CN105449360B - Multi-frequency multiplex antenna device - Google Patents

Abstract

The invention provides a multi-frequency and multi-station antenna device, which comprises an antenna component, a connecting component and a sub-assembly component. The antenna assembly comprises a first antenna and a second antenna. The connecting component is coupled to the antenna component and carries a first wiring and a second wiring for respectively connecting the first antenna and the second antenna. The sub-assembly is coupled to the connecting assembly and is connected with a first wireless communication module and a second wireless communication module different from the first wireless communication module, wherein the sub-assembly is of a multi-layer structure, and the first wiring and the second wiring are located on a first layer and a second layer different from the first layer of the sub-assembly and are respectively connected with the first wireless communication module and the second wireless communication module. The invention can save system space, reduce antenna cost, improve assembly efficiency and integrate various wireless communication modules with different frequencies.

Description

Multifrequency multiplexing antenna assembly

Technical field

There is multilayer one package structual the invention relates to a kind of multifrequency multiplexing antenna assembly, and in particular to one kind Multifrequency multiplexing antenna assembly.

Background technology

In general, antenna modules contain antenna body, wireless network card and the cable of connection antenna and wireless network card Line.With now for single antenna, its frequency range it is main it is more with the 2.4GHz frequencies of wireless local area network (WLAN), 5GHz frequencies and Based on bluetooth (Bluetooth), the work kenel of multifrequency multiplexing is unable to reach.In addition, the connection of antenna and wireless network card is with electricity Based on cable, also because antenna body by principal antenna (Main) and auxiliary antenna (Aux) be used as transmission medium, and two electricity of needs Cable is connected respectively to wireless network card.When especially having the wireless network card of two or more different frequency, each wireless network card leads to again Cross two cables and be connected to antenna, will result in the problem of antenna modules are bulky, wiring is complicated.Therefore, it is necessary to one Kind multifrequency multiplexing antenna assembly, reduces antenna body space and antenna electric number of cables, enables total system more convenient, more steady Gu while possess good radio communication quality.

The content of the invention

In view of this, the main object of the present invention, it is to provide a kind of multifrequency multiplexing antenna of single module combination kenel Device, to save system space, reduce antenna cost, raising packaging efficiency, the various wireless communication module for integrating different frequency, To lift the extensive use of existing wireless technology.

The present invention provides a kind of multifrequency multiplexing antenna assembly, including an antenna module, a connection component and a packing group Part.Antenna module includes a first antenna and one second antenna.Connection component is coupled to antenna module, and carries one first Distribution and one second distribution, to connect first antenna and the second antenna respectively.Packing component is coupled to connection component simultaneously And one first radio communication module of connection and the one second radio communication module different from the first radio communication module, wherein dividing Arrangement is a sandwich construction, the first distribution and the second distribution positioned at a first layer of packing component and different from first layer One second layer and the first radio communication module and the second radio communication module are connected respectively.

The present invention provides a kind of multifrequency multiplexing antenna assembly, including a first antenna and one second antenna, a connection group Part and a packing component.Connection component is coupled to first antenna and the second antenna, to carry one first distribution and one Two distributions.Packing component is coupled to connection component and connects one first radio communication module and different from the first radio communication One second radio communication module of module, wherein packing component is a sandwich construction, the first distribution and the second distribution are located at packing One first layer of component and the second layer different from first layer, and to be connected to first wireless for the first end point of the first distribution Communications module, the second end points of the first distribution are connected to first antenna, and the first end point of the second distribution is connected to the second channel radio Believe module, the second end points of the second distribution is connected to the second antenna, and the second end points is different from first end point.

The present invention provides a kind of multifrequency multiplexing antenna assembly, saves system space, reduces antenna cost, improves assembling effect Rate, the various wireless communication module for integrating different frequency, lift the extensive use of existing wireless technology；Enable total system more It is convenient, more firm, while possessing good radio communication quality.

Brief description of the drawings

Fig. 1 is the schematic diagram of the multifrequency multiplexing antenna assembly provided according to the embodiment of the present invention；

Fig. 2 is the schematic diagram of the packing component and radio communication module that are provided according to the embodiment of the present invention；

Fig. 3 is the side view of the packing component provided according to the embodiment of the present invention；And

Fig. 4 is another side view of the packing component provided according to the embodiment of the present invention.

Symbol description：

10：Multifrequency multiplexing antenna assembly

100：Antenna module

110、120、130：Antenna

120A、120B、120C：Sub-antenna

200：Connection component

210、220、230：Distribution

300：Dispense component

300A：First side

300B：Second side

310、320、330、340：Layering

370A、370B、370C：Interlayer is perforated

380：Connectivity port

410、420、430：Radio communication module

Embodiment

The device and application method of various embodiments of the invention discussed more fully below.It is important to note, however, that this hair Bright provided many feasible inventive concepts may be implemented in various particular ranges.These specific embodiments are only used for illustrating Bright device of the invention and application method, but it is non-for limiting the scope of the present invention.

Fig. 1 is the schematic diagram of the multifrequency multiplexing antenna assembly 10 provided according to the embodiment of the present invention.Multifrequency multiplexing antenna Device 10 includes antenna module 100, connection component 200 and packing component 300.In one embodiment, antenna module 100 includes An at least first antenna and one second antenna.Connection component 200 is coupled to antenna module 100, and carries at least one first Distribution and one second distribution to connect first antenna and the second antenna respectively.In addition, packing component 300 is coupled to connection group Part 200, and connect at least one first radio communication module and different from the one second wireless of the first radio communication module Communications module.It is worth noting that, packing component 300 is a sandwich construction, the first distribution and the second distribution are located at packing component 300 first layer and the second layer different from first layer so that the first distribution can be connected the first nothing respectively with the second distribution Line communications module and the second radio communication module.

As shown in figure 1, antenna module 100 includes antenna 110 (namely first antenna), antenna 120 (namely second antenna) With antenna 130.In one embodiment, antenna 120 further includes three sub-antennas 120A, 120B and 120C.Specifically, antenna sets Part 100 forms as combined by the antenna of a variety of different operating frequencies, therefore can support the radio communication of multiple frequency ranges, such as frequency The high band Long Term Evolution communication (LTE that about 13.56MHz near-field communication (NFC), frequency are about 1710MHz~2700MHz High band), frequency be about 700MHz~800MHz the communication of low-frequency range Long Term Evolution (LTE low band), frequency be about 1800MHz~2200MHz high band wireless wide area router (WWAN high band), frequency are about 820MHz~960MHz's The global positioning system (GPS) that low-frequency range wireless wide area router (WWAN low band), frequency are about 1.575GHz, frequency is about For 2400MHz~2484MHz 2.4G wireless local area networks (WLAN_2.4G+BT, b/g/n), frequency be about 5100MHz~ The low-frequency range that 5800MHz 5G wireless local area networks (WLAN_5G+BT, a/n/ac), frequency are about 2300MHz~2700MHz is complete The high band global-intercommunication that ball intercommunication microwave access (WiMax low band) and frequency are about 3300MHz~3800MHz is micro- Ripple accesses (WiMax high band).

For example, antenna 110 is used for NFC wireless communication transmissions, and sub-antenna 120A passes for LTE radio communication Defeated, sub-antenna 120B is used for WWAN wireless communication transmissions, and sub-antenna 120C is used for GPS wireless communication transmissions, and antenna 130 is used In WLAN and BT wireless communication transmissions.Because antenna module 100 contains the antenna or sub-antenna of multiple different frequency ranges, therefore Multifrequency multiplexing antenna assembly 10 saves more volumes than the antenna of general discrete type, and supports user to carry out different type Wireless communication transmissions.

In one embodiment, connection component 200 is configured between antenna module 100 and packing component 300, and is carried Distribution 210 (namely first distribution), distribution 220 (namely second distribution) and distribution 230.As shown in figure 1, each distribution 210~ 230 all include two wiring to be connected to each radio communication module 410~430.It is worth noting that, distribution 210 is connected to Antenna 110, distribution 220 are connected to antenna 120, and distribution 230 is connected to antenna 130.For example, connection component 200 is a pair of The printed circuit board (PCB) (PCB) of Rotating fields, wherein distribution 210~230 are configured at upper strata, and lower floor is ground connection (GND) to maintain to believe Number stability.In addition, connection component 200 is alternatively the printed circuit board (PCB) of four layers or six layer structure, in order to accommodate quantity more More distributions.In one embodiment, connection component 200 is a flexible printed circuit board (FPCB), to improve the multigroup distribution of tradition Coiling problem.Connection component 200 designs for single channel, and carries multigroup distribution, therefore with ease of assembly, saving Volume and the advantages that reduce cost.

In addition, packing component 300 is connected to connection component 200 and connection radio communication module 410, (namely first is wireless Communications module), radio communication module 420 (namely second radio communication module) and radio communication module 430.It is worth noting , the distribution 210~230 that connection component is carried extends to packing component 300, and distribution 210~230 is respectively arranged at Dispense the different layers of component 300.Specifically, when distribution 210~230 is located at the top of connection component 200, distribution 210~ 230 can be listed in same plane；When distribution 210~230 is configured at packing component 300, distribution 210~230 is respectively arranged at Dispense the different layers of component 300.As shown in figure 1, in one embodiment, distribution 210~230 respectively side by side without overlapping each other, To avoid the wireless communication signals of different frequency range from interfering with each other.In one embodiment, antenna module 100, connection component 200 and Packing component 300 is configured on a printed circuit board (PCB).

Fig. 2 is the signal of the packing component 300 and radio communication module 410~430 that are provided according to the embodiment of the present invention Figure.In one embodiment, it is a sandwich construction to dispense component 300.Connection component 200 is coupled to the one most upper of packing component 300 First side 300A of layer.Multiple radio communication modules 410~430 are coupled to undermost second side of packing component 300 300B, and distribution 210~230 is respectively connecting to by connectivity port 380, wherein orlop is different from the superiors, Yi Ji Two side 300B are different from the first side 300A.Sandwich construction on dispensing component 300 will be described in detail in the following examples.

Fig. 3 is the side view of the packing component 300 provided according to the embodiment of the present invention.In this embodiment, packing group Part is four-layer structure.In other words, dispensing component 300 has four layerings 310,320,330 and 340.As shown in figure 3, distribution 210 It is configured at layering 310 (namely the first distribution is located at first layer), distribution 220 is configured at layering 320, and (namely the second distribution is positioned at the Two layers), distribution 230 is configured at layering 330.Distribution 210~230 is respectively side by side without overlapping each other.In addition, to be connected to nothing Multiple connectivity ports 380 of line communications module 410~430 are configured at layering 340 (namely orlop).Specifically, as Fig. 2 with Shown in Fig. 3, distribution 210~230 pass across or through packing component 300 layering 310 (namely the superiors) the first side 300A and Arrive separately at layering 310~330.

It follows that in the packing component 300 of the four-layer structure shown in Fig. 3, three, which assemble line 210~230, is respectively configured 310~330 are layered in three, and lowermost layering 340 is then configured with multiple connectivity ports 380 to connect radio communication module 410~430.It is worth noting that, above-mentioned four-layer structure is as illustrative purposes only, and it is not used to the embodiment party of the limitation present invention Formula.For example, when the radio communication module of two different frequency ranges of support of multifrequency multiplexing antenna assembly 10, then component is dispensed 300 be that three-decker assembles line to be respectively configured the two of two radio communication modules of connection.When multifrequency multiplexing antenna assembly 10 When holding the radio communication module of four different frequency ranges, then it is that five-layer structure is wireless so that connection four is respectively configured to dispense component 300 The four of communications module assemble line.

Fig. 4 is another side view of the packing component 300 provided according to the embodiment of the present invention.Reference picture 4 and Fig. 4, Distribution 210~230 is connected to the nethermost layering 340 of packing component 300 by multiple interlayers perforation 370A~370C respectively The second side 300B, and be respectively connecting to radio communication module 410~430 by multiple connectivity ports 380.That is, Positioned at layering 310 distribution 210 by interlayer perforate 370A be connected to layering 340 the second side 300B, then pass through connection end Mouth 380 is connected to radio communication module 410.Distribution 220 positioned at layering 320 is connected to layering 340 by interlayer perforation 370B The second side 300B, radio communication module 420 is then connected to by connectivity port 380.Distribution 230 positioned at layering 330 is logical The second side 300B that interlayer perforation 370C is connected to layering 340 is crossed, radio communication module is then connected to by connectivity port 380 430.It is worth noting that, in another embodiment, the superiors of packing component 300 are different from layering 310, but positioned at layering Another layering of 310 tops.

Therefore, sandwich construction simultaneously feed-in of the multifrequency multiplexing antenna assembly 10 provided by the present invention by being layered cabling is more Individual radio communication module 410~430, and solve the problems, such as coiling with single channel transmission, saving system sky can be reached Between, reduce antenna cost, improve packaging efficiency, integrate the effect of different radio transmission frequency.

The foregoing is only a preferred embodiment of the present invention, when that can not limit the scope of the invention implemented with this, i.e., Generally the simple equivalent changes and modifications made according to scope of the present invention patent and invention description content, the present invention is all still belonged to In the range of patent covers.In addition, any embodiment or claim of the present invention are not necessary to reach what the present invention was invented Whole purposes or advantage or feature.In addition, summary part and title are intended merely to aid in patent document search to be used, not it is used for Limit the interest field of the present invention.

Claims (10)

1. a kind of multifrequency multiplexing antenna assembly, it is characterised in that the multifrequency multiplexing antenna assembly includes：

One antenna module, including a first antenna and one second antenna；

One connection component, the antenna module is coupled to, and carries one first distribution and one second distribution, first distribution is used In connecting the first antenna, second distribution is used to connect second antenna；And

One packing component, it is coupled to the connection component and connects one first radio communication module and first wireless different from this One second radio communication module of communications module, wherein the packing component are a sandwich construction, and first distribution second is matched somebody with somebody with this Line be located at the packing component a first layer and different from the first layer a second layer and to connect this respectively first wireless Communications module and the second radio communication module.

2. multifrequency multiplexing antenna assembly as claimed in claim 1, it is characterised in that first distribution is distinguished with second distribution Side by side without overlapping each other.

3. multifrequency multiplexing antenna assembly as claimed in claim 1, it is characterised in that the connection component is coupled to the packing component A superiors the first side, and the first radio communication module and the second radio communication module are coupled to the packing group One undermost second side of part, the orlop is different from the superiors, and second side is different from first side.

4. multifrequency multiplexing antenna assembly as claimed in claim 3, it is characterised in that first distribution passes through with second distribution First side of the superiors of the packing component and arrive separately at the first layer and the second layer.

5. multifrequency multiplexing antenna assembly as claimed in claim 4, it is characterised in that first distribution is distinguished with second distribution Undermost second side of the packing component is connected to distinguish by the perforation of one first interlayer and the perforation of one second interlayer Connect the first radio communication module and the second radio communication module.

6. multifrequency multiplexing antenna assembly as claimed in claim 1, it is characterised in that the connection component is a flexible print circuit Plate.

7. multifrequency multiplexing antenna assembly as claimed in claim 1, it is characterised in that the antenna module, the connection component and The packing component Configuration is on a printed circuit board (PCB).

8. a kind of multifrequency multiplexing antenna assembly, it is characterised in that the multifrequency multiplexing antenna assembly includes：

One first antenna；

One second antenna；

One connection component, the first antenna and second antenna are coupled to, to carry one first distribution and one second distribution； And

One packing component, it is coupled to the connection component and connects one first radio communication module and first wireless different from this One second radio communication module of communications module, wherein the packing component are a sandwich construction, and first distribution second is matched somebody with somebody with this Line is located at a first layer of the packing component and the second layer different from the first layer, and the first end of first distribution Point is connected to the first radio communication module, and the second end points of first distribution is connected to the first antenna, second distribution First end point is connected to the second radio communication module, and the second end points of second distribution is connected to second antenna, and should Second end points is different from the first end point.

9. multifrequency multiplexing antenna assembly as claimed in claim 8, it is characterised in that the first antenna and second antenna configuration Among an antenna module.

10. multifrequency multiplexing antenna assembly as claimed in claim 8, it is characterised in that first distribution and second distribution point Not side by side without overlapping each other.