CN203775416U

CN203775416U - Base station

Info

Publication number: CN203775416U
Application number: CN201420140791.3U
Authority: CN
Inventors: 冯烈训; 周涛
Original assignee: Huawei Technologies Co Ltd
Current assignee: Huawei Technologies Co Ltd
Priority date: 2014-03-26
Filing date: 2014-03-26
Publication date: 2014-08-13
Anticipated expiration: 2024-03-26

Abstract

An embodiment of the utility model provides a base station which comprises an antenna unit and a radio frequency unit. A port which corresponds with a receiving channel when the radio frequency unit is in an operating state and a port that corresponds with a transmitting channel when the radio frequency is in the operating state are respectively connected with ports that correspond with different dual-polarized oscillators or different single-polarized oscillators in the antenna unit. The different dual-polarized oscillators or different single-polarized oscillators are isolated from one another. Between same frequency bands and between different frequency bands, the base station according to the embodiment provided by the utility model can settle interference to uplink signals, wherein the interference is caused by intermodulation signals which are generated by downlink signals.

Description

Base station

Technical field

The utility model relates to mechanics of communication, relates in particular to a kind of base station.

Background technology

Along with the anxiety of operator's construction fund, network is shared has become a kind of networking mode generally using.Network is shared and is conventionally divided into the shared wireless access network of multi-operator (Multioperator Radio Access Network is called for short MORAN) and multi-operator shared network (Multioperator core network is called for short MOCN).MOCN is the shared frequency spectrum of many each operation businessmans and radio reception device, MORAN Shi Duoge operator respectively has oneself independently frequency spectrum, only shared radio reception device, for example, respectively there is the frequency spectrum of oneself in three operators, but share a radio-frequency module and antenna, concerning each operator, originally a set of base station equipment will be built in every operation commercial city like this, and present three operators only use a set of base station equipment, thereby, both can save 2/3 networking cost, can ensure again the frequency spectrum competitiveness of oneself simultaneously.Radio-frequency module can be Remote Radio Unit (Remote Radio Unit is called for short RRU), or macro base station radio frequency unit (Radio Frequency Unit is called for short RFU)

DD800M frequency range is 30M bandwidth altogether, and establishing 10M is a carrier wave, is divided into continuously 3 carrier wave: C1, C2, C3 by frequency range, and C1 and C2 are adjacent; C2 and C3 are adjacent.3 operators respectively account for the bandwidth of 10M, and for saving networking cost, 3 operators adopt tripartite MORAN scheme, require a radio-frequency module to support 3 carrier waves, carrier wave of Mei Jia operator.But due to the particularity of DD800M frequency range, during this demand realizes, run into the problem that the inter-modulated signal of descending generation is disturbed upward signal.The inter-modulated signal producing with intercarrier in descending 3 carrier waves of DD800M frequency range, a part has dropped on up frequency range interval, and the upward signal of meeting severe jamming base station causes radio-frequency module receiving sensitivity to reduce.Because the transmitting power of downstream signal is very large, upward signal a little less than, if to have dropped on band downlink interval less to descending interference, negligible for the inter-modulated signal that upward signal produces.Not only DD800M, other frequency ranges that mobile communication is used also have the problem that the inter-modulated signal of descending generation is disturbed upward signal.

Double RF module scheme can solve above-mentioned Intermodulation Interference problem.Between two adjacent carriers of C1+C2 of DD800M frequency range or between two adjacent carriers of C2+C3, the Intermodulation Interference of descending generation can not drop on uplink interval.Like this, configurable 2 RRU/RFU in each sector and 2 dual polarized antennas, on a radio-frequency module, configure two adjacent carriers of C1+C2 or two adjacent carriers of C2+C3, on another radio-frequency module, configure two adjacent carriers of C2+C3 or two adjacent carriers of C1+C2, two radio-frequency modules are combined and can be supported 3 carrier waves, realize 3 side MORAN functions.But each sector need to be used 2 radio-frequency modules, has increased the number of radio-frequency module, thereby has increased the cost of equipment and engineering, and MORAN object is to be exactly in order to share radio-frequency module.Therefore, MORAN scheme meaning reduces.

Summary of the invention

The utility model embodiment provides a kind of base station, the interference problem of inter-modulated signal to upward signal producing for solving downstream signal.

The utility model provides a kind of base station, comprises antenna element and radio frequency unit;

Corresponding port and in running order port corresponding to transmission channel of described radio frequency unit of receive path that described radio frequency unit is in running order, connect from different dual polarization vibrators in described antenna element or the corresponding port of different single polarization oscillator respectively, dual polarization vibrator or different single polarization oscillators different in described antenna element are isolated mutually.

In the possible real ancient flag with yak's tail mode of the first, described antenna element comprises N dual polarization vibrator, wherein N dual polarization comprises N/2 the first dual polarization vibrator and N/2 the second dual polarization vibrator, and every 1 dual polarization vibrator is to there being 2 ports on described antenna element, and described N is even number;

Corresponding port and in running order port corresponding to transmission channel of described radio frequency unit of receive path that described radio frequency unit is in running order, connects from the corresponding port of different dual polarization vibrators in antenna element respectively, is specially:

Any 2 transmitting-receiving ports of described radio frequency unit are connected to respectively a corresponding port of dual polarization vibrator in described antenna element;

Receive path corresponding to 2 transmitting-receiving ports in the radio frequency unit connecting with corresponding 2 ports of the first dual polarization vibrator described in described antenna element be in closed condition, and the transmission channel that 2 transmitting-receiving ports in the radio frequency unit that corresponding 2 ports of the first dual polarization vibrator described in described antenna element connect are corresponding is in running order;

Transmission channel corresponding in the radio frequency unit that corresponding 2 ports of the second dual polarization vibrator described in described antenna element connect 2 transmitting-receiving ports be in closed condition, and the receive path that 2 transmitting-receiving ports in the radio frequency unit that corresponding 2 ports of the second dual polarization vibrator described in described antenna element connect are corresponding is in running order.

In conjunction with first aspect, in the possible execution mode of the second, described radio frequency unit comprises 2 receiving ports and 2 transmitting-receiving ports, and described antenna element comprises 2 dual polarization vibrators, wherein, every 1 dual polarization vibrator on described antenna element to there being 2 ports;

2 transmitting-receiving ports of described radio frequency unit are connected to respectively a corresponding port of dual polarization vibrator of described antenna element, the receive path of 2 transmitting-receiving ports of described radio frequency unit is in closed condition, the transmission channel of 2 transmitting-receiving ports of described radio frequency unit is in running order, and 2 receiving ports of described radio frequency unit are connected to respectively the corresponding port of another dual polarization vibrator of described antenna element.

In conjunction with first aspect, in the third possible execution mode, described radio frequency unit comprises 2 transmitting-receiving ports, and described antenna element comprises 2 single polarization oscillators, and every 1 single polarization oscillator is a corresponding port on described antenna element;

Corresponding port and in running order port corresponding to transmission channel of described radio frequency unit of receive path that described radio frequency unit is in running order, connects from the corresponding port of different single polarization oscillators in antenna element respectively, is specially:

2 transmitting-receiving ports of described radio frequency unit are connected to respectively 2 ports of described antenna element; Wherein, the receive path of any 1 transmitting-receiving port of described radio frequency unit is in closed condition and transmission channel is in running order, and the transmission channel of other 1 transmitting-receiving port of described radio frequency unit is in closed condition and receive path is in running order.

In conjunction with first aspect, in the 4th kind of possible execution mode, described radio frequency unit comprises 2 radio frequency subelements, each radio frequency subelement comprises 3 transmitting-receiving ports and 3 receiving ports, described antenna element comprises 6 dual polarization vibrators, every 1 dual polarization vibrator on described antenna element to there being 2 ports; Wherein, described 6 dual polarization vibrators comprise 3 the first dual polarization vibrators and 3 the second dual polarization vibrators;

12 ports of described antenna element are connected to respectively 12 ports of described radio frequency unit, wherein, 1 port described in each in described antenna element in the first dual polarization vibrator is connected to the transmitting-receiving port of 1 radio frequency subelement, and another 1 port is connected to the transmitting-receiving port of another 1 radio frequency subelement; 1 port described in each in described antenna element in the second dual polarization vibrator is connected to the receiving port of 1 radio frequency subelement, and another 1 port is connected to the receiving port of another 1 radio frequency subelement;

The receive path of all transmitting-receiving ports of each described radio frequency subelement is in closed condition and transmission channel is in running order.

In conjunction with first aspect, in the 5th kind of possible execution mode, also comprise mixer, described radio frequency unit comprises the first radio frequency subelement and the second radio frequency subelement; Described antenna element comprises 2 dual polarization vibrators, wherein, 1 dual polarization vibrator on described antenna element to there being 2 ports;

The first radio frequency unit comprises 2 transmitting-receiving ports, and the second frequent unit comprises 4 transmitting-receiving ports, shares the dual polarized antenna of 2 ports.

2 transmitting-receiving ports of described the second radio frequency subelement are connected to respectively corresponding 2 ports of dual polarization vibrator in described antenna element, and other 2 transmitting-receiving ports of described the second radio frequency subelement are connected to respectively 2 ports of described mixer; 2 transmitting-receiving ports of described the first radio frequency subelement are connected to respectively other 2 ports of described mixer; 2 ports of other of described mixer are connected to corresponding 2 ports of another dual polarization vibrator in described antenna element;

The receive path that is connected to 2 of mixer transmitting-receiving ports in described the second radio frequency subelement is in closed condition and transmission channel is in running order.

In technique scheme, the reception of radio frequency unit and transmitting are carried out respectively on different polarization oscillators, instead of carry out on same polarization oscillator.Due to, radio frequency unit receives signal and transmits respectively and carries out on different dual polarization vibrators or different single polarization oscillator, in antenna element, mutually to isolate be up-downgoing channel separation for different dual polarization vibrator or different single polarization oscillators, and up-downgoing is completely unaffected.Therefore, avoided the interference to received signal of inter-modulated signal that radio frequency unit transmits, i.e. the interference of the inter-modulated signal of descending carrier to upward signal.The method providing by the utility model embodiment can solve the interference of inter-modulated signal to upward signal that the downstream signal of same frequency range produces, and also can solve the interference to upward signal of inter-modulated signal that the downstream signal between different frequency range produces.

Brief description of the drawings

A kind of architecture of base station schematic diagram that Fig. 1 provides for the utility model embodiment;

The another kind of architecture of base station schematic diagram that Fig. 2 A provides for the utility model embodiment;

Fig. 2 B substitutes architecture of base station schematic diagram being equal to of Fig. 2 A;

Another architecture of base station schematic diagram that Fig. 3 provides for the utility model embodiment;

Another architecture of base station schematic diagram that Fig. 4 provides for the utility model embodiment;

Another architecture of base station schematic diagram that Fig. 5 provides for the utility model embodiment;

Another architecture of base station schematic diagram that Fig. 6 provides for the utility model embodiment.

Embodiment

The utility model embodiment is applicable to Long Term Evolution (Long Term Evolution, be called for short LTE), universal mobile telecommunications system (Universal Mobile Telecommunications System, UMTS) and global system for mobile communications (Global System for Mobile communication be called for short:, be called for short GSM) etc. standard, the frequency range of support comprises and is not limited to DD800M, 700M, 1800M, 1900M and 900M frequency range.Between that the utility model embodiment has solved same frequency range and different frequency range, the inter-modulated signal of descending generation is to up interference.Intermodulation Interference includes but not limited to third order intermodulation and fifth order intermodulation.It should be noted that: not every downstream signal all has interference to upward signal to only have the Intermodulation Interference of meeting condition just can produce interference.Intermodulation Interference condition is: if f1, f2 is any two frequencies in band downlink, and between these two frequencies, can produce frequency is the inter-modulated signal of 2f1+f2 and 2f1-f2, if inter-modulated signal drops in uplink band, and can be to up generation Intermodulation Interference.Arrive for example signal of mobile phone transmitting of terminal because upward signal is antenna reception, the signal of terminal transmitting is very weak, disturbs very large on the impact of upward signal.In addition, up negligible to descending interference, because the relative downstream signal (tens watts) of upward signal (milliwatt level) is too little.

A kind of architecture of base station schematic diagram that Fig. 1 provides for the utility model embodiment.Base station as shown in Figure 1 comprises antenna element 11 and radio frequency unit 12, and radio frequency unit 12 can be RFU, can be also RRU.Radio frequency unit can be supported DD800M tri-carrier waves or non-adjacent two carrier waves.Antenna element 11 shown in Fig. 1 comprises two dual polarization vibrators or two single polarization oscillators.Wherein, dual polarization vibrator refers to that two antenna element are installed together, and a polarised direction is+45 degree that a polarised direction is-45 degree.Single polarization oscillator refers to an antenna element, a polarised direction.

Wherein, corresponding port and in running order port corresponding to transmission channel of described radio frequency unit 12 of receive path that radio frequency unit 12 is in running order, connects from different dual polarization vibrators in described antenna element 11 or the corresponding port of different single polarization oscillator respectively.That is to say, the reception of radio frequency unit and transmitting are carried out respectively on different dual polarization vibrators, instead of carry out on same dual polarization vibrator; Or the reception of radio frequency unit and transmitting are carried out respectively on different single polarization oscillators, instead of carry out on same single polarization oscillator.

Due to, radio frequency unit receives signal and transmits respectively and carries out on different dual polarization vibrators or different single polarization oscillator, in antenna element, different dual polarization vibrator or different single polarization oscillators are isolated mutually, i.e. data feedback channel and down going channel isolation, and up-downgoing is completely unaffected.Therefore, avoided the interference to received signal of inter-modulated signal that radio frequency unit transmits, i.e. the interference of the inter-modulated signal of descending carrier to upward signal.The method providing by the utility model embodiment can solve the interference of inter-modulated signal to upward signal that the downstream signal of same frequency range produces, and also can have the interference to upward signal of inter-modulated signal that the downstream signal solving between different frequency range produces.

The technical scheme that the present embodiment provides is used existing radio frequency unit, for example, RRU and RFU, and the networking plan of simple possible, do not need to increase in the situation of radio frequency unit, solve a up-downgoing perturbation technique difficult problem, meet the demand of multiple users share radio frequency unit, compared existing many RRU/RFU solution, used the present embodiment only to use a radio frequency unit compared with using 2 radio frequency units, saved 1/2 networking cost, systematic function is completely unaffected.

For instance, described antenna element comprises N dual polarization vibrator, 1 dual polarization vibrator on described antenna element to should have 2 ports and radio frequency unit to comprise 2N transmitting-receiving port in the situation that, for the interference to upward signal of the third order intermodulation signal of avoiding descending carrier, the connected mode of antenna element and radio frequency unit is as follows:

N is even number, and N dual polarization vibrator comprises N/2 the first dual polarization vibrator and N/2 the second dual polarization vibrator.

Any 2 transmitting-receiving ports of described radio frequency unit are connected to respectively a corresponding port of dual polarization vibrator in described antenna element.

Receive path corresponding to 2 transmitting-receiving ports in the radio frequency unit that corresponding 2 ports of the first dual polarization vibrator described in described antenna element connect be in closed condition, and the transmission channel that 2 transmitting-receiving ports in the radio frequency unit that corresponding 2 ports of the first dual polarization vibrator described in described antenna element connect are corresponding is in running order.Transmission channel corresponding in the radio frequency unit that corresponding 2 ports of the second dual polarization vibrator described in described antenna element connect 2 transmitting-receiving ports be in closed condition, and the receive path that 2 transmitting-receiving ports in the radio frequency unit that corresponding 2 ports of the second dual polarization vibrator described in described antenna element connect are corresponding is in running order.That is to say, the N of an antenna element dual polarization vibrator is divided into two groups, wherein the receiving function of the transmitting-receiving port of the radio frequency unit of one group of dual polarization vibrator connection is closed, the sending function of the transmitting-receiving port of the radio frequency unit that another group dual polarization vibrator connects is closed, therefore, radio frequency unit receives signal and transmitted signal on different dual polarization vibrators, thereby avoid the interference to upward signal of inter-modulated signal that downstream signal produces, no matter be between similar frequency bands or between not identical frequency range, can solve the interference of inter-modulated signal to upward signal that downstream signal produces.

In Fig. 2 A to Fig. 6, TX(Transmit) expression transmit port, RX(Receive) expression receiving port, RX/TX(Receive/Transmit) expression transmitting-receiving port.The corresponding embodiment of Fig. 2 A to Fig. 6 is respectively the specific embodiment of Fig. 1.

The another kind of architecture of base station schematic diagram that Fig. 2 A provides for the utility model embodiment.As shown in Figure 2 A, the antenna element 11 that the present embodiment provides comprises 2 dual polarization vibrators, and wherein, wherein 1 dual polarization vibrator is the first dual polarization vibrator, another 1 dual polarization vibrator is the second dual polarization vibrator, every 1 dual polarization vibrator on antenna element to there being 2 ports; The radio frequency unit 12 that the present embodiment provides comprises 4 transmitting-receivings port: A, B, C and D.As shown in Figure 2 A, antenna element 11 is 2 dual polarized antennas respectively with 2 ports, and two dual polarized antennas are installed together.As shown in Figure 2 B, antenna element 11 can be also 1 dual polarized antenna with 4 ports.Radio frequency unit 12 can be RFU, can be also RRU.Radio frequency unit can be supported three carrier waves of DD800M or non-adjacent two carrier waves of DD800M.

4 transmitting-receiving ports of radio frequency unit 12 are connected to respectively 4 ports of antenna element.Wherein, in described radio frequency unit 12, be connected to the receive paths of corresponding 2 the transmitting-receiving port A of a dual polarization vibrator 111 of described antenna element 11 and B in closed condition, in radio frequency unit, be connected to 2 transmitting-receiving port C of another dual polarization vibrator 112 of described antenna element and the transmission channels of D in closed condition.That is to say, the transmitting-receiving port A of radio frequency unit 12 and the receive path of B are in closed condition, when work, transmitting-receiving port A and the B of radio frequency unit 12 only has emission function, the transmitting-receiving port C of radio frequency unit 12 and the transmission channel of D are in closed condition, when work, transmitting-receiving port C and the D of radio frequency unit 12 only has receiving function, radio frequency unit 12 transmits by the dual polarization vibrator 111 of antenna element 11, and radio frequency unit 12 receives signal by the dual polarization vibrator 112 of antenna element 11.Because receiving signal and transmit, radio frequency unit 12 on different dual polarization vibrators, carries out respectively, therefore, avoid the inter-modulated signal that transmits and produce of transmitting-receiving port A and the B of radio frequency unit 12, disturbed the transmitting-receiving port C of radio frequency unit 12 and the reception signal of D.Equally, also avoid the inter-modulated signal that transmits and produce of transmitting-receiving port C and the D of radio frequency unit 12, disturbed the transmitting-receiving port A of radio frequency unit 12 and the reception signal of B.

Another architecture of base station schematic diagram that Fig. 3 provides for the utility model embodiment.The difference of Fig. 3 and Fig. 2 A is, the radio frequency unit 11 in Fig. 3 comprises 2 receiving ports and 2 transmitting-receiving ports, and wherein, A and B are transmitting-receiving port, and C and D are receiving port, and in Fig. 2 A, radio frequency unit 11 comprises 4 transmitting-receiving ports.Antenna element in Fig. 3 is 1 dual polarized antenna with 4 ports, can be also 2 dual polarized antennas respectively with 2 ports.Radio frequency unit 12 can be RFU, can be also RRU.Radio frequency unit can be supported DD800M tri-carrier waves or non-adjacent two carrier waves of DD800M.

Equally, antenna element 11 comprises 2 dual polarization vibrators, wherein, 1 dual polarization vibrator on described antenna element to there being 2 ports.

Corresponding port and in running order port corresponding to transmission channel of described radio frequency unit of receive path that described radio frequency unit is in running order, connects from the corresponding port of different dual polarization vibrators in antenna element respectively, and specific implementation is as follows:

The dual polarization vibrator 111 that 2 transmitting-receiving ports of radio frequency unit are connected to respectively described antenna element is to corresponding port, 2 receive paths of receiving and dispatching port A and B of radio frequency unit are in closed condition, and 2 transmission channels of receiving and dispatching port A and B of radio frequency unit are in running order; Another dual polarization vibrator 112 that 2 receiving port C of described radio frequency unit and D are connected to respectively antenna element is to corresponding port.Therefore, radio frequency unit transmits from transmitting-receiving port A and B, receives signal from receiving port C and D, and the third order intermodulation signal between descending carrier can not produce and disturb upward signal.

In like manner, radio frequency unit 12 also can comprise 2 transmitting-receivings port A and B, 2 emission port C and D.The dual polarization vibrator 111 that 2 transmitting-receiving ports of radio frequency unit are connected to respectively described antenna element is to corresponding port, and 2 transmission channels of receiving and dispatching port A and B of radio frequency unit are in closed condition; Another dual polarization vibrator 112 that 2 emission port C of described radio frequency unit and D are connected to respectively antenna element is to corresponding port.Therefore, port C and the D of radio frequency unit transmit by dual polarization vibrator 112, and port A and B receive signal by dual polarization vibrator 111, ensure the maximum isolation between antennas of sending and receiving, and the inter-modulated signal of descending generation can not produce and disturb upward signal.

Another architecture of base station schematic diagram that Fig. 4 provides for the utility model embodiment.The present embodiment antenna element adopts single polarization oscillator.As shown in Figure 4, described antenna element 11 comprises 2 single polarization oscillators, 1 single polarization oscillator corresponding port on described antenna element, and radio frequency unit 12 comprises 2 transmitting-receiving ports.Wherein, antenna element 11 can be 2 antennas respectively with 1 single polarization oscillator, can be also 1 single-polarized antenna with 2 ports.The present embodiment is applicable to indoor covering networking.Radio frequency unit 12 is supported three carrier waves of DD800M or non-adjacent two carrier waves of DD800M.

Corresponding port and in running order port corresponding to transmission channel of described radio frequency unit of receive path that described radio frequency unit is in running order, connects from the corresponding port of different single polarization oscillators in antenna element respectively, and specific implementation is as follows:

2 transmitting-receiving ports of described radio frequency unit are connected to respectively 2 ports of described antenna element; Wherein, the receive path of 1 of radio frequency unit transmitting-receiving port is in closed condition and transmission channel is in running order, and the transmission channel of other 1 transmitting-receiving port of described radio frequency unit is in closed condition and receive path is in running order.Particularly, in Fig. 4, in the receive path of the A port of radio frequency unit 12 when work, is in closed condition, in transmission channel when work of B port, is in closed condition, namely, transmit from A port, receive signal from B port, A port is connected different single polarization oscillators with B port, thereby, the reception of radio frequency unit 12 and transmitting are carried out on different single polarization oscillator respectively on antenna element, transmitting of A port can not produce interference to the reception signal of B port, avoided the inter-modulated signal between descending carrier that upward signal is produced and disturbed.In like manner, also the receive path of B port can be closed, the transmission channel of A port is closed.Namely, transmit from A port, receive signal from B port, A port is connected different single polarization oscillators with B port, thereby, the reception of radio frequency unit 12 and transmitting are carried out on different single polarization oscillator respectively on antenna element, and transmitting of A port can not produce interference to the reception signal of B port, have avoided the inter-modulated signal between descending carrier that upward signal is produced and disturbed.

Another architecture of base station schematic diagram that Fig. 5 provides for the utility model embodiment.The present embodiment radio frequency unit is set to 6 ports of 3 port transmittings and receives, and when networking, sector, three, every station, configures 2 RRU/RFU.The radio frequency unit that the present embodiment provides comprises 2 radio frequency subelements, and each radio frequency subelement comprises 3 transmitting-receiving ports and 3 receiving ports, and each radio frequency unit can be supported DD800M tri-carrier waves or non-adjacent two carrier waves.Antenna element comprises 6 dual polarization vibrators, wherein, each dual polarization vibrator on described antenna element to there being 2 ports.

As shown in Figure 5, radio frequency unit 12 comprises 2 radio frequency subelements 121 and 122, and wherein, the port one, 3 and 5 in radio frequency subelement 121 is transmitting-receiving port, and port 2,4 and 6 is receiving port; Port one, 3 and 5 in radio frequency subelement 122 is transmitting-receiving port, and port 2,4 and 6 is receiving port.Antenna element is the dual polarized antenna 111,112 and 113 of 4 ports of 3 difference.

12 ports of antenna element are connected to respectively 12 ports of described radio frequency unit, wherein, 1 port described in each in described antenna element in the first dual polarization vibrator is connected to the transmitting-receiving port of 1 radio frequency subelement, and another 1 port in described the first dual polarization vibrator is connected to the transmitting-receiving port of another 1 radio frequency subelement; 1 port described in each in described antenna element in the second dual polarization vibrator is connected to the receiving port of 1 radio frequency subelement, and another 1 port in described the second dual polarization vibrator is connected to the receiving port of another 1 radio frequency subelement.For avoiding downlink to disturb uplink receiving, close the receiving function of all transmitting-receiving ports of each described radio frequency subelement, the receive path of all transmitting-receiving ports of each described radio frequency subelement is in closed condition and transmission channel is in running order.Namely, two radio frequency subelements use an emission port and a receiving port separately, form a sector with 2 ports receptions of 2 ports transmittings with dual polarized antenna or 2 dual polarized antennas respectively with 2 ports with 4 ports, two radio frequency subelements have formed the sector of 2 ports receptions of 2 ports transmittings of 3 up-downgoing isolation.

As shown in Figure 5,1 port in a dual polarization vibrator of dual polarized antenna 111 is connected to the transmitting-receiving port one of radio frequency subelement 121, and another 1 port in this dual polarization vibrator is connected to the transmitting-receiving port one of radio frequency subelement 122; 1 port in another dual polarization vibrator of dual polarized antenna 111 is connected to the receiving port 2 of radio frequency subelement 121, and another 1 port in this dual polarization vibrator is connected to the receiving port 2 of radio frequency subelement 122.So, the transmitting-receiving port one of radio frequency subelement 121 and the transmitting-receiving port one of radio frequency subelement 122 transmit by a dual polarization vibrator of dual polarized antenna 111, another dual polarization vibrator by dual polarized antenna 111 receives signal, receive signal and transmit and carry out on different dual polarization vibrators, avoided the inter-modulated signal between descending carrier that upward signal is produced and disturbed.

Dual polarized antenna 112 and dual polarized antenna 113 are similar with the connected mode of radio frequency subelement with connected mode and the dual polarized antenna 111 of radio frequency subelement.For avoiding the inter-modulated signal that downlink produces to disturb uplink receiving, the receive path of all transmitting-receiving ports of each radio frequency subelement, in closed condition, only has emission function when work.

Another architecture of base station schematic diagram that Fig. 6 provides for the utility model embodiment.In the present embodiment, two radio frequency subelements share a dual polarized antenna by mixer.As shown in Figure 6, the base station that the present embodiment provides comprises antenna element 11, radio frequency unit 12 and mixer 13.Wherein, radio frequency unit comprises radio frequency subelement 121 and radio frequency subelement 122, and antenna element 11 comprises 2 dual polarization vibrators, wherein, every 1 dual polarization vibrator on antenna element to there being 2 ports.

Radio frequency subelement 121 comprises 2 transmitting-receiving ports, and radio frequency subelement 122 comprises 4 transmitting-receiving ports, and radio frequency subelement 121 and radio frequency subelement 122 share the dual polarized antenna of 2 ports.Namely, 2T2R radio frequency subelement 121 uses F1 frequency range, and the radio frequency subelement 122 of 4T4R uses F2 frequency range, and F2 frequency range and F1 frequency range share by mixer the system that 4 ports of 4 port transmittings of a dual polarized antenna composition receive.

2 transmitting-receiving ports of radio frequency subelement 122 are connected to respectively corresponding 2 ports of dual polarization vibrator 111 in described antenna element, and other 2 transmitting-receiving ports of radio frequency subelement 122 are connected to respectively 2 ports of described mixer 13.2 transmitting-receiving ports of radio frequency subelement 121 are connected to respectively other 2 ports of described mixer 13; 2 ports of other of described mixer are connected to corresponding 2 ports of another dual polarization vibrator 112 in described antenna element.

The third order intermodulation signal frequency of F1 frequency range descending carrier has dropped on the up region of F2 frequency range, can impact F2 receptivity, for avoiding interference, corresponding port and in running order port corresponding to transmission channel of described radio frequency unit of receive path that described radio frequency unit is in running order, connect from the corresponding port of different dual polarization vibrators in antenna element respectively, specific implementation is as follows:

Can be by closing 2 transmitting-receiving port A and the B receiving function of the radio frequency subelement 122 that uses F2 frequency range, the receive path that is namely connected to 2 of mixer transmitting-receiving ports in radio frequency subelement 122 is in closed condition and transmission channel is in running order, the impact with the third order intermodulation signal that stops F1 frequency range descending carrier on F2 frequency range performance.So, transmitting-receiving port A and the B of radio frequency subelement 122 transmit by dual polarized antenna 111, transmitting-receiving port C and D be by dual polarized antenna 112 receiving and transmitting signals, and the inter-modulated signal that can avoid downstream signal that radio frequency subelement 121 is launched to produce, receives the impact of signal on radio frequency subelement 122.In the present embodiment, only have the inter-modulated signal of the descending generation of F1 to disturb the upward signal of F1.

Finally it should be noted that: above each embodiment, only in order to the technical solution of the utility model to be described, is not intended to limit; Although the utility model is had been described in detail with reference to aforementioned each embodiment, those of ordinary skill in the art is to be understood that: its technical scheme that still can record aforementioned each embodiment is modified, or some or all of technical characterictic is wherein equal to replacement; And these amendments or replacement do not make the essence of appropriate technical solution depart from the scope of the each embodiment technical scheme of the utility model.

Claims

1. A base station, characterized in that, comprises an antenna unit and a radio frequency unit;

The port corresponding to the receiving channel of the radio frequency unit in the working state and the port corresponding to the transmitting channel of the radio frequency unit in the working state are respectively corresponding to different dual-polarized dipoles or different single-polarized dipoles in the antenna unit The ports are connected, and different dual-polarization dipoles or different single-polarization dipoles in the antenna unit are isolated from each other. the

2. The base station according to claim 1, wherein the antenna unit includes N dual-polarization elements, wherein the N dual-polarization elements include N/2 first dual-polarization elements and N/2 A second dual-polarized oscillator, each dual-polarized oscillator has 2 ports corresponding to the antenna unit, and the N is an even number; the radio frequency unit includes 2N transceiver ports;

The port corresponding to the receiving channel of the radio frequency unit in the working state and the port corresponding to the transmitting channel of the radio frequency unit in the working state are respectively connected to the ports corresponding to different dual-polarized oscillators in the antenna unit, specifically:

Any two transceiver ports of the radio frequency unit are respectively connected to a port corresponding to a dual-polarized oscillator in the antenna unit;

The receiving channels corresponding to the two transceiver ports in the radio frequency unit connected to the two ports corresponding to the first dual-polarized oscillator in the antenna unit are in a closed state, and the first dual-polarized dipole in the antenna unit The transmit channels corresponding to the two transmit and receive ports in the RF unit connected to the two ports corresponding to the vibrator are in working state;

The transmission channels corresponding to the two transceiver ports in the radio frequency unit connected to the two ports corresponding to the second dual-polarized vibrator in the antenna unit are in a closed state, and the second dual-polarized oscillator in the antenna unit The receiving channels corresponding to the two transmitting and receiving ports in the radio frequency unit connected to the two ports corresponding to the vibrator are in the working state. the

3. The base station according to claim 2, wherein the radio frequency unit includes 4 transceiver ports, and the antenna unit includes 2 dual-polarized dipoles, wherein one of the dual-polarized dipoles is the first dual-polarized dipole The polarized oscillator, the other dual-polarized oscillator is the second dual-polarized oscillator, and each dual-polarized oscillator has 2 ports on the antenna unit;

The receiving channels corresponding to the two transceiver ports in the radio frequency unit connected to the two ports corresponding to the first dual-polarized oscillator in the antenna unit are in a closed state, and the first dual-polarized dipole in the antenna unit The transmit channels corresponding to the two transmit and receive ports in the radio frequency unit connected to the two ports corresponding to the vibrator are in working state, specifically:

The 4 transceiver ports of the radio frequency unit are respectively connected to the 4 ports of the antenna unit; wherein, the radio frequency unit is connected to the receiving channel of the 2 transceiver ports corresponding to a dual-polarized oscillator of the antenna unit In the closed state, the transmitting channels of the two transceiver ports corresponding to a dual-polarized vibrator connected to the antenna unit in the radio frequency unit are in the working state;

The transmission channels corresponding to the two transceiver ports in the radio frequency unit connected to the two ports corresponding to the second dual-polarized vibrator in the antenna unit are in a closed state, and the second dual-polarized oscillator in the antenna unit The receiving channel corresponding to the 2 transceiver ports in the RF unit connected to the 2 ports corresponding to the vibrator is in working state, specifically:

The transmission channels of the two transceiver ports connected to the other dual-polarized dipole of the antenna unit in the radio frequency unit are in a closed state, and the 2 transmit channels of the other dual-polarized dipole connected to the antenna unit in the radio frequency unit The receiving channels of the receiving and sending ports are in working state. the

4. The base station according to claim 1, wherein the radio frequency unit includes 2 receiving ports and 2 transmitting and receiving ports, and the antenna unit includes 2 dual-polarized oscillators, wherein each dual-polarized The vibrator has two corresponding ports on the antenna unit;

The two transceiver ports of the radio frequency unit are respectively connected to a port corresponding to a dual-polarized vibrator of the antenna unit, the receiving channels of the two transceiver ports of the radio frequency unit are closed, and the two transceiver ports of the radio frequency unit The transmit channel of the transceiver port is in working state, and the two receive ports of the radio frequency unit are respectively connected to the port corresponding to the other dual-polarized oscillator of the antenna unit. the

5. The base station according to claim 3 or 4, wherein the antenna unit is a dual-polarized antenna with 4 ports, or the antenna unit is 2 dual-polarized antennas with 2 ports respectively polarized antenna. the

6. The base station according to claim 1, wherein the radio frequency unit includes 2 transceiver ports, the antenna unit includes 2 single-polarized dipoles, and each single-polarized dipole is on the antenna unit corresponds to a port;

The port corresponding to the receiving channel of the radio frequency unit in the working state and the port corresponding to the transmitting channel of the radio frequency unit in the working state are respectively connected to the ports corresponding to different single-polarized oscillators in the antenna unit, specifically:

The two transceiver ports of the radio frequency unit are respectively connected to the two ports of the antenna unit; wherein, the receiving channel of any one transceiver port of the radio frequency unit is in a closed state and the transmitting channel is in a working state, and the radio frequency unit The transmit channel of the other transceiver port is closed and the receive channel is in working state. the

7. The base station according to claim 1, wherein the radio frequency unit comprises 2 radio frequency subunits, each radio frequency subunit comprises 3 transceiving ports and 3 receiving ports, and the antenna unit comprises 6 dual Polarized oscillators, each dual-polarized oscillator has 2 ports on the antenna unit; wherein, the 6 dual-polarized oscillators include 3 first dual-polarized oscillators and 3 second dual-polarized oscillators Vibrator;

The 12 ports of the antenna unit are respectively connected to the 12 ports of the radio frequency unit, wherein one port of each of the first dual-polarized dipoles in the antenna unit is connected to one radio frequency subunit The transceiver port of the antenna unit, and the other port is connected to the transceiver port of another radio frequency subunit; one port of each of the second dual-polarized dipoles in the antenna unit is connected to a radio frequency subunit The receiving port, while the other port is connected to the receiving port of another radio frequency subunit;

The receiving channels of all the transceiver ports of each radio frequency subunit are in the closed state and the transmitting channels are in the working state. the

8. The base station according to claim 7, wherein the antenna unit is three dual-polarized antennas each having four ports. the

9. The base station according to claim 1, further comprising a combiner, the radio frequency unit comprising a first radio frequency subunit and a second radio frequency subunit; the antenna unit comprising two dual-polarized dipoles, Wherein, one dual-polarized dipole corresponds to two ports on the antenna unit;

The first radio frequency unit includes 2 transceiver ports, and the second frequency unit includes 4 transceiver ports, sharing a dual-polarized antenna with 2 ports;

The two transceiver ports of the second radio frequency subunit are respectively connected to the two ports corresponding to a dual-polarized oscillator in the antenna unit, and the other two transceiver ports of the second radio frequency subunit are respectively connected to the 2 ports of the combiner; the 2 transceiver ports of the first radio frequency subunit are respectively connected to the other 2 ports of the combiner; the other 2 ports of the combiner are connected to the antenna unit The two ports corresponding to the other dual-polarized vibrator;

The receiving channels of the two transceiver ports connected to the combiner in the second radio frequency subunit are in a closed state and the transmitting channels are in a working state. the

10. The base station according to claim 9, wherein the antenna unit comprises two dual-polarized antennas each having two ports. the