CN106558760A - Antenna module, electronic equipment and method of controlling antenna - Google Patents

Abstract

The disclosure discloses a kind of antenna module, electronic equipment and method of controlling antenna, belongs to field of antenna.The antenna module includes：Antenna；At least two-way radio-frequency receiving-transmitting part, n >=2；At least two-way radio-frequency receiving-transmitting part is connected with the antenna by different distributing points respectively.By at least two-way radio-frequency receiving-transmitting part is connected with the same antenna by different distributing points；When solving multi-channel rf signal and being exported to antenna by same distributing point, the debugging difficulty of antenna is larger, in some instances it may even be possible to the problem of the antenna needed for cannot debugging out；Reach and different radio-frequency receiving-transmitting parts have been accessed by different distributing points, when antenna is debugged, because of the change of distributing point all the way, and the existing debugging result of other road radiofrequency signals will not have been affected, simplify the effect of the production and debugging of antenna.

Description

Antenna module, electronic equipment and method of controlling antenna

This application claims submitting Patent Office of the People's Republic of China, Application No. on 09 25th, 2015 201510624095.9, China of entitled " antenna module, electronic equipment and method of controlling antenna " specially The priority of profit application, entire contents are hereby incorporated by the application.

Technical field

It relates to field of antenna, more particularly to a kind of antenna module, electronic equipment and method of controlling antenna.

Background technology

In the electronic equipment of such as mobile phone, panel computer, mobile unit and base station etc, Jing is commonly present many Road radiofrequency signal needs transmitting-receiving, such as：GPS (Global Positioning System, global positioning system) (Carrier Aggregation gather for signal, WIFI (WIreless-FIdelity, Wireless Fidelity) signal, CA Wave load) signal.

Due to the finite volume of electronic equipment, so cannot be to be respectively provided with an antenna per radiofrequency signal all the way. Correlation technique needs at least two-way radiofrequency signal to share same antenna.When same antenna is shared, electronics Combiner and antenna are provided with equipment, at least two-way radiofrequency signal merges into radio frequency letter all the way by combiner Number, then exported to antenna by same distributing point, launched by the antenna.As the antenna needs Multi-channel rf signal is supported simultaneously, when wherein radiofrequency signal all the way is debugged, may influence whether to have debugged The radiation of other good road radiofrequency signals.Such as, when wherein radiofrequency signal all the way is debugged, change distributing point Or matching, then probably influence whether the radiation of other road radiofrequency signals debugged.

The content of the invention

When being exported to antenna by same distributing point to solve multi-channel rf signal, the debugging difficulty of antenna It is larger, in some instances it may even be possible to which that the problem of the antenna needed for cannot debugging out, the disclosure provide a kind of antenna module, electricity Sub- equipment and method of controlling antenna.The technical scheme is as follows：

According to the first aspect of the embodiment of the present disclosure, there is provided a kind of antenna module, the antenna module include：

Antenna；

At least two-way radio-frequency receiving-transmitting part, n >=2；

At least two-way radio-frequency receiving-transmitting part is connected with antenna by different distributing points respectively.

In an alternate embodiment of the invention, for per radio-frequency receiving-transmitting part, radio-frequency receiving-transmitting part and corresponding feedback all the way Isolation circuit is additionally provided between electricity point；

Isolation circuit is used to allow the radiofrequency signal on current road to export distributing point corresponding to current road, and, every Radiofrequency signal from other roads exports distributing point corresponding to current road.

In an alternate embodiment of the invention, for per radio-frequency receiving-transmitting part, radio-frequency receiving-transmitting part and corresponding feedback all the way Match circuit is additionally provided between electricity point；

Match circuit is for carrying out impedance matching to current road.

In an alternate embodiment of the invention, there is radio-frequency receiving-transmitting part all the way is used to send and/or receive at least two-way to penetrate Frequency signal.

In an alternate embodiment of the invention, at least two-way radio-frequency receiving-transmitting part, is configured at least one identical Moment, while passing through antenna transceiving radio frequency signal.

In an alternate embodiment of the invention, there is radio-frequency receiving-transmitting part all the way, the radio-frequency receiving-transmitting part and corresponding feedback On-off circuit is additionally provided between electricity point, the on-off circuit is configured to when in opening, by radio frequency Transceiver unit accesses antenna by distributing point, with least other radio-frequency receiving-transmitting parts are identical at least one all the way Moment simultaneously pass through antenna transceiving radio frequency signal.

According to the second aspect of the disclosure, there is provided a kind of electronic equipment, the electronic equipment is included such as first party Antenna module described in face.

In an alternate embodiment of the invention, antenna is the metal shell of electronic equipment, or, antenna is electronic equipment Metal edge frame.

According to the third aspect of the disclosure, there is provided a kind of method of controlling antenna, for as described in relation to the first aspect Antenna module in, the method includes：

Radio-frequency receiving-transmitting part exports radiofrequency signal to corresponding distributing point；

Antenna receives the radiofrequency signal of each road radio-frequency receiving-transmitting part output by different distributing points；

Radiofrequency signal is launched by antenna.

In an alternate embodiment of the invention, antenna module includes isolation circuit.

Radio-frequency receiving-transmitting part exports radiofrequency signal to corresponding distributing point, including：

Radio-frequency receiving-transmitting part sends radiofrequency signal to corresponding isolation circuit；

Isolation circuit is carried out to radiofrequency signal after isolation processing, is exported to distributing point.

In an alternate embodiment of the invention, antenna module includes match circuit.

Radio-frequency receiving-transmitting part exports radiofrequency signal to corresponding distributing point, including：

Radio-frequency receiving-transmitting part exports radiofrequency signal to corresponding distributing point by match circuit.

In an alternate embodiment of the invention, there is radio-frequency receiving-transmitting part all the way in antenna module is used to send and/or receive At least two-way radiofrequency signal.

Radio-frequency receiving-transmitting part exports radiofrequency signal to corresponding distributing point, including：

Radio-frequency receiving-transmitting part at least two-way radiofrequency signal will be merged into；

Radio-frequency receiving-transmitting part is exported radiofrequency signal is merged to distributing point.

The technical scheme that embodiment of the disclosure is provided can include following beneficial effect：

By at least two-way radio-frequency receiving-transmitting part is connected with the same antenna by different distributing points；Solve When multi-channel rf signal is exported to antenna by same distributing point, the debugging difficulty of antenna is larger, or even can The problem of the problem of the antenna needed for cannot debugging out；Reach different by different distributing point accesses Radio-frequency receiving-transmitting part, when antenna is debugged, because of the change of distributing point all the way, and will not affect other roads to penetrate The existing debugging result of frequency signal, simplifies the effect of the production and debugging of antenna.

It should be appreciated that the general description of the above and detailed description hereinafter are only exemplary, can not Limit the disclosure.

Description of the drawings

During accompanying drawing herein is merged in specification and the part of this specification is constituted, show and meet the disclosure Embodiment, and be used for together explaining the principle of the disclosure in specification.

Fig. 1 is the structural representation of the antenna module shown in one exemplary embodiment of the disclosure；

Fig. 2A is the structural representation of the antenna module shown in the disclosure another exemplary embodiment；

Fig. 2 B are the structural representations of the antenna module shown in the disclosure another exemplary embodiment；

Fig. 3 is the structural representation of the electronic equipment that one exemplary embodiment of the disclosure is provided；

Fig. 4 is the method flow diagram of the method for controlling antenna that one exemplary embodiment of the disclosure is provided；

Fig. 5 is the method flow diagram of the method for controlling antenna that the disclosure another exemplary embodiment is provided；

Fig. 6 is the method flow diagram of the method for controlling antenna that the disclosure another exemplary embodiment is provided；

Fig. 7 is the method flow diagram of the method for controlling antenna that the disclosure another exemplary embodiment is provided.

Specific embodiment

Here in detail exemplary embodiment will be illustrated, its example is illustrated in the accompanying drawings.Following retouches State when being related to accompanying drawing, unless otherwise indicated, the same numbers in different accompanying drawings represent same or analogous key element. Embodiment described in following exemplary embodiment does not represent all embodiment party consistent with the disclosure Formula.Conversely, they be only with described in detail in the such as appended claims, disclosure some in terms of phase one The example of the apparatus and method of cause.

Fig. 1 is refer to, the structure of the antenna module 100 shown in one exemplary embodiment of the disclosure is it illustrates Schematic diagram.The antenna module 100 includes：Antenna 120, at least two-way radio-frequency receiving-transmitting part 140.

At least two-way radio-frequency receiving-transmitting part 140 is connected with antenna 120 by different distributing points 160 respectively.

At least two-way radio-frequency receiving-transmitting part 140 includes：Radio-frequency receiving-transmitting part 142 and radio-frequency receiving-transmitting part 144. Distributing point 160 includes distributing point 162 and distributing point 164.

Wherein, radio-frequency receiving-transmitting part 142 is connected with antenna 120 by distributing point 162, radio-frequency receiving-transmitting part 144 are connected with antenna 120 by distributing point 164.

With radio-frequency receiving-transmitting part 140 as two-way illustrating in Fig. 1.

In sum, the antenna module that the present embodiment is provided, by least two-way radio-frequency receiving-transmitting part passing through Different distributing points are connected with the same antenna；Solve multi-channel rf signal by same distributing point export to During antenna, the debugging difficulty of antenna is larger, in some instances it may even be possible to the problem of the problem of the antenna needed for cannot debugging out； Reach and different radio-frequency receiving-transmitting parts have been accessed by different distributing point, when antenna is debugged, will not be because of The change of distributing point all the way, and the existing debugging result of other road radiofrequency signals is affected, simplify the life of antenna The effect produced and debug.

Fig. 2A is refer to, the structure of the antenna module 200 of the disclosure another exemplary embodiment is it illustrates Schematic diagram.The antenna module 200 includes：Antenna 220, at least two-way radio-frequency receiving-transmitting part 240.

At least two-way radio-frequency receiving-transmitting part 240 is connected with antenna 220 by different distributing points 260 respectively.

At least two-way radio-frequency receiving-transmitting part 240 includes：Radio-frequency receiving-transmitting part 242,244 and of radio-frequency receiving-transmitting part Radio-frequency receiving-transmitting part 246.Distributing point 260 includes：Distributing point 262, distributing point 264 and distributing point 266.

Wherein, radio-frequency receiving-transmitting part 242 is connected with antenna 220 by distributing point 262, radio-frequency receiving-transmitting part 244 are connected with antenna 220 by distributing point 264, and radio-frequency receiving-transmitting part 246 passes through distributing point 266 and antenna 220 are connected.

With radio-frequency receiving-transmitting part 240 as three tunnels illustrating in Fig. 2A.

Alternatively, for per radio-frequency receiving-transmitting part 240, the radio-frequency receiving-transmitting part 240 and corresponding feed all the way Isolation circuit 280 is additionally provided between point 260, isolation circuit 280 is used to allow the radiofrequency signal on current road defeated The radiofrequency signal for going out to the corresponding distributing point 260 in current road and isolating other roads exports feedback corresponding to current road Electricity point 260.Namely：

Isolation circuit 282 is additionally provided between radio-frequency receiving-transmitting part 242 and distributing point 262, the isolation circuit 282 radiofrequency signals for being used to allow radio-frequency receiving-transmitting part 242 to send export distributing point corresponding to current road 262, while the radiofrequency signal of the other two-way of isolation is exported to the corresponding distributing point in current road 262.That is, every From circuit so that current road is open circuit relative to the radiofrequency signal of other two-way.

Isolation circuit 284 is additionally provided between radio-frequency receiving-transmitting part 244 and distributing point 264, the isolation circuit 284 radiofrequency signals for being used to allow radio-frequency receiving-transmitting part 244 to send export distributing point corresponding to current road 264, while the radiofrequency signal of the other two-way of isolation is exported to the corresponding distributing point in current road 264.That is, every From circuit so that current road is open circuit relative to the radiofrequency signal of other two-way.

Isolation circuit 286 is additionally provided between radio-frequency receiving-transmitting part 246 and distributing point 266, the isolation circuit 286 radiofrequency signals for being used to allow radio-frequency receiving-transmitting part 246 to send export distributing point corresponding to current road 266, while the radiofrequency signal of the other two-way of isolation is exported to the corresponding distributing point in current road 266.That is, every From circuit so that current road is open circuit relative to the radiofrequency signal of other two-way.

Alternatively, for per radio-frequency receiving-transmitting part 240, the radio-frequency receiving-transmitting part 240 and corresponding feed all the way Match circuit 290 is additionally provided between point 260, match circuit 290 is for carrying out impedance matching to current road. Namely：

Match circuit 292 is additionally provided between radio-frequency receiving-transmitting part 242 and distributing point 262.

Match circuit 294 is additionally provided between radio-frequency receiving-transmitting part 244 and distributing point 264.

Match circuit 296 is additionally provided between radio-frequency receiving-transmitting part 246 and distributing point 266.

It should be noted that it is in office all the way in, the sequencing of isolation circuit 280 and match circuit 290 is not Be limited, be only disposed adjacent with distributing point 260 with isolation circuit 280 in Fig. 2A, match circuit 290 with Radio-frequency receiving-transmitting part 240 is disposed adjacent to illustrate, but it is also possible to be embodied as match circuit 290 with feed Point 260 is disposed adjacent, and isolation circuit 280 is disposed adjacent with radio-frequency receiving-transmitting part 240.

Generally, only send and/or receive radiofrequency signal all the way per radio-frequency receiving-transmitting part 240 all the way.

But in an alternate embodiment of the invention, exist all the way radio-frequency receiving-transmitting part 240 be used for send and/or receive to Few two-way radiofrequency signal.

So that radio-frequency receiving-transmitting part 246 sends and/or receives at least two-way radiofrequency signal as an example, optionally, radio frequency Transceiver unit 246 includes a two radio-frequency signal source 246a and combiner 246b, two radio-frequency signal sources The two-way radiofrequency signal that 246a sends is merged radiofrequency signal, so after combiner 246b merging all the way After export to distributing point 266, launched by antenna 220.

In sum, the antenna module that the present embodiment is provided, by least two-way radio-frequency receiving-transmitting part passing through Different distributing points are connected with the same antenna；Solve multi-channel rf signal by same distributing point export to During antenna, the extremely difficult problem of the scheduling and planning of antenna；Reach and difference has been accessed by different distributing points Radio-frequency receiving-transmitting part, debug antenna when, because of the change of distributing point all the way, and other roads will not be affected The existing debugging result of radiofrequency signal, simplifies the effect of the production and debugging of antenna.

By taking radio-frequency receiving-transmitting part 242 as an example, in scheduling and planning, can pass through to change the position of distributing point 262 Put to be debugged, and change the existing debugging result that distributing point 262 does not interfere with other two-way.Meanwhile, When isolation circuit 282 and match circuit 292 is designed, also only need to consider the humorous of radio-frequency receiving-transmitting part 242 Vibration frequency and bandwidth.

The antenna module that the present embodiment is provided, can optimize on antenna radiator for different radiofrequency signals Select suitable distributing point, Shi Mei roads radiofrequency signal respectively reach optimal radiance.

And in a kind of correlation technique, multi-channel rf signal is exported to aerial radiation by same distributing point Body, compared with the antenna module that the present embodiment is provided, the correlation technique is difficult to while taking into account each of different frequency The radiance of road radiofrequency signal.

And in another kind of correlation technique, (such as grounding connection) is separated by same antenna spoke by physics Beam is divided into some, and the sub-fraction antenna radiator difference spoke after cut-off is exclusively enjoyed per road radiofrequency signal Penetrate, a antenna radiator that also will be physically is logically divided into multiple miniature antennas to use, with this reality The antenna module for applying example offer is compared, and the correlation technique Zhong Mei road antenna radiator can only use miniature antenna, And the present embodiment Zhong Mei roads signal can be shared using whole antenna radiator, be conducive to obtaining more preferable Antenna performance.

In an alternate embodiment of the invention, at least two-way radio-frequency receiving-transmitting portion in the antenna module that Fig. 2A embodiments are provided Part, was configured at least one identical moment, while passing through antenna transceiving radio frequency signal.That is, At some identical moment, there is radio-frequency receiving-transmitting part all the way and radiofrequency signal is launched by antenna, and exist another Road radio-frequency receiving-transmitting part launches radiofrequency signal also by the antenna；Or, at some identical moment, exist All the way radio-frequency receiving-transmitting part by antenna receive radiofrequency signal, and exist another road radio-frequency receiving-transmitting part also by The antenna receives radiofrequency signal；Or, at some identical moment, there is radio-frequency receiving-transmitting part all the way and pass through Antenna launches radiofrequency signal, and there is another road radio-frequency receiving-transmitting part by antenna reception radiofrequency signal.

In an alternate embodiment of the invention, there is radio-frequency receiving-transmitting part all the way, the radio-frequency receiving-transmitting part and corresponding feedback On-off circuit is additionally provided between electricity point, the on-off circuit is configured to when in opening, and this is penetrated Frequency transceiver unit by distributing point access antenna, with least all the way other radio-frequency receiving-transmitting parts at least one phase The same moment passes through antenna transceiving radio frequency signal simultaneously.

As shown in Figure 2 B, there is radio-frequency receiving-transmitting part 244 and radio-frequency receiving-transmitting part 246.Radio-frequency receiving-transmitting part On-off circuit 274, radio-frequency receiving-transmitting part 246 and distributing point 266 are additionally provided between 244 and distributing point 264 Between be additionally provided with on-off circuit 276.On-off circuit 274 is configured to when in opening, by radio frequency Transceiver unit 244 accesses antenna by distributing point 264, with least other radio-frequency receiving-transmitting parts (are such as penetrated all the way Frequency transceiver unit 242 or 246) pass through antenna transceiving radio frequency signal simultaneously at least one identical moment.Open Powered-down road 276 is configured to when in opening, and radio-frequency receiving-transmitting part 246 is passed through distributing point 266 Access antenna, with least all the way other radio-frequency receiving-transmitting parts (such as radio-frequency receiving-transmitting part 242 or 244) at least One identical moment passes through antenna transceiving radio frequency signal simultaneously.

Fig. 3 is refer to, the structural representation of the electronic equipment 300 of disclosure one embodiment offer is provided. The electronic equipment 300 includes the antenna module shown in Fig. 1 or Fig. 2.The antenna module includes：Antenna 320 At least two-way radio-frequency receiving-transmitting part 340.

Wherein, antenna 320 can be the metal shell or metal edge frame of electronic equipment 300, with antenna in figure 320 is the metal edge frame of electronic equipment 300 illustrating.

And two-way radio-frequency receiving-transmitting part 340, then it is connected with antenna 320 by different distributing points 360.

It should be noted that not limiting to antenna pattern in the embodiment of the present disclosure.

Fig. 4 is refer to, which illustrates the method flow diagram of the method for controlling antenna that disclosure one embodiment is provided. The present embodiment is applied in the antenna module shown in Fig. 1 or Fig. 2 illustrate with the method for controlling antenna. The method includes：

In step 402, radio-frequency receiving-transmitting part exports radiofrequency signal to corresponding distributing point；

With reference to Fig. 2, radio-frequency receiving-transmitting part 242 exports radiofrequency signal A to corresponding distributing point 262；Radio frequency is received Send out part 244 radiofrequency signal B is exported to corresponding distributing point 264.

In step 404, antenna receives the radio frequency of each road radio-frequency receiving-transmitting part output by different distributing points Signal；

Antenna 220 receives radiofrequency signal A of 242 output of radio-frequency receiving-transmitting part, antenna by distributing point 262 220 radiofrequency signals B that 244 output of radio-frequency receiving-transmitting part is received by distributing point 264, antenna 220 is by feedback Electricity point 266 receives radiofrequency signal C of 246 output of radio-frequency receiving-transmitting part.

In a step 406, radiofrequency signal is launched by antenna.

Each road radiofrequency signal is launched by antenna 220.Easily full of beard and, it is above-mentioned transmission letter to receive signal Number inverse process.

In sum, the method for controlling antenna that the present embodiment is provided, by will at least two-way radio-frequency receiving-transmitting part It is connected with the same antenna by different distributing points, then multi-channel rf transceiver unit is sent using the same antenna； When solving multi-channel rf signal and being exported to antenna by same distributing point, the debugging difficulty of antenna is larger, The problem of the problem of the antenna needed for cannot possibly even debugging out；Reach and accessed by different distributing points Different radio-frequency receiving-transmitting parts, when antenna is debugged, because of the change of distributing point all the way, and will not affect which The existing debugging result of its road radiofrequency signal, simplifies the effect of the production and debugging of antenna.

Based on Fig. 4 embodiments, when also including isolation circuit in antenna module, above-mentioned steps 402 can be replaced In generation, is implemented as following steps 402a and step 402b, as shown in Figure 5：

In step 402a, radio-frequency receiving-transmitting part sends radiofrequency signal to corresponding isolation circuit；

In step 402b, isolation circuit is carried out to radiofrequency signal after isolation processing, is exported to distributing point.

Based on Fig. 4 embodiments, when also including match circuit in antenna module, above-mentioned steps 402 can be replaced In generation, is implemented as following steps 402c, as shown in Figure 6：

In step 402c, radio-frequency receiving-transmitting part exports radiofrequency signal to corresponding distributing point by match circuit.

Certainly, when including isolation circuit and match circuit simultaneously in antenna module,

If match circuit is disposed adjacent with distributing point, isolation circuit is disposed adjacent with radio-frequency receiving-transmitting part, then penetrate Frequency transceiver unit first sends radiofrequency signal, isolation of the radiofrequency signal through isolation circuit to corresponding isolation circuit After process, exporting to distributing point through match circuit.

If isolation circuit is disposed adjacent with distributing point, match circuit is disposed adjacent with radio-frequency receiving-transmitting part, then penetrate Frequency transceiver unit first sends radiofrequency signal to corresponding match circuit, and radiofrequency signal is exported after match circuit To isolation circuit, export to distributing point after the isolation processing of isolation circuit.

Based on Fig. 4 embodiments, there is radio-frequency receiving-transmitting part all the way in antenna module is used to send and/or receive At least two-way radiofrequency signal when, above-mentioned steps 402 can be implemented as following steps 402d and step by replacement 402e, as shown in Figure 7：

In step 402d, radio-frequency receiving-transmitting part at least two-way radiofrequency signal will merge into merging radio frequency letter all the way Number；

In step 402e, radio-frequency receiving-transmitting part is exported radiofrequency signal is merged to distributing point.

It should be noted that above-described embodiment is by taking radio-frequency receiving-transmitting part output radiofrequency signal as an example, for radio frequency Transceiver unit receives the inverse process realized part, be above-described embodiment of radiofrequency signal, and this is art technology Personnel combine above-described embodiment institute easily full of beard and content, no longer repeat one by one.

Those skilled in the art are will readily occur to public considering specification and after putting into practice invention disclosed herein Other embodiments opened.The application is intended to any modification, purposes or the adaptations of the disclosure, These modifications, purposes or adaptations follow the general principle of the disclosure and are not disclosed including the disclosure Common knowledge in the art or conventional techniques.Description and embodiments are considered only as exemplary , the true scope and spirit of the disclosure are pointed out by claim below.

It should be appreciated that the disclosure is not limited to the accurate knot for being described above and being shown in the drawings Structure, and various modifications and changes can be being carried out without departing from the scope.The scope of the present disclosure is only by appended Claim is limiting.

Claims (12)

1. a kind of antenna module, it is characterised in that the antenna module includes：

Antenna；

At least two-way radio-frequency receiving-transmitting part, n >=2；

At least two-way radio-frequency receiving-transmitting part is connected with the antenna by different distributing points respectively.

2. antenna module according to claim 1, it is characterised in that for per radio-frequency receiving-transmitting portion all the way Part, is additionally provided with isolation circuit between the radio-frequency receiving-transmitting part and the corresponding distributing point；

The isolation circuit is used to allow the radiofrequency signal on current road to export feed corresponding to the current road Point, and, the radiofrequency signal for isolating other roads exports distributing point corresponding to the current road.

3. antenna module according to claim 1, it is characterised in that for per radio-frequency receiving-transmitting portion all the way Part, is additionally provided with match circuit between the radio-frequency receiving-transmitting part and the corresponding distributing point；

The match circuit is for carrying out impedance matching to current road.

4. according to the arbitrary described antenna module of claims 1 to 3, it is characterised in that exist described all the way Radio-frequency receiving-transmitting part is used to send and/or receive at least two-way radiofrequency signal.

5. according to the arbitrary described antenna module of claims 1 to 3, it is characterised in that at least two-way Radio-frequency receiving-transmitting part, was configured at least one identical moment, while passing through the antenna transceiving radio frequency Signal.

6. according to the arbitrary described antenna module of claims 1 to 3, it is characterised in that exist described all the way Radio-frequency receiving-transmitting part, is additionally provided with on-off circuit between the radio-frequency receiving-transmitting part and the corresponding distributing point, The on-off circuit is configured to when in opening, and the radio-frequency receiving-transmitting part is passed through the feed Point accesses the antenna, with least other described radio-frequency receiving-transmitting parts are same at least one identical moment all the way When pass through the antenna transceiving radio frequency signal.

7. a kind of electronic equipment, it is characterised in that the electronic equipment is included as claim 1 to 6 is arbitrary Described antenna module.

8. electronic equipment according to claim 7, it is characterised in that the antenna is that the electronics sets Standby metal shell, or, the antenna is the metal edge frame of the electronic equipment.

9. a kind of method of controlling antenna, it is characterised in that for the day as described in claim 1 to 6 is arbitrary In line component, methods described includes：

The radio-frequency receiving-transmitting part exports radiofrequency signal to the corresponding distributing point；

The antenna receives the described of radio-frequency receiving-transmitting part output described in each road by the different distributing points and penetrates Frequency signal；

The radiofrequency signal is launched by the antenna.

10. method according to claim 9, it is characterised in that the antenna module is claim 2 Described antenna module；

The radio-frequency receiving-transmitting part exports radiofrequency signal to the corresponding distributing point, including：

The radio-frequency receiving-transmitting part sends the radiofrequency signal to the corresponding isolation circuit；

The isolation circuit is carried out to the radiofrequency signal after isolation processing, is exported to the distributing point.

11. methods according to claim 9, it is characterised in that the antenna module is claim 3 Described antenna module；

The radio-frequency receiving-transmitting part exports radiofrequency signal to the corresponding distributing point, including：

The radio-frequency receiving-transmitting part exports the radio frequency letter to the corresponding distributing point by the match circuit Number.

12. methods according to claim 9, it is characterised in that the antenna module is claim 4 Described antenna module；

The radio-frequency receiving-transmitting part exports radiofrequency signal to the corresponding distributing point, including：

The radio-frequency receiving-transmitting part at least radiofrequency signal described in two-way will be merged into；

The radio-frequency receiving-transmitting part exports the merging radiofrequency signal to the distributing point.