CN107889120A - A kind of indoor covering system of the up anti-interferences of raising TDD LTE - Google Patents

A kind of indoor covering system of the up anti-interferences of raising TDD LTE Download PDF

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Publication number
CN107889120A
CN107889120A CN201711181968.9A CN201711181968A CN107889120A CN 107889120 A CN107889120 A CN 107889120A CN 201711181968 A CN201711181968 A CN 201711181968A CN 107889120 A CN107889120 A CN 107889120A
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signal
tdd
lte
active
combining
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CN107889120B (en
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王全华
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Fujian Sunnada Network Technology Co Ltd
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Fujian Sunnada Network Technology Co Ltd
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W16/00Network planning, e.g. coverage or traffic planning tools; Network deployment, e.g. resource partitioning or cells structures
    • H04W16/18Network planning tools
    • H04W16/20Network planning tools for indoor coverage or short range network deployment
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04BTRANSMISSION
    • H04B7/00Radio transmission systems, i.e. using radiation field
    • H04B7/02Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas
    • H04B7/04Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas
    • H04B7/0413MIMO systems

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  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Mobile Radio Communication Systems (AREA)
  • Variable-Direction Aerials And Aerial Arrays (AREA)
  • Transceivers (AREA)
  • Transmitters (AREA)

Abstract

The present invention provides a kind of TDD LTE multiple-input and multiple-output indoor covering systems, and the system includes:The active near-end machine and distal end active antenna being connected with RRU antenna port direct-couplings, it is attached between the active near-end machine and distal end active antenna by an indoor signal compartment system;The present invention uses the directional coupler and upward signal amplitude limiting processing of high directivity, solves the problems, such as traditional envelope detection level triggers synchronization scenario uplink interference.And the scheme of uplink and downlink sharing frequency converter is employed, under conditions of not sacrificial system performance, simplify circuit design, sufficiently lower equipment cost, improve product cost.

Description

A kind of indoor covering system of the up anti-interferences of raising TDD-LTE
This case be with Application No. 201410562363.4, it is applying date 2014.10.21, entitled《A kind of TDD-LTE Multiple-input and multiple-output indoor covering system》Patent application be female case divisional application.
Technical field
The present invention relates to technical field of communication equipment, more particularly to a kind of TDD-LTE multiple-input and multiple-outputs in-door covering system System.
Background technology
With the development of information technology, requirement of the people to the network communications technology improves constantly, including data, voice With the communication of the high data traffic of the content such as image, to meet higher and higher data communication service requirement, 4G communications Yin Qigao The technical advantage of speed, growth momentum is more and more faster in recent years.The TD-LTE that current China is greatly developing (drill for a long time by timesharing Enter) 4G communications, the development of its commercial network and industrial chain also reaches its maturity.Multiple-input and multiple-output (Multiple-Input Multiple-Output, MIMO) one of key technology of the antenna technology as 4G LTE communication standards, it is in transmitting terminal and connects Receiving end sends and receives data using multiple antennas respectively, to improve the capacity of channel, while can also improve the reliable of channel Property, reduce the bit error rate.But current traditional 2G, 3G indoor covering systems are all to use single-input single-output (Single-Input Single-Output, SISO) mode, currently, for existing Indoor Coverage Reconstruction, mainly using frequency conversion transmission Scheme, it is that first via signal is kept into constant directly transmission, by the by taking the binary channels mimo system of current mainstream applications as an example Two road signal frequency conversions carry out alien frequencies transmission to a different frequency range.
For being to maintain the reality with base station equipment using one of variable-frequency solutions TD-LTE indoor covering systems, its key technology When it is synchronous, and there is the envelope detection level triggers synchronization scenario of larger cost advantage at present, exist when up output signal compared with Qiang Shi, the up-downgoing synchronously detected can be disturbed to judge, cause Synchronization Control to miss the problem of switching, reliability is poor.
A kind of " signal transmission realizing method, the apparatus and system of multiple-input and multiple-output " is disclosed in the prior art, sees public affairs The number of opening is:102882573A, publication date are:2013-01-16 Chinese patent;It is more that the inventive embodiments provide a kind of multi input Signal transmission realizing method, the apparatus and system of output, including:The N roads sent to base station or multi-input/output antenna array Frequency identical signal generates the modulated signal that N roads frequency differs after being modulated, and utilizes same feeder line distribution system System is transmitted.The modulated signal that can also be differed to the N roads frequency transmitted in the feeder line compartment system is demodulated into N roads frequency Rate identical signal, and access base station or multi-input/output antenna array, it is double based on the time-division so as to solve in the prior art In the signals transmission of work multiple-input and multiple-output, sending or receive N roads frequency identical signal needs by N number of different feedback Line compartment system is transmitted, and the problem of complicated is realized in caused signal transmission.The envelope detection level triggers of the patent are synchronous Scheme, exist when up output signal is stronger, Synchronization Control can be caused to switch by mistake;And application scheme is made for uplink interference Further circuit optimization, greatly promotes synchronous interference free performance.
A kind of " MIMO frequency conversion systems are divided in new TD-LTE rooms " is also disclosed in the prior art, sees Publication No.: 202535360U, publication date are:2012-11-14 Chinese patent;A kind of achievable frequency conversion system of the invention and base station it is complete Complete synchronous or delay minimum, the new TD-LTE rooms of interference of the other systems to the system are avoided to divide MIMO frequency conversion systems, Including near-end machine and remote termination, the near-end machine output end is connected with remote termination input through feeder system, the near-end machine Including the same radiofrequency signal Transfer pipe of multiplex mode, combiner and Surveillance center's unit, the remote termination includes closing The same radiofrequency signal transfer passage of road device, multiplex mode, antenna and Surveillance center's unit, passed by detecting radiofrequency signal Send the envelope of radiofrequency signal descending in passage, through the shaping of envelope shaping unit be sent into control unit, with control unit built in work Operation mode contrasts, and control unit selectes mode of operation output Synchronization Control code again, makes the transmitting-receiving of indoor MIMO frequency conversion systems synchronous. The patent is individually designed using up-downgoing frequency converter;And present specification is directed to TDD-LTE tdd systems, present specification Employ uplink and downlink sharing frequency converter.
The content of the invention
The technical problem to be solved in the present invention, it is to provide in a kind of TDD-LTE (time division duplex) multiple-input and multiple-outputs room Covering system, using the directional coupler and upward signal amplitude limiting processing of high directivity, solve traditional envelope detection level and touch The problem of sending out synchronization scenario uplink interference.
What the present invention was realized in:A kind of TDD-LTE multiple-input and multiple-outputs indoor covering system, the system include: The active near-end machine and distal end active antenna being connected with RRU antenna port direct-couplings, the active near-end machine and distal end are active It is attached between antenna by an indoor signal compartment system;
The active near-end machine includes:First wave filter, the second wave filter, the 3rd wave filter, the first directional coupler, One envelope detection and synchronous control unit, the first up amplifying unit, the first descending amplifying unit, the first RF switches, the 2nd RF Switch, the first converter unit and the first combining/shunt;Distal end active antenna includes:Second combining/shunt, the 4th filter Ripple device, the 5th wave filter, the 6th wave filter, the 7th wave filter, the second converter unit, the second directional coupler, the inspection of the second envelope Involve synchronous control unit, the second up amplifying unit, the second descending amplifying unit, the 3rd RF switches, the 4th RF switches, second Converter unit, mimo antenna one and mimo antenna two;
The port 1 of the RRU antenna ports is connected with the second wave filter, and the second wave filter and the 3rd wave filter are with first Combining/shunt connection;The port 2 of RRU antenna ports is connected through the first wave filter with the first directional coupler, the first orientation coupling Clutch connects with the first envelope detection and synchronous control unit, the first RF switches respectively;First RF switch respectively with the first envelope Detection and synchronous control unit, the first up amplifying unit, the first descending amplifying unit connection;First up amplifying unit, One descending amplifying unit and the 2nd RF switches connect, and the first up amplifying unit, the first descending amplifying unit, the 2nd RF switches are equal It is connected with the first envelope detection and synchronous control unit;2nd RF switches are connected through the first converter unit with the 3rd wave filter;The One combining/shunt is connected through indoor signal compartment system with the second combining/shunt;
Second combining/shunt is connected through the 5th wave filter with mimo antenna one;Second combining/shunt, 4th wave filter, the second converter unit, the second directional coupler, the 3rd RF switches are sequentially connected;Second directional coupler is through Six wave filters are connected with the second envelope detection and synchronous control unit;3rd RF switches respectively with the second up amplifying unit, the Two descending amplifying unit connections;4th RF switches filter with the second up amplifying unit, the second descending amplifying unit, the 7th respectively Device connects;Second envelope detection and synchronous control unit switch with the 3rd RF switches, the second up amplifying unit, the 4th RF respectively Connection;7th wave filter is connected with mimo antenna two;Pass through active near-end machine, the active day of indoor signal compartment system and distal end The cooperation of line, it is up anti-interference in the envelope detection level triggers method of synchronization so as to realize.
Further, first wave filter, the second wave filter, the 3rd wave filter are filtered using the band logical of high rejection ability Ripple device, for filtering out with outer garbage signal;The first directional coupler directional couple receives descending input signal;Described first Envelope detection and synchronous control unit include RF detection circuit, envelope signal shaping circuit and the synchronization being sequentially connected Control unit, the envelope detection tracking to downstream signal is realized, and up-downgoing judgement is carried out with a threshold level triggering, finally Export synchronization control signal;The first up amplifying unit includes numerical-control attenuator, rear class amplifying unit, amplitude limit Device, wherein limiter be used for when upward signal is excessive exceed rated output power when, limiter quickly opens control, it is ensured that finally it is defeated Go out power without departing from rated power, avoid disturbing the first envelope detection and synchronous control unit because up output signal is excessive, Cause synchronism switching maloperation;First descending amplifying unit includes numerical-control attenuator, drive amplification unit;First RF is opened Close, the 2nd RF switches realize that the signal transmitting and receiving of the uplink downlink of time division duplex standard switches;First converter unit includes mixing Device, local oscillation circuit;First combining/shunt, which is realized, passes through the TDD-LTE downstream signals of the non-frequency conversion of the first via and the second tunnel Distal end active antenna is transferred to through feeder line after the TDD-LTE downstream signal combinings crossed after frequency conversion, and by distal end active antenna through feedback The two-way TDD-LTE upward signals that line transmits arrive the non-frequency conversion channel of the first via and the second tunnel frequency conversion channel after separation.
Further, the 4th wave filter, the 5th wave filter, the 6th wave filter, the 7th wave filter are suppressed using high The bandpass filter of ability, for filtering out with outer garbage signal;The second directional coupler directional couple receives descending input Signal;Second envelope detection and synchronous control unit and the first envelope detection and the 26S Proteasome Structure and Function phase of synchronous control unit Together;Second combining/shunt is realized the two-way TDD-LTE downstream signals that active near-end machine transmits through feeder line through dividing The non-frequency conversion channel of the first via and the second tunnel frequency conversion channel are arrived from rear, and by the non-frequency conversion TDD-LTE upward signals of the first via and second After TDD-LTE upward signal combinings of the road after frequency conversion active near-end machine is transported to through feeder line;The second up amplification is single Member includes LNA unit, numerical-control attenuator, intermediate amplifying unit, the limiter being sequentially connected;The second descending amplification is single Member includes numerical-control attenuator, drive amplification unit, the power amplifier unit being sequentially connected;The 3rd RF switches, the 4th RF switches are real Divide the signal transmitting and receiving switching of the uplink downlink of duplex system now;Second converter unit includes frequency mixer, local oscillation circuit;It is described Mimo antenna one and mimo antenna two are designed using vertically and horizontally dual polarization, are greatly improved with realizing in compact space Irrelevance between mimo antenna double-channel signal.
Further, the cooperation by active near-end machine, indoor signal compartment system and distal end active antenna, from And realize up anti-interference in the envelope detection level triggers method of synchronization, it is specially:
In active near-end machine, the TDD-LTE downstream signals that the non-frequency conversion channel of the first via exports RRU ports 1 pass through second Wave filter band logical is filtered out with after outer useless noise signal, the feeder line by the first combining/shunt by indoor signal compartment system It is conveyed to distal end active antenna;And the signal distally to come is gone out into the non-frequency conversion of the first via through the first combining/demultiplexer separates TDD-LTE upward signals, then it is conveyed to RRU ports 1 after the second wave filter bandpass filtering;
Second tunnel is frequency conversion channel, and its TDD-LTE downstream signal for exporting RRU ports 2 passes through the first wave filter band logical The first directional coupler is output to after filtering, then coupled signal is defeated by the first envelope by the coupling aperture of the first directional coupler Detection and synchronous control unit, analogue envelope signal is exported by RF detection circuit, then waveform is carried out by high-speed comparator After Shape correction, as needed for the first uplink and downlink amplifying unit of synchronization control unit conversion output, the 2nd RF switch modules Up-downgoing transceiving switch-over control signal;
When TDD-LTE RRU are operated in descending, the first RF switches switch to downlink, while open first and descending put Big unit, close the first up amplifying unit;The TDD-LTE downstream signals that RRU ports 2 export are by the first wave filter, first Directional coupling circuits, then enter the first descending amplifying unit through the first RF switches, i.e., put after numerical-control attenuator into driving Big unit amplifies, then enters frequency mixer frequency-conversion processing through the 2nd RF switches, and the frequency variation signal is input to the 3rd wave filter and carries out band Pass filter, then to the first combining/shunt together with after the TDD-LTE downstream signal combinings of the non-frequency conversion of the first via via indoor letter Number compartment system is conveyed to distal end active antenna;Similarly, when up work, the first RF switches switch to up-link, simultaneously The first up amplifying unit is opened, closes the first descending amplifying unit;The upward signal transmitted by distal end active antenna, warp First combining/demultiplexer separates go out the second road frequency variation signal, revert to original by the 3rd filter filtering, frequency mixer frequency conversion successively Carrying out the TDD-LTE upward signals of frequency range, the 2nd RF is switched, numerical-control attenuator, rear class amplifying unit, limiter, the first RF switches, First directional coupler, the first wave filter are output to TDD-LTE RRU ports 2;
In the active antenna equipment of distal end, the non-frequency conversion channel of the first via is defeated by active near-end machine by the second combining/shunt The TDD-LTE downstream signals of the non-frequency conversion of the first via are isolated in the signal brought, then after the 5th wave filter bandpass filtering It is output to mimo antenna one and is transmitted into the area of coverage;Similarly, the upward signal that mimo antenna one receives passes through the 5th filter filtering Afterwards, it is conveyed to active near-end machine through indoor signal compartment system after the second combining/shunt combining;
Second tunnel frequency conversion channel, first active near-end machine is conveyed in the signal to come through the second combining/shunt and isolated By the 4th filter filtering after second road frequency variation signal, the TDD- that frequency mixer frequency-conversion processing reverts to original frequency range is entered back into LTE downstream signals, then export coupled signal to the 6th filter filtering by the coupling aperture of the second directional coupler, then to Two envelope detections and synchronous control unit, i.e., analogue envelope signal is exported by RF detection circuit, then by high-speed comparator After carrying out waveform shaping processing, the second uplink and downlink amplifying unit of output is changed by synchronization control unit, the 2nd RF is switched Up-downgoing transceiving switch-over control signal needed for module;
When being operated in descending, the first RF switches switch to downlink, while open the second descending amplifying unit, close Second up amplifying unit;The Signal separator that the conveying of active near-end machine comes first is gone out into the second tunnel through the second combining/shunt to become By the 4th filter filtering after frequency signal, the descending letters of TDD-LTE that frequency mixer frequency-conversion processing reverts to original frequency range are entered back into Number, then enter the second descending amplifying unit by the second directional coupler, the 3rd RF switches, i.e., enter after numerical-control attenuator Drive amplification unit amplifies, then carries out high-power amplification by power amplifier unit, then is filtered by the 4th RF switches to the 7th wave filter Mimo antenna two is output to after ripple and is transmitted into the area of coverage;Similarly, when being operated in up, the TDD-LTE of the reception of mimo antenna two Upward signal is transported to the second up amplifying unit progress low noise after the 7th filter filtering, through the 4th RF switches and put Greatly, i.e., successively by LNA unit, numerical-control attenuator, intermediate amplifying unit, limiter, then by the 3rd RF switches, second It is the second road frequency variation signal that directional coupler, which inputs to frequency mixer frequency conversion, after the 4th filter filtering, then through the second combining/ After shunt combining, active near-end machine is transported to by indoor signal compartment system.
Further, the system also includes various parameters inquiry, the control that near-end monitoring module completes active near-end machine And fault management capability;And complete the transmitting-receiving Communication Control to distal end active antenna;Can also the active near-end machine state of remote transmission Information is to Surveillance center, and Surveillance center can realize that the control to active near-end machine parameters is set.
Further, the system also includes various parameters inquiry, the control that remote monitoring module completes distal end active antenna System and fault management capability, and by indoor signal compartment system transmission realization and the receipts of the near-end monitoring module of active near-end machine Hair communication.
The invention has the advantages that:The system of the present invention includes:What is be connected with RRU antenna port direct-couplings is active near Terminal and distal end active antenna, carried out between the active near-end machine and distal end active antenna by an indoor signal compartment system Connection;The present invention uses the directional coupler and upward signal amplitude limiting processing of high directivity, solves traditional envelope detection level The problem of triggering synchronization scenario uplink interference.And the scheme of uplink and downlink sharing frequency converter is employed, in not sacrificial system performance Under the conditions of, simplify circuit design, sufficiently lower equipment cost, improve product cost.
Brief description of the drawings
Fig. 1 is the active near-end machine theory diagram of TDD-LTE multiple-input and multiple-output indoor covering systems.
Fig. 2 is TDD-LTE multiple-input and multiple-output indoor covering systems distal end active antenna theory diagram.
Fig. 3 is the detailed schematic block diagram of active near-end machine.
The detailed schematic block diagram of Fig. 4 distal ends active antenna.
Embodiment
Refer to shown in Fig. 1 and Fig. 2, a kind of TDD-LTE multiple-input and multiple-outputs indoor covering system of the invention, the system System includes:The active near-end machine and distal end active antenna being connected with RRU antenna port direct-couplings, the active near-end machine with it is remote It is attached between the active antenna of end by an indoor signal compartment system;
The active near-end machine includes:First wave filter, the second wave filter, the 3rd wave filter, the first directional coupler, One envelope detection and synchronous control unit, the first up amplifying unit, the first descending amplifying unit, the first RF switches, the 2nd RF Switch, the first converter unit and the first combining/shunt;Distal end active antenna includes:Second combining/shunt, the 4th filter Ripple device, the 5th wave filter, the 6th wave filter, the 7th wave filter, the second converter unit, the second directional coupler, the inspection of the second envelope Involve synchronous control unit, the second up amplifying unit, the second descending amplifying unit, the 3rd RF switches, the 4th RF switches, second Converter unit, mimo antenna one and mimo antenna two;
The port 1 of the RRU antenna ports is connected with the second wave filter, and the second wave filter and the 3rd wave filter are with first Combining/shunt connection;The port 2 of RRU antenna ports is connected through the first wave filter with the first directional coupler, the first orientation coupling Clutch connects with the first envelope detection and synchronous control unit, the first RF switches respectively;First RF switch respectively with the first envelope Detection and synchronous control unit, the first up amplifying unit, the first descending amplifying unit connection;First up amplifying unit, One descending amplifying unit and the 2nd RF switches connect, and the first up amplifying unit, the first descending amplifying unit, the 2nd RF switches are equal It is connected with the first envelope detection and synchronous control unit;2nd RF switches are connected through the first converter unit with the 3rd wave filter;The One combining/shunt is connected through indoor signal compartment system with the second combining/shunt;
Second combining/shunt is connected through the 5th wave filter with mimo antenna one;Second combining/shunt, 4th wave filter, the second converter unit, the second directional coupler, the 3rd RF switches are sequentially connected;Second directional coupler is through Six wave filters are connected with the second envelope detection and synchronous control unit;3rd RF switches respectively with the second up amplifying unit, the Two descending amplifying unit connections;4th RF switches filter with the second up amplifying unit, the second descending amplifying unit, the 7th respectively Device connects;Second envelope detection and synchronous control unit switch with the 3rd RF switches, the second up amplifying unit, the 4th RF respectively Connection;7th wave filter is connected with mimo antenna two;Pass through active near-end machine, the active day of indoor signal compartment system and distal end The cooperation of line, it is up anti-interference in the envelope detection level triggers method of synchronization so as to realize.
First wave filter, the second wave filter, the 3rd wave filter use the bandpass filter of high rejection ability, are used for Filter out with outer garbage signal;The first directional coupler directional couple receives descending input signal, and to up output signal Be coupled to receive very little;First envelope detection and synchronous control unit include RF detection circuit, the envelope being sequentially connected Signal transformation circuit and synchronization control unit, the envelope detection tracking to downstream signal is realized, and with a thresholding electricity Flat triggering carries out up-downgoing judgement, final output synchronization control signal;The first up amplifying unit includes numerical control Attenuator, rear class amplifying unit, limiter, wherein limiter be used for when upward signal is excessive exceed rated output power when, limit Width device quickly opens control, it is ensured that final power output avoids disturbing because up output signal is excessive without departing from rated power One envelope detection and synchronous control unit, cause synchronism switching maloperation;First descending amplifying unit includes numerical-control attenuator, driven Dynamic amplifying unit;The first RF switches, the 2nd RF switches realize that the signal transmitting and receiving of the uplink downlink of time division duplex standard is cut Change;First converter unit includes frequency mixer, local oscillation circuit;First combining/shunt is realized the non-frequency conversion of the first via After the TDD-LTE downstream signal combinings of TDD-LTE downstream signals and the second tunnel after frequency conversion through feeder line be transferred to distal end it is active Antenna, and the two-way TDD-LTE upward signals that distal end active antenna is transmitted through feeder line are unchanged to the first via after separation Frequency passage and the second tunnel frequency conversion channel.
4th wave filter, the 5th wave filter, the 6th wave filter, the 7th wave filter use the band logical of high rejection ability Wave filter, for filtering out with outer garbage signal;The second directional coupler directional couple receives descending input signal, and to upper Row output signal is coupled to receive very little;Second envelope detection and synchronous control unit and the first envelope detection and synchronous control The 26S Proteasome Structure and Function of unit processed is identical;Second combining/shunt realizes transmit active near-end machine through feeder line two Road TDD-LTE downstream signals arrive the non-frequency conversion channel of the first via and the second tunnel frequency conversion channel after separation, and by the non-frequency conversion of the first via After the TDD-LTE upward signal combinings of TDD-LTE upward signals and the second tunnel after frequency conversion active near-end is transported to through feeder line Machine;The second up amplifying unit includes LNA unit, numerical-control attenuator, intermediate amplifying unit, the amplitude limit being sequentially connected Device;The second descending amplifying unit includes numerical-control attenuator, drive amplification unit, the power amplifier unit being sequentially connected;Described Three RF switches, the 4th RF switches realize the signal transmitting and receiving switching of the uplink downlink of time division duplex standard;Second converter unit bag Include frequency mixer, local oscillation circuit;The mimo antenna one and mimo antenna two are designed using vertically and horizontally dual polarization, to realize The irrelevance between mimo antenna double-channel signal is greatly improved in compact space.
As shown in Figure 3 and Figure 4, wherein, it is described to pass through active near-end machine, the active day of indoor signal compartment system and distal end The cooperation of line, it is up anti-interference in the envelope detection level triggers method of synchronization so as to realize, be specially:
In active near-end machine, the TDD-LTE downstream signals that the non-frequency conversion channel of the first via exports RRU ports 1 pass through second Wave filter band logical is filtered out with after outer useless noise signal, the feeder line by the first combining/shunt by indoor signal compartment system It is conveyed to distal end active antenna;And the signal distally to come is gone out into the non-frequency conversion of the first via through the first combining/demultiplexer separates TDD-LTE upward signals, then it is conveyed to RRU ports 1 after the second wave filter bandpass filtering;
Second tunnel is frequency conversion channel, and its TDD-LTE downstream signal for exporting RRU ports 2 passes through the first wave filter band logical The first directional coupler is output to after filtering, then coupled signal is defeated by the first envelope by the coupling aperture of the first directional coupler Detection and synchronous control unit, analogue envelope signal is exported by RF detection circuit, then waveform is carried out by high-speed comparator After Shape correction, as needed for the first uplink and downlink amplifying unit of synchronization control unit conversion output, the 2nd RF switch modules Up-downgoing transceiving switch-over control signal;
When TDD-LTE RRU are operated in descending, the first RF switches switch to downlink, while open first and descending put Big unit, close the first up amplifying unit;The TDD-LTE downstream signals that RRU ports 2 export are by the first wave filter, first Directional coupling circuits, then enter the first descending amplifying unit through the first RF switches, i.e., put after numerical-control attenuator into driving Big unit amplifies, then enters frequency mixer frequency-conversion processing through the 2nd RF switches, and the frequency variation signal is input to the 3rd wave filter and carries out band Pass filter, then to the first combining/shunt together with after the TDD-LTE downstream signal combinings of the non-frequency conversion of the first via via indoor letter Number compartment system is conveyed to distal end active antenna;Similarly, when up work, the first RF switches switch to up-link, simultaneously The first up amplifying unit is opened, closes the first descending amplifying unit;The upward signal transmitted by distal end active antenna, warp First combining/demultiplexer separates go out the second road frequency variation signal, revert to original by the 3rd filter filtering, frequency mixer frequency conversion successively Carrying out the TDD-LTE upward signals of frequency range, the 2nd RF is switched, numerical-control attenuator, rear class amplifying unit, limiter, the first RF switches, First directional coupler, the first wave filter are output to TDD-LTE RRU ports 2;
The system also includes various parameters inquiry, control and the fault management that near-end monitoring module completes active near-end machine Function;And complete the transmitting-receiving Communication Control to distal end active antenna;Can also the active near-end machine status information of remote transmission to monitoring Center, and Surveillance center can realize that the control to active near-end machine parameters is set.
As shown in figure 4, in the active antenna equipment of distal end, the non-frequency conversion channel of the first via, will have by the second combining/shunt The TDD-LTE downstream signals of the non-frequency conversion of the first via are isolated in the signal that source near-end machine conveying comes, then by the 5th wave filter Mimo antenna one is output to after bandpass filtering and is transmitted into the area of coverage;Similarly, the upward signal that mimo antenna one receives passes through the 5th After filter filtering, active near-end machine is conveyed to through indoor signal compartment system after the second combining/shunt combining;
Second tunnel frequency conversion channel, first active near-end machine is conveyed in the signal to come through the second combining/shunt and isolated By the 4th filter filtering after second road frequency variation signal, the TDD- that frequency mixer frequency-conversion processing reverts to original frequency range is entered back into LTE downstream signals, then export coupled signal to the 6th filter filtering by the coupling aperture of the second directional coupler, then to Two envelope detections and synchronous control unit, i.e., analogue envelope signal is exported by RF detection circuit, then by high-speed comparator After carrying out waveform shaping processing, the second uplink and downlink amplifying unit of output is changed by synchronization control unit, the 2nd RF is switched Up-downgoing transceiving switch-over control signal needed for module;
When being operated in descending, the first RF switches switch to downlink, while open the second descending amplifying unit, close Second up amplifying unit;The Signal separator that the conveying of active near-end machine comes first is gone out into the second tunnel through the second combining/shunt to become By the 4th filter filtering after frequency signal, the descending letters of TDD-LTE that frequency mixer frequency-conversion processing reverts to original frequency range are entered back into Number, then enter the second descending amplifying unit by the second directional coupler, the 3rd RF switches, i.e., enter after numerical-control attenuator Drive amplification unit amplifies, then carries out high-power amplification by power amplifier unit, then is filtered by the 4th RF switches to the 7th wave filter Mimo antenna two is output to after ripple and is transmitted into the area of coverage;Similarly, when being operated in up, the TDD-LTE of the reception of mimo antenna two Upward signal is transported to the second up amplifying unit progress low noise after the 7th filter filtering, through the 4th RF switches and put Greatly, i.e., successively by LNA unit, numerical-control attenuator, intermediate amplifying unit, limiter, then by the 3rd RF switches, second It is the second road frequency variation signal that directional coupler, which inputs to frequency mixer frequency conversion, after the 4th filter filtering, then through the second combining/ After shunt combining, active near-end machine is transported to by indoor signal compartment system.
The system also includes various parameters inquiry, control and the failure pipe that remote monitoring module completes distal end active antenna Function is managed, and realizes by the transmission of indoor signal compartment system and is communicated with the transmitting-receiving of the near-end monitoring module of active near-end machine.
Although the foregoing describing the embodiment of the present invention, those familiar with the art should manage Solution, the specific embodiment described by us are merely exemplary, rather than for the restriction to the scope of the present invention, are familiar with this The equivalent modification and change that the technical staff in field is made in the spirit according to the present invention, should all cover the present invention's In scope of the claimed protection.

Claims (5)

1. the indoor covering system of the up anti-interferences of a kind of raising TDD-LTE, it is characterised in that the system includes:With RRU The active near-end machine and distal end active antenna of antenna port direct-coupling connection, the active near-end machine and distal end active antenna it Between be attached by an indoor signal compartment system;
The active near-end machine, the TDD-LTE downstream signals for exporting RRU ports 1 for the non-frequency conversion channel of the first via pass through it First combining/shunt is conveyed to distal end active antenna by the feeder line of indoor signal compartment system;And distal end active antenna is sent out The signal brought goes out the TDD-LTE upward signals of the non-frequency conversion of the first via through its first combining/demultiplexer separates, then is conveyed to RRU ports 1;
It is additionally operable to the second tunnel frequency conversion channel and the TDD-LTE downstream signals that RRU ports 2 export is oriented coupling afterwards after filtering Close, then coupled signal is defeated by the first envelope detection and synchronous control unit, by RF detection circuit output analogue envelope letter Number, then after waveform shaping is handled, conversion output up-downgoing transceiving switch-over control signal is controlled by synchronization;
It is additionally operable to, when RRU is operated in descending, switch to downlink, while opens descending amplification, closes up amplification;RRU The TDD-LTE downstream signals that port 2 exports are amplified after directional couple after numerical control attenuation, enter back into frequency mixer change Frequency is handled, and the frequency variation signal is again to the first combining/shunt together with after the TDD-LTE downstream signal combinings of the non-frequency conversion of the first via Distal end active antenna is conveyed to via indoor signal compartment system;When up work, up-link is switched to, while open the One up amplification, close the first descending amplification;The upward signal transmitted by distal end active antenna, through the first combining/branch Device isolates the second road frequency variation signal, successively after filtering, frequency conversion revert to the TDD-LTE upward signals of original frequency range, through number RRU ports 2 are output to after control decay, rear class amplification, amplitude limit, directional coupler, wave filter;
The distal end active antenna, for the non-frequency conversion channel of the first via, active near-end machine is conveyed by the second combining/shunt The TDD-LTE downstream signals of the non-frequency conversion of the first via are isolated in the signal to come over, then are output to mimo antenna one afterwards after filtering It is transmitted into the area of coverage;Mimo antenna one receive upward signal after filtering after, through room after the second combining/shunt combining Interior signal distributing system is conveyed to active near-end machine;
The second tunnel frequency conversion channel is additionally operable to, first active near-end machine is conveyed in the signal to come through the second combining/shunt and separated Go out after the second road frequency variation signal after filtering, frequency-conversion processing revert to the TDD-LTE downstream signals of original frequency range, then by orientation Coupler exports coupled signal, then to the second envelope detection and synchronous control unit, exports and simulate by RF detection circuit Envelope signal, then after carrying out waveform shaping processing, output up-downgoing transmitting-receiving switching control is changed by synchronization control unit Signal;
It is additionally operable to when being operated in descending, switches to downlink, while open the second descending amplification, closing second is up puts Greatly;First through filtering after the Signal separator that the conveying of active near-end machine comes is gone out the second road frequency variation signal by the second combining/shunt Ripple, then frequency-conversion processing revert to the TDD-LTE downstream signals of original frequency range, then carry out high-power amplification by directional couple, then It is output to mimo antenna two afterwards after filtering and is transmitted into the area of coverage;When being operated in up, the TDD-LTE of the reception of mimo antenna two Upward signal after filtering after, carry out low noise amplification, then by directional coupler, frequency conversion be the second road frequency variation signal, process After filtering, then after the second combining/shunt combining, active near-end machine is transported to by indoor signal compartment system.
2. a kind of indoor covering system of the up anti-interferences of raising TDD-LTE according to claim 1, its feature exist In:First envelope detection and synchronous control unit include RF detection circuit, the envelope signal shaping circuit being sequentially connected With synchronization control unit, the envelope detection tracking to downstream signal is realized, and carry out with a threshold level triggering Descending judgement, final output synchronization control signal;First combining/shunt is realized the non-frequency conversion of the first via After the TDD-LTE downstream signal combinings of TDD-LTE downstream signals and the second tunnel after frequency conversion through feeder line be transferred to distal end it is active Antenna, and the two-way TDD-LTE upward signals that distal end active antenna is transmitted through feeder line are unchanged to the first via after separation Frequency passage and the second tunnel frequency conversion channel.
3. a kind of indoor covering system of the up anti-interferences of raising TDD-LTE according to claim 2, its feature exist In:Second envelope detection and synchronous control unit and the first envelope detection and the 26S Proteasome Structure and Function phase of synchronous control unit Together;Second combining/shunt is realized the two-way TDD-LTE downstream signals that active near-end machine transmits through feeder line through dividing The non-frequency conversion channel of the first via and the second tunnel frequency conversion channel are arrived from rear, and by the non-frequency conversion TDD-LTE upward signals of the first via and second After TDD-LTE upward signal combinings of the road after frequency conversion active near-end machine is transported to through feeder line.
4. a kind of indoor covering system of the up anti-interferences of raising TDD-LTE according to claim 3, its feature exist In:The system also includes various parameters inquiry, control and the fault management capability that near-end monitoring module completes active near-end machine; And complete the transmitting-receiving Communication Control to distal end active antenna;Can also the active near-end machine status information of remote transmission to Surveillance center, And Surveillance center can realize that the control to active near-end machine parameters is set.
5. a kind of indoor covering system of the up anti-interferences of raising TDD-LTE according to claim 4, its feature exist In:The system also includes various parameters inquiry, control and the fault management work(that remote monitoring module completes distal end active antenna Can, and realize by the transmission of indoor signal compartment system and communicated with the transmitting-receiving of the near-end monitoring module of active near-end machine.
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