CN204424456U - Becket slot antenna and wireless terminal - Google Patents

Abstract

The utility model provides a kind of becket slot antenna and wireless terminal, and this becket slot antenna comprises: printing board PCB, metal frame, radio-frequency front-end transmission circuit, and the distributing point be arranged on described metal frame and at least two earth points; Described radio-frequency front-end transmission circuit is arranged on described pcb board; Between the first earth point that described distributing point is adjacent in described at least two earth points and the second earth point; Described at least two earth points are connected with described pcb board respectively by the first connector, described distributing point is connected with described radio-frequency front-end transmission circuit by the second connector, forms the slot antenna structure that the segmental arc that is made up of described first earth point, described second earth point, described distributing point and described pcb board are formed.Described wireless terminal comprises above-mentioned becket slot antenna.Thus on the wireless terminal with metal shell, achieve the simple Antenna Design of structure.

Description

Becket slot antenna and wireless terminal

Technical field

The utility model relates to wireless communication technology field, particularly relates to a kind of becket slot antenna and wireless terminal.

Background technology

Along with the development of mobile communication technology, the such as wireless terminal device such as smart mobile phone, panel computer may need to support multiple network standard, such as Generation Mobile Telecommunication System technology (2rd-generation, be called for short 2G), G mobile communication (3rd-generation, be called for short 3G), forth generation mobile communication technology (4rd-generation, be called for short 4G) etc.But meanwhile, also there is constantly change in the miniaturization, ultrathin, case material etc. of wireless terminal device.In addition, the wearable terminal with radio communication function also emerges in an endless stream, and such as has the wrist-watch of communication function.These new change maked rapid progress all propose significant challenge to the Antenna Design of wireless terminal device.

Current people have metal material to the wireless terminal device comprising wearable device and propose more and more higher demand, for mobile phone, market there is a lot of metal-back class mobile phone, due to the shielding action of metal material meeting radio frequency signal output, cause communication antenna cannot with metal-back beyond space carry out data communication, therefore, how to realize in the wireless terminal device of metal material single mode even multi-mode communication Antenna Design be current industry design difficult point.

Utility model content

The utility model provides a kind of becket slot antenna and wireless terminal, in order to provide the antenna designs of the simple becket fluting of a kind of structure.

The utility model provides a kind of becket slot antenna, comprising:

Printing board PCB, metal frame, radio-frequency front-end transmission circuit, and the distributing point be arranged on described metal frame and at least two earth points; Described radio-frequency front-end transmission circuit is arranged on described pcb board;

Between the first earth point that described distributing point is adjacent in described at least two earth points and the second earth point;

Described at least two earth points are connected with described pcb board respectively by the first connector, described distributing point is connected with described radio-frequency front-end transmission circuit by the second connector, forms the slot antenna structure that the segmental arc that is made up of described first earth point, described second earth point, described distributing point and described pcb board are formed.

Particularly, the length of described segmental arc is determined according to the resonance frequency of antenna to be formed.

Further, described becket slot antenna also comprises:

Antenna-matching circuit, one end of described antenna-matching circuit is connected with described distributing point, and the other end of described antenna-matching circuit is connected with described radio-frequency front-end transmission circuit.

Further, the number of described radio-frequency front-end transmission circuit is at least two, and described becket slot antenna also comprises:

Multiplexer, one end of described multiplexer is connected with the other end of described antenna-matching circuit, and the other end of described multiplexer is connected with described at least two radio-frequency front-end transmission circuits respectively.

Particularly, described antenna-matching circuit comprises inductance and electric capacity;

Described inductance one end is connected with described distributing point, the other end ground connection of described inductance;

One end of described electric capacity is connected with one end of described inductance, and the other end of described electric capacity is connected with one end of described multiplexer.

Particularly, also comprise in described antenna-matching circuit: at least one LC matching network.

Particularly, described first connector comprises any one in following device:

Screw, metal clips, pogo pin connector.

Particularly, described second connector comprises any one in following device:

Screw, metal clips, pogo pin connector, coaxial line, coupling minor matters.

The utility model provides a kind of wireless terminal, comprising: the becket slot antenna as above described in any one.

The becket slot antenna that the utility model provides and wireless terminal, wherein, this becket slot antenna has a metal frame and pcb board, by arranging at least two earth points and distributing point on this metal frame, and be connected on pcb board by connector, being formed has gap and slot antenna structure between metal frame and pcb board, radio-frequency (RF) front-end circuit on pcb board adds suitable excitation, this excitation feed is on metal frame, obtain the antenna resonant frequency of expecting, thus on the wireless terminal with metal shell, achieve the simple Antenna Design of structure.

Accompanying drawing explanation

The structural representation of the becket slot antenna that Fig. 1 provides for the utility model embodiment one;

Fig. 2 is several typical metal frame schematic shapes;

Fig. 3 is single mode antenna resonance frequency attenuation characteristic schematic diagram;

Fig. 4 is the structural representation of coupling minor matters coupled RF front end transmission circuit signal;

The structured flowchart of the becket slot antenna that Fig. 5 provides for the utility model embodiment two;

Fig. 6 is the structural representation of antenna-matching circuit;

Fig. 7 is dual-mode antenna resonance frequency attenuation characteristic schematic diagram;

Fig. 8 is another structural representation of antenna-matching circuit;

The structural representation of the wireless terminal that Fig. 9 provides for the utility model embodiment three.

Embodiment

For making the object of the utility model embodiment, technical scheme and advantage clearly, below in conjunction with the accompanying drawing in the utility model embodiment, technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

The structural representation of the becket slot antenna that Fig. 1 provides for the utility model embodiment one, as shown in Figure 1, this becket slot antenna comprises:

Metal frame 101, printed circuit board (PCB) (Printed Circuit Board, hereinafter referred to as pcb board) 102, radio-frequency front-end transmission circuit 106, and distributing point 1C and at least two earth point be arranged on described metal frame 101, as the first earth point 1A in Fig. 1 and the second earth point 1B; Described radio-frequency front-end transmission circuit 106 is arranged on described pcb board 102;

Between the first earth point 1A that described distributing point 1C is adjacent in described at least two earth points and the second earth point 1B;

Described at least two earth points are as the first earth point 1A in Fig. 1 and the second earth point 1B, be connected with described pcb board 102 respectively by the first connector, as connector 104 corresponding with the first earth point 1A in Fig. 1, and the connector 105 corresponding with the second earth point 1B; Described distributing point 1C is connected with described radio-frequency front-end transmission circuit 106 by the second connector 107, forms the slot antenna structure that the segmental arc that is made up of described first earth point 1A, described second earth point 1B, described distributing point 1C and described pcb board 102 are formed.

In the present embodiment, described metal frame 101 for designing antenna can be the metal shell of wireless terminal, this wireless terminal both can be the such as communication terminal such as panel computer, smart mobile phone, also can be the other-end equipment with radio communication function, such as there is wrist-watch or other wearable devices of communication function, and the shell of these wireless terminals is metal materials.For wrist-watch, the dial plate edge of such as wrist-watch is the metal ring surrounded by metal material.Only for the metal frame shape of circle in the present embodiment, but the terminal shell frame shape in fact with metal material can be various, as shown in Figure 2, several typical metal frame shape has been shown in Fig. 2, it can be rule or irregular polygon.

In the present embodiment, metal frame is provided with multiple earth point, two adjacent earth points has been shown in Fig. 1, has been 1A and 1B respectively, between this adjacent ground 1A and 1B, is provided with distributing point 1C.Because earth point 1A and 1B is connected on pcb board respectively by connector 104 and 105, distributing point 1C is also connected on the radio-frequency front-end transmission circuit on pcb board by connector 107, thus, between arc 1A-1B-1C and pcb board, define gap fluting in other words conj.or perhaps, this fluting defines slot antenna.By adding suitable excitation on radio-frequency front-end transmission circuit, feed is on metal frame, and namely feed is to slot antenna, and suppose that resonance frequency is f0, return loss is-6dB, and bandwidth is fh-fl, as shown in Figure 3.

Particularly, the earth point on metal frame is connected on pcb board by the first connector, this first connector, and in such as Fig. 1 104 and 105 can comprise any one in following device: screw, metal clips, pogo pin connector.

In addition, the second connector of connection distributing point and radio-frequency front-end transmission circuit comprises any one in following device: screw, metal clips, pogo pin connector, coaxial line, coupling minor matters.What deserves to be explained is, other connected modes in this second connector except coupling minor matters can be considered as direct connected mode, be connected directly between on radio-frequency front-end transmission circuit by distributing point 1C, and the minor matters that are coupled can be considered indirect connections, be namely by capacity coupled mode by the signal coupling of radio-frequency front-end transmission circuit to metal frame 1A and 1B two earth points between.Fig. 4 shows by the schematic diagram of coupling minor matters coupled RF front end transmission circuit signal to metal frame, and in Fig. 4,107 represent coupling minor matters, and these coupling minor matters refer in particular to L-type coupling minor matters.

What deserves to be explained is, above-mentioned radio-frequency front-end transmission circuit forms similar to circuit of the prior art, does not repeat.

In actual applications, the antenna obtained by above-mentioned setting can be single mode antenna, and the resonance frequency of this single mode antenna and the length of arc 1A-1B-1C have corresponding relation, and namely the length of this segmental arc is determined according to the resonance frequency of antenna to be formed.Specifically, the length of this arc approximates the half-wavelength of antenna resonant frequency.Such as: when f0 close near 1575Mhz time, can be used for global positioning system (GlobalPositioning System, be called for short GPS), the positioning antenna such as GPS (Global Position System) (Glonass), and when f0 is close to 2450Mhz, can be used for Bluetooth antenna or Wireless Fidelity (Wireless-Fidelity is called for short Wi-Fi) antenna.

In the present embodiment, by arranging at least two earth points and distributing point on this metal frame, and be connected on pcb board by connector, being formed has gap and slot antenna structure between metal frame and pcb board, radio-frequency (RF) front-end circuit on pcb board adds suitable excitation, this excitation feed, on metal frame, obtains the antenna resonant frequency of expecting, thus on the wireless terminal with metal shell, achieves the simple Antenna Design of structure.

The structured flowchart of the becket slot antenna that Fig. 5 provides for the utility model embodiment two, as shown in Figure 5, on the basis of above-described embodiment, this becket slot antenna also comprises:

Antenna-matching circuit, one end of described antenna-matching circuit is connected with described distributing point, and the other end of described antenna-matching circuit is connected with described radio-frequency front-end transmission circuit.

In the present embodiment, by arranging antenna-matching circuit between distributing point 1C and radio-frequency front-end transmission circuit, can accurately adjust in the resonance frequency needed for antenna resonant frequency to antenna to be formed.

In addition, in the present embodiment, formed at above-described embodiment on the basis of single mode antenna, can also multimode antenna be formed, such as dual-mode antenna.By designing different antenna-matching circuit structures, the design of corresponding multimode antenna can be realized.Below only for dual-mode antenna, this dual-mode antenna is such as gps antenna and Wi-Fi antenna.Thus the number of the radio-frequency front-end transmission circuit arranged on pcb board, accordingly also for multiple, corresponding with the antenna of often kind of pattern respectively, in this citing, as shown in Figure 5, is respectively GPS radio-frequency front-end transmission circuit and Wi-Fi radio-frequency front-end transmission circuit.

And, also comprise in this becket slot antenna: the multiplexer being connected to antenna-matching circuit output, this multiplexer is when this is for dual-mode antenna, be specially duplexer, this duplexer is connected with the GPS radio-frequency front-end transmission circuit in described at least two radio-frequency front-end transmission circuits i.e. this citing and Wi-Fi radio-frequency front-end transmission circuit respectively.The structure of this duplexer or many devices altogether and operation principle similarly to the prior art, repeat no more.

Particularly, as shown in Figure 6, this antenna-matching circuit comprises inductance L 1 and electric capacity C1; One end of inductance L 1 is connected with distributing point 1C, the other end ground connection of inductance L 1; One end of electric capacity C1 is connected with one end of described inductance L 1, and the other end of electric capacity C1 is connected with one end of described duplexer.

In above-mentioned citing, as shown in Figure 7, before not adding antenna-matching circuit, antenna resonant frequency is 1800Mhz, after adding antenna-matching circuit, by the effect of L1 and C1, such as near 1575Mhz and 2450Mhz, produce two resonance, can be used for GPS & Wi-Fi dual-radio design, antenna efficiency is more than-3dB.

What deserves to be explained is, in actual applications, also comprise as LC matching network included in prior art in antenna-matching circuit, the composition form various ways of the prior art of this LC matching network, no longer describes in detail in the present embodiment.But, when antenna-matching circuit comprises above-mentioned inductance L 1 and electric capacity C1, as shown in Figure 8, only illustrate that a kind of antenna-matching circuit comprises the composition structure of LC matching network.Thus by the antenna resonant frequency formed according to wish, each LC matching network of reasonable design, can realize the design needs of multimode antenna.

In the present embodiment, by increasing applicable antenna-matching circuit, namely by reasonably determining the value of electric capacity and inductance in antenna-matching circuit and the composition of LC matching network, the design of various modes antenna can be realized.

The structural representation of the wireless terminal that Fig. 9 provides for the utility model embodiment three, as shown in Figure 9, this wireless terminal comprises the becket slot antenna of embodiment described above.

For mobile phone terminal in the present embodiment, this mobile phone terminal has metal back cover, as shown in Figure 9, although the profile of mobile phone terminal mostly is similar rectangular shape, but be corresponding with the embodiment of above-mentioned becket slot antenna, in the present embodiment, still adopt the metal frame of toroidal to be example.

Because this metal back cover has certain thickness, therefore can be considered as is the structure of a cylinder, and its top edge is equivalent to, as the metal frame 101 in Fig. 1 or Fig. 4, represent this top edge metal frame in fig .9 with 201.The two side of this cylinder represents with 202 and 203 respectively, and, on top edge metal frame 201 is also provided with distributing point 2C.The bottom of this cylinder represents with 204, and 205 is PCB substrate, and 206 represent the radio-frequency front-end transmission circuit be arranged in PCB substrate 205, are equivalent to 106 in Fig. 1 or Fig. 4.

In the present embodiment, the one section of sidewall comprising distributing point 2C between 202 and 203 is nonmetallic materials, thus defines an antenna slot structure between two side 202 and 203.Wherein, the connected mode between distributing point 2C with radio-frequency front-end transmission circuit 206 and Fig. 1 or embodiment illustrated in fig. 4 identical.

Last it is noted that above embodiment is only in order to illustrate the technical solution of the utility model, be not intended to limit; Although be described in detail the utility model with reference to previous embodiment, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein portion of techniques feature; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the spirit and scope of each embodiment technical scheme of the utility model.

Claims (9)

1. a becket slot antenna, is characterized in that, comprising:

Printing board PCB, metal frame, radio-frequency front-end transmission circuit, and the distributing point be arranged on described metal frame and at least two earth points; Described radio-frequency front-end transmission circuit is arranged on described pcb board;

Between the first earth point that described distributing point is adjacent in described at least two earth points and the second earth point;

Described at least two earth points are connected with described pcb board respectively by the first connector, described distributing point is connected with described radio-frequency front-end transmission circuit by the second connector, forms the slot antenna structure that the segmental arc that is made up of described first earth point, described second earth point, described distributing point and described pcb board are formed.

2. becket slot antenna according to claim 1, is characterized in that, the length of described segmental arc is determined according to the resonance frequency of antenna to be formed.

3. becket slot antenna according to claim 2, is characterized in that, also comprise:

Antenna-matching circuit, one end of described antenna-matching circuit is connected with described distributing point, and the other end of described antenna-matching circuit is connected with described radio-frequency front-end transmission circuit.

4. becket slot antenna according to claim 3, is characterized in that, the number of described radio-frequency front-end transmission circuit is at least two, and described becket slot antenna also comprises:

Multiplexer, one end of described multiplexer is connected with the other end of described antenna-matching circuit, and the other end of described multiplexer is connected with described at least two radio-frequency front-end transmission circuits respectively.

5. becket slot antenna according to claim 4, is characterized in that, described antenna-matching circuit comprises inductance and electric capacity;

Described inductance one end is connected with described distributing point, the other end ground connection of described inductance;

One end of described electric capacity is connected with one end of described inductance, and the other end of described electric capacity is connected with one end of described multiplexer.

6. according to the becket slot antenna described in claim 5, it is characterized in that, also comprise in described antenna-matching circuit: at least one LC matching network.

7. becket slot antenna according to any one of claim 1 to 6, is characterized in that, described first connector comprises any one in following device:

Screw, metal clips, pogo pin connector.

8. becket slot antenna according to any one of claim 1 to 6, is characterized in that, described second connector comprises any one in following device:

Screw, metal clips, pogo pin connector, coaxial line, coupling minor matters.

9. a wireless terminal, is characterized in that, comprises the becket slot antenna according to any one of claim 1 to 8.