CN1852033A - System and method for realizing radio-frequency receiving-transmitting chain redundance design - Google Patents

Abstract

The invention discloses a redundant design realizing system and method of RF receiving and transmitting link circuit, which increases base band signal switching matrix mode, RF signal switching matrix mode and intelligent software platform, wherein the intelligent software platform controls the switching of matrix mode to mate each solid of receiving and transmitting link circuit, which controls back-up pattern of receiving and transmitting link circuit. The invention realizes simultaneous back-up or respective back-up for receiving and transmitting link circuit, which improves reliability of RF subsystem of multiple-carrier predistortion base station.

Description

A kind of system and method for realizing the radio-frequency receiving-transmitting chain Redundancy Design

Technical field

The present invention relates to wireless communication field, especially relate to a kind of system and method for realizing base station radio-frequency subsystem receiving-transmitting chain Redundancy Design.

Background technology

Comprise base station sub-system (BSS) in the cdma system network based on the IS-95 standard, BSS is the wireless access part of network, is connected to mobile switching center; Comprise base station BTS (Base Transceiver Station) among the BSS again, its function is to finish the reception and the transmission of wireless signal, wireless signal transmits with RF-wise, and the reception of base station radio signal and the Radio Frequency Subsystem of transmission comprise transmitter, frequency synthesizer, power amplifier, receiver 4 major parts.

The receiving-transmitting chain of Radio Frequency Subsystem is meant the communication link that is based upon between transmitter, frequency synthesizer, power amplifier, the receiver, and the reliability of receiving-transmitting chain has determined the capacity and the quality of system communication.At present also there is not special method to improve the reliability of Radio Frequency Subsystem; can tolerate in this former single carrier base station; problem has appearred in receiving-transmitting chain in the sector; also only influence a user on the carrier wave; influence for power system capacity is little; but in present multicarrier MC (Multi-carrier) base station; if problem has appearred in receiving-transmitting chain; usually can influence two to three or the user on the multicarrier more; influence for power system capacity is very big; so in multicarrier system, the Redundancy Design of strengthening the Radio Frequency Subsystem receiving-transmitting chain just seems particularly important.

Three kinds of methods of normal employing in Redundancy Design adopt the method for shared pool scheme, the method for employing load sharing scheme and the method for employing backup scenario, below will adopt the prior art of preceding two kinds of schemes to give simple introduction; The method of the employing backup scenario that proposes among the present invention will describe in detail in embodiment.

First kind is the method that adopts the shared pool scheme, and promptly power is shared scheme, and the restriction that the capacity that the proposition of this method is based on system has been subjected to the forward power capacity has also realized backup functionality in the time of shared, and this scheme is applicable in the single carrier base station.

The theory diagram that the method realizes is as shown in Figure 1:

The signal of sector 1 is through 4 * 4 hybrid matrix, being distributed to 4 power amplifiers amplifies the signal of sector 1 jointly, and then through 4 * 4 hybrid matrix, 4 power amplifier amplifying signals are merged output again, the signal of sector 2 and sector 3 has so just played the effect that load sharing, power are shared also in like manner through similarly handling.

The shortcoming of this method is:

1.3dB the degree of coupling of electric bridge coupler has error, has the characteristic dispersiveness between the power amplifier, can cause the sector isolation degree to descend, under the general technology condition, the sector isolation degree is difficult to accomplish 25dB;

2. as long as when having a power amplifier not work, in theory, all three sector isolation degree drop to 9.5dB immediately;

3. when changing one of them power amplifier, need a gain and phase place and the on all four power amplifier of former power amplifier; Perhaps, four power amplifiers all will be replaced with simultaneously through selecting the power amplifier of pairing.

4. for the multicarrier system that adopts digital pre-distortion DPD (Digital Pre-Distortion) algorithm, because power amplifier has amplified the signal of different sectors, therefore, feedback sample signal and base band reference signal will be done some special processings;

5. power system capacity and covering all have bigger decline before and after the fault.

Second kind is the method that adopts the load sharing scheme, and this method and said method have points of resemblance, but are applied in the Multi-Carrier basestation more, the theory diagram of its specific implementation as shown in Figure 2:

When carrier wave of system configuration, dispose a power amplifier full power output; When two carrier waves of system configuration, dispose two power amplifier full power outputs, when increasing carrier number, the power of each carrier wave is constant, plays the effect of load sharing like this; Three carrier waves of system's maximum configured promptly dispose 3 power amplifiers at most; When multicarrier disposed, three power amplifiers backuped each other;

The shortcoming of this method is:

1. the phase characteristic unanimity that needs three power amplifiers, power amplifier need be through selecting, in addition when a power amplifier damage, the closing road power and can descend of other two power amplifiers, and also pre-distorted signals need extract from duplexing filter unit DUP (Duplex FilterUnit);

2. transceiver T RX (Transceiver) output need increase splitter (Splitter), and TRX need and dynamically compensate the gain of system link;

3. the power amplifier output need increase mixer (Combine), and power amplifier need and dynamically compensate the gain of system link.

4. power system capacity and covering all have bigger decline before and after the fault.

Summary of the invention

At the method for radio-frequency receiving-transmitting chain Redundancy Design in the prior art is the deficiency that is based upon on the basis of sacrificial system performance, the object of the present invention is to provide a kind of system and method, can utilize the Redundancy Design of the method realization base station radio-frequency subsystem receiving-transmitting chain of backup, simple in structure, flexible configuration improve the reliability of Radio Frequency Subsystem effectively.

For realizing this purpose, the invention provides a kind of system that realizes the radio-frequency receiving-transmitting chain Redundancy Design, this system comprises:

Baseband signal switching matrix module, its baseband I/Q digital signal with input are carried out 4 * 4 and are switched;

Radiofrequency signal switching matrix module, its radiofrequency signal with input are carried out 4 * 4 and are switched;

The intelligent software platform, the switching of its control baseband signal switching matrix module and radiofrequency signal switching matrix module.

This system also comprises when being used for the Redundancy Design of radio-frequency transmissions link:

Transceiver, its baseband I/Q digital signal with described baseband signal switching matrix module output converts the small-power radiofrequency signal to;

Power amplifier, its small-power radiofrequency signal with described transceiver output zooms into the high-power RF signal, and this radiofrequency signal is sent to described radiofrequency signal switching matrix module.

This system is used for also comprising when radio frequency receives the Redundancy Design of link:

Low noise amplifier, its reception is also amplified the small-power radiofrequency signal that described radiofrequency signal switching matrix module is exported;

Transceiver, its radiofrequency signal with described low noise amplifier output is converted to baseband I/Q digital signal, and this baseband I/Q digital signal is sent to described baseband signal switching matrix module.

Described low noise amplifier is built in the described transceiver.

A kind of method that realizes the radio-frequency receiving-transmitting chain Redundancy Design provided by the invention comprises step:

(A) the first switching matrix module is carried out 4 * 4 switchings to the signal of input;

(B) signal of selecting to satisfy the radio-frequency receiving-transmitting chain Redundancy Design the signal after switching is distributed to relevant device;

(C) enter the second switching matrix module by the signal after the relevant device processing and carry out 4 * 4 switchings;

(D) signal of selecting to satisfy the radio-frequency receiving-transmitting chain Redundancy Design the signal after switching sends to relevant device.

When this method was used for transmitting chain, its concrete steps were:

(A01) baseband I of 3 sectors/Q digital signal enters baseband signal switching matrix module and carries out 4 * 4 and switch;

(B01) baseband signal switching matrix module connects 4 transceivers, and the baseband I after the switching/Q digital signal is distributed to 3 transceivers;

(C01) transceiver is converted to radiofrequency signal with baseband I/Q digital signal, after this radiofrequency signal is amplified by power amplifier, enters radiofrequency signal switching matrix module and carries out 4 * 4 switchings;

(D01) select 3 radiofrequency signals in the radiofrequency signal after switching, send to antenna by DUP.

When this method was used to receive link, its concrete steps were:

(A11) receive 3 groups of small-power radiofrequency signals by antenna, these 3 groups of radiofrequency signals enter two radiofrequency signal switching matrix modules respectively with the form of main diversity and carry out 4 * 4 and switch;

(B11) 3 groups of small-power radiofrequency signals after switching enter carry out baseband I/Q digital signal conversion and main diversity in 3 the transceiver and the string conversion;

(C11) baseband I/Q digital signal after also string is changed enters baseband signal switching matrix module and carries out 4 * 4 switchings;

(D11) in the baseband I after switching/Q digital signal, select 3 signals to send to sector Base-Band Processing part.

Step (B11) also comprises step: low noise amplifier carries out low noise to described 3 groups of small-power radiofrequency signals and amplifies.

The configuration of described radio-frequency receiving-transmitting chain comprise 3 sectors, 6 sectors, 3 sectors expand carry, transmit diversity, reception 4 diversity.

Described method realizes by backup mode, and this backup mode comprises 3+1 backup mode, two groups of 3+1 backup modes, 6+1 backup mode.

Described 6+1 backup mode is that described 3+1 backup mode carries out the smooth upgrade realization by the change wiring mode.

In existing wireless communication system; protection for radio-frequency receiving-transmitting chain is a weakness always; failure rate is also higher; especially in Multi-Carrier basestation, if problem, be great to the influence of system; operator is also more and more higher to equipment supplier's requirement; implement the present invention, can effectively improve the reliability of multicarrier predistortion base station radio-frequency subsystem, reliability can improve 27 times.

Description of drawings

Fig. 1 is a single carrier shared pool scheme theory diagram;

Fig. 2 is a multicarrier load sharing scheme theory diagram;

Fig. 3 is the schematic diagram of the method for realization radio-frequency receiving-transmitting chain Redundancy Design of the present invention;

Fig. 4 is a transmitting chain 3+1 backup mode theory diagram of the present invention;

Fig. 5 is two groups of 3+1 backup modes of transmitting chain of the present invention theory diagram;

Fig. 6 is a transmitting chain 6+1 backup mode theory diagram of the present invention;

Fig. 7 is the interconnection theory diagram of the radiofrequency signal switching matrix of transmitting chain 6+1 backup mode of the present invention;

Fig. 8 is a reception link 3+1 backup mode theory diagram of the present invention;

Fig. 9 is two groups of 3+1 backup modes of reception link of the present invention theory diagram;

Figure 10 is a reception link 6+1 backup mode theory diagram of the present invention;

Figure 11 is the interconnection theory diagram of the radiofrequency signal switching matrix of reception link 6+1 backup mode of the present invention.

Embodiment

The present invention considers from the angle of system equipment, utilizes the problem of the method solution multicarrier predistortion base station radio-frequency subsystem Redundancy Design of backup, improves the reliability of its receiving-transmitting chain effectively.Fig. 3 is the schematic diagram of the method for realization radio-frequency receiving-transmitting chain Redundancy Design of the present invention, and as shown in Figure 3, method of the present invention comprises step:

(A) the first switching matrix module is carried out 4 * 4 switchings to the signal of input;

(B) signal of selecting to satisfy the radio-frequency receiving-transmitting chain Redundancy Design the signal after switching is distributed to relevant device;

(C) enter the second switching matrix module by the signal after the relevant device processing and carry out 4 * 4 switchings;

(D) signal of selecting to satisfy the radio-frequency receiving-transmitting chain Redundancy Design the signal after switching sends to relevant device.

Respectively the transmitting chain of Radio Frequency Subsystem and the backup method of reception link are elaborated below:

One, the backup of the transmitting chain of Radio Frequency Subsystem:

At present, in the multicarrier system that adopts the DPD algorithm, the radio frequency (RF) cable between TRX and the power amplifier is a times of system in the past, and TRX also is the multicarrier module in addition, so the backup of link just seems particularly important.The input of present TRX is baseband I/Q digital signal, only needing increases related circuit on original number of ports letter stencil, can increase baseband signal switching matrix module at input, can be by field programmable gate array (FPGA) logic realization baseband I/Q digital signal handoff functionality, the cost increase is seldom; And increase radiofrequency signal switching matrix module at the power amplifier output, and the high-power RF signal of pair amplifier output switches, and can be realized by switch combination, and the signal that proceeds to antenna switches.

Difference configuration according to Radio Frequency Subsystem in this programme provides different backup modes, and the control strategy that backup mode is selected is implemented by the intelligent software platform:

(1.1) when system be S333 when configuration, i.e. the 3+1 backup mode during 3 carrier waves of each sector, is adopted in 3 sectors, its theory diagram as shown in Figure 4:

From left to right, system comprises that entity has sector 1,2,3; Baseband signal switching matrix module; TRX1,2,3 and be used for redundant TRXB; Power amplifier 1,2,3 and the power amplifier B that is used for redundancy; Radiofrequency signal switching matrix module; The intelligent software platform; DUP1,2,3 and be connected terminal antenna.

Respectively the function of each entity of system is made introduction below:

The emission of wireless signal and reception are to be the center with the base station, realize the covering of 360 degree, and when 3 sectors of system configuration, each sector-size is 120 degree, 3 carrier waves of configuration in each sector;

The function of baseband signal switching matrix module is the baseband I of sector/Q digital signal to be carried out 4 * 4 switch;

The function of TRX is to convert baseband I/Q digital signal to small-power carrier signal, i.e. radiofrequency signal;

The function of power amplifier is that the small-power radiofrequency signal is zoomed into the high-power RF signal;

The function of radiofrequency signal switching matrix module is the high-power RF signal that power amplifier amplifies to be carried out 4 * 4 switch, and can be realized that the signal that proceeds to antenna switches by switch combination;

The intelligent software platform is used to control the switching of baseband signal switching matrix module and radiofrequency signal switching matrix module;

The function of DUP is to finish the isolation and the filtering of receiving and transmitting signal;

The effect of antenna is to be used for the reception of radiofrequency signal and transmission.

The performing step of this transmitting chain Redundancy Design is:

(1.1.1) baseband I of 3 sectors/Q digital signal enters baseband signal switching matrix module and carries out 4 * 4 and switch;

(1.1.2) baseband signal switching matrix module connects 4 TRX, baseband I after the switching/Q digital signal is distributed to 3 TRX, promptly utilize remaining 1 TRX and corresponding power amplifier to use, when wherein some TRX break down, utilize remaining TRX to replace and use as redundancy;

(1.1.3) TRX is converted to radiofrequency signal with baseband I/Q digital signal, after this radiofrequency signal is amplified by corresponding power amplifier, enters radiofrequency signal switching matrix module and carries out 4 * 4 switchings;

(1.1.4) select 3 radiofrequency signals in the radiofrequency signal after switching, UP sends to antenna by corresponding D.

So just realized the backup of transmitting chain; At the vacant port of the output of radiofrequency signal switching matrix module, the upgrading of incense part mode is used.Adopt the 3+1 backup mode of above-mentioned transmitting chain to realize the backup of transmitting chain TRX and power amplifier module, be the backup of whole transmitting chain, its compatibility the backup of independent power amplifier module.

(1.2) when system be S333333 when configuration, i.e. two groups of 3+1 backup modes during 3 carrier waves of each sector, on the basis of 3+1 backup mode, can be adopted in 6 sectors, its method is the stack to above-mentioned 3+1 backup mode, its theory diagram as shown in Figure 5:

From left to right, the entity that comprises of system has sector 1,2,3,4,5,6; Baseband signal switching matrix module; TRX1,2,3,4,5,6 and be used for redundant TRXB1, B2; Power amplifier 1,2,3,4,5,6 and the power amplifier B1, the B2 that are used for redundancy; Two radiofrequency signal switching matrix modules; The intelligent software platform; DUP1,2,3,4,5,6 and be connected terminal antenna.

Respectively the function of each entity of system is made introduction below:

The emission of wireless signal and reception are to be the center with the base station, realize the covering of 360 degree, and when 6 sectors of system configuration, each sector-size is 60 degree, 3 carrier waves of configuration in each sector;

The function of baseband signal switching matrix module is the baseband I of sector/Q digital signal to be carried out 4 * 4 switch;

The function of TRX is to convert baseband I/Q digital signal to small-power carrier signal, i.e. radiofrequency signal;

The function of power amplifier is that the small-power radiofrequency signal is zoomed into the high-power RF signal;

The function of radiofrequency signal switching matrix module is the high-power RF signal that power amplifier amplifies to be carried out 4 * 4 switch, and can be realized that the signal that proceeds to antenna switches by switch combination;

The intelligent software platform is used to control the switching of baseband signal switching matrix module and radiofrequency signal switching matrix module;

The function of DUP is to finish the isolation and the filtering of receiving and transmitting signal;

The effect of antenna is to be used for the reception of radiofrequency signal and transmission.

The performing step of this transmitting chain Redundancy Design is:

(1.2.1) baseband I of 6 sectors/Q digital signal enters baseband signal switching matrix module and carries out 4 * 4 and switch;

(1.2.2) baseband I/Q digital signal after switching is divided into two groups, is distributed to 2 groups of TRX as shown in Figure 5, and every group comprises 4 TRX, 3 TRX picked up signal wherein, and promptly remaining 1 TRX and corresponding power amplifier use as redundancy;

(1.2.3) TRX is converted to radiofrequency signal with digital signal, after radiofrequency signal is amplified by corresponding power amplifier, enters respective radio-frequency signals switching matrix module and carries out 4 * 4 switchings;

(1.2.4) radiofrequency signal after two groups of switchings is selected 3 radiofrequency signals respectively, and UP sends to antenna by corresponding D.

So just realized the backup of transmitting chain; At the vacant port of the output of each radiofrequency signal switching matrix module, the upgrading of incense part mode is used.As can be seen, the backup mode in S333333 when configuration is the stack of above-mentioned 3+1 backup mode, realizes that two groups of 3+1 backup modes have realized the backup of whole transmitting chain, its compatibility the backup of independent power amplifier module.

(1.3) for the input cost that reduces the initial stage networking and reduce the Insertion Loss of transmitting chain, can be by the mode of change distribution, by two groups of 3+1 backup mode smooth upgrades to the 6+1 backup mode, its theory diagram as shown in Figure 6:

Among Fig. 6,, the vacant port of a last radiofrequency signal switching matrix module output is connected with the input of next radiofrequency signal switching matrix module by the change of wiring mode.

The interconnection theory diagram of the radiofrequency signal switching matrix of transmitting chain 6+1 backup mode part is as shown in Figure 7: among the figure, in radiofrequency signal switching matrix module, each 3+1 switching matrix is 4 * 4 matrix, when being upgraded to 6+1 two 3+1 switching matrix are interconnected into 7 * 7 matrix by the distribution change, can realize the backup of the emission output of radiofrequency signal.

Two, the backup of the reception link of Radio Frequency Subsystem:

The backup of the reception link of Radio Frequency Subsystem realizes principle and the similar transmitting chain of mode, needs to realize the backup of main diversity, and so-called main diversity is meant the two-way radiofrequency signal that receives from two antennas, the main each other diversity of this two-way radiofrequency signal; Low noise amplifier LNA (low-noise amplifier) is built in the TRX, can realize receiving the integral body backup of link like this, has both finished the backup of TRX, has also finished the backup of LNA.

Difference configuration according to Radio Frequency Subsystem in this programme provides different backup modes, and the control strategy that backup mode is selected is implemented by the intelligent software platform:

(2.1) when system be S333 when configuration, i.e. the backup mode of 3+1 during 3 carrier waves of each sector, is adopted in 3 sectors, its theory diagram as shown in Figure 8:

From right to left, the entity that comprises of system has antenna; DUP1,2,3; Two radiofrequency signal switching matrix modules; The TRX1 of built-in LNA, 2,3 and be used for redundant TRXB; Baseband signal switching matrix module; The intelligent software platform; Sector 1,2,3.

Respectively the function of each entity of system is made introduction below:

Each DUP connects two antennas, receives the two-way radiofrequency signal, the main each other diversity of this two-way radiofrequency signal;

The function of DUP is to finish the isolation and the filtering of receiving and transmitting signal;

The function of radiofrequency signal switching matrix module is the small-power radiofrequency signal that antenna receives to be carried out 4 * 4 switch, and output small-power radiofrequency signal is to TRX;

LNA among the TRX receives the small-power radiofrequency signal of amplifying the output of radiofrequency signal switching matrix module, by TRX conversion output baseband I/Q digital signal;

The function of baseband signal switching matrix module is the baseband I/Q digital signal of TRX conversion output to be carried out 4 * 4 switch, and selects 3 baseband I/Q digital signal and sends to sector Base-Band Processing part;

The intelligent software platform is used to control the switching of baseband signal switching matrix module and radiofrequency signal switching matrix module;

The emission of wireless signal and reception are to be the center with the base station, realize the covering of 360 degree, and when 3 sectors of system configuration, each sector-size is 120 degree, 3 carrier waves of configuration in each sector.

The performing step of this reception link redundancy design is:

(2.1.1) receive 3 groups of small-power radiofrequency signals by antenna, these 3 groups of radiofrequency signals enter two radiofrequency signal switching matrix modules respectively with the form of main diversity and carry out 4 * 4 and switch;

(2.1.2) 3 groups of small-power radiofrequency signals after switching enter carry out baseband I/Q digital signal conversion and main diversity among 3 the TRX and the string conversion, promptly remaining 1 TRX uses as redundancy; Built-in LNA among the TRX, LNA carry out low noise to above-mentioned 3 groups of small-power radiofrequency signals and amplify;

Baseband I/Q digital signal after (2.1.3) also string is changed enters baseband signal switching matrix module and carries out 4 * 4 switchings;

(2.1.4) in the baseband I after switching/Q digital signal, select 3 signals to send to sector Base-Band Processing part.

So just realized receiving the backup of link; At the vacant port of the input of radiofrequency signal switching matrix module, the upgrading of incense part mode is used.Adopt the 3+1 backup mode of above-mentioned reception link to realize receiving the backup of link LNA and TRX, be the backup of whole reception link.

(2.2) when system be S333333 when configuration, i.e. two groups of 3+1 backup modes during 3 carrier waves of each sector, on the basis of 3+1 backup mode, can be adopted in 6 sectors, its method is the stack to above-mentioned 3+1 backup mode, its theory diagram as shown in Figure 9:

From right to left, the entity that comprises of system has antenna; DUP1,2,3,4,5,6; Four radiofrequency signal switching matrix modules; The TRX1 of built-in LNA, 2,3,4,5,6 and be used for redundant TRXB1, B2; Baseband signal switching matrix module; The intelligent software platform; Sector 1,2,3,4,5,6.

Respectively the function of each entity of system is made introduction below:

Each DUP connects two antennas, receives the two-way radiofrequency signal, the main each other diversity of this two-way radiofrequency signal;

The function of DUP is to finish the isolation and the filtering of receiving and transmitting signal;

The function of radiofrequency signal switching matrix module is the radiofrequency signal that antenna receives to be carried out 4 * 4 switch, and output small-power radiofrequency signal is to TRX;

LNA among the TRX receives and amplifies the small-power radiofrequency signal of radiofrequency signal switching matrix module output, by TRX radiofrequency signal is converted to baseband I/Q digital signal and output;

The function of baseband signal switching matrix module is the baseband I/Q digital signal of TRX conversion output to be carried out 4 * 4 switch, and selects 3 baseband I/Q digital signal and sends to sector Base-Band Processing part;

The intelligent software platform is used to control the switching of baseband signal switching matrix module and radiofrequency signal switching matrix module;

The emission of wireless signal and reception are to be the center with the base station, realize the covering of 360 degree, and when 6 sectors of system configuration, each sector-size is 60 degree, 3 carrier waves of configuration in each sector.

The performing step of this reception link redundancy design is:

(2.2.1) receive 6 groups of radiofrequency signals by antenna, these 6 groups of radiofrequency signals are in as shown in Figure 9 mode, enter respectively with the form of main diversity and carry out 4 * 4 in 4 radiofrequency signal switching matrix modules and switch;

(2.2.2) 6 groups of small-power radiofrequency signals after switching enter respectively carry out baseband I/Q digital signal conversion and main diversity among the TRX of 6 correspondences and the string conversion, promptly remaining 2 TRX use as redundancy; Built-in LNA among the TRX, LNA carry out low noise to above-mentioned 3 groups of small-power radiofrequency signals and amplify;

Baseband I/Q digital signal after (2.2.3) also string is changed enters baseband signal switching matrix module and carries out 4 * 4 switchings;

(2.2.4) in the baseband I after switching/Q digital signal, select 6 signals to send to 6 sector Base-Band Processing parts respectively.

So just realized receiving the backup of link; At the vacant port of the input of each radiofrequency signal switching matrix module, the upgrading of incense part mode is used.As can be seen, the backup mode in S333333 when configuration is the stack of above-mentioned 3+1 backup mode, realizes that two groups of 3+1 backup modes have realized the backup of whole reception link.

(2.3) for the input cost that reduces the initial stage networking and reduce the Insertion Loss that receives link, can be by the mode of change distribution, by two groups of 3+1 backup mode smooth upgrades to the 6+1 backup mode, its theory diagram as shown in figure 10:

Among Figure 10, change by distribution, main diversity signal is handled respectively, change the radiofrequency signal switching matrix module of the corresponding output of main diversity signal, the last radiofrequency signal switching matrix module output with main diversity correspondence is connected with the vacant port of the input of next radiofrequency signal switching matrix module respectively.

Receive link 6+1 backup mode the radiofrequency signal switching matrix the interconnection theory diagram as shown in figure 11: among Figure 11, in radiofrequency signal switching matrix module, the 3+1 switching matrix of main diversity is 4 * 4 matrix, when being upgraded to 6+1 two 3+1 switching matrix are interconnected into 7 * 7 matrix by the distribution change, can realize the backup of main diversity signal.

In addition, the intelligent software platform is used for the switching controls of matrix module among the present invention, if do the backup of receiving-transmitting chain simultaneously, then switches the matrix module of receiving-transmitting chain simultaneously; If only do the backup of transmitting chain, only switch the matrix module of transmitting chain, it is constant to receive link maintenance; If only do the backup that receives link, only switch the matrix module that receives link, transmitting chain remains unchanged; Backup or backup respectively make the backup of receiving-transmitting chain not have correlation when can implement receiving-transmitting chain like this, are convenient to satisfy different customer demands and system configuration.

The intelligent software platform also is used for monitoring the switching state of matrix module matrix, guarantees each validity of switching; The design of switching by matrix and the synergy of software can also guarantee, though switch wrong can damage equipment and influence the operate as normal of other sectors yet; Switch the Insertion Loss of introducing for matrix, also can compensate, and before and after switching, also do not influence the capacity and the covering of system by software control.

The present invention also supports the configuration needs of different base stations such as the expansion of 3 sectors is carried, transmit diversity, reception 4 diversity except supporting above-mentioned several configurations, its backup principle is identical with mode and said method.

If in the occasion that need not back up, configuration backup module does not influence original system architecture yet, and a kind of configuration mode flexibly is provided, and cost is under control.

The above; only for the preferable embodiment of the present invention, but protection scope of the present invention is not limited thereto, and anyly is familiar with those skilled in the art in the technical scope that the present invention discloses; the variation that can expect easily or replacement all should be encompassed within protection scope of the present invention.

Claims (13)

1. system that realizes the radio-frequency receiving-transmitting chain Redundancy Design, it is characterized in that: this system comprises:

Baseband signal switching matrix module, its baseband I/Q digital signal with input are carried out 4 * 4 and are switched;

Radiofrequency signal switching matrix module, its radiofrequency signal with input are carried out 4 * 4 and are switched;

The intelligent software platform, the switching of its control baseband signal switching matrix module and radiofrequency signal switching matrix module.

2. the system as claimed in claim 1, it is characterized in that: this system also comprises:

Transceiver, its baseband I/Q digital signal with described baseband signal switching matrix module output converts the small-power radiofrequency signal to;

Power amplifier, its small-power radiofrequency signal with described transceiver output zooms into the high-power RF signal, and this radiofrequency signal is sent to described radiofrequency signal switching matrix module.

3. system as claimed in claim 2 is characterized in that: this system is used for the Redundancy Design of radio-frequency transmissions link.

4. the system as claimed in claim 1, it is characterized in that: this system also comprises:

Low noise amplifier, its reception is also amplified the small-power radiofrequency signal that described radiofrequency signal switching matrix module is exported;

Transceiver, its radiofrequency signal with described low noise amplifier output is converted to baseband I/Q digital signal, and this baseband I/Q digital signal is sent to described baseband signal switching matrix module.

5. system as claimed in claim 4 is characterized in that: described low noise amplifier is built in the described transceiver.

6. system as claimed in claim 5 is characterized in that: this system is used for the Redundancy Design that radio frequency receives link.

7. method that realizes the radio-frequency receiving-transmitting chain Redundancy Design is characterized in that: comprise step:

(A) the first switching matrix module is carried out 4 * 4 switchings to the signal of input;

(B) signal of selecting to satisfy the radio-frequency receiving-transmitting chain Redundancy Design the signal after switching is distributed to relevant device;

(C) enter the second switching matrix module by the signal after the relevant device processing and carry out 4 * 4 switchings;

(D) signal of selecting to satisfy the radio-frequency receiving-transmitting chain Redundancy Design the signal after switching sends to relevant device.

8. method as claimed in claim 7 is characterized in that: when this method was used for transmitting chain, its concrete steps were:

(A01) baseband I of 3 sectors/Q digital signal enters baseband signal switching matrix module and carries out 4 * 4 and switch;

(B01) baseband signal switching matrix module connects 4 transceivers, and the baseband I after the switching/Q digital signal is distributed to 3 transceivers;

(C01) transceiver is converted to radiofrequency signal with baseband I/Q digital signal, after this radiofrequency signal is amplified by power amplifier, enters radiofrequency signal switching matrix module and carries out 4 * 4 switchings;

(D01) select 3 radiofrequency signals in the radiofrequency signal after switching, send to antenna by DUP.

9. method as claimed in claim 7 is characterized in that: when this method was used to receive link, its concrete steps were:

(A11) receive 3 groups of small-power radiofrequency signals by antenna, these 3 groups of radiofrequency signals enter two radiofrequency signal switching matrix modules respectively with the form of main diversity and carry out 4 * 4 and switch;

(B11) 3 groups of small-power radiofrequency signals after switching enter carry out baseband I/Q digital signal conversion and main diversity in 3 the transceiver and the string conversion;

(C11) baseband I/Q digital signal after also string is changed enters baseband signal switching matrix module and carries out 4 * 4 switchings;

(D11) in the baseband I after switching/Q digital signal, select 3 signals to send to sector Base-Band Processing part.

10. method as claimed in claim 9 is characterized in that: step (B11) also comprises step: low noise amplifier carries out low noise to described 3 groups of small-power radiofrequency signals and amplifies.

11. method as claimed in claim 7 is characterized in that: the configuration of described radio-frequency receiving-transmitting chain comprise 3 sectors, 6 sectors, 3 sectors expand carry, transmit diversity, reception 4 diversity.

12. method as claimed in claim 7 is characterized in that: described method realizes by backup mode, and this backup mode comprises 3+1 backup mode, two groups of 3+1 backup modes, 6+1 backup mode.

13. method as claimed in claim 12 is characterized in that: described 6+1 backup mode is that described 3+1 backup mode carries out the smooth upgrade realization by the change wiring mode.

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