CN204013601U - A kind of multi-carrier communication apparatus of tdd mode mimo wireless communication system - Google Patents
A kind of multi-carrier communication apparatus of tdd mode mimo wireless communication system Download PDFInfo
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- CN204013601U CN204013601U CN201420388114.3U CN201420388114U CN204013601U CN 204013601 U CN204013601 U CN 204013601U CN 201420388114 U CN201420388114 U CN 201420388114U CN 204013601 U CN204013601 U CN 204013601U
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Abstract
The utility model discloses a kind of multi-carrier communication apparatus of tdd mode mimo wireless communication system, comprise transmitter baseband processing module, receiver baseband processing module, radio frequency sending set processing module, radio-frequency transmitter processing module, microwave frequency band upconversion process module, microwave frequency band down-converted module, transceiver toggle switch module, multiplexer module, an orthomode coupler and an antenna.The core of this device is: the single carrier radiofrequency signal of two spatial flows of same frequency multichannel of microwave frequency band upconversion process module received RF transmitter processes module output, through upconversion process, the single carrier microwave frequency band signal of two spatial flows of multichannel of output different frequency, then send by individual antenna by the double space stream multicarrier microwave frequency band signal that multiplexer module and orthomode coupler synthesize single channel orthogonal polarization.The utility model can effectively utilize the abundant frequency spectrum resource of millimeter wave, increases exponentially the data transmission throughput of wireless communication system.
Description
Technical field
The utility model belongs to wireless communication technology field, be particularly related to a kind of time division duplex (Time DivisionDuplexing, TDD) multi-carrier communication apparatus of pattern multiple-input and multiple-output (Multiple Input Multiple Output, MIMO) wireless communication system.
Background technology
3G (Third Generation) Moblie is as WCDMA technology, and it is non-MIMO technology, the mode of operation of Frequency Division Duplexing (FDD) (FrequencyDivision Duplexing, FDD), and its single carrier channel bandwidth 5MHz, realizes 3.84Mbps symbol transmission speed.For improving power system capacity, there is the mode that adopts multi-carrier transmission base station, but this technology is to realize under fdd mode, working frequency range 2110~2170MHz that it transmits, receive the working frequency range of signal: 1920~1980MHz, it transmit and to receive signal frequency interval very large, directly adopt in radio frequency part and close road or digital if technology can realize multi-transceiver technology.
Long Term Evolution (Long Term Evolution, and WLAN (wireless local area network) (Wireless Local AreaNetworks LTE), WLAN) physical layer adopts OFDM (Orthogonal Frequency DivisionMultiplexing, OFDM) technology, it refers to Base-Band Processing part individual channel is divided into one group of mutually orthogonal subcarrier, is to use single carrier wave to send the signal of a channel in radio frequency part.The radio frequency part that multicarrier described in the utility model refers to tdd mode mimo wireless communication system is used multiple carrier waves to send the signal of multiple channels, and each carrier wave sends the signal of a channel.
The ultrahigh speed wireless local area network technology IEEE802.11ac of low-frequency range 5.8GHz is 80MHz in the maximum channel width of product in the market, outdoor double space flow transmission speed can reach 866.7Mbps, but the passback of the 4th third-generation mobile communication technology LTE base station in the market and multi-channel video flow transmission need transmission rate more than 1Gbps.China is 5.725~5.85GHz in 5.8GHz frequency range at present, only has the bandwidth of 125MHz, is less than the 80MHz bandwidth of 2 times, has no idea to realize multi-carrier transmission in this frequency range.
Low-frequency range (lower than 6GHz) wireless communication spectrum resource is day by day rare, the demand of Ultrahigh speed data transmission rate and the frequency resource of millimeter wave frequency band are very abundant, millimeter wave frequency band ultrahigh speed wireless communication technology is more and more received publicity, for example in December, 2013, the frequency spectrum resource that 42.3~47GHz and 47.2~48.4GHz are amounted to 5.9GHz by Ministry of Industry and Information approval is for ultrahigh speed wireless access and without radio license.
Utilize the baseband chip of IEEE802.11ac to realize multi-carrier transmission under tdd mode, each intercarrier is nonsynchronous, can cause transmitting of a carrier wave to be directly leaked to the receiver of another one carrier wave, make its receiver saturated, can not work.Use frequency conversion multi-transceiver technology is overcome this problem by the utility model, realize the transmission of tdd mode multi-carrier, the be multiplied data transmission throughput of wireless communication system, when baseband processing unit adopts IEEE802.11ac technical specification, the transmission rate of 2 carrier wave double spaces streams is up to 1.733Gbps.
Utility model content
Utility model object: low-frequency range (lower than 6GHz) wireless communication spectrum resource is day by day rare, be widely used interference very large, have a strong impact on systematic function, even can not effectively work, the utility model adopts frequency conversion multi-transceiver technology, the transmitting of the asynchronous carrier wave causing overcoming between tdd mode multi-carrier is directly leaked to the receiver of another one carrier wave, make its receiver saturated, the problem that can not work, the frequency resource of effectively utilizing millimeter wave frequency band to enrich very much, the data transmission throughput of wireless communication system is multiplied, the passback of satisfied the 4th third-generation mobile communication technology LTE base station in the market and multi-channel video flow transmission are up to the requirement of transmission rate more than 1Gbps.
Technical scheme: for above-mentioned utility model object, the utility model adopts following technical scheme:
A kind of multi-carrier communication apparatus of tdd mode mimo wireless communication system, comprise transmitter baseband processing module, receiver baseband processing module, radio frequency sending set processing module, radio-frequency transmitter processing module, microwave frequency band upconversion process module, microwave frequency band down-converted module, transceiver toggle switch module, multiplexer module, an orthomode coupler (Orthogonal Mode Transducer, OMT) and an antenna;
Described transmitter baseband processing module produces the baseband signal of two spatial flows in N road, and exports radio frequency sending set processing module to, and N is greater than 1 natural number;
The input of described radio frequency sending set processing module is connected with the output of transmitter baseband processing module, is F for the frequency range that the baseband signal of two spatial flows in N road is converted to two spatial flows in N road
1single carrier radiofrequency signal, and export microwave frequency band upconversion process module to;
The input of described microwave frequency band upconversion process module is connected with radio frequency sending set processing module output, is F for the frequency range that the single carrier radiofrequency signal of two spatial flows in N road is converted to the different frequency of two spatial flows in N road
2single carrier microwave frequency band signal, and export transceiver toggle switch module to;
Described transceiver toggle switch module comprises transmitting terminal, receiving terminal and common port, described transmitting terminal is connected with the output of microwave frequency band upconversion process module, described receiving terminal is connected with the input of microwave frequency band down-converted module, and described common port is connected with multiplexer module; Transceiver toggle switch module is communicated with microwave frequency band upconversion process module and multiplexer module while being used for launching, be communicated with multiplexer module and microwave frequency band down-converted module when reception;
Described microwave frequency band down-converted module is used for converting the single carrier microwave frequency band signal of the different frequency of two spatial flows in N road the single carrier radiofrequency signal of two spatial flows in N road to, and exports radio-frequency transmitter processing module to;
The input of described radio-frequency transmitter processing module is connected with the output of microwave frequency band down-converted module, for converting the single carrier radiofrequency signal of two spatial flows in N road the baseband signal of two spatial flows in N road to, and export receiver baseband processing module to;
Described multiplexer module is connected with the common port of transceiver toggle switch module, multiplexer module is used for, while transmitting, the single carrier microwave frequency band signal of the different frequency of two spatial flows in N road is closed to the single channel multicarrier microwave frequency band signal that road is two spatial flows, and the single channel multicarrier microwave frequency band signal of exporting two spatial flows is to orthomode coupler, when reception, be the single carrier microwave frequency band signal of the different frequency of two spatial flows in N road along separate routes by the single channel multicarrier microwave frequency band signal of two spatial flows, and the single carrier microwave frequency band signal of exporting two spatial flows in N road is to transceiver toggle switch module,
Described orthomode coupler is connected with multiplexer module, described antenna is connected with orthomode coupler, orthomode coupler sends by an antenna after the multicarrier microwave frequency band signal of two spatial flows being synthesized when launching to the double space stream multicarrier microwave frequency band signal of single channel orthogonal polarization, when reception by from antenna reception to the double space stream multicarrier microwave frequency band signal of single channel orthogonal polarization separates the multicarrier microwave frequency band signal of exporting two spatial flows to multiplexer module.
Above-mentioned transmitter baseband processing module, receiver baseband processing module, radio frequency sending set processing module, radio-frequency transmitter processing module, microwave frequency band upconversion process module and microwave frequency band down-converted module comprise respectively N unit, each unit comprises two signal processing paths, and each processing path of each unit is respectively used to the processing of a spatial flow signal of every road signal.
More common in transmitter baseband processing unit, receiver baseband processing unit, radio frequency sending set processing unit, radio-frequency transmitter processing unit and transceiver toggle switch prior art.The baseband signal of two spatial flows of transmitter baseband processing unit output is the input in two processing paths of input radio frequency transmitter processes unit respectively, the single carrier radiofrequency signal input of two signal processing paths of incoming wave frequency range upconversion process unit respectively of two spatial flows of the output output in two processing paths of radio frequency sending set processing unit, the single carrier microwave frequency band signal of two spatial flows of output output of two signal processing paths of ripple frequency range upconversion process unit.Two processing paths of radio-frequency transmitter processing unit receive respectively the single carrier radiofrequency signal of two spatial flows of two processing paths outputs of microwave frequency band frequency conversion processing unit, and two baseband signals of processing two spatial flows of paths output of radio-frequency transmitter processing unit are to receiver baseband processing unit.
Wherein, microwave frequency band upconversion process unit signal processing path comprises:
Radio-frequency signal filters, the radiofrequency signal of exporting for received RF transmitter processes unit, carries out exporting after filtering; Radiofrequency signal upconverter, for the radiofrequency signal of received RF signal filter output, exports after radiofrequency signal is up-converted to microwave frequency band signal by use microwave frequency band local oscillation signal; Microwave frequency band traffic filter, for the microwave frequency band signal of received RF signal upconverter output, carries out exporting after filtering; Microwave frequency band signal power amplifier, for receiving the microwave frequency band signal of microwave frequency band traffic filter output, carries out exporting after power amplification.
A signal processing path of microwave frequency band frequency conversion processing unit comprises:
Microwave frequency band signal low noise amplifier, for receiving the microwave frequency band signal of transceiver toggle switch output, carries out exporting after low noise amplification; Microwave frequency band traffic filter, for receiving the microwave frequency band signal after the amplification of microwave frequency band signal low noise amplifier output, carries out exporting after filtering; Microwave frequency band signal low-converter, for receiving the microwave frequency band signal of microwave frequency band traffic filter output, exports after microwave frequency band signal is down-converted to radiofrequency signal by use microwave frequency band local oscillation signal; Radiofrequency signal channel model, for receiving the radiofrequency signal of microwave frequency band signal low-converter output, carries out exporting after filtering.
Described transceiver toggle switch module, comprises N transceiver toggle switch submodule, and each transceiver toggle switch submodule has two transceiver toggle switch, and a transceiver toggle switch comprises a transmitting terminal, a receiving terminal and a common port; Described multiplexer module comprises two multiplexers, each multiplexer at least has N single-carrier signal port and a public port, described single-carrier signal port is connected with the public port of the transmit-receive switch of corresponding single carrier, and described public port is connected with orthomode coupler; The transmitting terminal of described transceiver toggle switch is connected with an output of processing path of microwave frequency band upconversion process unit; The receiving terminal of described transceiver toggle switch is connected with an input of processing path of microwave frequency band frequency conversion processing unit.
Each multiplexer is made up of multiple filters, offer transmitter by synthetic MF Multi-Channel Per Carrier microwave frequency band signal single channel multicarrier microwave frequency band signal, offer receiver simultaneously single channel multicarrier microwave frequency band signal is isolated to MF Multi-Channel Per Carrier microwave frequency band signal.The mutual isolation of multiple filters of multiplexer is determined according to following formula:
P
1-D
1≤-174-9 formula 1
D
1>=183+P
1formula 2
P
tx-D
2≤ P
2formula 3
D
2>=P
tx-P
2formula 4
P
tx-(A
1+ A
2+ D
2the 174+10log of)≤-(B)+60 formula 5
D=max (D
1, D
2) formula 6
Wherein, the thermal noise floor of receiver :-174dBm/Hz, for making reduction value that the spurious signal of transmitter affects receiver sensitivity not higher than 0.5dB, the spurious signal of transmitter must be lower than the noise floor 9dB of receiver at receiver end, after the radio-frequency signal filters of microwave frequency band upconversion process unit, the filtering of microwave frequency band traffic filter, transmitter transceiver toggle switch module common port single carrier microwave frequency band signal is at the spurious signal level at adjacent another one carrier wave frequency range place: P
1dBm/Hz, receiver transceiver toggle switch module common port single carrier maximum input signal: P
2dBm, transmitter transceiver toggle switch module common port single carrier microwave frequency band signal output level: P
txdBm, the radio-frequency signal filters in microwave frequency band frequency conversion processing unit at the inhibition degree of adjacent carrier is: A
1dB, the microwave frequency band traffic filter in microwave frequency band frequency conversion processing unit at the inhibition degree of adjacent carrier is: A
2dB, D
1be defined as the isolation to spurious signal, D
2be defined as the inhibition degree that strong signal is disturbed, single carrier microwave frequency band signal bandwidth: BMHz.
The bandwidth of each filter of multiplexer can be greater than single carrier channel bandwidth, and its bandwidth selection decides according to the insertion loss of millimeter wave frequency band F2 and filter, is chosen as the width of 2% left and right of carrier wave.
Radiofrequency signal channel model is used for completing together separating of multi-carrier signal with multiplexer, the frequency range of radiofrequency signal channel model is F1, this frequency range is compared with low-frequency range, be chosen as and be less than 6GHz, the transceiver of each carrier wave is the same in the frequency of this frequency range, and the bandwidth of filter is the channel width of single carrier radiofrequency signal.
Orthomode coupler, also claim orthomode transducer or bimodulus converter, be used for the device of isolated or synthesized two orthogonal polarized waves, solve the problem that can transmit with polarised direction channels different and isolation mutually 2 spatial flows under sighting distance (LOS) environment on same frequency.OMT has three physical ports, and public port is connected with antenna, and two other electrical port is distributed to respectively the transceiver of 2 spatial flows.
Beneficial effect: compared with prior art, the frequency resource that the utility model effectively utilizes millimeter wave frequency band to enrich very much, the data transmission throughput of wireless communication system is multiplied, when baseband processing unit adopts IEEE802.11ac technical specification, the peak rate of the mimo wireless communication system of 2 carrier wave double space streams can be brought up to 1.733Gbps.
Brief description of the drawings
Fig. 1 is the schematic diagram of mimo wireless communication network;
Fig. 2 is the structural representation of the utility model device embodiment;
Fig. 3 is principle schematic of the present utility model;
Fig. 4 is the circuit block diagram of the baseband processor+5.8GHz radio-frequency (RF) transceiver in Fig. 3;
Fig. 5 be the utility model device embodiment in the structural representation of OMT.
Embodiment
The utility model can be for multiple system of broadband wireless communication, and the example of this communication system comprises tdd mode millimeter wave wireless MIMO communication system etc.
The utility model can be applicable in multiple wired or wireless communication device, uses radio node of the present utility model can comprise access point or user terminal.
Access point (Access Point, AP) can comprise, be implemented as or be called base station transceiver, central station, base station, transceiver function, wireless router, transceiver, Basic Service Set (Basic Service Set, BSS), extended service set (Extended Service Set, ESS) or some other term.
User terminal (User Terminal, UT) can comprise, be implemented as or be called access terminal, remote terminal, subscriber station, subscriber unit, mobile radio station, user terminal, user's set, subscriber equipment or some other term.In some implementation, access terminal and can comprise phone, mobile phone, computer of possessing wireless connections ability etc.
As shown in Figure 1, there is the multiple access mimo system of access point and user terminal.In any given moment, access point can communicate with one or more user terminals on the first link and the second link.The first link is the communication link from access point to user terminal, and the second link is the communication link from user terminal to access point.User terminal can also be communicated by letter point-to-pointly with another user terminal.System access controller is connected to access point, and provides and coordinate and control to access point.
Wireless MIMO communication system is tdd mode system, for TDD system, and the frequency band that the first link is identical with the second link sharing.
Access point is for the transmitter of the first link with for the receiver of the second link.User terminal is for the receiver of the first link with for the transmitter of the second link." transmitter " is device or the equipment that can send by wireless channel the independent operation of data as used in this article, and " receiver " is device or the equipment that can receive by wireless channel the independent operation of data.
As shown in Figure 2, a multi-carrier communication apparatus for tdd mode mimo wireless communication system, comprises transmitter baseband processing module 1, receiver baseband processing module 10, radio frequency sending set processing module 2, radio-frequency transmitter processing module 20, microwave frequency band upconversion process module 3, microwave frequency band down-converted module 30, transceiver toggle switch module 4, multiplexer module 5, orthomode coupler 6 and an antenna 7.
The baseband signal that transmitter baseband processing module 1 produces two spatial flows in N road exports radio frequency sending set processing module 2 to, radio frequency sending set processing module 2 is processed N roadbed band signal the single carrier radiofrequency signal of two spatial flows in rear output N road, the frequency of every road single carrier radiofrequency signal is identical, frequency range F
1for being less than 6GHz frequency range; Microwave frequency band upconversion process module 3 is connected with radio frequency sending set processing module 2, is the single carrier microwave frequency band signal of the different frequency of two spatial flows in N road by the single carrier radiofrequency signal frequency-conversion processing of two spatial flows in N road, the frequency range F of single carrier microwave frequency band signal
2for being greater than 10GHz microwave frequency band, the carrier frequency of N road single carrier microwave frequency band signal is respectively f
1..., f
n; Transceiver toggle switch module 4 is switched for receiving-transmitting chain; Microwave frequency band down-converted module 30 is treated to the single carrier microwave frequency band signal frequency conversion of two spatial flows in N road the single carrier radiofrequency signal of two spatial flows in N road; Radio-frequency transmitter processing module 20 is connected with microwave frequency band down-converted module 30, the single carrier radiofrequency signal of two spatial flows in N road is processed to the baseband signal of two spatial flows in output N road; Multiplexer module 5 closes by the single carrier microwave frequency band signal of two spatial flows in N road the multicarrier microwave frequency band signal that road is two spatial flows of single channel in the time of transmitting, when reception, is the single carrier microwave frequency band signal of two spatial flows in N road along separate routes by the multicarrier microwave frequency band signal of two spatial flows of single channel; Orthomode coupler 6, be connected with multiplexer module 5 and antenna 7 respectively, when transmitting, the multicarrier microwave frequency band signal of two spatial flows of single channel is synthesized to the multicarrier microwave frequency band signal of the double space stream of single channel orthogonal polarization, send by an antenna 7, when reception, the multicarrier microwave frequency band signal of the double space stream of the single channel orthogonal polarization receiving from antenna 7 is separated.
Transmitter baseband processing module 1, receiver baseband processing module 10, radio frequency sending set processing module 2, radio-frequency transmitter processing module 20, microwave frequency band upconversion process module 3 and microwave frequency band down-converted module 30 have respectively N unit, for the treatment of N road signal, each unit has two and processes path, for the treatment of two spatial flow signals of every road signal.Fig. 3 and Fig. 4 have provided the concrete structural representation of the present embodiment.
Process path specific descriptions Radio frequency Processing Unit, RF Processing Unit and the annexation of microwave frequency band frequency-conversion processing part and the transitive relation of signal for one of Yi Yi road signal below:
One of radio frequency sending set processing unit process path: baseband signal is converted to i/q signal output by digital analog converter 21, i/q signal carry out filtering through two analog intermediate frequency filters 22, two analog intermediate frequency amplifiers 23 respectively and amplify after input to I/Q modulator 24 be modulated to input again variable gain amplifier 25 after radiofrequency signal and amplify after output single carrier radiofrequency signal.
Process path for one of microwave frequency band upconversion process unit: variable gain amplifier 25 output single carrier radiofrequency signals are by input radio frequency signal upconverter 32 after radio-frequency signal filters 31 filtering, carry out up-converting to after mixing the output of microwave frequency band signal with microwave frequency band local oscillation signal, then after microwave frequency band traffic filter 33, power amplifier 34 carry out filtering and power amplification output single carrier microwave frequency band signal.
Process path for one of microwave frequency band frequency conversion processing unit: single carrier microwave frequency band signal is inputted microwave frequency band signal low-converter 303 input 302 filtering of microwave frequency band traffic filter after low noise amplifier 301 carries out low noise amplification after again, carry out down-converting to after mixing radiofrequency signal output with microwave frequency band local oscillation signal, then after radiofrequency signal channel model 304 carries out filtering output single carrier radiofrequency signal.
Process path for one of radio-frequency transmitter processing unit: the single carrier radiofrequency signal that above-mentioned channel model 304 is exported is inputted i/q demodulator 202 after amplifying by amplifier 201 and carried out demodulation, output i/q signal, i/q signal respectively through two variable gain amplifiers 203, two analog intermediate frequency filters 204 amplify and filtering after input after analog-digital converter 205 is converted to baseband signal and export.
Transceiver toggle switch module 4 is connected with microwave frequency band upconversion process module 3, microwave frequency band down-converted module 30 and multiplexer module 5 respectively, and each spatial flow signal of each road signal of the N road double space stream single carrier microwave frequency band signal that microwave frequency band upconversion process module 3 is exported connects the transmitting terminal of a transceiver toggle switch 40; Each spatial flow signal of each road single carrier microwave frequency band signal that microwave frequency band down-converted module 30 is inputted is from the receiving terminal access of transceiver toggle switch 40; Multiplexer module 5 is made up of two multiplexers, it is single channel N carrier wave microwave frequency band signal that each multiplexer is used for, while transmitting, the single carrier microwave frequency band signal of N road different frequency is closed to road, when reception, single channel N carrier wave microwave frequency band signal is separated into N road single carrier microwave frequency band signal, the public port of transceiver toggle switch 40 is connected with a multiplexer.
Multiplexer 51 is made up of multiple filters, and the bandwidth of each filter can be greater than single carrier channel bandwidth, and its bandwidth selection is according to microwave frequency band F
2decide with the insertion loss of filter, be chosen as the width of 2% left and right of carrier wave.
Orthomode coupler 6, also claim orthomode transducer or bimodulus converter, be used for the device of isolated or synthesized two orthogonal polarized waves, solve the problem that can transmit with polarised direction channels different and isolation mutually two spatial flows under sighting distance (LOS) environment on same frequency.Orthomode coupler 6 has three physical ports, and public port is connected with antenna 7, and two other port is connected with two multiplexers respectively.
Below describing the parameter of multiplexer 51, channel model 304, orthomode coupler 6 while implementing 2 carrier schemes selects.F
1elect as: 42.565GHz, f
2elect as: 47.3GHz; F
1elect 5.8GHz as; Single-carrier signal bandwidth: 80MHz, baseband processing module can select to adopt the baseband processing chip of IEEE802.11ac technical specification.
Multiplexer 51, formed by 2 filters, the mutual isolation of 2 filters is determined according to above-mentioned formula 1 to formula 6, the noise floor of receiver :-174dBm/Hz, after radio-frequency signal filters 31,33 filtering of microwave frequency band traffic filter, transmitter transceiver toggle switch module common port single-carrier signal is at the spurious signal level at adjacent another one carrier wave frequency range place: P
1=-144dBm/Hz, receiver transceiver toggle switch module common port single carrier maximum input signal: P
2=-20dBm, transmitter transceiver toggle switch module common port single-carrier signal output level: P
tx=20dBm, radiofrequency signal channel model 304 at the inhibition degree of adjacent carrier is: A
1=50dB, microwave frequency band traffic filter 302 at the inhibition degree of adjacent carrier is: A
2=30dB, single carrier microwave frequency band signal bandwidth: B=80MHz, according to formula 2, D
1>=39dB; According to formula 4, D
2>=40dB; More than determining that according to formula 6 the mutual isolation D of 2 filters of multiplexer 51 is defined as 40dB.In 2 carrier schemes, the bandwidth of each filter is elected 1080MHz as, and centre frequency is respectively 42.565GHz and 47.3GHz.
Channel model 304, be used for completing together separating of multi-carrier signal with duplexer, the frequency range of channel model 304 is elected 5.8GHz as, the radio-frequency (RF) transceiver of each carrier wave is the same in the frequency of this frequency range, the bandwidth of filter is the channel width of single-carrier signal, the present embodiment is elected 80MHz as, and its inhibition degree the present embodiment at adjacent carrier place is designed to 50dB.
Orthomode coupler 6 can be selected circle common waveguide diaphragm branch design, as shown in Figure 5, uses the evenly common circle waveguide of cut-off, and cross section is divided in the insertion of diaphragm equally.Diaphragm region (or local) after rectangle branch-waveguide is overlapping with branch-waveguide, and Waveguide branching is positioned at the central authorities of common waveguide with respect to the vertical sidewall of diaphragm, the longitudinal axis conllinear of the general and common waveguide of the wide wall of branch-waveguide.Be added to the TE of public port
10mould signal is divided into two equal portions by membrane areas in the porch of diaphragm, then reconfigures in waveguide subsequently.Orthogonal TE
01mould disappears and reflects in diaphragm region, is finally coupled in branch-waveguide.The reflection loss of two kinds of polarized waves is greater than 20dB, and isolation is greater than 40dB.
The BCM4352 of the QCA9892 of the optional Qualcomm of baseband signal processor+5.8GHz radio-frequency (RF) transceiver (Qualcomm) or company of Botong (Broadcom) in Fig. 3, the QCA9558 of the optional QualCom of network processing unit company (Qualcomm).
The above is only preferred implementation of the present utility model; for those skilled in the art; do not departing under the prerequisite of the utility model principle, any amendment of doing, be equal to replacement, improvement etc. and also should be considered as protection range of the present utility model.
Claims (4)
1. the multi-carrier communication apparatus of a tdd mode mimo wireless communication system, comprise transmitter baseband processing module, receiver baseband processing module, radio frequency sending set processing module, radio-frequency transmitter processing module, it is characterized in that, also comprise microwave frequency band upconversion process module, microwave frequency band down-converted module, transceiver toggle switch module, multiplexer module, an orthomode coupler and an antenna;
Described transmitter baseband processing module, receiver baseband processing module, radio frequency sending set processing module, radio-frequency transmitter processing module, microwave frequency band upconversion process module, microwave frequency band down-converted module comprise respectively N unit, each unit comprises two signal processing paths, each signal processing path is for the processing of a road spatial flow signal, and N is greater than 1 natural number;
Described transmitter baseband processing module produces the baseband signal of two spatial flows in N road, and exports radio frequency sending set processing module to;
The input of described radio frequency sending set processing module is connected with the output of transmitter baseband processing module, for converting the baseband signal of two spatial flows in N road the single carrier radiofrequency signal of two spatial flows in N road to, and export microwave frequency band upconversion process module to;
The input of described microwave frequency band upconversion process module is connected with radio frequency sending set processing module output, for converting the single carrier radiofrequency signal of two spatial flows in N road the single carrier microwave frequency band signal of the different frequency of two spatial flows in N road to, and export transceiver toggle switch module to;
Described transceiver toggle switch module comprises transmitting terminal, receiving terminal and common port, described transmitting terminal is connected with the output of microwave frequency band upconversion process module, described receiving terminal is connected with the input of microwave frequency band down-converted module, and described common port is connected with multiplexer module; Transceiver toggle switch module is communicated with microwave frequency band upconversion process module and multiplexer module while being used for launching, be communicated with multiplexer module and microwave frequency band down-converted module when reception;
Described microwave frequency band down-converted module is used for converting the single carrier microwave frequency band signal of the different frequency of two spatial flows in N road the single carrier radiofrequency signal of two spatial flows in N road to, and exports radio-frequency transmitter processing module to;
The input of described radio-frequency transmitter processing module is connected with the output of microwave frequency band down-converted module, for converting the single carrier radiofrequency signal of two spatial flows in N road the baseband signal of two spatial flows in N road to, and export receiver baseband processing module to;
Described multiplexer module is connected with the common port of transceiver toggle switch module, multiplexer module is used for, while transmitting, the single carrier microwave frequency band signal of the different frequency of two spatial flows in N road is closed to the single channel multicarrier microwave frequency band signal that road is two spatial flows, and the single channel multicarrier microwave frequency band signal of exporting two spatial flows is to orthomode coupler, when reception, be the single carrier microwave frequency band signal of the different frequency of two spatial flows in N road along separate routes by the single channel multicarrier microwave frequency band signal of two spatial flows, and the single carrier microwave frequency band signal of exporting two spatial flows in N road is to transceiver toggle switch module,
Described orthomode coupler is connected with multiplexer module, described antenna is connected with orthomode coupler, orthomode coupler sends by an antenna after the multicarrier microwave frequency band signal of two spatial flows being synthesized when launching to the double space stream multicarrier microwave frequency band signal of single channel orthogonal polarization, when reception by from antenna reception to the double space stream multicarrier microwave frequency band signal of single channel orthogonal polarization separates the multicarrier microwave frequency band signal of exporting two spatial flows to multiplexer module.
2. the multi-carrier communication apparatus of tdd mode mimo wireless communication system as claimed in claim 1, is characterized in that:
A signal processing path of the microwave frequency band upconversion process unit in described microwave frequency band upconversion process module comprises:
Radio-frequency signal filters, the radiofrequency signal of exporting for a signal processing path of received RF transmitter processes unit, carries out exporting after filtering; Radiofrequency signal upconverter, for the radiofrequency signal of received RF signal filter output, exports after radiofrequency signal is up-converted to microwave frequency band signal by use microwave frequency band local oscillation signal; Microwave frequency band traffic filter, for the microwave frequency band signal of received RF signal upconverter output, carries out exporting after filtering; And microwave frequency band signal power amplifier, for receiving the microwave frequency band signal of microwave frequency band traffic filter output, carry out exporting after power amplification;
A signal processing path of the microwave frequency band frequency conversion processing unit in described microwave frequency band down-converted module comprises:
Microwave frequency band signal low noise amplifier, for receiving the microwave frequency band signal of transceiver toggle switch output, carries out exporting after low noise amplification; Microwave frequency band traffic filter, for receiving the microwave frequency band signal after the amplification of microwave frequency band signal low noise amplifier output, carries out exporting after filtering; Microwave frequency band signal low-converter, for receiving the microwave frequency band signal of microwave frequency band traffic filter output, exports after microwave frequency band signal is down-converted to radiofrequency signal by use microwave frequency band local oscillation signal; And radiofrequency signal channel model, for receiving the radiofrequency signal of microwave frequency band signal low-converter output, carry out exporting after filtering.
3. the multi-carrier communication apparatus of tdd mode mimo wireless communication system as claimed in claim 1, it is characterized in that: described multiplexer module comprises two multiplexers, each multiplexer is made up of multiple filters, and the mutual isolation of multiple filters is more than 40dB.
4. the multi-carrier communication apparatus of tdd mode mimo wireless communication system as claimed in claim 1, is characterized in that: the frequency range of described single carrier radiofrequency signal is the frequency range that is less than 6GHz, and the frequency range of described single carrier microwave frequency band signal is frequency range more than 10GHz.
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
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CN104079522A (en) * | 2014-07-14 | 2014-10-01 | 江苏中兴微通信息科技有限公司 | Multi-carrier communication method and device of TDD mode MIMO wireless communication system |
CN104935371A (en) * | 2015-07-07 | 2015-09-23 | 江苏技睿通信科技有限公司 | High-speed orthogonal frequency division multiplexing (OFDM) wireless relay transmission system |
CN109039371A (en) * | 2018-09-21 | 2018-12-18 | 中山云海网络科技有限公司 | Ferris wheel and its microwave transmission system, microwave transmission unit |
CN109921820A (en) * | 2019-04-23 | 2019-06-21 | 四川众为创通科技有限公司 | Terahertz is same to receive and dispatch full duplex communication system |
CN109951196A (en) * | 2019-04-23 | 2019-06-28 | 四川众为创通科技有限公司 | A kind of Terahertz multi-carrier communications systems |
CN109981135A (en) * | 2019-04-23 | 2019-07-05 | 四川众为创通科技有限公司 | Terahertz is the same as transmitting-receiving full duplex multi-carrier communications systems |
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2014
- 2014-07-14 CN CN201420388114.3U patent/CN204013601U/en not_active Withdrawn - After Issue
Cited By (9)
Publication number | Priority date | Publication date | Assignee | Title |
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CN104079522A (en) * | 2014-07-14 | 2014-10-01 | 江苏中兴微通信息科技有限公司 | Multi-carrier communication method and device of TDD mode MIMO wireless communication system |
CN104079522B (en) * | 2014-07-14 | 2017-04-19 | 江苏中兴微通信息科技有限公司 | Multi-carrier communication method and device of TDD mode MIMO wireless communication system |
CN104935371A (en) * | 2015-07-07 | 2015-09-23 | 江苏技睿通信科技有限公司 | High-speed orthogonal frequency division multiplexing (OFDM) wireless relay transmission system |
CN109039371A (en) * | 2018-09-21 | 2018-12-18 | 中山云海网络科技有限公司 | Ferris wheel and its microwave transmission system, microwave transmission unit |
CN109921820A (en) * | 2019-04-23 | 2019-06-21 | 四川众为创通科技有限公司 | Terahertz is same to receive and dispatch full duplex communication system |
CN109951196A (en) * | 2019-04-23 | 2019-06-28 | 四川众为创通科技有限公司 | A kind of Terahertz multi-carrier communications systems |
CN109981135A (en) * | 2019-04-23 | 2019-07-05 | 四川众为创通科技有限公司 | Terahertz is the same as transmitting-receiving full duplex multi-carrier communications systems |
CN109981135B (en) * | 2019-04-23 | 2024-08-06 | 四川众为创通科技有限公司 | Terahertz simultaneous transceiving full-duplex multi-carrier communication system |
CN109921820B (en) * | 2019-04-23 | 2024-09-17 | 四川众为创通科技有限公司 | Terahertz synchronous receiving and transmitting full duplex communication system |
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