JP2008048139A - Microwave radio transmitting and receiving device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To obtain space diversity effect by using a microwave signal of a single polarized wave in such a microwave radio communication system that one of two fixed station is restricted in the number of antennas. <P>SOLUTION: A microwave radio transmitting and receiving device is used for a second fixed station restricted in the number of antennas to be single and a first fixed station of the radio communication system performing radio communication using microwaves, The microwave radio transmitting and receiving device includes: a plurality of reception processing means for receiving microwave signals arriving at corresponding antennas; a transmission processing means for generating a signal of radio frequency from data to be transmitted; a changeover switch 211 which transmits the signal of radio frequency obtained by the transmission processing means to an antenna specified according to a switching control signal specifying one of the plurality of antennas 401<SB>A1</SB>and 401<SB>A2</SB>for radio transmission by the antenna; and a switching control means 212 for generating the switching control signal specifying the antenna corresponding to a selected reception signal in synchronism with selection of reception signals obtained by the plurality of reception processing means respectively and inputting the switching control signal to the changeover switch. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a microwave radio transceiver apparatus of a microwave radio communication system between fixed stations.

In a microwave band wireless communication system, a space diversity technique is widely applied as a technique for reducing the influence of fading in a propagation path having a high probability of fading.
Space diversity technology uses the fact that the arrival waves to multiple antennas placed at appropriate distances are unlikely to deteriorate at the same time, and selects one of the arrival waves that has passed through multiple propagation paths. This is a technique for compensating for the deterioration of propagation characteristics due to fading (see Patent Document 1). In particular, in a system using a microwave band with a short wavelength, a sufficiently small spatial correlation can be realized by arranging antennas at intervals of about 10 meters, so that a great improvement effect can be obtained.

For example, as shown in FIG. 2, in a microwave radio communication system in which two antennas 401 _A1 and 401 _A2 (401 _B1 and 401 _B2 ) are installed in two fixed stations A and B, both fixed stations are connected. The transmission signal generated by the transmission processing unit (Tx) 402 _A (402 _B ) is wirelessly transmitted by the antenna 401 with the subscript 1. Also, microwave radio signals from the opposite station are received by the two antennas 401 _A1 and 401 _A2 (401 _B1 and 401 _B2 ), and are provided corresponding to each of them. In FIG. 2, reference symbols Rx # 1 and Rx # After receiving processing by the receiving processing units Rx 403 _A1 and 403 _A2 (403 _B1 and 403 _B2 ) indicated by 2, the data is passed to a higher-level device (not shown).

In FIG. 2, a microwave is transmitted between two fixed stations via a propagation path corresponding to a straight line connecting both antennas A and a propagation path corresponding to a straight line connecting antenna A and antenna B of the opposite station. Since wireless signals are exchanged and the microwave used for communication has a single polarization, it is called a single polarization space diversity system. For example, in each of the two fixed stations in FIG. 2, when the propagation path of the incoming wave to one antenna 401 _A1 (401 _B1 ) is affected by fading and the quality of the received signal is reduced, the other antenna The reception signal obtained from the output of 401 _A2 (401 _B2 ), that is, the reception processing units 403 _A2 and (403 _B2 ) are selected by the switch 404, and by adopting this reception signal, the communication quality is maintained. Yes.

On the other hand, when the propagation path between two fixed stations is via a reflector, or when two antennas cannot be installed at an appropriate interval in one fixed station, as shown in FIG. A two-polarization space diversity microwave radio communication system is applied.
In the microwave radio communication system shown in FIG. 3, an antenna 405 capable of transmitting and receiving radio signals in two polarization directions is installed in the fixed station B, and a vertically polarized microwave signal is transmitted to and received from the fixed station A, respectively. Antenna 401 _A1 and an antenna 401 _A2 for transmitting and receiving a horizontally polarized microwave signal are installed.

In such a direction from the fixed station B to the fixed station A in the microwave radio communication system, the signals from the fixed station B are received by the two antennas 401 _A1 and 401 _A2 provided in the fixed station A. On the other hand, a space diversity effect can be obtained, and in the direction from fixed station A to fixed station B, signals transmitted from two antennas 401 _A1 and 401 _A2 provided in fixed station A are received by fixed station B, respectively. Therefore, the transmission space diversity effect can be obtained.

Also in the microwave radio communication system shown in FIG. 3, the quality of the received signals obtained by the two systems of reception processing units 403 _A1 and 403 _A2 (403 _B1 and 403 _B2 ) in each of the fixed stations A and B is shown. Communication quality is maintained by evaluating and selecting one of the received signals based on the evaluation result. In the fixed station A, a transmission signal from a higher-level device (not shown) is transmitted via two transmission processing units 402 _A1 and 402 _A2 indicated by reference characters Tx # 1 and Tx # 2 in FIG. The _signals are sent to the corresponding antenna 401 _A1 and antenna 401 _A2 and transmitted wirelessly. On the other hand, in the fixed station B, a transmission signal from a higher-level device (not shown) is transmitted via an antenna via two transmission processing units 402 _B1 and 402 _B2 indicated by symbols Tx # 1 and Tx # 2 in FIG. 405 to be transmitted wirelessly.
JP-A-7-177083

  By the way, in the microwave radio communication system to which the two-polarization space diversity system described above is applied, communication is realized by exchanging radio signals in two polarization directions that can be assigned to different radio communication systems. ing. That is, twice as many radio frequency resources are allocated to the microwave radio communication system to which the dual polarization space diversity system is applied.

On the other hand, in recent years, radio frequency resources to be allocated to various radio communication systems have become tight, and effective utilization of frequency resources is also required for microwave radio communication systems between fixed stations.
The present invention realizes a space diversity effect by a single-polarized microwave signal in a microwave radio communication system in which a plurality of antennas are installed in one fixed station and a single antenna is installed in the other fixed station An object of the present invention is to provide a possible microwave radio transceiver apparatus.

A first microwave radio transmission / reception apparatus according to the present invention includes a reception processing means, a transmission processing means, a changeover switch, and a changeover control means.
The principle of the first microwave radio transceiver according to the present invention is as follows.
Used for the first fixed station of a wireless communication system that performs wireless communication by microwave between a first fixed station having a plurality of antennas and a second fixed station having a single antenna. In the microwave radio transmitting / receiving apparatus, the reception processing means is provided corresponding to each of the plurality of antennas, and performs reception processing on the microwave signal that has arrived at the corresponding antenna. The transmission processing means generates a radio frequency signal from the transmission target data. The changeover switch transmits a radio frequency signal obtained by the transmission processing means to an antenna designated in accordance with a changeover control signal designating any one of the plurality of antennas, and provides for radio transmission by the antenna. The switching control means generates a switching control signal for designating an antenna corresponding to the selected received signal in synchronization with the selection of the received signal obtained by each of the plurality of reception processing means, and inputs it to the changeover switch.

The operation of the first microwave radio transmitting / receiving apparatus configured as described above is as follows.
By operating the changeover switch according to the changeover control signal generated by the changeover control means provided in the first fixed station, the selected reception signal is synchronized with the selection of the reception signal obtained by the plurality of reception processing means. The radio frequency signal generated by the transmission processing means is transmitted to the corresponding antenna, and is transmitted by radio to the second fixed station which is the opposite station.

  Therefore, on the propagation path from the second fixed station to the first fixed station, reception space diversity by a plurality of antennas provided in the first fixed station is realized, as well as the first fixed station to the first fixed station. The transmission space diversity effect by switching and transmitting the plurality of antennas provided in the first fixed station is also realized for the propagation path toward the second fixed station.

In addition, in this configuration, since a plurality of antennas provided in the first fixed station do not transmit radio signals at the same time, a single-polarized microwave radio signal can be used. That is, it is possible to obtain a space diversity effect equivalent to that of the conventional two-polarization space diversity system while using a single-polarization microwave radio signal.
Therefore, the microwave radio transmitting / receiving apparatus used in the second fixed station receives a signal from a single antenna corresponding to a single polarization, and a single polarization via the antenna. It suffices to have a transmission processing unit that performs processing for transmitting a microwave radio signal.

A second microwave radio transmission / reception apparatus according to the present invention is configured by including an evaluation means and a selection means in the switching control means provided in the first microwave radio transmission / reception apparatus.
The principle of the second microwave radio transceiver according to the present invention is as follows.
In the switching control means provided in the first microwave radio transceiver described above, the evaluation means evaluates the reception signals obtained by the plurality of reception processing means. The selecting unit selects an antenna corresponding to an appropriate received signal as a transmission destination of a radio frequency signal obtained by the transmission processing unit based on the evaluation result obtained by the evaluating unit.

The operation of the second microwave radio transmitting / receiving apparatus configured as described above is as follows.
Based on the evaluation result regarding the received signal obtained by the evaluation means, the selection means selects the antenna to be used for transmission of the radio signal, so that the radio frequency signal obtained by the transmission processing means is improved in the second state. The above-described radio frequency signal can be selectively transmitted to an antenna corresponding to a propagation path that can be expected to reach a fixed station.

  Because, in the first fixed station, when an evaluation result is obtained that the reception signal obtained by one reception processing means is better than the other reception signal, the reception signal determined to be good This is because the propagation path of the radio signal transmitted from the corresponding antenna is nothing but the propagation path of the incoming wave corresponding to the received signal that is considered good.

  According to the microwave radio transmission / reception apparatus according to the present invention, a reflection plate is included in the propagation path, or installation of a steel tower or the like is restricted in one fixed station. In a microwave radio communication system with a single antenna, a single-polarization microwave transmission / reception realizes a spatial diversity effect equivalent to that of the dual-polarization space diversity method and occurs in the propagation path between fixed stations The effect of fading can be reduced.

As a result, the quality of microwave radio communication between fixed stations can be maintained and effective use of tight frequency resources can be achieved regardless of the influence of fading or the like.
In addition, by applying the present invention, the configuration of a microwave radio transmitting / receiving apparatus used in a fixed station where the number of antennas that can be installed is limited to a single can be greatly simplified. The cost required for this can be reduced.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 shows an embodiment of a microwave radio transceiver apparatus according to the present invention.
1 that are the same as those shown in FIG. 2 are denoted by the same reference numerals as those shown in FIG. 2 and description thereof is omitted.
In the fixed station A shown in FIG. 1, the radio frequency signal generated by the transmission processing unit 402 is transmitted to the two antennas 401 _A1 and 401 via the switch 211 that operates according to the switching signal from the switching control unit 212. It is transmitted to either _A2 .

Switching control unit 212 shown in FIG. 1, based on the received signal obtained by the reception processing unit 403 _A1, 403 _A2, respectively to two systems of antennas 401 _A1, 401 _A2 corresponding, these antennas 401 _A1, 401 _A2, respectively The quality of the propagation path corresponding to is evaluated. Then, a switching signal for selecting a system corresponding to the antenna 401 _A1 (or 401 _A2 ) evaluated to be better is generated, and the transmission signal is transmitted by the switch 211 together with the reception signal selection processing by the switch 404. Provided for the previous switching process.

The operation of the microwave radio transceiver shown in FIG. 1 will be described below.
For example, as shown in FIG. 1, the switch 211, the output of the transmission processing unit 402 is sent via the antenna 401 _A1, the received signal obtained from the radio signal incoming to the antenna 401 _A1 by the reception processing section 403 _A1 When the influence of fading is exerted on the propagation path connecting the antenna 401 _A1 of the fixed station A and the single antenna 401 of the fixed station B, the arrival at the antenna is relatively performed. The reception state of the wave is better.

At this time, the switching control unit 212 receives, for example, the reception levels of the incoming waves from the two systems of reception processing units 403 to the corresponding antennas, and compares these reception levels to thereby determine the two propagation paths as described above. A change in the characteristic can be detected, and the detection result can be reflected in the switching signal input to the switch 404 and the switch 211.
As described above, the reception level corresponding to the radio signal arriving on the propagation path indicated by the solid line in FIG. 1 decreases, while the reception level corresponding to the radio signal arriving on the propagation path indicated by the broken line in FIG. If it is maintained, the latter reception level is relatively higher, and accordingly, the switching control unit 212 generates a switching signal for selecting the system corresponding to the antenna 401 _A2. .

In response to the input of the switching signal, the switch 211 is switched, the radio frequency of the signal output from the transmission processing unit 402 is transmitted to the antenna 401 _A2, this antenna 401 _A2, a propagation path indicated by a broken line in FIG. 1 Wirelessly transmitted to the antenna 401 of the fixed station B.
In this way, by switching the connection destination of the output of the transmission processing unit 402 provided in the fixed station A in which the two antennas 401 _A1 and 401 _A2 are installed, the influence of fading is switched. The communication quality between the fixed stations A and B can be maintained by selectively using the propagation path that does not receive the signal.

Here, in the microwave radio transmission / reception apparatus shown as fixed station A in FIG. 1, radio signals are not simultaneously transmitted from the two antennas 401 _A1 and 401 _A2, and therefore, these antennas 401 _A1 and 401 _A2 are transmitted to these antennas 401 _A1 and 401 _A2 . The same polarization direction can be assigned.
That is, according to the microwave radio transmission / reception apparatus shown in FIG. 1, a space diversity effect equivalent to the case where the two-polarization space diversity system is applied can be realized with a single polarization.

  Thereby, in the fixed station B facing the above-described fixed station A, it is sufficient to transmit and receive a radio signal related to the single antenna 401 corresponding to the single polarization. Therefore, as shown in FIG. 1, it is sufficient for the hardware configuration of the fixed station B to connect a single transmission processing unit 402 and a single reception processing unit 403 to the antenna 401, as shown in FIG. Compared to the configuration, it can be greatly simplified.

In the switching control unit 212 shown in FIG. 1, the reception level corresponding to the two antennas 401 _A1 and 401 _A2 is used as an index when selecting the connection destination of the received signal and the output of the transmission processing unit 402. The present invention is not limited to this, and various indicators that indicate reception quality are applicable.

As described above, according to the microwave radio transmitting / receiving apparatus according to the present invention, since the space diversity effect equivalent to the case where the two-polarization space diversity method is applied can be realized with a single polarization, fading It is possible to achieve both reduction of the influence of the above on microwave radio communication and effective use of frequency resources.
Such a feature is extremely useful for achieving effective use of the frequency resources that are tight as well as stable operation of the microwave radio communication system. Therefore, the radio communication system performs radio communication by microwave between fixed stations. Applicable in general.

It is a figure which shows embodiment of the microwave radio | wireless transmitter / receiver concerning this invention. It is explanatory drawing of the conventional 1 polarization space diversity system. It is explanatory drawing of the conventional 2 polarization space diversity system.

Explanation of symbols

211 switch 212 switch controller _{401,401 A1, 401 A2, 401 B1} , 401 B2, 405 Antenna 402, 402 _A1 , 402 _A2 , 402 _B1 , 402 _B2 transmission processing unit (Tx)
403, 403 _A1 , 403 _A2 , 403 _B1 , 403 _B2 reception processing unit (Rx)
404 switch

Claims (2)

Used for the first fixed station of a wireless communication system that performs wireless communication by microwave between a first fixed station having a plurality of antennas and a second fixed station having a single antenna. In a microwave radio transceiver,
A reception processing means provided corresponding to each of the plurality of antennas, for performing reception processing on the microwave signal arriving at the corresponding antenna;
Transmission processing means for generating a radio frequency signal from transmission target data;
A radio frequency signal obtained by the transmission processing means is transmitted to an antenna designated according to a switching control signal designating any one of the plurality of antennas, and is used for radio transmission by the antenna;
A switching control means for generating a switching control signal for designating an antenna corresponding to the selected received signal in synchronization with selection of the received signal obtained by each of the plurality of receiving processing means, and for inputting the switching control signal to the change-over switch. A microwave radio transmitting / receiving apparatus characterized by the above. In the microwave radio | wireless transmitter / receiver of Claim 1,
The switching control means includes
Evaluation means for evaluating received signals obtained by the plurality of reception processing means;
And a selection unit that selects an antenna corresponding to an appropriate reception signal as a transmission destination of a radio frequency signal obtained by the transmission processing unit based on an evaluation result obtained by the evaluation unit. Wireless transceiver.

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