CN105098316A - Electronic equipment - Google Patents

Abstract

The embodiment of the invention discloses electronic equipment. The electronic equipment comprises an antenna assembly and a metal assembly, wherein the metal assembly is a part forming the electronic equipment; the antenna assembly is arranged inside the electronic equipment, and the distance between the antenna assembly and the metal assembly is smaller than a first threshold value, so that a coupled antenna is formed by the antenna assembly and the metal assembly.

Description

A kind of electronic equipment

Technical field

The present invention relates to terminal equipment, be specifically related to a kind of electronic equipment.

Background technology

Along with the development of electronic equipment, electronic equipment more and more trends towards lightening.For the demand that electronic equipment is lightening, increasing electronic equipment directly utilizes metal shell as antenna.In this design, metal usually can be utilized to burst connect as the mainboard in the metal shell of antenna and electronic equipment; This metal burst into point be generally metal clips, adopt welding mode be welded on metal shell.Because the production method of welding is higher to required precision, therefore in welding process, slightly deviation just can affect the stability of antenna, thus affects the communication quality of electronic equipment, is unfavorable for the operating experience of user.

Summary of the invention

For solving the technical problem of existing existence, the embodiment of the present invention provides a kind of electronic equipment, can promote the stability of the antenna in electronic equipment.

For achieving the above object, the technical scheme of the embodiment of the present invention is achieved in that

Embodiments provide a kind of electronic equipment, described electronic equipment comprises: antenna module and metal assembly; Wherein,

Described metal assembly is the part forming described electronic equipment;

Described antenna module is arranged at described electronic equipment internal, and the distance between described antenna module and described metal assembly is less than first threshold, forms coupled antenna to make described antenna module and described metal assembly.

In such scheme, described metal assembly is the metallic bodies of described electronic equipment and/or the part of metal shell on the back.

In such scheme, described metallic bodies and/or metal shell on the back are provided with at least two point of cut-offs, the part or all of ground connection of described at least two point of cut-offs, the part metals frame body between described at least two point of cut-offs or the part metals shell on the back between described at least two point of cut-offs form described metal assembly.

In such scheme, described antenna module is provided with the first antenna sub-assemblies and the second antenna sub-assemblies; Described first antenna sub-assemblies is electrically connected with described second antenna sub-assemblies; Described first antenna sub-assemblies and described metal assembly form coupled antenna.

In such scheme, described first antenna sub-assemblies has the first length, has the first operating frequency range when described first antenna sub-assemblies has the first length.

In such scheme, described metal assembly has the second length, has the second operating frequency range when described metal assembly has the second length.

In such scheme, described first antenna sub-assemblies has the first length, and described metal assembly has the second length, and the coupled antenna that described first antenna sub-assemblies and described metal assembly are formed has the 3rd operating frequency range.

In such scheme, described first operating frequency range, described second operating frequency range or described 3rd operating frequency range meet the frequency range of Wireless Fidelity WI-FI signal, the frequency range of GPS (Global Position System) GNSS signal or the frequency range of Bluetooth signal.

In such scheme, described metal assembly comprises at least two metal sublayer assemblies; Distance then between described antenna module and described metal assembly is less than first threshold, coupled antenna is formed to make described antenna module and described metal assembly, for: the distance between described antenna module and the first metal sublayer assembly is less than first threshold, forms coupled antenna to make described antenna module and described at least two metal sublayer assemblies; Wherein, described first metal sublayer assembly for described in arbitrary metal sublayer assembly at least two metal sublayer assemblies.

The electronic equipment that the embodiment of the present invention provides, described electronic equipment comprises: antenna module and metal assembly; Wherein, described metal assembly is the part forming described electronic equipment; Described antenna module is arranged at described electronic equipment internal, and the distance between described antenna module and described metal assembly is less than first threshold, forms coupled antenna to make described antenna module and described metal assembly.So, adopt the technical scheme of the embodiment of the present invention, utilize the metal assembly of electronic equipment (namely forming the part of electronic equipment) to participate in the data-transformation facility of antenna, reduce the resource space shared by antenna on the one hand; The metal assembly (namely forming the part of electronic equipment) on the other hand realizing electronic equipment by the mode of antenna-coupled participates in the data-transformation facility of antenna, avoiding weld metal bursts into a problem for the antenna performance instability caused, thus substantially increase the communication quality of electronic equipment, improve the operating experience of user.

Accompanying drawing explanation

Fig. 1 is the first composition structural representation of the electronic equipment of the embodiment of the present invention;

Fig. 2 is the second composition structural representation of the electronic equipment of the embodiment of the present invention;

Fig. 3 is the third composition structural representation of the electronic equipment of the embodiment of the present invention;

Fig. 4 is the practical application scene schematic diagram in the embodiment of the present invention three;

Fig. 5 is the test schematic diagram one of the electronic equipment in the embodiment of the present invention three;

Fig. 6 is the test schematic diagram two of the electronic equipment in the embodiment of the present invention three;

Fig. 7 is the test schematic diagram three of the electronic equipment in the embodiment of the present invention three.

Embodiment

Below in conjunction with drawings and the specific embodiments, the present invention is further detailed explanation.

Embodiment one

The embodiment of the invention discloses a kind of electronic equipment.Fig. 1 is the first composition structural representation of the electronic equipment of the embodiment of the present invention; As shown in Figure 1, described electronic equipment comprises: antenna module 11 and metal assembly 12; Wherein, described metal assembly 12 is the part forming described electronic equipment; Described antenna module 11 is arranged at described electronic equipment internal, and the distance between described antenna module 11 and described metal assembly 12 is less than first threshold, forms coupled antenna to make described antenna module 11 with described metal assembly 12.

In the present embodiment, described electronic equipment is specifically as follows the mobile devices such as mobile phone, panel computer, notebook computer.Described electronic equipment is provided with metal assembly, and described metal assembly can be the part of the metal shell on the back of described electronic equipment, also can be the part of the metallic bodies of described electronic equipment.In actual applications, when described electronic equipment is provided with metallic bodies, all or part of metal assembly that can directly be used as described in the present embodiment of described metallic bodies; When described electronic equipment is provided with metal shell on the back, described metal shell on the back can mark off the part with certain length and width in advance, then the part metals shell on the back marked off can be used as the metal assembly described in the present embodiment.Fig. 2 is the second composition structural representation of the electronic equipment of the embodiment of the present invention; Electronic equipment as shown in Figure 2 has metallic bodies, then, under this application scene, described metal assembly 12 is the part of the metallic bodies of described electronic equipment.

Concrete, need pre-configured certain length as the metal assembly 12 with antenna function, the length of described metal assembly 12 meets waiting for transmission electromagnetic 1/2nd or quarter-wave.Based on this, in the present embodiment, described metallic bodies and/or metal shell on the back are provided with at least two point of cut-offs, the part or all of ground connection of described at least two point of cut-offs, the part metals frame body between described at least two point of cut-offs or the part metals shell on the back between described at least two point of cut-offs form described metal assembly 12.

In the present embodiment, described at least two point of cut-offs are for changing the length of described metal assembly 12, with make described metal assembly 12 can transmission center frequency at the electromagnetic wave of a certain frequency range, also namely described metal assembly 12 has the antenna function be operated in described frequency range.For the electronic equipment shown in Fig. 1, two point of cut-offs 13 are provided with in described electronic equipment, described two point of cut-offs 13 all ground connection, with the length being controlled described metal assembly 12 by described two point of cut-offs 13 between described two point of cut-offs 13 and near the part of described antenna module 11.

In the present embodiment, described antenna module 11 is specifically as follows any antenna type be connected with the distributing point on the mainboard of electronic equipment, as unipole antenna.One end of described antenna module 11 is connected with the distributing point on the mainboard of electronic equipment, and the other end of described antenna module 11 is near described metal assembly 12, and the distance between described antenna module 11 and described metal assembly 12 is less than first threshold; Here, described first threshold can be the arbitrary numerical value making described antenna module 11 and described metal assembly 12 have coupled relation.Preferably, described antenna module 11 can be parallel with the part of described metal assembly 12, then the distance between described antenna module 11 with described metal assembly 12 is the distance between described antenna module 11 and part metals assembly 12 parallel with it.

In the present embodiment, described antenna module 11 forms coupled antenna with described metal assembly 12 because distance is therebetween less than described first threshold, therefore, described antenna module 11, described metal assembly 12 and described coupled antenna are respectively as radiant section, and also namely described antenna module 11, described metal assembly 12 and described coupled antenna can transmit electromagnetic wave respectively.Concrete, the length of described antenna module 11 meets waiting for transmission electromagnetic 1/2nd or quarter-wave; The length of described metal assembly 12 meets waiting for transmission electromagnetic 1/2nd or quarter-wave; The length ratio relation of described antenna module 11 and described metal assembly 12 meets certain relation, makes the operating frequency of described coupled antenna meet the center operating frequency of electron waves waiting for transmission.Based on this, only need the length adjusting described antenna module 11, the length of described metal assembly 12 and the length ratio relation of described antenna module 11 and described metal assembly 12, just can meet wherein three of following transfer function: global system for mobile communications (GSM, GlobalSystem ■ forMobileCommunication), universal mobile telecommunications system (UMTS, UniversalMobileTelecommunicationsSystem), Long Term Evolution (LTE, LongTerm ■ Evolution) data-transformation facility of the mobile communication such as system, and GPS (Global Position System) (GNSS, GlobalNavigationSatelliteSystem), Wireless Fidelity (Wi-Fi, Wireless-Fidelity), the data-transformation facility of the communication technologys such as bluetooth.

Adopt the technical scheme of the embodiment of the present invention, utilize the metal assembly of electronic equipment (namely forming the part of electronic equipment) to participate in the data-transformation facility of antenna, reduce the resource space shared by antenna on the one hand; The metal assembly (namely forming the part of electronic equipment) on the other hand realizing electronic equipment by the mode of antenna-coupled participates in the data-transformation facility of antenna, avoiding weld metal bursts into a problem for the antenna performance instability caused, thus substantially increase the communication quality of electronic equipment, improve the operating experience of user.

Embodiment two

The embodiment of the invention also discloses a kind of electronic equipment, shown in figure 1, described electronic equipment comprises: antenna module 11 and metal assembly 12; Wherein, described metal assembly 12 is the part forming described electronic equipment; Described antenna module 11 is arranged at described electronic equipment internal, and the distance between described antenna module 11 and described metal assembly 12 is less than first threshold, forms coupled antenna to make described antenna module 11 with described metal assembly 12; Described antenna module 11 is provided with the first antenna sub-assemblies and the second antenna sub-assemblies; Described first antenna sub-assemblies is electrically connected with described second antenna sub-assemblies; Described first antenna sub-assemblies and described metal assembly 12 form coupled antenna.

In the present embodiment, described electronic equipment is specifically as follows the mobile devices such as mobile phone, panel computer, notebook computer.Described electronic equipment is provided with metal assembly, and described metal assembly can be the part of the metal shell on the back of described electronic equipment, also can be the part of the metallic bodies of described electronic equipment.In actual applications, when described electronic equipment is provided with metallic bodies, all or part of metal assembly that can directly be used as described in the present embodiment of described metallic bodies; When described electronic equipment is provided with metal shell on the back, described metal shell on the back can mark off the part with certain length and width in advance, then the part metals shell on the back marked off can be used as the metal assembly described in the present embodiment.Electronic equipment as shown in Figure 2 has metallic bodies, then, under this application scene, described metal assembly is the part of the metallic bodies of described electronic equipment.

Concrete, need pre-configured certain length as the metal assembly 12 with antenna function, the length of described metal assembly 12 meets waiting for transmission electromagnetic 1/2nd or quarter-wave.Based on this, in the present embodiment, described metallic bodies and/or metal shell on the back are provided with at least two point of cut-offs, the part or all of ground connection of described at least two point of cut-offs, the part metals frame body between described at least two point of cut-offs or the part metals shell on the back between described at least two point of cut-offs form described metal assembly 12.

In the present embodiment, described at least two point of cut-offs are for changing the length of described metal assembly 12, with make described metal assembly 12 can transmission center frequency at the electromagnetic wave of a certain frequency range, also namely described metal assembly 12 has the antenna function be operated in described frequency range.For the electronic equipment shown in Fig. 1, two point of cut-offs 13 are provided with in described electronic equipment, described two point of cut-offs 13 all ground connection, with the length being controlled described metal assembly 12 by described two point of cut-offs 13 between described two point of cut-offs 13 and near the part of described antenna module 11.

In the present embodiment, described antenna module 11 is specifically as follows any antenna type be connected with the distributing point on the mainboard of electronic equipment, as unipole antenna.Present embodiment specifically can as shown in Figure 1, and the antenna module 11 in Fig. 1 has mutually perpendicular two parts, and wherein, vertical part is described second antenna sub-assemblies, and described second antenna sub-assemblies is connected with the distributing point on the mainboard of electronic equipment; The part vertical with described second antenna sub-assemblies is described first antenna sub-assemblies, and described first antenna sub-assemblies is parallel with the part of described metal assembly 12; Be electrically connected between described first antenna sub-assemblies and described second antenna sub-assemblies.When distance then between described first antenna sub-assemblies and described metal assembly 12 is less than described first threshold, described first antenna sub-assemblies and described metal assembly 12 form coupled antenna.Certainly, described first antenna sub-assemblies and described second antenna sub-assemblies can be realized by an antenna in actual applications, the partial fixing of a described antenna is parallel with the part of described metal assembly 12, the other end of a described antenna is connected with the distributing point on the mainboard of electronic equipment.

Then based on present embodiment, the antenna function that described antenna module 11 has realizes based on the first antenna sub-assemblies of described antenna module 11, and also namely the length of described first antenna sub-assemblies meets waiting for transmission electromagnetic 1/2nd or quarter-wave.The length of described metal assembly 12 meets waiting for transmission electromagnetic 1/2nd or quarter-wave; The length ratio relation of described first antenna sub-assemblies and described metal assembly 12 meets certain relation, makes the operating frequency of described coupled antenna meet the center operating frequency of electron waves waiting for transmission.

Concrete, described first antenna sub-assemblies has the first length, has the first operating frequency range when described first antenna sub-assemblies has the first length.Described metal assembly 12 has the second length, has the second operating frequency range when described metal assembly 12 has the second length.Then described first antenna sub-assemblies can transmit the electromagnetic wave of the first operating frequency range, and described metal assembly 12 can transmit the electromagnetic wave of the second operating frequency range; When proportionate relationship (i.e. A/B) between the first length A and the second length B of described metal assembly 12 of described first antenna sub-assemblies meets certain condition, the coupled antenna that described first antenna sub-assemblies and described metal assembly 12 are formed can transmit the electromagnetic wave of the 3rd operating frequency range.

Based on this, only need to adjust the length ratio relation of the length of described first antenna sub-assemblies, the length of described metal assembly 12 and described first antenna sub-assemblies and described metal assembly 12, just can meet wherein three: the GSM of following transfer function, the data-transformation facility of the mobile communication such as UMTS, LTE system, and the data-transformation facility of the communication technology such as GNSS, Wi-Fi, bluetooth.

Adopt the technical scheme of the embodiment of the present invention, utilize the metal assembly of electronic equipment (namely forming the part of electronic equipment) to participate in the data-transformation facility of antenna, reduce the resource space shared by antenna on the one hand; The metal assembly (namely forming the part of electronic equipment) on the other hand realizing electronic equipment by the mode of antenna-coupled participates in the data-transformation facility of antenna, avoiding weld metal bursts into a problem for the antenna performance instability caused, thus substantially increase the communication quality of electronic equipment, improve the operating experience of user.

Embodiment three

The embodiment of the invention also discloses a kind of electronic equipment.Fig. 3 is the third composition structural representation of the electronic equipment of the embodiment of the present invention; As shown in Figure 3, described electronic equipment comprises: antenna module 11 and metal assembly 12; Wherein, described metal assembly 12 is the part forming described electronic equipment; Described antenna module 11 is arranged at described electronic equipment internal, and the distance between described antenna module 11 and described metal assembly 12 is less than first threshold, forms coupled antenna to make described antenna module 11 with described metal assembly 12;

Wherein, described metal assembly 12 comprises at least two metal sublayer assemblies; Distance between described antenna module 11 and the first metal sublayer assembly is less than first threshold, forms coupled antenna to make described antenna module 11 with described at least two metal sublayer assemblies; Wherein, described first metal sublayer assembly for described in arbitrary metal sublayer assembly at least two metal sublayer assemblies.

In the present embodiment, described electronic equipment is specifically as follows the mobile devices such as mobile phone, panel computer, notebook computer.Described electronic equipment is provided with metal assembly, and described metal assembly can be the part of the metal shell on the back of described electronic equipment, also can be the part of the metallic bodies of described electronic equipment.In actual applications, when described electronic equipment is provided with metallic bodies, all or part of metal assembly that can directly be used as described in the present embodiment of described metallic bodies; When described electronic equipment is provided with metal shell on the back, described metal shell on the back can mark off the part with certain length and width in advance, then the part metals shell on the back marked off can be used as the metal assembly described in the present embodiment.Electronic equipment as shown in Figure 2 has metallic bodies, then, under this application scene, described metal assembly is the part of the metallic bodies of described electronic equipment.

In the present embodiment, as shown in Figure 3, described metal assembly is divided into three metal sublayer assemblies by four point of cut-offs, is respectively: metal assembly a121, metal assembly b122 and metal assembly c133.Described antenna module is specifically as follows any antenna type be connected with the distributing point on the mainboard of electronic equipment, as unipole antenna.One end of described antenna module is connected with the distributing point on the mainboard of electronic equipment, the arbitrary metal sublayer assembly of the other end in described metal assembly of described antenna module, in figure 3, described antenna module is near described metal assembly a121, then the distance between described antenna module and described metal assembly a121 is less than first threshold; Here, described first threshold can be the arbitrary numerical value making described antenna module and described metal assembly a121 have coupled relation.Further, because the width of point of cut-off 133 and point of cut-off 134 is narrower, be usually also less than described first threshold, then described antenna module can be understood as and forms coupled antenna with described metal assembly b122 and described metal assembly c123 respectively.At least two metal sublayer assemblies then in described antenna module and described metal assembly form coupled antenna.

Preferably, described antenna module 11 is provided with the first antenna sub-assemblies and the second antenna sub-assemblies; Described first antenna sub-assemblies is electrically connected with described second antenna sub-assemblies; Described first antenna sub-assemblies and described metal assembly form coupled antenna, and at least two metal sublayer assemblies also namely in described first antenna sub-assemblies and described metal assembly form coupled antenna.Antenna module as shown in Figure 3 has mutually perpendicular two parts, and wherein, vertical part is described second antenna sub-assemblies, and described second antenna sub-assemblies is connected with the distributing point on the mainboard of electronic equipment; The part vertical with described second antenna sub-assemblies is described first antenna sub-assemblies, and described first antenna sub-assemblies is parallel with the part of described metal assembly, and described first antenna sub-assemblies is as shown in Figure 3 parallel with described metal assembly a121; Be electrically connected between described first antenna sub-assemblies and described second antenna sub-assemblies.When distance then between described first antenna sub-assemblies and described metal assembly a121 is less than described first threshold, at least two metal sublayer assemblies in described first antenna sub-assemblies and described metal assembly form coupled antenna.Certainly, described first antenna sub-assemblies and described second antenna sub-assemblies can be realized by an antenna in actual applications, the partial fixing of a described antenna is parallel with the part of described metal assembly, the other end of a described antenna is connected with the distributing point on the mainboard of electronic equipment.

Based on present embodiment, the antenna function that described antenna module 11 has realizes based on the first antenna sub-assemblies of described antenna module, and also namely the length of described first antenna sub-assemblies meets waiting for transmission electromagnetic 1/2nd or quarter-wave.The length of described metal assembly a121 meets waiting for transmission electromagnetic 1/2nd or quarter-wave; The length of described metal assembly b122 meets waiting for transmission electromagnetic 1/2nd or quarter-wave; The length of described metal assembly c133 meets waiting for transmission electromagnetic 1/2nd or quarter-wave; The length ratio relation of described first antenna sub-assemblies and described metal assembly a121 meets certain relation, makes the operating frequency of described coupled antenna meet the center operating frequency of electron waves waiting for transmission.

In the present embodiment, described metal assembly a121 by adjustment point of cut-off 133 and point of cut-off 134 Position Control described in the length of metal assembly a121; Described metal assembly b122 by adjustment point of cut-off 133 and point of cut-off 131 Position Control described in the length of metal assembly b122; Described metal assembly c133 by adjustment point of cut-off 134 and point of cut-off 132 Position Control described in the length of metal assembly c133; Thus make metal assembly a121, metal assembly b122 and metal assembly c133 can distinguish the electromagnetic wave of transmission center frequency at frequency range a, frequency range b and frequency range c.The length then adjusting described first antenna sub-assemblies can obtain the operating frequency of 2.4GHz to 2.5GHz; Adjust the proportionate relationship of the length of described first antenna sub-assemblies and the length of described metal assembly a121, the operating frequency of 5GHz can be obtained; The length adjusting described metal assembly b122 can obtain the operating frequency of 5GHz; The length adjusting described metal assembly c133 can obtain the operating frequency of 1.5GHz.

Fig. 4 is the practical application scene schematic diagram in the embodiment of the present invention three; Electronic equipment described in the present embodiment realizes by shown in Fig. 4 in actual applications, composition graphs 3, and namely metal assembly a121, metal assembly b122 and metal assembly c123 are respectively the part of the metallic bodies of electronic equipment; Described antenna module is arranged at electronic equipment internal, first antenna sub-assemblies and the described metal assembly a121 of described antenna module be arranged in parallel, because described first antenna sub-assemblies can be paster antenna, then described first antenna specifically can paste the frame body side with described metal assembly a121 place, specifically can be as shown in Figure 4.

Fig. 5 is the test schematic diagram one of the electronic equipment in the embodiment of the present invention three, is specially RL return loss schematic diagram, and namely abscissa characterizes RL return loss degree; As shown in Figure 5, the frequency range of the first antenna sub-assemblies in electronic equipment meets the frequency range between mark 1 and mark 2, the i.e. operating frequency range of 2.4GHz to 2.5GHz; Metal assembly c133 meets the frequency range between mark 5 and mark 6, i.e. the operating frequency range of 1.575GHz to 1.615GHz; The coupled antenna that the length of described first antenna sub-assemblies and described metal assembly a121 are formed meets the frequency that mark 3 characterizes, i.e. the operating frequency of 5.15GHz; Metal assembly b122 meets the frequency that mark 4 characterizes, i.e. the operating frequency of 5.9GHz.

Fig. 6 and Fig. 7 is respectively test schematic diagram two and the schematic diagram three of the electronic equipment in the embodiment of the present invention three.The efficiency of the length that Fig. 6 shows the average gain of the coupled antenna that the length of the first antenna sub-assemblies, metal assembly c133, the first antenna sub-assemblies and described metal assembly a121 are formed and metal assembly b122, Fig. 7 shows the first antenna sub-assemblies, metal assembly c133, the first antenna sub-assemblies and the coupled antenna that described metal assembly a121 is formed and metal assembly b122; As shown in Figure 7, the efficiency of metal assembly c133 in the operating frequency range of 1.575GHz to 1.615GHz reaches 43.2% ~ 50.1%; First antenna sub-assemblies reaches 40.7% ~ 49.3% in the efficiency of the operating frequency range of 2.4GHz to 2.5GHz; The coupled antenna that the length of described first antenna sub-assemblies and described metal assembly a121 are formed, and the efficiency of described metal assembly b122 in the operating frequency range of 5GHz reaches 32.2% ~ 50.2%.

Adopt the technical scheme of the embodiment of the present invention, utilize the metal assembly of electronic equipment (namely forming the part of electronic equipment) to participate in the data-transformation facility of antenna, reduce the resource space shared by antenna on the one hand; The metal assembly (namely forming the part of electronic equipment) on the other hand realizing electronic equipment by the mode of antenna-coupled participates in the data-transformation facility of antenna, avoiding weld metal bursts into a problem for the antenna performance instability caused, thus substantially increase the communication quality of electronic equipment, improve the operating experience of user.

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.

One of ordinary skill in the art will appreciate that: all or part of step realizing said method embodiment can have been come by the hardware that program command is relevant, aforesaid program can be stored in a computer read/write memory medium, this program, when performing, performs the step comprising said method embodiment; And aforesaid storage medium comprises: movable storage device, read-only memory (ROM, Read-OnlyMemory), random access memory (RAM, Random ■ AccessMemory), magnetic disc or CD etc. various can be program code stored medium.

Or, 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, ROM, RAM, 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 (9)

1. an electronic equipment, described electronic equipment comprises: antenna module and metal assembly; Wherein,

Described metal assembly is the part forming described electronic equipment;

Described antenna module is arranged at described electronic equipment internal, and the distance between described antenna module and described metal assembly is less than first threshold, forms coupled antenna to make described antenna module and described metal assembly.

2. electronic equipment according to claim 1, is characterized in that, described metal assembly is the metallic bodies of described electronic equipment and/or the part of metal shell on the back.

3. electronic equipment according to claim 2, it is characterized in that, described metallic bodies and/or metal shell on the back are provided with at least two point of cut-offs, the part or all of ground connection of described at least two point of cut-offs, the part metals frame body between described at least two point of cut-offs or the part metals shell on the back between described at least two point of cut-offs form described metal assembly.

4. electronic equipment according to claim 1, is characterized in that, described antenna module is provided with the first antenna sub-assemblies and the second antenna sub-assemblies; Described first antenna sub-assemblies is electrically connected with described second antenna sub-assemblies; Described first antenna sub-assemblies and described metal assembly form coupled antenna.

5. electronic equipment according to claim 4, is characterized in that, described first antenna sub-assemblies has the first length, has the first operating frequency range when described first antenna sub-assemblies has the first length.

6. electronic equipment according to claim 1, is characterized in that, described metal assembly has the second length, has the second operating frequency range when described metal assembly has the second length.

7. electronic equipment according to claim 4, it is characterized in that, described first antenna sub-assemblies has the first length, and described metal assembly has the second length, and the coupled antenna that described first antenna sub-assemblies and described metal assembly are formed has the 3rd operating frequency range.

8. the electronic equipment according to claim 5,6 or 7, it is characterized in that, described first operating frequency range, described second operating frequency range or described 3rd operating frequency range meet the frequency range of Wireless Fidelity WI-FI signal, the frequency range of GPS (Global Position System) GNSS signal or the frequency range of Bluetooth signal.

9. electronic equipment according to claim 1, is characterized in that, described metal assembly comprises at least two metal sublayer assemblies; Distance then between described antenna module and described metal assembly is less than first threshold, coupled antenna is formed to make described antenna module and described metal assembly, for: the distance between described antenna module and the first metal sublayer assembly is less than first threshold, forms coupled antenna to make described antenna module and described at least two metal sublayer assemblies; Wherein, described first metal sublayer assembly for described in arbitrary metal sublayer assembly at least two metal sublayer assemblies.