CN106025545A - Antenna device and terminal device - Google Patents

Abstract

The invention provides an antenna device comprising at least two matching circuits, a metal frame, and a selection circuit. At least one slit tape is arranged at the metal frame and segments the metal frame into at least one independent frame body. The selection circuit is connected between the at least one independent frame body and at least two matching circuits and is used for selecting establishment of connection between a target frame body and a target matching circuit. In addition, the invention also provides terminal equipment. According to the invention, the bandwidth of the antenna can be increased.

Description

Antenna assembly and terminal unit

Technical field

The present invention relates to mobile communication technology, particularly relate to a kind of antenna assembly and terminal unit.

Background technology

Owing to using metal material as shell so that the appearance design of the terminal units such as mobile phone more texture, Therefore the mobile phone using metal shell gradually occupies the market mainstream.Traditional hands has been broken in the appearance of metal shell The mentality of designing of machine antenna, considerably increases the difficulty of Antenna Design.In prior art, start to consider gold Belong to a shell part as antenna, use metal shell to carry out signal radiation.Along with mobile communication technology Evolution, the frequency range being applied on mobile phone terminal also gets more and more, and this just requires that antenna for mobile phone has good holding concurrently Capacitive, is simultaneously operable in multiple frequency ranges.But, the antenna for mobile phone of metal current shell, its frequency range is past Toward not enough, it is difficult to meet the demand of communication.

Summary of the invention

The present invention provides a kind of antenna assembly, it is possible to widen the frequency range of antenna assembly further, improves sky traditional thread binding The performance put.

A kind of antenna assembly, including at least two match circuit, metal edge frame and selection circuit.Described gold Belonging to frame and be provided with at least one gap band, described metal edge frame is divided at least by least one gap band described One section of independent framework.Described selection circuit be connected to described at least one section of independent framework and described at least two Between individual match circuit, set up the connection between target framework and object matching circuit for selection.

Wherein, described slit band includes at least two spaced slits, between adjacent two described slits There is bonding jumper.

Wherein, the quantity of at least one gap band described is two, and said two gap band is by described metal edges Frame is divided into the first separate framework and the second framework, described at least two match circuit to include first Distribution road and the second match circuit, described selection circuit includes the first switch, second switch and the 3rd switch, Described first switch is connected between the first framework and the first match circuit, and described second switch is connected to second Between framework and the second match circuit, described 3rd switch is connected to first switch terminal near the first framework And second switch is between the terminal of the second framework.

Wherein, when first switch, second switch and the 3rd switch be turned on or off relationship change time, described Annexation change between first, second framework and first, second match circuit, and set up target framework And the connection between object matching circuit.

Wherein, described first switch and second switch conducting, the 3rd when switching off, described first framework with First match circuit connects, and described second framework is connected with the second match circuit；When described first switch and the Three switch conductions, when second switch disconnects, described first framework and the second framework are all with the first match circuit even Connect；When described second switch and the 3rd switch conduction, first when switching off, described first framework and second Framework is all connected with the second match circuit.

Wherein, the quantity of at least one gap band described is four, and described four gap bands are by described metal edges Frame is divided into separate four framework, the quantity of described at least two match circuit to be four, described choosing Select circuit and include that some switch modules, each switch module are connected between two frameworks and two match circuits, Each switch module includes that the first switch, second switch and the 3rd switch, described first switch are connected to wherein Between one framework and wherein a match circuit, described second switch is connected to another framework and another match circuit Between, described 3rd switch is connected to the first switch and second switch between the terminal of corresponding framework.

Wherein, when first switch, second switch and the 3rd switch be turned on or off relationship change time, described Annexation change between two frameworks and two match circuits, and set up target framework and object matching electricity Connection between road.

Wherein, described antenna assembly also includes at least two RF transmit-receive circuit, and described at least two radio frequency is received Power Generation Road is identical with the quantity of described at least two match circuit and connects one to one, each radio-frequency receiving-transmitting Circuit is for producing or receive the aerial signal of special frequency channel.

Wherein, each in described at least two RF transmit-receive circuit be GSM antenna RF transmit-receive circuit, CDMA antenna rf transmission circuit, Bluetooth antenna RF transmit-receive circuit, WIFI antenna rf transmission circuit, One in NFC antenna RF transmit-receive circuit.

Wherein, the width of described slit band is 1.5mm, 5.0mm or 1.5mm～5.0mm.

Wherein, the width of described slit is 0.05mm, 0.3mm or 0.05mm～0.3mm.

Wherein, described slit is filled non-signal shielding material.

Wherein, the value in the range of the width of described bonding jumper is 0.1mm, 0.5mm or 0.1mm to 0.5mm.

Also providing for a kind of terminal unit, described terminal unit includes aforesaid antenna assembly.

Compared to prior art, metal edge frame is divided into by the present invention by arranging gap band on metal edge frame At least one independent framework, and the match circuit that changeable framework is connected, such that it is able to improve antenna The bandwidth of device.

Accompanying drawing explanation

In order to be illustrated more clearly that the embodiment of the present invention or technical scheme of the prior art, below will be to enforcement In example or description of the prior art, the required accompanying drawing used is briefly described, it should be apparent that, describe below In accompanying drawing be only some embodiments of the present invention, for those of ordinary skill in the art, do not paying On the premise of going out creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the schematic diagram of the antenna assembly in first embodiment of the invention.

Fig. 2 is the schematic diagram of the antenna assembly in second embodiment of the invention.

Fig. 3 is the block diagram of the terminal unit in one embodiment of the invention.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clearly Chu, be fully described by, it is clear that described embodiment be only a part of embodiment of the present invention rather than Whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art are not making creation The every other embodiment obtained under property work premise, broadly falls into the scope of protection of the invention.

Refer to Fig. 1, for the schematic diagram of the antenna assembly 100 in the first embodiment of the present invention.Described antenna Device 100 includes metal edge frame 10, at least two match circuit 20 and selection circuit 30.

Described metal edge frame 10 is provided with at least one gap band 11, and at least one gap band 11 described is by described Metal edge frame 10 is divided at least one section of independent framework 12.

Described selection circuit 30 be connected to described at least one section of independent framework 12 mate with described at least two Between circuit 20, for selecting the target framework 12 and the object matching circuit 20 that need to connect, and set up mesh Connection between mark framework 12 and object matching circuit 20.

Described gap band 11 is slit band, as it is shown in figure 1, described slit band includes that at least two are spaced Slit 111, between adjacent two described slits 111, there is bonding jumper 112.Wherein, described bonding jumper 112 Length direction parallel with the width of metal edge frame 10.

In the present embodiment, the quantity of at least one gap band 11 described is two, said two gap band 11 Described metal edge frame 10 is divided into the first separate framework 121 and the second framework 122, described at least Two match circuits 20 include the first match circuit 21 and the second match circuit 22.Described selection circuit 30 wraps Including the first switch K1, second switch K2 and the 3rd switch K3, described first switch K1 is connected to the first frame Between body 121 and the first match circuit 21, described second switch K2 is connected to the second framework 122 and second Between match circuit 22, described 3rd switch K3 is connected to the first switch K1 near the first framework 121 Terminal (non-label in figure) and second switch K2 near the second framework 122 terminal (non-label in figure) it Between.

When first switch K1, second switch K2 and the 3rd switch K3 be turned on or off relationship change time, institute State the annexation between first, second framework 121,122 and first, second match circuit 21,22 to become Change, and set up the connection between target framework 12 and object matching circuit 20.

Concrete, described first switch K1 and second switch K2 conducting, when the 3rd switch K3 disconnects, institute State the first framework 121 to be connected with the first match circuit 21, described second framework 122 and the second match circuit 22 Connect.When described first switchs K1 and the 3rd switch K3 conducting, when second switch K2 disconnects, described the One framework 121 and the second framework 122 are all connected with the first match circuit 122.As described second switch K2 and 3rd switch K3 conducting, when the first switch K1 disconnects, described first framework 121 and the second framework 122 are equal It is connected with the second match circuit 22.

Wherein, after described match circuit 20 connects framework 12, for using framework 12 as antenna assembly 100 Radiant body.By described selection circuit 30, can select to be connected to different match circuits by framework 12, thus Increase the frequency range of antenna assembly.

Described antenna assembly 100 also includes at least two RF transmit-receive circuit 40, and described at least two radio frequency is received Power Generation Road 40 is identical with the quantity of described at least two match circuit 20 and connects one to one, and each is penetrated Frequently transmission circuit 40 is for producing or receive the aerial signal of special frequency channel.

Described RF transmit-receive circuit 40 is GSM (global system for mobile communications, Global mobile communication) antenna rf transmission circuit, CDMA (CodeDivisionMultipleAccess；Code division Multiple access) antenna rf transmission circuit, Bluetooth antenna RF transmit-receive circuit, WIFI antenna rf transmission circuit, One in NFC antenna RF transmit-receive circuit.

The width of described gap band 11 is 1.5mm, 5.0mm or 1.5mm～5.0mm.The width of described slit Degree is 0.05mm, 0.3mm or 0.05mm～0.3mm.Described slit is filled non-signal shielding material, example Such as insulant such as plastic cement.The width of described bonding jumper is 0.1mm, 0.5mm or 0.1mm to 0.5mm model Enclose interior value.

Refer to Fig. 2, for the schematic diagram of the antenna assembly 200 in the second embodiment of the present invention.Described antenna Device 200 includes metal edge frame 31, at least two match circuit 32 and selection circuit 33.

In a second embodiment, as in figure 2 it is shown, the number of described at least two match circuit 32 is four, Described metal edge frame 31 is provided with four gap bands 311, and described four slit bands 311 are by described metal edge frame 31 It is divided into four sections of independent frameworks 312.

Described selection circuit 33 is connected to described four sections of independent frameworks 312 and described four match circuits 32 Between, for selecting the target framework 312 and the object matching circuit 32 that need to connect, and set up target framework Connection between 312 and object matching circuit 32.

Same, described gap band 311 is slit band, described slit band include at least two spaced Slit 313, has bonding jumper 314 between adjacent two described slits 313.Wherein, described bonding jumper 314 Length direction parallel with the width of metal edge frame 31.

Described selection circuit 33 includes that some switch modules 331, each switch module 331 are connected to two frames Between body 312 and two match circuits 32, each switch module 331 includes the first switch K1, second opens Close K2 and the 3rd switch K3.Described first switch K1 is connected to a wherein framework 312 and mates electricity with wherein one Between road 32, described second switch K2 is connected between another framework 312 and another match circuit 32, institute State the 3rd switch K3 and be connected to the first switch K1 and the second switch K2 terminal (figure near corresponding framework 312 In do not indicate) between.

In the present embodiment, each switch module 331 is to be connected to two adjacent frameworks 312 and two couplings Between circuit 32, between each switch module 331 with adjacent two switch modules 331, share first respectively Switch K1 and second switch K2.Obviously, in other embodiments, each switch module 331 can connect appoint Anticipate between two frameworks 312 and two match circuits, and each switch module 331 include first switch K1, Second switch K2 and the 3rd switch K3 does not shares with other switch modules 331.

Wherein, as first switch K1, the second switch K2 and the 3rd switch K3 of a certain switch module 331 Be turned on or off relationship change time, described switch module 331 connect two frameworks 312 and two couplings Annexation change between circuit 32, and set up between target framework 312 and object matching circuit 32 Connect.Wherein, concrete variation relation is identical with aforesaid description, therefore does not repeats at this.

Described antenna assembly 200 also includes at least two RF transmit-receive circuit 34, and described at least two radio frequency is received Power Generation Road 34 is identical with the quantity of described at least two match circuit 32 and connects one to one, and each is penetrated Frequently transmission circuit 34 is for producing or receive the aerial signal of special frequency channel.

Equally, described RF transmit-receive circuit 40 is GSM (global system for mobile Communications, global mobile communication) antenna rf transmission circuit, CDMA (CodeDivisionMultipleAccess；CDMA) antenna rf transmission circuit, Bluetooth antenna radio frequency receive One in Power Generation Road, WIFI antenna rf transmission circuit, NFC antenna RF transmit-receive circuit.

Equally, the width of described gap band 11 is 1.5mm, 5.0mm or 1.5mm～5.0mm.Described micro- The width of seam is 0.05mm, 0.3mm or 0.05mm～0.3mm.Described slit is filled non-signal shielding material Material, the insulant such as such as plastic cement.The width of described bonding jumper is 0.1mm, 0.5mm or 0.1mm to 0.5mm In the range of value.

Wherein, the metal edge frame shown in Fig. 1 and Fig. 2 is the side frame of terminal unit, when terminal unit When back cover is metal material, metal edge frame electrically insulates with back cover.

Wherein, in other embodiments, the number of described gap band can also be three, and by metal edge frame It is divided into three independent frameworks, or is five, metal edge frame is divided into five independent frameworks, etc. Deng.The number of described match circuit and RF transmit-receive circuit can also be three, five etc..

Refer to Fig. 3, for the block diagram of the terminal unit 1 in one embodiment of the invention, described terminal unit 1 Including antenna assembly 100,200 as shown in Figure 1-2.Obviously, terminal unit 1 may also include processor, Other elements such as memorizer, display screen, unrelated owing to improving with the present invention, therefore be not shown, the most not Repeat at this.

Terminal unit 1 can be mobile phone, panel computer, personal digital assistant PDA, point-of-sale terminal POS or Vehicle-mounted computer etc..

Above disclosed be only present pre-ferred embodiments, certainly can not with this limit the present invention it Interest field, one of ordinary skill in the art will appreciate that all or part of flow process realizing above-described embodiment, And according to the equivalent variations that the claims in the present invention are made, still fall within the scope that invention is contained.

Claims (14)

1. an antenna assembly, it is characterised in that include

At least two match circuit；

Metal edge frame, described metal edge frame is provided with at least one gap band, and at least one gap band described is by institute State metal edge frame and be divided at least one section of independent framework；And

Selection circuit, be connected to described between at least one section of independent framework and described at least two match circuit, The connection between target framework and object matching circuit is set up for selection.

2. antenna assembly as claimed in claim 1, it is characterised in that described slit band includes at least two Spaced slit, has bonding jumper between adjacent two described slits.

3. antenna assembly as claimed in claim 2, it is characterised in that the number of at least one gap band described Amount is two, and described metal edge frame is divided into separate the first framework and second by said two gap band Framework, described at least two match circuit includes the first match circuit and the second match circuit, described selection electricity Road includes that the first switch, second switch and the 3rd switch, described first switch are connected to the first framework and first Between match circuit, described second switch is connected between the second framework and the second match circuit, and the described 3rd Switch be connected to the first switch near the terminal of the first framework and second switch near the second framework terminal it Between.

4. antenna assembly as claimed in claim 3, it is characterised in that when the first switch, second switch and 3rd switch be turned on or off relationship change time, described first, second framework and first, second coupling electricity Annexation change between road, and set up the connection between target framework and object matching circuit.

5. antenna assembly as claimed in claim 4, it is characterised in that described first switch and second switch Conducting, the 3rd when switching off, and described first framework is connected with the first match circuit, described second framework and Second match circuit connects；When described first switch and the 3rd switch conduction, when second switch disconnects, described First framework and the second framework are all connected with the first match circuit；When described second switch and the 3rd switch conduction, First when switching off, and described first framework and the second framework are all connected with the second match circuit.

6. antenna assembly as claimed in claim 2, it is characterised in that the number of at least one gap band described Amount is four, and described metal edge frame is divided into separate four framework by described four gap bands, described The quantity of at least two match circuit is four, and described selection circuit includes some switch modules, each switch Module is connected between two frameworks and two match circuits, each switch module include the first switch, second Switch and the 3rd switch, described first switch is connected to a wherein framework and wherein between a match circuit, institute Stating second switch to be connected between another framework and another match circuit, described 3rd switch is connected to first and opens Close and second switch is between the terminal of corresponding framework.

7. antenna assembly as claimed in claim 6, it is characterised in that when the first switch, second switch and 3rd switch be turned on or off relationship change time, the connection between said two framework and two match circuits Relationship change, and set up the connection between target framework and object matching circuit.

8. the antenna assembly as described in any one of claim 1-7, it is characterised in that described antenna assembly is also Including at least two RF transmit-receive circuit, described at least two RF transmit-receive circuit mates with described at least two The quantity of circuit is identical and connects one to one, and each RF transmit-receive circuit is used for producing or receive specific frequency The aerial signal of section.

9. antenna assembly as claimed in claim 8, it is characterised in that described at least two radio-frequency receiving-transmitting electricity Each in road is GSM antenna RF transmit-receive circuit, CDMA antenna rf transmission circuit, bluetooth sky One in line RF transmit-receive circuit, WIFI antenna rf transmission circuit, NFC antenna RF transmit-receive circuit.

10. antenna assembly as claimed in claim 2, it is characterised in that the width of described slit band is 1.5mm, 5.0mm or 1.5mm～5.0mm.

11. antenna assemblies according to claim 10, it is characterised in that the width of described slit is 0.05mm, 0.3mm or 0.05mm～0.3mm.

12. antenna assemblies as claimed in claim 11, it is characterised in that fill non-signal in described slit Shielding material.

13. antenna assemblies as claimed in claim 11, it is characterised in that the width of described bonding jumper is Value in the range of 0.1mm, 0.5mm or 0.1mm to 0.5mm.

14. 1 kinds of terminal units, it is characterised in that include the sky as described in any one of claim 1 to 13 Line apparatus.