to add SFU software functional unit realizes.
If the above-mentioned integrated unit of the present invention using the form of software function module realize and as independently production marketing or use time, also can be stored in a computer read/write memory medium.Based on such understanding, the technical scheme of the embodiment of the present invention can embody with the form of software product the part that prior art contributes in essence in other words, this computer software product is stored in a storage medium, comprises some instructions and performs all or part of of method described in each embodiment of the present invention in order to make a computer equipment (can be personal computer, server or the network equipment etc.).And aforesaid storage medium comprises: movable storage device, read-only memory (ROM, Read-Only Memory), magnetic disc or CD etc. various can be program code stored medium.
The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, is anyly familiar with those skilled in the art in the technical scope that the present invention discloses; change can be expected easily or replace, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection range of described claim.
Claims (10)
1. a control appliance, described equipment comprises: antenna body, match circuit, the first switch element and second switch unit; Signal feed place is provided with described match circuit, and one end of described match circuit is connected with one end of described antenna body; One end of described first switch element is connected with one end of described antenna body, the other end ground connection of described first switch element; One end of described second switch unit is connected with the described other end of described antenna body, the other end ground connection of described second switch unit; Wherein, described antenna body can work in the first pattern or the second pattern or the third pattern; Described first switch element, second switch unit all can work in the first state or the second state;
Described antenna body, for starting the antenna of corresponding modes, and utilizes the antenna of described corresponding modes to carry out the transmitting-receiving of radiofrequency signal; Wherein, corresponding modes antenna by described first switch element and described second switch unit state and determine;
Described match circuit, for regulating the first parameter of the antenna of described corresponding modes to preset value, makes the antenna of described first parameter value and described corresponding modes match.
2. control appliance according to claim 1, is characterized in that, described antenna body comprises: the first radiant body, the second radiant body and the 3rd radiant body; Wherein,
One end of described first radiant body is connected with described one end of described match circuit, and described one end of described first switch element is connected with described first radiant body in the primary importance of described first radiant body;
One end of described second radiant body is connected with described one end of described match circuit, and the other end of described second radiant body is connected with described one end of described second switch unit;
One end of described 3rd radiant body is connected with described one end of described second switch unit.
3. control appliance according to claim 2, is characterized in that, in described first radiant body, the second radiant body and the 3rd radiant body, the length of described second radiant body is the longest.
4. the control appliance according to any one of claims 1 to 3, is characterized in that, the distance between described first switch element and described signal feed place is different from the distance between described second switch unit and described signal feed place.
5. a control method, be applied in a control appliance, described control appliance comprises: antenna body, match circuit, the first switch element and second switch unit; Signal feed place is provided with described match circuit, and one end of described match circuit is connected with one end of described antenna body; One end of described first switch element is connected with one end of described antenna body, the other end ground connection of described first switch element; One end of described second switch unit is connected with the other end of described antenna body, the other end ground connection of described second switch unit; Wherein, described antenna body can work in the first pattern or the second pattern or the third pattern; Described first switch element, second switch unit all can work in the first state or the second state;
Described method comprises:
Obtain the first instruction; Described first instruction is for detecting the state of described first switch element and the first switch element;
Respond described first instruction, the state of described first switch element and the first switch element is detected, and generates the first testing result;
According to described first testing result, start the antenna of corresponding modes, and utilize the antenna of described corresponding modes to carry out the transmitting-receiving of radiofrequency signal.
6. method according to claim 5, is characterized in that, described according to described first testing result, starts the antenna of corresponding modes, comprising:
When described first switch element of described first testing result sign is in the first state and second switch unit is in the second state, start the first mode antenna;
When described first switch element of described first testing result sign is in the second state and second switch unit is in the second state, start the second mode antenna;
When described first switch element of described first testing result sign is in the second state and second switch unit is in the first state, start the third mode antenna.
7. method according to claim 5, is characterized in that, after the antenna starting described corresponding modes, described method also comprises:
Described match circuit regulates the first parameter of the antenna of described corresponding modes to corresponding preset value, and the antenna of described first parameter value and described corresponding modes is matched.
8. the method according to any one of claim 5 to 7, is characterized in that, described method also comprises:
When described first switch element of described first testing result sign is in the first state and second switch unit is in the first state, close described antenna body.
9. method according to claim 8, is characterized in that, described method also comprises:
Obtain the second instruction; Described second instruction for detect present mode antenna residing for network frequency range;
Respond described second instruction, detect the network frequency range residing for antenna of present mode, and generate the second testing result;
When the antenna that described second testing result characterizes present mode does not mate with described network frequency range, switch to the antenna of corresponding modes, make the antenna of described corresponding modes utilize described network frequency range to carry out the transmitting-receiving of radiofrequency signal.
10. an electronic equipment, described electronic equipment comprises the control appliance described in any one of Claims 1-4.
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CN105305028A (en) * | 2015-10-16 | 2016-02-03 | 深圳市万普拉斯科技有限公司 | Antenna structure of mobile terminal and mobile terminal |
CN106207414A (en) * | 2016-07-29 | 2016-12-07 | 宇龙计算机通信科技(深圳)有限公司 | Antenna assembly and electronic equipment |
CN108493574A (en) * | 2018-03-12 | 2018-09-04 | 广东欧珀移动通信有限公司 | Antenna module and electronic equipment |
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