CN104363603B - A kind of AP, data transmission method for uplink and data receiver method - Google Patents

Abstract

An embodiment of the present invention provides a kind of AP, data transmission method for uplink and data receiver method, including：MCU, aerial array, at least two Network Interface Modules, RF circuit module；Network Interface Module is sent to MCU for receiving cable network signal and being converted into digital signal；It receives the digital signal that MCU is sent and is converted into cable network signal and be sent to cable network；MCU is used to receive the digital signal of Network Interface Module transmission and is sent to RF circuit module；It receives the digital signal that RF circuit module is sent and is sent to Network Interface Module；Radiofrequency signal that RF circuit module is sent for reception antenna is simultaneously demodulated to digital signal and is sent to MCU；It receives the digital signal that MCU is sent and is modulated into radiofrequency signal and be sent to antenna；Antenna is used to receive radiofrequency signal and is sent to RF circuit module；It receives the radiofrequency signal that RF circuit module is sent and sends out.Reduce AP deployment complexities.It is related to network communication field.

Description

A kind of AP, data transmission method for uplink and data receiver method

Technical field

The present invention relates to a kind of network communication technology field more particularly to AP, data transmission method for uplink and data receivers Method.

Background technology

With the rapid development of the internet and the continuous improvement of the information degree, the importance to ensure information safety is increasingly convex Aobvious, many enterprises, government, school etc. needs to separate to ensure against the leakage of bulk information and black by outer net and private network The attack of visitor.

Usually only band is there are one network interface in the structure of traditional AP, by being linked to interchanger and service on the network interface Device, the user accessed by the AP must transmit data by the network interface.If some enterprise needs two kinds wirelessly Network (such as：One is internal private network, and one is external the Internet), can by installing two AP in installation point, and The network connection mouth of wherein one AP is linked on the interchanger mouth and server of the internal private network of connection, it will wherein another AP Network interface be linked on the interchanger mouth and server of connection external the Internet, and two AP are managed and matched somebody with somebody respectively It puts.

Fig. 1 is in the prior art by installing access of two AP realizations to heterogeneous networks, Yi Jicun in an installation point In the AP dispositions methods of multiple installation points.As shown in Figure 1, each installation point installs two AP on corridor, construction when, needs Configuration modification channel and power etc. are carried out to every AP designated mountings position, individually to every AP, AP is caused to dispose complexity It is high.

The content of the invention

An embodiment of the present invention provides a kind of AP, data transmission method for uplink and data receiver method, to solve when needs During using heterogeneous networks, the problem of AP deployment way complexities provided in the prior art are high.

Based on the above problem, a kind of access point AP provided in an embodiment of the present invention, including：Micro-control unit MCU, antenna array Row, respectively at least two Network Interface Modules, RF circuit module corresponding with the Network Interface Module；

Wherein, the Network Interface Module is connected respectively from different cable networks；The aerial array include respectively with Different radio frequency circuit module is corresponding and the antenna of mutually isolated deployment；

The Network Interface Module, the cable network signal that the cable network for receiving itself connection is sent, and will connect The cable network signal of receipts is converted into digital signal and is sent to MCU；And the digital signal that MCU is sent is received, and by reception Digital signal is converted into the cable network that cable network signal is sent to itself connection；

The MCU for receiving the digital signal that the Network Interface Module is sent, and the digital signal of reception is sent Give the Network Interface Module corresponding RF circuit module；And the digital signal that the RF circuit module is sent is received, And the digital signal of reception is sent to the corresponding Network Interface Module of the RF circuit module；

The RF circuit module, for receiving the radiofrequency signal that itself corresponding antenna is sent, and by the radio frequency of reception Signal is demodulated to digital signal and is sent to MCU；And the digital signal that MCU is sent is received, and by the digital signal modulated of reception Itself corresponding antenna is sent into radiofrequency signal；

The radiofrequency signal of reception for receiving aerial radiofrequency signal, and is sent to itself and corresponding penetrated by the antenna Frequency circuit module；The radiofrequency signal that itself corresponding RF circuit module is sent is received, and the radiofrequency signal of reception is sent out It goes.

Based on above-mentioned AP, a kind of data transmission method for uplink provided in an embodiment of the present invention, including：

The arbitrary network interface module at least two Network Interface Modules of AP is controlled to receive the arbitrary network interface mould The cable network signal that the corresponding cable network of block is sent, wherein, at least two Network Interface Module respectively from it is different Cable network corresponds to；

It controls the arbitrary network interface module that the cable network signal of reception is converted to digital signal and is sent to described The micro-control unit MCU of AP；

Control the MCU that the digital signal of reception is sent to the corresponding radio circuit mould of the arbitrary network interface module Block, wherein, different Network Interface Modules is corresponding from different RF circuit modules respectively；

It controls the RF circuit module by the digital signal modulated of reception into radiofrequency signal and is sent to the radio circuit mould The corresponding antenna of block, wherein, different RF circuit modules is corresponding from different antennas respectively；

The antenna is controlled to send the radiofrequency signal of reception.

Based on above-mentioned AP, a kind of data receiver method provided in an embodiment of the present invention, including：

The arbitrary antenna at least two antennas of AP is controlled to receive aerial radiofrequency signal；

Control the arbitrary antenna that the radiofrequency signal of reception is sent to the corresponding RF circuit module of the arbitrary antenna, In, at least two antenna is corresponding from different RF circuit modules respectively；

It controls the RF circuit module that the radiofrequency signal of reception is demodulated into digital signal and is sent to the micro-control of the AP Unit MCU processed；

Control the MCU that the digital signal of reception is sent to the corresponding Network Interface Module of the RF circuit module, In, different RF circuit modules is corresponding from different Network Interface Modules respectively；

The Network Interface Module is controlled to be converted to cable network signal and be sent to the network digital signal of reception to connect The corresponding cable network of mouth mold block, wherein, different Network Interface Modules is corresponding from different cable networks respectively.

The advantageous effect of the embodiment of the present invention includes：

A kind of AP provided in an embodiment of the present invention, data transmission method for uplink and data receiver method, including：Micro-control unit MCU, aerial array, respectively at least two Network Interface Modules, RF circuit module corresponding with Network Interface Module；Wherein, Network Interface Module is connected respectively from different cable networks；Aerial array includes corresponding with different radio frequency circuit module respectively And mutually isolated deployment antenna；Network Interface Module, the cable network that the cable network for receiving itself connection is sent Signal, and the cable network signal of reception is converted into digital signal and is sent to MCU；And the digital signal that MCU is sent is received, And by the digital signal of reception be converted into cable network signal be sent to itself connection cable network；MCU, for receiving network The digital signal that interface module is sent, and the digital signal of reception is sent to the corresponding radio circuit mould of Network Interface Module Block；And the digital signal that RF circuit module is sent is received, and the digital signal of reception is sent to RF circuit module pair The Network Interface Module answered；RF circuit module, for receiving the radiofrequency signal that itself corresponding antenna is sent, and by reception Radiofrequency signal is demodulated to digital signal and is sent to MCU；And the digital signal that MCU is sent is received, and by the digital signal of reception It is modulated into radiofrequency signal and is sent to itself corresponding antenna；Antenna, for receiving aerial radiofrequency signal, and by the radio frequency of reception Signal is sent to itself corresponding RF circuit module；The radiofrequency signal that itself corresponding RF circuit module is sent is received, and The radiofrequency signal of reception is sent.AP provided in an embodiment of the present invention has at least two Network Interface Modules, and each net Network interface module is respectively provided with corresponding RF circuit module and antenna, then when needs dispose multiple nets in an installation point It, can be by the heterogeneous networks interface module of the different same AP of network insertion, without for each network point when network Not Bu Shu an AP, and multiple AP need not be configured respectively so that AP deployment complexity is low.

Description of the drawings

Fig. 1 is realized by installing two AP in an installation point to not in the prior art for what background of invention provided Access with network and the AP dispositions methods there are multiple installation points；

Fig. 2 is a kind of structure diagram of AP provided in an embodiment of the present invention；

Fig. 3 is the structure diagram of the aerial array in a kind of AP that the embodiment of the present invention 1 provides；

Fig. 4 is the overlooking the structure diagram of the aerial array in a kind of AP that the embodiment of the present invention 1 provides；

Fig. 5 is each aerial signal radiation scope schematic top plan view in a kind of AP that the embodiment of the present invention 1 provides；

Fig. 6 is a kind of structure diagram for AP that the embodiment of the present invention 2 provides；

Fig. 7 is the structure diagram of the aerial array in a kind of AP that the embodiment of the present invention 2 provides；

Fig. 8 is each aerial signal radiation scope schematic diagram in a kind of AP that the embodiment of the present invention 2 provides；

Fig. 9 is a kind of one of the structure of AP that the embodiment of the present invention 3 provides schematic diagram；

Figure 10 is one of the structure of aerial array in a kind of AP that the embodiment of the present invention 3 provides schematic diagram；

Figure 11 is the overlooking the structure diagram of the aerial array in a kind of AP that the embodiment of the present invention 3 provides；

Figure 12 is each aerial signal radiation scope schematic top plan view in a kind of AP that the embodiment of the present invention 3 provides；

Figure 13 is two schematic diagrames of the structure of the aerial array in a kind of AP that the embodiment of the present invention 3 provides；

Figure 14 a~Figure 14 b are that aerial signal radiates model in antenna sets different in a kind of AP that the embodiment of the present invention 3 provides Enclose schematic diagram；

Figure 15 is a kind of two schematic diagrames of the structure for AP that the embodiment of the present invention 3 provides；

Figure 16 is the structure diagram of the switch matrix in a kind of AP that the embodiment of the present invention 3 provides；

Signal covers schematic diagram when Figure 17 disposes for AP provided in an embodiment of the present invention；

Figure 18 a~Figure 18 b are AP of the tool provided in an embodiment of the present invention there are two Network Interface Module, respectively using wherein High-density deployment mode data assignment of traffic schematic diagram during one Network Interface Module；

Figure 19 is a kind of flow chart of data transmission method for uplink provided in an embodiment of the present invention；

Figure 20 is a kind of flow chart of data receiver method provided in an embodiment of the present invention.

Specific embodiment

An embodiment of the present invention provides a kind of AP, data transmission method for uplink and data receiver method, below in conjunction with specification Attached drawing illustrates the preferred embodiment of the present invention, it should be understood that preferred embodiment described herein be merely to illustrate and It explains the present invention, is not intended to limit the present invention.And in the case where there is no conflict, in the embodiment and embodiment in the application Feature can be mutually combined.

The embodiment of the present invention provides a kind of AP, as shown in Fig. 2, including：Micro-control unit (MCU, Micro Controller Unit) 201, aerial array 202, at least two Network Interface Modules 203, respectively with 203 corresponding radio frequency of Network Interface Module Circuit module 204；

Wherein, Network Interface Module 203 is connected respectively from different cable networks 206；Aerial array 202 include respectively with Different radio frequency circuit module 204 is corresponding and the antenna 205 of mutually isolated deployment；

Network Interface Module 203, the cable network signal that the cable network 206 for receiving itself connection is sent, and will The cable network signal of reception is converted into digital signal and is sent to MCU201；And the digital signal that MCU201 is sent is received, and By the digital signal of reception be converted into cable network signal be sent to itself connection cable network 206；

MCU201 for receiving the digital signal of the transmission of Network Interface Module 203, and the digital signal of reception is sent to 203 corresponding RF circuit module 204 of Network Interface Module；And the digital signal that RF circuit module 204 is sent is received, and The digital signal of reception is sent to 204 corresponding Network Interface Module 203 of RF circuit module；

RF circuit module 204, for receiving the radiofrequency signal that itself corresponding antenna 205 is sent, and penetrating reception Frequency demodulated signal is sent to MCU201 into digital signal；And the digital signal that MCU201 is sent is received, and by the number of reception Signal modulation is sent to itself corresponding antenna 205 into radiofrequency signal；

The radiofrequency signal of reception for receiving aerial radiofrequency signal, and is sent to itself corresponding radio frequency by antenna 205 Circuit module 204；The radiofrequency signal that itself corresponding RF circuit module 204 is sent is received, and the radiofrequency signal of reception is sent out It sees off.

Further, as shown in Fig. 2, AP provided in an embodiment of the present invention includes at least two Network Interface Modules, 203 (net Network 1~Network Interface Module of interface module n), each Network Interface Module 203 is connected from different cable networks 206, and (network connects Mouth mold block 1 is connected with cable network 1 ..., and Network Interface Module n is connected with cable network n), each Network Interface Module 203 has Corresponding RF circuit module 204 (Network Interface Module 1 is corresponding with RF circuit module 1 ... Network Interface Module n and radio frequency electrical Road module n is corresponded to), each RF circuit module 204 has itself corresponding 205 (radio circuit of antenna in aerial array 202 Module 1 is corresponding with antenna 1 ..., and RF circuit module n and antenna n is corresponding), it can be to multiple and different so in same AP Cable network carries out wireless signal conversion process, then when needing in an installation point deployment multiple network, can incite somebody to action The heterogeneous networks interface module of the same AP of different network insertions reduces the complexity of AP deployment.

Further, RF circuit module provided in an embodiment of the present invention can support dijection frequency circuit, that is to say, that nothing Line fidelity (Wifi, Wireless fidelity) common working frequency range 2.4GHz or 5.8GHz can be supported.

Below in conjunction with the accompanying drawings, method provided by the invention and relevant device are described in detail with specific embodiment.

Embodiment 1：

In the embodiment of the present invention 1, a kind of AP is provided, the structure of aerial array 202 is provided based on AP shown in Fig. 2, it is real The aerial array 202 of the offer of example 1 is provided, is specifically included：One Antenna baseplate, 301, cylindrical spacers 302 and a upper bottom Plate 303；

Wherein, Antenna baseplate 301 is connected as the bottom surface of cylindrical spacers 302 with cylindrical spacers 302；

Upper plate 303 is connected as the upper bottom surface of cylindrical spacers 302 with cylindrical spacers 302；

Antenna 205 is deployed in the edge that Antenna baseplate 301, cylindrical spacers 302 and upper plate 303 are formed mutually isolatedly In the circumferential space of cylindrical spacers 302.

Further, the embodiment of the present invention additionally provides the implementation for making antenna 205 mutually isolated in the space disposed Mode, AP provided in this embodiment, further includes：Several vertical clapboards；

Several vertical clapboards 304 by Antenna baseplate 301, cylindrical spacers 302 and upper plate 303 form along cylindrical spacers 302 circumferential spaces are divided into the insulating space that quantity is no less than 205 quantity of antenna；

Antenna 205 is deployed in respectively in different insulating spaces, the antenna of insulating space where each antenna 205 is fixed on On bottom plate 301, parallel with Antenna baseplate 301 or vertical deployment.

Further, MCU201, aerial array 202, Network Interface Module 203, radio circuit in Antenna baseplate 301 and AP 204 place circuit of module is connected so that RF circuit module 204 can the progress of antenna 205 data interaction corresponding with itself.Antenna Bottom plate 301 can be used for the fixation to cylindrical spacers 302, upper plate 303 and antenna 205, and can become antenna element It flows back on ground.The signal that cylindrical spacers 302 and upper plate 303 can emit antenna 205 reflects in space.

By taking three antennas as an example, as shown in figure 3, by being no less than three vertical clapboards 304 (this is sentenced exemplified by three vertical clapboards) The space circumferential along cylindrical spacers 302 that Antenna baseplate 301, cylindrical spacers 302 and upper plate 303 are formed is divided into three A insulating space.

The embodiment of the present invention does not limit the shape of Antenna baseplate 301, upper plate 303 and vertical clapboard 304, unlimited yet Determine the angle between vertical clapboard 304 and Antenna baseplate 301 and upper plate 303.Three sides of vertical clapboard 304 respectively with antenna Bottom plate 301, cylindrical spacers 302 and upper plate 303 are connected, and are divided into isolation empty in the circumferential space of cylindrical spacers 302 Between.It is preferred that vertical clapboard 304 by Antenna baseplate 301, cylindrical spacers 302 and upper plate 303 form along cylindrical spacers 302 Circumferential is spatially uniformly divided into the insulating space identical with 205 quantity of antenna.

Further, three antennas 205 are deployed in respectively in different insulating spaces, that is to say, that three antennas 205 divide Where not being fixed on itself on the Antenna baseplate 301 of insulating space, and it is located at the upper plate 303 of itself place insulating space just Lower section is covered by upper plate 303.The deployment way of antenna 205 can be identical or different, that is to say, that can be with Antenna baseplate 301 parallel deployment, can also deployment vertical with Antenna baseplate 301.It is preferred that the antenna in adjacent insulating space is using different Polarization mode can further reduce interfering with each other between adjacent antenna (such as：One antenna is another using horizontal polarization A antenna uses vertical polarization).Since the deployment way of mutiple antennas 205 provided in an embodiment of the present invention causes mutiple antennas 205 can be mutually isolated, can be that different antennae distributes different frequencies or distribution same frequency in the AP in same AP The different channels of rate or even the same channel for distributing identical frequency, each antenna will not interfere with each other.

It is preferred that the quantity of vertical clapboard 304 is identical with the quantity of antenna 205.

Further, with Fig. 3 correspondingly, the plan structure of the aerial array 202 of a kind of AP provided in an embodiment of the present invention Schematic diagram is as shown in figure 4, each aerial signal radiation scope schematic top plan view such as Fig. 5 institutes in a kind of AP provided in an embodiment of the present invention Show, radiation scope 501, radiation scope 502 and radiation scope 503 are respectively the radiation scope of three antennas 205.

Further, MCU201 can be also used for when the adjacent deployment of multiple AP, between two neighboring AP Region, wherein, an AP in the two neighboring AP is the adjacent AP of AP deployed positions where the MCU, another AP is AP where the MCU determines frequency and channel that the adjacent AP uses in the region, and covers AP where the MCU Antenna corresponding from the region is using the frequency different with definite frequency or using identical with definite frequency in the range of lid Frequency but different channels.

Further, since the deployment way of mutiple antennas 205 provided in an embodiment of the present invention so that mutiple antennas 205 can With mutually isolated, when two AP deployment are distant, that is to say, that the signal that antenna emits in any AP in two AP is propagated Interference will not be generated to another AP by having been decayed to during to another AP, then, in each AP can be in the AP not on the same day Line distributes different frequencies or the different channels for distributing identical frequency or even the same channel for distributing identical frequency, same Each antenna in AP will not interfere with each other, and will not be interfered with each other between two adjacent AP；When two AP deployment are closer to the distance When, the public domain between two neighboring AP may be covered by the antenna in two AP, that is to say, that any in two AP The signal that antenna emits in AP can generate interference when traveling to another AP to another AP, then, MCU201 is where to itself When each antenna of AP is allocated using frequency range and channel, it may be determined that in AP adjacent with AP where the MCU201, covering should The frequency and channel that the antenna of public domain uses, to cover the antenna assignment of the public domain and adjacent AP in itself place AP The middle different frequency of the frequency that uses of antenna for covering the public domain covers the public domain in the AP where itself Antenna assignment in adjacent AP with covering the same frequency that the antenna of the public domain uses but different channels.

Further, the common working frequency range of Wifi is 2.4GHz or 5.8GHz, then, it is public when covering this in adjacent AP When the antenna frequency of use in region is 2.4GHz, MCU201 can be the antenna assignment that the public domain is covered in AP where itself Frequency 5.8GHz, alternatively, when the antenna frequency of use that the public domain is covered in adjacent AP is a channel of 2.4GHz, MCU201 can be six channels or frequency for the antenna assignment frequency 2.4GHz that the public domain is covered in AP where itself 2.4GHz 11 channels (for Wifi 2.4G frequency ranges usually using three independent channels, i.e. a channel, six channels, with And 11 channels).

It is preferred that Antenna baseplate 301, cylindrical spacers 302, the material of upper plate 303 and vertical clapboard 304 can be gold Belong to.

Embodiment 2：

In the embodiment of the present invention 2, a kind of AP is provided, the AP includes two networks unlike the AP provided from embodiment 1 Interface module, as shown in fig. 6, Network Interface Module 1 and Network Interface Module 2 respectively with 2 phase of cable network 1 and cable network Even, Network Interface Module 1 is corresponding with RF circuit module 1, and Network Interface Module 2 is corresponding with RF circuit module 2, radio frequency Circuit module 1 and RF circuit module 2 have corresponding antenna 205 in an antenna array.Also, antenna 205 is at place Deployment space in mutually isolated embodiment do not pass through vertical clapboard.

Fig. 7 is the schematic diagram of the structure of aerial array 202 in AP provided in an embodiment of the present invention, as shown in fig. 7, antenna 205 are deployed in the sky circumferential along cylindrical spacers 302 that Antenna baseplate 301, cylindrical spacers 302 and upper plate 303 are formed respectively Between middle cylindrical spacers 302 both sides, and antenna 205 (302 left side of cylindrical spacers as shown in Figure 7) is using horizontal polarization, separately One antenna 205 (302 right side of cylindrical spacers as shown in Figure 7) uses vertical polarization, it is necessary to illustrate, simply a kind of in Fig. 7 Embodiment does not limit the polarization mode of antenna 205, can also the left side of cylindrical spacers 302 antenna using vertical polarization, it is right The antenna of side uses horizontal polarization.

Further, for ease of description, the signal radiation direction of antenna 205 is retouched using coordinate system in the figure 7 It states, two antennas 205 is deployed in the both sides of cylindrical spacers 302 so that the signal of two antennas 205 is by 302 He of cylindrical spacers Upper plate 303 reflects, obtained radiation direction as shown in figure 8, the radiation direction of i.e. two antennas 205 respectively along the losing side of x-axis To the positive direction with x-axis, and two antennas 205 are disposed using different polarization modes so that the signal of the two transmitting will not It interferes with each other.It should be noted that adding in coordinate system here only for the purposes of description, it is not used to two antennas 205 of restriction and believes Number radiation direction is x directions or y directions.

It is preferred that the position disposed of two antennas 205 can be with the diameters of cylindrical spacers 302 on same straight line.

Further, MCU201 can be the arbitrary channel that two antennas 205 distribute optional frequency, and the two will not mutually be concerned with It disturbs.It is preferred that MCU201, which can be two antennas 205, distributes different frequency or the different channels of identical frequency.

Embodiment 3：

Antenna in the AP provided in Example 1 and Example 2 of the present invention, AP is mutually isolated, the different antennae hair in AP It penetrates or received signal will not interfere with each other, but when the adjacent deployment of multiple AP, may be interfered with each other between adjacent AP, this In inventive embodiments 3, provide a kind of AP, be provided with mutiple antennas group in AP, each AP using and deployment adjacent with itself AP uses the different antenna sets of antenna sets, to ensure to interfere with each other between adjacent AP；

By taking AP includes two Network Interface Modules as an example, as shown in figure 9, aerial array in AP provided in an embodiment of the present invention 202 include two antenna sets 901, and the antenna in each antenna sets 901 is respectively corresponding with different radio frequency circuit module 204；

Antenna in two antenna sets 901 is deployed in Antenna baseplate 301, cylindrical spacers 302 and upper bottom mutually isolatedly In the space circumferential along cylindrical spacers 302 that plate 303 is formed；

MCU201 is additionally operable to when the adjacent deployment of multiple AP, determines that the AP adjacent with AP deployed positions where itself is used Antenna sets 901, and in two antenna sets 901 that AP where itself is included, antenna that the AP adjacent with deployed position is used The antenna sets 901 that AP where 901 different antenna sets of group are determined as itself is used.

The antenna in antenna sets 901 can be used in this AP so that antenna in antenna sets respectively in this AP RF circuit module 204 is corresponding, and another antenna sets 901 can be in deployment adjacent with this AP, and has the covering of overlapping It is used in the adjacent AP of scope, that is to say, that when deployment adjacent there are two AP provided in an embodiment of the present invention, two AP Can use different antenna sets in antenna, so can by deployment way, radiation direction to two antenna sets etc. into Row is set so that will not be interfered with each other at the coverage being overlapped between two AP.

Further, in the present embodiment, one of structure of aerial array 202 is additionally provided, Figure 10 is the embodiment of the present invention The schematic diagram (in Figure 10 by taking four vertical clapboards as an example) of one of structure of aerial array 202 in the AP of offer, as shown in Figure 10, day Linear array 202 further includes：Several vertical clapboards 304；

Several vertical clapboards 304 by Antenna baseplate 301, cylindrical spacers 302 and upper plate 303 form along cylindrical spacers 302 circumferential spaces are divided into insulating space (four vertical clapboards in Figure 10 of the antenna amount in no less than two antenna sets 901 Above-mentioned circumferential space is divided into four insulating spaces by 304)；

Antenna in two antenna sets 901 is deployed in respectively in different insulating spaces, each antenna be fixed on where every From on the Antenna baseplate in space, parallel with Antenna baseplate 301 or vertical deployment, each two is located in non-conterminous insulating space Antenna forms an antenna sets.

Further, it is each in each antenna sets 901 in order to make in one of antenna array structure provided in an embodiment of the present invention Interference between a antenna is small, and each antenna sets are formed by being located at the antenna in non-conterminous insulating space, as shown in Figure 10, antenna 1001 and antenna 1003 be located in non-conterminous insulating space, antenna 1002 and antenna 1004 are located in non-conterminous insulating space, that , antenna 1001 and antenna 1003 form an antenna sets 901, antenna 1002 and one antenna sets 901 of composition of antenna 1004.

It is preferred that four vertical clapboards 304 by Antenna baseplate 301, cylindrical spacers 302 and upper plate 303 form along circle 302 circumferential direction of column partition plate is spatially uniformly divided into four insulating spaces, then the radiation direction of different antenna sets is mutually hung down Directly, when two adjacent AP use different antenna sets, the interference between two AP is small.

Further, with Figure 10 correspondingly, a kind of AP top views provided in an embodiment of the present invention are as shown in figure 11, the present invention Each aerial signal radiation scope schematic top plan view is as shown in figure 12 in a kind of AP that embodiment provides, and radiation scope 1201 characterizes day The radiation scope of line 1001, radiation scope 1202 characterize the radiation scope of antenna 1002, and radiation scope 1203 characterizes antenna 1003 Radiation scope, radiation scope 1204 characterize antenna 1004 radiation scope.

Further, the antenna in each insulating space vertical with Antenna baseplate 301 can be disposed, can also be with antenna bottom 301 parallel deployment of plate, the present invention are not restricted.

Further, in the present embodiment, additionally providing two, AP of the structure of aerial array 202 includes Network Interface Module 203 quantity is two；Each antenna sets 901 include two antennas, and Figure 13 is antenna in AP provided in an embodiment of the present invention Two schematic diagram of the structure of array 202, as shown in figure 13, four antennas in two antenna sets 901 were along cylindrical spacers 302 weeks It to uniform deployment, is fixed on Antenna baseplate 301, and two antennas of each antenna sets are deployed in Antenna baseplate 301, circle respectively The both sides of cylindrical spacers 302 in the space circumferential along cylindrical spacers 302 that column partition plate 302 and upper plate 303 are formed, and it is every In two antennas of a antenna sets, an antenna uses vertical polarization using horizontal polarization, another antenna.

Further, as shown in figure 13,1001~antenna of antenna 1002 is evenly distributed in the circumferential empty of cylindrical spacers 302 Between, it is fixed on Antenna baseplate 301, and the underface of upper plate 303 is deployed in, and non-adjacent two antennas form one Antenna sets, such as：Antenna 1001 and antenna 1003 form an antenna sets, and antenna 1002 and antenna 1004 form an antenna Group.

It is preferred that two allocating antenna positions and the diameter of cylindrical spacers 302 are located along the same line in same antenna group, The straight line that antenna is located in different antennae group 901 is mutually perpendicular to.The radiation direction of antenna so in different antennae group 901 is not Together, two neighboring AP uses different antenna sets 901, will not interfere with each other, since same AP is used in same antenna group 901 Antenna in order to avoid antenna interferes with each other in same antenna group 901, makes two antennas in same antenna group 901 using different Polarization mode, such as：In the antenna sets 901 that antenna 1001 and antenna 1003 are formed, antenna 1001 uses horizontal polarization, antenna 1003 use vertical polarization, and in the antenna sets 901 that antenna 1002 and antenna 1004 are formed, antenna 1002 uses vertical polarization, day Line 1004 uses horizontal polarization, certainly, simply illustrates here, in the antenna sets 901 that antenna 1001 and antenna 1003 are formed, antenna 1001 can also use vertical polarization, then, antenna 1003 uses horizontal polarization, does not limit the polarization side of each antenna here Formula, the antenna in each antenna sets 901 use different polarization modes.

Further, for ease of description, aerial signal radiation direction is described using coordinate system, it is assumed that antenna 1001 radiation direction is the negative sense of x-axis, and the radiation direction of antenna 1003 is the forward direction of x-axis, and the radiation direction of antenna 1002 is y The negative sense of axis, the radiation direction of antenna 1004 are the forward direction of y-axis, then, the antenna sets that antenna 1001 and antenna 1003 are formed Radiation direction as shown in figures 14a, the radiation direction for the antenna sets 901 that antenna 1002 and antenna 1004 are formed as shown in fig. 14b, when During the adjacent deployment of AP provided in an embodiment of the present invention, the adjacent AP of each two uses different antenna sets 901, and adjacent AP is each used 901 radiation direction of antenna sets be mutually perpendicular to, enable to disturb antenna that is small, and using in same AP between adjacent AP Antenna in group 901 will not interfere with each other.

Further, AP provided in an embodiment of the present invention, when two AP deployment are distant, that is to say, that two AP In antenna emits in any AP signal decayed to and will not generate interference to another AP when traveling to another AP, then, The frequency or the different letters for distributing identical frequency that antenna assignment is different in antenna sets can be used for the AP in each AP Road or even the same channel for distributing identical frequency, each antenna interference in the antenna sets that same AP is used is smaller, two phases Interference between adjacent AP is also smaller；

When two AP deployment are closer to the distance, the public domain between two neighboring AP may be by the day in two AP Line covers, that is to say, that the signal that antenna emits in the antenna sets that any AP is used in two AP can be right when traveling to another AP Another AP generates interference, and due to AP provided in an embodiment of the present invention, the adjacent AP of each two uses different antenna sets, adjacent AP The antenna sets radiation direction each used is mutually perpendicular to, and enables to adjacent AP interference small, then, MCU201 is where to itself When the frequency range that each antenna uses and channel of the antenna sets that AP is used are allocated, the frequency that each antenna uses can be arbitrarily distributed And channel；

But in order to enable the interference between adjacent AP further reduces, it is preferred that MCU201 can be determined with being somebody's turn to do In the adjacent AP of AP where MCU201, frequency and channel that the antenna of the public domain uses are covered, what the AP where itself was used The antenna assignment that the public domain is covered in antenna sets is different from covering the frequency that the antenna of the public domain uses in adjacent AP Frequency or the antenna sets that are used for AP where itself in cover the antenna assignment of the public domain and covering in adjacent AP should The same frequency but different channels that the antenna of public domain uses.

As shown in figure 15, AP provided in an embodiment of the present invention is further included：Switch matrix 1502；

Wherein, RF circuit module 204 is corresponding with antenna sets 901 used in the AP of place by switch matrix 1502 Antenna is connected；

For the antenna sets 901 determined according to MCU201, two RF circuit modules 204 are distinguished for switch matrix 1502 It is connected with two antennas in the antenna sets 901.

Further, AP provided in an embodiment of the present invention, aerial array 202 include two antenna sets 901, each antenna sets 901 include the antenna with 204 corresponding number of RF circuit module, and AP is connected by switch matrix 902 with aerial array 202, And the antenna in the antenna sets 901 that this AP needs connect can be connected by switch matrix 902.

Further, switch matrix 1502 can have a variety of realization methods so that the RF circuit module in each AP 204 can select the antenna sets 901 that this AP uses and be connected with antenna therein.Figure 16 is switch provided in an embodiment of the present invention A kind of realization method schematic diagram of matrix 1502, as shown in figure 16, switch matrix 1502 includes RF circuit module and connects Mouthful (such as：1~interface of interface 2) and antenna connecting interface (such as：3~interface of interface 6), wherein, RF circuit module connection Interface (such as：Interface 1 and interface 2) it is connected respectively with the RF circuit module 204 in AP, antenna connecting interface (such as：Interface 3~interface 6, interface 3~6 respectively in two antenna sets four antennas correspond) respectively with two antenna sets 901 in AP In four antennas be connected.RF circuit module connecting interface can by antenna connecting interface with selection antenna sets in itself Corresponding antenna connection, it is assumed that when interface 1 and interface 2 are connected respectively with interface 3 and interface 4, the RF circuit module 204 in AP It is connected respectively with interface 3 and 4 corresponding antenna of interface, that is to say, that the RF circuit module 204 in AP uses interface 3 The antenna sets formed with 4 corresponding antenna of interface, and the RF circuit module 204 in the AP of deployment adjacent with the AP then may be used To use the antenna sets that interface 5 and 6 corresponding antenna of interface form in the adjacent deployment AP.

Further, Figure 17 is that signal covers schematic diagram when being disposed using AP provided in an embodiment of the present invention, is such as schemed An AP provided in an embodiment of the present invention, each AP are disposed on shown in 17, it is necessary to corridor between the opposite room of each two The signal of two cable networks can be handled, then, AP1, AP2 and AP3 are disposed successively so that and AP1 is adjacent with AP2, AP2 is adjacent with AP3.For ease of description, the signal radiation direction that antenna in AP emits is carried out using coordinate system in fig. 17 Description.Using antenna 1001 and the antenna sets of the composition of antenna 1003, and it is the one of the distribution of antenna 1001 2.4MHz assuming that in AP1 Channel distributes 11 channels of 2.4MHz for antenna 1003, as the antenna 1001 shown in Figure 10 or Figure 13 and the portion of antenna 1003 Management side formula understands that the interference between antenna 1001 and antenna 1003 can obtain certain elimination, and the signal of antenna 1001 Radiation direction 1701 and the signal radiation direction 1702 of antenna 1003 are in x directions；

Due to the antenna sets that antenna 1001 and antenna 1003 has been used to form in AP1, AP2 is adjacent with AP1, is needed in AP2 Using the different antenna sets of the antenna sets formed from antenna 1001 and antenna 1003, i.e., the day that antenna 1002 and antenna 1004 are formed Line group, since the public domain between AP1 and AP2 can be covered by antenna 1001, antenna 1003 and antenna 1002, in order into One step reduces the interference between AP1 and AP2, can be distributed by antenna 1002 equal with antenna 1001, the distribution channel of antenna 1003 Different channels is six channels that antenna 1002 distributes 2.4MHz, a channel of 2.4MHz is distributed for antenna 1004, by Figure 10 Or antenna 1002 shown in Figure 13 and the deployment way of antenna 1004 understand that the interference between antenna 1002 and antenna 1004 can Certain elimination is obtained, also, the signal radiation direction 1703 of antenna 1002 and the signal radiation direction 1704 of antenna 1004 are in y Direction, it is seen then that the radiation direction of two antennas of the antenna sets that AP1 is used is in x directions, two days of the antenna sets that AP2 is used The radiation direction of line is y directions, and the main overlay area of two AP will not be superimposed, and is further reduced dry between two AP It disturbs；

Similarly, AP3 is adjacent with AP2, due to the antenna sets that antenna 1002 and antenna 1004 has been used to form in AP2, in AP3 It needs to use the antenna sets different from the antenna sets that antenna 1002 and antenna 1004 are formed, i.e. antenna 1001 and antenna 1003 is formed Antenna sets, can be the channel that antenna 1001 distributes 2.4MHz in the antenna sets that use of AP3, be distributed for antenna 1003 11 channels of 2.4MHz, from the antenna 1001 and the deployment way of antenna 1003 shown in Figure 10 or Figure 13, antenna 1001 Interference between antenna 1003 can obtain certain elimination, also, the signal radiation direction 1705 and antenna of antenna 1001 1003 signal radiation direction 1706 is in x directions, it is seen then that the radiation direction of two antennas of the antenna sets that AP3 is used is in x side To, the radiation direction of two antennas of the antenna sets that AP2 is used is y directions, and the main overlay area of two AP will not be superimposed, into One step reduces the interference between two AP.

Further, using a kind of AP provided in an embodiment of the present invention, between the antenna used in either same AP, Or between adjacent deployment AP, all so that interference is smaller, the complexity of deployment is reduced in deployment.

Further, for AP, MCU201 provided in an embodiment of the present invention with multiple Network Interface Modules, it is additionally operable to When MCU201 determines not access cable network there are Network Interface Module 203, according to default allocation rule, will not access wired The 203 corresponding RF circuit module 204 of Network Interface Module and the corresponding antenna 205 of the RF circuit module of network distribute It is used to the Network Interface Module 203 of access cable network.

Further, although AP provided in an embodiment of the present invention has multiple Network Interface Modules 203, actually make Used time there may be cable network corresponding with multiple 203 quantity of Network Interface Module, makes each Network Interface Module 203 quilt It uses, at this point it is possible to according to default allocation rule, will not access the 203 corresponding radio frequency electrical of Network Interface Module of cable network The Network Interface Module 203 that road module 204 and the corresponding antenna 205 of the RF circuit module distribute to access cable network makes With.Wherein, default allocation rule can be with mean allocation rule, for example, only there are one network interface moulds when MCU201 detects AP When block 203 connects cable network, AP can be made to enter single net multi-density usage scenario, it will a Network Interface Module 203 The data traffic received and dispatched is needed to be distributed equally according to the number of Network Interface Module 203 so that each Network Interface Module 203 can be received to being averagely allocated to the flow of itself by itself corresponding RF circuit module 204 and antenna 205 Hair processing, improves single network data handling capacity, accelerates data transmission bauds.

Further, when AP includes two Network Interface Modules, MCU201, specifically for when a 201 definite networks When interface module does not access cable network, the digital signal flow received from another Network Interface Module 203 is divided equally, and will Flow after dividing equally is sent respectively to the 203 corresponding RF circuit module 204 of a Network Interface Module and this another 203 corresponding RF circuit module 204 of Network Interface Module so that each RF circuit module 204 passes through corresponding antenna 205 pairs of flows received are handled, and the radiofrequency signal that respective antenna 205 is received is sent to MCU201, by The Network Interface Module 203 of this access cable network is sent to after MCU201 processing.

Figure 18 a and Figure 18 b are AP of the tool there are two Network Interface Module 203, respectively using one of network interface mould High-density deployment pattern during block.As shown in figure 18 a, in AP includes Network Interface Module 1 and Network Interface Module 2, MCU201 detects that Network Interface Module 1 has accessed cable network, then, MCU201 determines to need to use high-density deployment mould Formula, using Network Interface Module 1- RF circuit module 1- antennas 1 as path 1, a part of number of processing Network Interface Module 1 According to using Network Interface Module 1- RF circuit module 2- antennas 2 as path 2, another part number of processing Network Interface Module 1 According to；

As shown in fig. 18b, in AP includes Network Interface Module 1 and Network Interface Module 2, MCU201 detects that network connects Mouth mold block 2 has accessed cable network, then, MCU201 determines to need using high-density deployment pattern, by Network Interface Module 2- RF circuit module 2- antennas 2 are used as path 1, handle a part of data of Network Interface Module 1, Network Interface Module 2- is penetrated Frequency circuit module 1- antennas 1 are used as path 2, handle another part data of Network Interface Module 2.

That is, the embodiment of the present invention can realize single net high-density deployment pattern by the intelligent recognition of MCU201 With the switching of multi-internet integration pattern, single net high density access and a variety of demands of multi-internet integration are met.

Based on a kind of AP in above-described embodiment, the embodiment of the present invention additionally provides a kind of data transmission method for uplink, such as Figure 19 It is shown, include the following steps：

S1901, control AP at least two Network Interface Modules in arbitrary network interface module receive the arbitrary network The cable network signal that the corresponding cable network of interface module is sent,

Wherein, at least two Network Interface Modules are corresponding from different cable networks respectively.

S1902, control the arbitrary network interface module that the cable network signal of reception is converted to digital signal and is sent To the micro-control unit MCU of AP.

The digital signal of reception is sent to the corresponding radio circuit mould of the arbitrary network interface module by S1903, control MCU Block,

Wherein, different Network Interface Modules is corresponding from different RF circuit modules respectively.

S1904, control the RF circuit module by the digital signal modulated of reception into radiofrequency signal and be sent to the radio frequency The corresponding antenna of circuit module,

Wherein, different RF circuit modules is corresponding from different antennas respectively.

S1905, the antenna is controlled to send the radiofrequency signal of reception.

Based on a kind of AP in above-described embodiment, the embodiment of the present invention additionally provides a kind of data receiver method, such as Figure 20 It is shown, include the following steps：

S2001, the arbitrary antenna at least two antennas of AP is controlled to receive aerial radiofrequency signal.

S2002, control the arbitrary antenna that the radiofrequency signal of reception is sent to the corresponding radio circuit mould of the arbitrary antenna Block,

Wherein, at least two antennas are corresponding from different RF circuit modules respectively.

S2003, control the RF circuit module that the radiofrequency signal of reception is demodulated into digital signal and be sent to the micro- of AP Control unit MCU.

The digital signal of reception is sent to the corresponding Network Interface Module of the RF circuit module by S2004, control MCU,

Wherein, different RF circuit modules is corresponding from different Network Interface Modules respectively.

S2005, control the Network Interface Module that the digital signal of reception is converted to cable network signal and be sent to this The corresponding cable network of Network Interface Module,

Wherein, different Network Interface Modules is corresponding from different cable networks respectively.

A kind of AP provided in an embodiment of the present invention, data transmission method for uplink and data receiver method, including：Micro-control unit MCU, aerial array, respectively at least two Network Interface Modules, RF circuit module corresponding with Network Interface Module；Wherein, Network Interface Module is connected respectively from different cable networks；Aerial array includes corresponding with different radio frequency circuit module respectively And mutually isolated deployment antenna；Network Interface Module, the cable network that the cable network for receiving itself connection is sent Signal, and the cable network signal of reception is converted into digital signal and is sent to MCU；And the digital signal that MCU is sent is received, And by the digital signal of reception be converted into cable network signal be sent to itself connection cable network；MCU, for receiving network The digital signal that interface module is sent, and the digital signal of reception is sent to the corresponding radio circuit mould of Network Interface Module Block；And the digital signal that RF circuit module is sent is received, and the digital signal of reception is sent to RF circuit module pair The Network Interface Module answered；RF circuit module, for receiving the radiofrequency signal that itself corresponding antenna is sent, and by reception Radiofrequency signal is demodulated to digital signal and is sent to MCU；And the digital signal that MCU is sent is received, and by the digital signal of reception It is modulated into radiofrequency signal and is sent to itself corresponding antenna；Antenna, for receiving aerial radiofrequency signal, and by the radio frequency of reception Signal is sent to itself corresponding RF circuit module；The radiofrequency signal that itself corresponding RF circuit module is sent is received, and The radiofrequency signal of reception is sent.AP provided in an embodiment of the present invention has at least two Network Interface Modules, and each net Network interface module is respectively provided with corresponding RF circuit module and antenna, then when needs dispose multiple nets in an installation point It, can be by the heterogeneous networks interface module of the different same AP of network insertion, without for each network point when network Not Bu Shu an AP, and multiple AP need not be configured respectively so that AP deployment complexity is low.

Through the above description of the embodiments, those skilled in the art can be understood that the embodiment of the present invention The mode of necessary general hardware platform can also be added to realize by software by hardware realization.Based on such reason Solution, the technical solution of the embodiment of the present invention can be embodied in the form of software product, which can be stored in one A non-volatile memory medium (can be CD-ROM, USB flash disk, mobile hard disk etc.) in, it is used including some instructions so that a meter It calculates machine equipment (can be personal computer, server or the network equipment etc.) and performs side described in each embodiment of the present invention Method.

It will be appreciated by those skilled in the art that attached drawing is the schematic diagram of a preferred embodiment, module or stream in attached drawing Journey is not necessarily implemented necessary to the present invention.

It will be appreciated by those skilled in the art that the module in device in embodiment can describe be divided according to embodiment It is distributed in the device of embodiment, respective change can also be carried out and be disposed other than in one or more devices of the present embodiment.On The module for stating embodiment can be merged into a module, can also be further split into multiple submodule.

The embodiments of the present invention are for illustration only, do not represent the quality of embodiment.

Obviously, various changes and modifications can be made to the invention without departing from essence of the invention by those skilled in the art God and scope.In this way, if these modifications and changes of the present invention belongs to the scope of the claims in the present invention and its equivalent technologies Within, then the present invention is also intended to comprising including these modification and variations.

Claims (12)

1. a kind of access point AP, which is characterized in that including：Micro-control unit MCU, aerial array, at least two network interface moulds Block, respectively RF circuit module corresponding with the Network Interface Module；

Wherein, the Network Interface Module is connected respectively from different cable networks；The aerial array include respectively with difference RF circuit module is corresponding and the antenna of mutually isolated deployment；

The Network Interface Module, the cable network signal that the cable network for receiving itself connection is sent, and by reception Cable network signal is converted into digital signal and is sent to MCU；And the digital signal that MCU is sent is received, and by the number of reception Signal is converted into the cable network that cable network signal is sent to itself connection；

The digital signal of reception for receiving the digital signal that the Network Interface Module is sent, and is sent to institute by the MCU State the corresponding RF circuit module of Network Interface Module；And the digital signal that the RF circuit module is sent is received, and will The digital signal of reception is sent to the corresponding Network Interface Module of the RF circuit module；

The RF circuit module, for receiving the radiofrequency signal that itself corresponding antenna is sent, and by the radiofrequency signal of reception It is demodulated to digital signal and is sent to MCU；And the digital signal that MCU is sent is received, and by the digital signal modulated of reception into penetrating Frequency signal is sent to itself corresponding antenna；

The radiofrequency signal of reception for receiving aerial radiofrequency signal, and is sent to itself corresponding radio frequency electrical by the antenna Road module；The radiofrequency signal that itself corresponding RF circuit module is sent is received, and the radiofrequency signal of reception is sent.

2. AP as described in claim 1, which is characterized in that the aerial array further includes：One Antenna baseplate, a cylinder Partition plate and a upper plate；

Wherein, the Antenna baseplate is connected as the bottom surface of the cylindrical spacers with the cylindrical spacers；

The upper plate is connected as the upper bottom surface of the cylindrical spacers with the cylindrical spacers；

The antenna is deployed in the edge that the Antenna baseplate, the cylindrical spacers and the upper plate are formed mutually isolatedly In the space of the cylindrical spacers circumferential direction.

3. AP as claimed in claim 2, which is characterized in that the aerial array further includes：Several vertical clapboards；

Several vertical clapboards by the Antenna baseplate, the cylindrical spacers and the upper plate form along the cylinder The space of partition plate circumferential direction is divided into the insulating space that quantity is no less than the antenna amount；

The antenna is deployed in respectively in the different insulating spaces, the antenna bottom of insulating space where each antenna is fixed on On plate, parallel with the Antenna baseplate or vertical deployment.

4. AP as claimed in claim 2, which is characterized in that the quantity that the AP includes Network Interface Module is two；

The antenna is deployed in the Antenna baseplate respectively, the cylindrical spacers and the upper plate are formed along the circle The both sides of cylindrical spacers described in the space of column partition plate circumferential direction, and an antenna, using horizontal polarization, another antenna is using vertical Straight polarization.

5. such as claim 1-4 any one of them AP, which is characterized in that the MCU is additionally operable to when multiple AP adjacent portions During administration, for the region between two neighboring AP, wherein, an AP in the two neighboring AP is MCU places AP portions Affix one's name to the adjacent AP in position, another AP AP where the MCU, determine frequency that the adjacent AP uses in the region and Channel, and antenna corresponding from the region in the AP coverages of the MCU places is made to use the frequency different with definite frequency, Or use the frequency identical from definite frequency but different channels.

6. AP as claimed in claim 2, which is characterized in that the aerial array includes two antenna sets, in each antenna sets Antenna it is respectively corresponding with different radio frequency circuit module；

Antenna in described two antenna sets is deployed in the Antenna baseplate, cylindrical spacers and described mutually isolatedly Upper plate form along the space of cylindrical spacers circumferential direction；

The MCU is additionally operable to when the adjacent deployment of multiple AP, determine the AP use adjacent with AP deployed positions where itself Antenna sets, and in two antenna sets that AP where itself is included, antenna sets that the AP adjacent with the deployed position is used The antenna sets that AP where different antenna sets are determined as itself is used.

7. AP as claimed in claim 6, which is characterized in that the aerial array further includes：Several vertical clapboards；

The vertical clapboard by the Antenna baseplate, the cylindrical spacers and the upper plate form along the cylindrical spacers Circumferential space is divided into the insulating space for the antenna amount that quantity is no less than in described two antenna sets；

Antenna in described two antenna sets is deployed in respectively in the different insulating spaces, each antenna be fixed on where every From on the Antenna baseplate in space, parallel with the Antenna baseplate or vertical deployment, each two is located in non-conterminous insulating space Antenna form an antenna sets.

8. AP as claimed in claim 6, which is characterized in that the quantity that the AP includes Network Interface Module is two；Each Antenna sets include two antennas；

Four antennas in described two antenna sets are fixed on the Antenna baseplate along the circumferential uniformly deployment of the cylindrical spacers On, and two antennas of each antenna sets are deployed in the Antenna baseplate, the cylindrical spacers and the upper plate structure respectively Into the both sides along cylindrical spacers described in the space of cylindrical spacers circumferential direction, and in two antennas of each antenna sets, one A antenna uses horizontal polarization, another antenna uses vertical polarization.

9. such as claim 6-8 any one of them AP, which is characterized in that the AP is further included：Switch matrix；

Wherein, the RF circuit module passes through switch matrix antenna phase corresponding with antenna sets used in the AP of place Even；

The switch matrix, for the antenna sets determined according to the MCU, by two RF circuit modules respectively with the antenna sets In two antennas be connected.

10. such as claim 1-4,6-8 any one of them AP, which is characterized in that the MCU is additionally operable to determine as the MCU When not accessing cable network there are Network Interface Module, according to default allocation rule, by the network for not accessing cable network The corresponding RF circuit module of interface module and the corresponding antenna assignment of the RF circuit module are to the net for accessing cable network Network interface module uses.

11. a kind of data transmission method for uplink, which is characterized in that including：

The arbitrary network interface module at least two Network Interface Modules of AP is controlled to receive the arbitrary network interface module pair The cable network signal that the cable network answered is sent, wherein, at least two Network Interface Module respectively from it is different wired Network corresponds to；

It controls the arbitrary network interface module that the cable network signal of reception is converted to digital signal and is sent to the AP's Micro-control unit MCU；

Control the MCU that the digital signal of reception is sent to the corresponding RF circuit module of arbitrary network interface module, In, different Network Interface Modules is corresponding from different RF circuit modules respectively；

It controls the RF circuit module by the digital signal modulated of reception into radiofrequency signal and is sent to the RF circuit module pair The antenna answered, wherein, different RF circuit modules is corresponding from different antennas respectively；

The antenna is controlled to send the radiofrequency signal of reception.

A kind of 12. data receiver method, which is characterized in that including：

The arbitrary antenna at least two antennas of AP is controlled to receive aerial radiofrequency signal；

Control the arbitrary antenna that the radiofrequency signal of reception is sent to the corresponding RF circuit module of the arbitrary antenna, wherein, institute It is corresponding from different RF circuit modules respectively to state at least two antennas；

It controls the RF circuit module that the radiofrequency signal of reception is demodulated into digital signal and is sent to the microcontroller list of the AP First MCU；

Control the MCU that the digital signal of reception is sent to the corresponding Network Interface Module of the RF circuit module, wherein, no Same RF circuit module is corresponding from different Network Interface Modules respectively；

It controls the Network Interface Module that the digital signal of reception is converted to cable network signal and is sent to the network interface mould The corresponding cable network of block, wherein, different Network Interface Modules is corresponding from different cable networks respectively.