JP2586666Y2 - Communications system - Google Patents

Description

[Detailed description of the invention]

[0001]

The present invention relates to a multi-channel access system (MC) using a plurality of transceivers.
A communication system).

[0002]

2. Description of the Related Art Conventionally, as a communication system using a plurality of transceivers, a regional disaster prevention communication system, a car telephone system, and the like are known. Among them, for example, the regional disaster prevention communication system includes a base station, a mobile station, and a slave station. The base station is connected to a plurality of transceivers and each of the transceivers, and is arranged on a rooftop of a building or the like. The mobile station and the slave station are composed of a transmitting / receiving antenna (hereinafter referred to as a “transmitting / receiving antenna”).
It consists of one transceiver with one transmitting and receiving antenna. Then, wireless communication according to the MCA communication method is performed between the respective stations using a large number of allocated wireless frequencies.

The MCA communication system is a system in which a plurality of transceivers simultaneously transmit and receive at a number of adjacent radio frequencies, respectively. Therefore, if the transmitting and receiving antennas are not separated in the height direction, the following problem occurs. Occurs.
That is, a so-called sensitivity in which a transmission signal output from a transmitter of one transceiver is input to a receiver of another transceiver via an antenna, and an original reception signal of the receiver is suppressed at a high frequency stage of the receiver. Suppression and transmission signals output from the transmitters of a plurality of transceivers are input to the receivers of other transceivers and mixed at a high frequency stage of the receiver, so that the reception signal of the reception band frequency of the receiver is changed. That is, so-called intermodulation occurs. In addition, a transmission signal of one transmitter goes around to an output stage of another transmitter via a transmission / reception antenna, where two different transmission signals are mixed,
An intermodulation signal having a frequency within the reception band of another receiver is generated and radiated from the antenna again, so that a phenomenon of becoming an interference signal of the other receiver occurs. For this reason, in the conventional regional disaster prevention communication system, a plurality of transmitting and receiving antennas are spaced apart in the height direction so that a transmission signal does not interfere with the receiver.

[0004]

However, in the conventional communication system, as the number of transceivers increases, the number of transmitting and receiving antennas also increases. Therefore, all antennas are placed in a limited narrow place such as the roof of a building. In some cases, it may not be possible to dispose them at a sufficient distance in the height direction. In such a case, there is a disadvantage in that reception interference by the transmitter occurs. On the other hand, this interference could be due to the construction of high towers,
This can be avoided by arranging some transmitting and receiving antennas at other locations, but this has led to a delay in the construction period, in addition to an increase in construction costs and the cost of coaxial cables to the transmitting and receiving antennas. .

The present invention has been made in view of such a problem, and a communication system capable of reducing the cost of a system without causing reception interference even when many transceivers are used simultaneously. The purpose is to provide.

[0006]

In order to achieve the above object,
A communication system according to the invention according to claim 1, a plurality of simplex transceivers having a transmission unit and a reception unit, a plurality of circulators having a transmission / reception input / output port connected to a high-frequency connection unit of the corresponding transceiver, A combining unit configured by a combiner for combining transmission signals from the transmission output ports of the circulators, one transmission antenna for emitting the combined transmission signal of the combination unit, and a reception input port of the circulator connected to a height from the transmission antenna A communication device comprising a receiving antenna for a receiving unit which is arranged in a direction away from the receiving unit.

A communication system according to a second aspect of the present invention is the communication system according to the first aspect, wherein an isolator is provided at a transmission signal input section of the combining section.

A communication system according to a third aspect of the present invention is the communication system according to the first or second aspect, wherein an isolator is provided between the receiving antenna and the receiving section.

A communication system according to a fourth aspect of the present invention is the communication system according to any one of the first to third aspects, wherein the communication device is a UHF band wireless communication device.

A communication system according to a fifth aspect of the present invention is the communication system according to any one of the first to fourth aspects, wherein the communication device is a multi-channel access type communication device.

[0011]

According to the communication system according to the first aspect of the present invention, each of the transmission signals of the transmission units of the plurality of transceivers is input to a combination unit composed of a combiner via a circulator, and is combined there. The combined transmission signal is radiated from one transmission antenna. In this case, since there is only one transmitting antenna, the receiving antenna can be easily separated from the transmitting antenna in the height direction. Therefore, input of a transmission signal radiated from the transmission antenna to the reception antenna is prevented, and suppression of sensitivity of the reception unit is prevented. Also, since the transmission signal is synthesized by the combiner,
Since the transmission signal of one transmission unit can be prevented from leaking to another transmission unit, each transmission unit does not generate an interference signal,
As a result, reception interference at each receiving unit can be prevented.

In this case, when the isolator is provided in the transmission signal input section of the combining section, leakage of one transmission signal to another transmitter is further reduced. In the case where an isolator is provided between the receiving antenna and the receiving unit, leakage of the transmission signal to the receiving antenna is prevented, and for example, sensitivity suppression is prevented. Further, when the communication device is that of a UHF band wireless communication device or a communication device of a multi-channel access system, it becomes more effective.

[0013]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a communication system according to an embodiment of the present invention will be described in detail with reference to the drawings. FIG. 1 shows a block diagram of a communication system applied to a base station of a regional disaster prevention communication system. In the figure, reference numeral 1 denotes a communication device, which includes four transceivers TRX1 to TRX4 (hereinafter, collectively referred to as “transceiver TRX”) of the simplex system having the same configuration, an antenna matching unit 2, and a transmission antenna 3 And receiving antennas 4a to 4d (hereinafter, collectively referred to as "receiving antenna 4").

The transmitting antenna 3 and the receiving antenna 4 are shown in FIG.
As shown in the figure, it is located on the roof of the building. More specifically, reference numeral 11 in the figure denotes a main antenna column, and the main antenna column 11 has receiving antennas 4a, 4b
Are mounted at different heights, and the transmitting antenna 3 is mounted about 4 m above the receiving antenna 4a.
The receiving antennas 4c and 4d are attached to the receiving antenna column indicated by reference numeral 12 with different heights.

The antenna matching unit 2 includes a three-port circulator CIR1 corresponding to each transceiver TRX.
To CIR4 (hereinafter collectively referred to as “circulator CI
R ") and an isolator ISO provided at each antenna-side input / output port of each circulator CIR.
1 to ISO5 (hereinafter collectively referred to as “isolator IS
O ") and combiners CB1 to CB3 (hereinafter, collectively referred to as" combiner CB ") for combining the transmission signals of the transceiver TRX.

An outline of this regional disaster prevention communication system will be described. Although not particularly limited, this regional disaster prevention communication system is an MCA communication system using a control channel system, and each transceiver TRX includes one control channel and 60 systems. It has a communication channel (30 channels in normal times), and a selective call of a mobile station (for example, an automobile radio station) or a slave station (fixed station) not shown, and a call from a mobile station or the like are all performed by a control channel. . on the other hand,
When a mobile station or the like and this base station are connected by a control channel, the communication is switched to a communication channel and a call is made.

Next, the configuration of the communication device 1 will be specifically described.

The transceiver TRX operates in the UHF band (84
6MHz to 850MHz) FM transceiver,
It is composed of a transmitter with a transmission output of 5 W and a receiver with a reception sensitivity of -5 dBμV.
It is configured to be able to communicate with the radio frequency of channel 0. The transceivers TRX1 to TRX4 are
Antenna terminals (high frequency connection parts) AT1 to AT4 (hereinafter, referred to as
The antenna terminal AT is collectively referred to as an “antenna terminal AT”. The antenna terminal AT is switched by an antenna switching relay (not shown) between an output unit of a transmission unit and an input unit of a reception unit. It has become. The transceiver TRX is installed in a communication room in a building, and communication is performed by a connected handset (not shown).

The antenna matching section 2 includes four circulators CIR, three combiners CB, and twelve isolators ISO.

The specific configuration of the antenna matching section 2 will be described with reference to FIG.

First, the transmission system will be described. The antenna terminals AT1 to A1 of the transceivers TRX1 to TRX4 are described.
T4 is a circulator CIR1 using a coaxial cable.
, CIR4,... CIR4. In addition, circulator CIR
1, the transmission output ports 14a, 14b of the CIR2 are connected to the combiner CB via the isolator ISO1, ISO2.
1 is connected to the input terminals 15a and 15b of the circulators CIR3 and CIR4, respectively.
c and 14d are connected to input terminals 15c and 15d of the combiner CB2 via the isolator ISO3 and ISO4, respectively. Further, the output terminal 16a of the combiner CB1 and the output terminal 16b of the combiner CB2 are
Input terminal 15e and input terminal 15 of combiner CB3
f, and the output terminal 16c of the combiner CB3 is connected to the transmitting antenna 3.

Next, the receiving system will be described. The receiving input ports 17a to 17c of the circulators CIR1 to CIR4 are described.
17d is connected to the receiving antennas 4a to 4d via two isolator ISO5 respectively.

Next, the operation of the communication device 1 will be described focusing on the transceiver TRX1.

When the press switch of the handset of the transceiver TRX1 is pressed, the antenna switching relay operates, and the output of the transmission unit is connected to the transmission / reception input / output port 13a of the circulator CIR1 via the antenna terminal AT1. And the transmission signal is the circulator CIR
1, and is output from the transmission output port 14a of the circulator CIR1 and input to the combiner CB1 via the isolator ISO1. On the other hand, transceiver TR
The transmission signal output from X2 is also the circulator CIR
2. The signal is input to the combiner CB1 via the isolator ISO2, and is combined with the transmission signal of the transceiver TRX1 by the combiner CB1. Then, the combined transmission signal is input to the combiner CB3, where the transceivers TRX3, TRX
It is combined with the X4 transmission signal. Then, the combined transmission signal of the combiner CB3 is supplied to the transmission antenna 3, where it is radiated.

The circulator CIR allows the transmission signal and the reception signal to pass only in the direction of the arrow in the figure, and suppresses leakage in the opposite direction to -20 db or less. Similarly, the isolator ISO allows the transmission signal to pass only in the direction of the arrow (forward direction) in FIG.
Keep it below 0 dB. Also, the combiner CB allows the transmission signal to pass only in the direction of the arrow in the figure, and suppresses leakage to other transceiver directions to -20 dB or less.

On the other hand, when the transceiver TRX1 is in the receiving state, the received signal from the receiving antenna 4a is transmitted to the circulator CIR1 via the two isolators ISO5.
To the transceiver TRX1 from the transmission / reception input / output port 13a. In addition, each isolator ISO5
However, it is the same as the above-described isolators ISO1 to ISO4 in that it has unidirectionality, allows the reception signal to pass only from the reception antenna 4 side to the circulator CIR1, and suppresses leakage in the reverse direction to -20 db or less.

As described above, since the number of transmission antennas originally required four is reduced to one, the number of transmission antennas 3 is reduced.
And the receiving antenna 4 can be arranged at a sufficient distance in the height direction (4 m or more in this embodiment), so that the transmission signal radiated from the transmitting antenna 3 is input to the receiving antenna 4. , -40 db or more, so that sensitivity suppression and generation of an intermodulation signal can be prevented.

The transmission signal output from each transceiver TRX is a circulator CIR and an isolator I
The SO and the combiner CB are prevented from passing in directions other than the forward direction. For this reason, it is possible to prevent reception interference at each receiver and generation of an interference signal at the transmitter.

A specific description will be given using numerical values. For example, the transceiver T of the transmission signal of the transceiver TRX1
The leakage of RX2 to the receiving section is suppressed to -20db or less by the combiner CB1, the isolator ISO2 and the circulator CIR2, respectively.
It can be suppressed below. As a result, the transmission output signal (5 W)
Is attenuated to about -23 dbm, and the transceiver TRX
The sensitivity suppression in the receiving unit 2 hardly occurs. Also,
Transmission signals of a plurality of transceivers TRX are combined by combiner CB
, The transmission signal is similarly attenuated, thereby preventing the generation of an intermodulation signal in the receiving unit.

For example, when the transmission signal of the transceiver TRX1 is input to the transmission section of the transceiver TRX2, the combiner CB1 and the isolator ISO2
And the circulator CIR2 are suppressed to -20 db or less, respectively, and are generally suppressed to -60 db or less. Further, the leakage to the transceiver TRX3 is suppressed to -20 db or less in each of the combiners CB3 and CB2, the isolator ISO3 and the circulator CIR3, and is generally suppressed to -80 db or less. Therefore, almost no intermodulation signal is generated at the output stage of the transmission unit of each transceiver TRX.

Further, in the case where the transmission signal of the transceiver TRX1 leaks directly to the receiving antenna 4a and is radiated and input to the receiving unit of the transceiver TRX2, the transmission signal of the transceiver TRX1 is transmitted to the circulator CI
The light is radiated from the receiving antenna 4a via R1 and the two isolators ISO5, and is input from the receiving antenna 4b to the receiving unit of the transceiver TRX2. However, each of the circulator CIR1 and the two isolators ISO5 is suppressed by -20 db, and overall,
-60 db or less. In addition, the loss is further reduced by the loss between the receiving antennas 4a and 4b.
As a result, sensitivity suppression is prevented in the receiving unit of the transceiver TRX2.

As described above, according to the present embodiment, since the transmission signals of the plurality of transceivers TRX are combined and output, they can be transmitted by one transmission antenna. Also, it is easy to sufficiently separate the transmitting antenna and the receiving antenna, and the transmission signal does not interfere with the receiving unit. Also,
By using the combiner CB, the isolator ISO, and the circulator CIR, the adverse effect of sharing the transmission antenna (for example, leakage of a transmission signal to another transmission unit and the reception unit) is simultaneously prevented, and mutual transmission at the transmission unit is prevented. Generation of a modulation signal can also be prevented.

Further, by reducing the number of transmitting antennas, the cost of the system can be reduced.

Further, in the UHF band radio communication apparatus, since the transmission signal radiated from the transmission antenna 3 has straightness, the input of the transmission signal to the reception antenna is reduced, and the reception interference is further reduced. You. Further, in the multiple access communication device, since more transmission signals are used at the same time, prevention of the occurrence of interference signals in the transmission unit becomes more effective against reception interference.

In the above embodiment, the case where the simplex transceiver is used has been described. However, the present invention is also applicable to a duplex transceiver having a receiver (receiver) independent of a transmitter (transmitter). is there. In this case, in FIG. 1, the output section of the transmitter and the input section of the receiver may be directly connected to each isolator without using the circulators CIR1 to CIR4.
It works.

[0036]

As described above, according to the communication system of the present invention, by reducing the number of transmitting antennas, it becomes easy to separate the transmitting antenna from the receiving antenna in the height direction. Can be used at the same time, without causing reception interference and at the same time reducing the cost of the system.

[Brief description of the drawings]

FIG. 1 is a block diagram of a communication system according to the present invention.

FIG. 2 is an arrangement diagram of an antenna.

[Explanation of symbols]

 Reference Signs List 1 communication device 3 transmission antenna 4 reception antenna 13 transmission / reception input / output port 14 transmission output port 17 reception input port TRX transceiver CIR circulator ISO isolator CB combiner AT antenna terminal

Claims (5)

(57) [Scope of request for utility model registration] 1. A circulator comprising a plurality of simplex transceivers each having a transmission unit and a reception unit, a plurality of circulators having transmission / reception input / output ports connected to corresponding high-frequency connection units of the transceivers, and a combiner. A combining unit that combines the transmission signals from the transmission output ports of
One transmitting antenna for radiating a combined transmission signal of the combining unit, and a receiving antenna for the receiving unit connected to a receiving input port of the circulator and spaced apart from the transmitting antenna in a height direction. A communication system comprising a communication device. 2. The communication system according to claim 1, wherein an isolator is provided at a transmission signal input section of said combining section. 3. The communication system according to claim 1, wherein an isolator is provided between the receiving antenna and the receiving unit. 4. The communication system according to claim 1, wherein the communication device is a UHF band wireless communication device. 5. The communication system according to claim 1, wherein the communication device is a multi-channel access communication device.