JP2001307293A - Communication device to communicate with outside by multiple communication port - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide easy handling and higher freedom of installation of each communication unit by decreasing wiring in cars between multiple communication unit and main body unit. SOLUTION: In this device, light beacon light reception, light emission unit 10, radio wave beacon antenna unit 20, FM antenna unit 30, GPS antenna unit 40 and ETC antenna unit 50 which make multiple communication units mounted on a car are connected in series by coaxial cable 61 and connectors 71, 72.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication device having a plurality of communication units for communicating with the outside.

[0002]

2. Description of the Related Art Conventionally, VICS (Vichele
Information & Communication System), GPS (Global
Positioning System), ETC (Electronic Toll Colle)
ctionSystem) and other ITS (Intelligent Transpo
(rt Systems) devices have their own antenna unit for each device, and each is connected to the main unit by a cable. For this reason, there is a problem that the cables are bundled, the handling becomes troublesome, the total cable length is long, and the cost is high.

[0003] JP-A-8-329385 discloses a GP.
S, an antenna for radio signals such as radio beacons, a receiving amplifier, and a plurality of communication units such as a light receiving / emitting unit for an optical beacon are provided in the same housing, and these are connected to the main unit with a single coaxial cable. Is described.

[0004]

According to the above-mentioned publication, since one coaxial cable is used, problems such as troublesome handling of the cable and an increase in the total cable length can be solved.

[0005] However, the above publication discloses that
Since a plurality of communication units are provided in one housing, it is not possible to install the communication units in the optimum locations for each communication unit, and there is a problem that the degree of freedom for the installation locations is small.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and has as its object to reduce the number of wirings, to facilitate the handling thereof, and to increase the degree of freedom in installation locations.

[0007]

In order to achieve the above object, according to the first aspect of the present invention, a plurality of communication units for communicating with the outside of a mobile unit, and a plurality of communication units are provided corresponding to the plurality of communication units. A plurality of main units that transmit / receive a signal to / from a corresponding communication unit or receive a signal from the corresponding communication unit, and a signal that electrically connects the plurality of communication units in series to transmit a signal Transmission means, and each of the plurality of communication units has means for separating / multiplexing a signal with the signal transmission means or multiplexing a signal to the signal transmission means, and each of the plurality of main units is provided with: It is characterized by having means for separating / multiplexing a signal with the signal transmission means or separating a signal from the signal transmission means.

As described above, by separating / multiplexing the signal with the signal transmitting means or multiplexing the signal to the signal transmitting means, the number of wirings between the plurality of communication units and the main unit is reduced to reduce the number of wirings. Handling can be facilitated. Also, by electrically connecting a plurality of communication units in series,
The degree of freedom for the installation location of each communication unit can be increased.

The following technical means can be adopted for the invention described in claim 1 described above. That is, the terminator can be electrically connected to the end of the signal transmission means as in the second aspect of the invention. Further, as in the invention as set forth in claim 3, there is provided a means for superimposing a DC voltage on the signal transmission means, and each of the plurality of communication units includes means for extracting a DC component from the signal transmission means and generating power. Can be included.

According to a fourth aspect of the present invention, the signal transmission means includes a signal line provided for each of the plurality of communication units, and a detachable signal line provided at both ends of the signal line. And first and second electrical connection means. In this case, the first and second electrical connection means can be first and second connectors as in the invention described in claim 5.

Further, the signal line may include a cable electrically connected through the first and second connectors. in this case,
According to a seventh aspect of the present invention, the cables include a first cable connected to the first connector and a second cable connected to the second connector. The two cables can be electrically connected by wiring on a circuit board on which the communication unit is mounted.

[0012] According to another aspect of the present invention, one of the plurality of communication units separates / multiplexes a signal between the light emitting / receiving unit of the optical beacon and the signal transmission unit. And a filter for extracting the DC component from the signal transmission means and generating power to the light emitting / receiving portion of the optical beacon. Also, as in the ninth aspect of the present invention, one of the plurality of communication units may be used.
One, an antenna part of a radio beacon, a capacitor and a filter for multiplexing a signal to a signal transmission means,
Means for extracting a DC component from the signal transmission means and generating power for the antenna part of the radio beacon may be included. Also, as in the invention according to claim 10,
One of the plurality of communication units is provided with an FM antenna unit, a capacitor and a filter for multiplexing a signal to the signal transmission unit, and a DC component extracted from the signal transmission unit.
Means for generating power to the M antenna unit may be included. According to the eleventh aspect of the present invention, one of the plurality of communication units includes a GPS antenna unit, a capacitor and a filter for multiplexing a signal to a signal transmission unit, and a signal transmission unit. Means for extracting a DC component and generating power for the GPS antenna unit may be included. According to the twelfth aspect of the present invention, one of the plurality of communication units includes a capacitor and a filter for separating / multiplexing a signal between an ETC antenna unit and a signal transmission unit. A means for extracting a DC component from the signal transmission means and generating power for the ETC antenna unit may be included.

According to the thirteenth aspect of the present invention, a plurality of communication units for communicating with the outside and a plurality of communication units are provided corresponding to the plurality of communication units for transmitting / receiving signals to / from the corresponding communication units. A plurality of main units for receiving signals from the corresponding communication units, wherein each of the plurality of communication units is connected to one communication unit in series with another communication unit, and the other side is electrically connected. A plurality of communication units are connected in series by connecting one side of the one communication unit and the other side of the other communication unit between adjacent communication units. Connected to each other, thereby forming a signal transmission line for transmitting a signal. Further, each of the plurality of communication units separates / multiplexes a signal from / to the signal transmission line. Has means for multiplexing a signal to a signal transmission line, and each of the plurality of main units has means for separating / multiplexing a signal from / to a signal transmission line or separating a signal from a signal transmission line. It is characterized by doing.

By separating / multiplexing a signal with a signal transmission line or multiplexing a signal to a signal transmission line in this manner, the number of wires between a plurality of communication units and a main body is reduced to reduce the number of wires. Handling can be facilitated. In addition, by electrically connecting a plurality of communication units in series, the degree of freedom with respect to the installation location of each communication unit can be increased, and required communication units can be easily added or deleted.

[0015] With respect to the invention of claim 13,
The following technical means can be employed.
That is, a terminator can be electrically connected to the end of the signal transmission line as in the invention of the fourteenth aspect. Further, as in the invention according to claim 15, a specific communication unit and a communication unit adjacent thereto can be connected by a relay line. Further, as in the invention according to claim 16, each of the plurality of main bodies also has one-side electric connection means and the other-side electric connection means for electric connection in series with another main body, A plurality of main units may be electrically connected in series by connecting one side electrical connection unit of one main unit and the other side electric connection unit of the other main unit between adjacent main units. it can. Further, the one-side electrical connection means and the other-side electrical connection means may be connectors, and a signal transmission line may be formed by a coaxial cable connected to the connectors. it can.

[0016]

FIG. 1 shows an overall configuration of a vehicle communication device according to one embodiment of the present invention. In this embodiment, focusing on the fact that the frequencies used in the communication units of various ITS devices in the vehicle are different and that the impedance of the coaxial cable can be unified, the cable of each communication unit is provided with the function of a relay cable, It is possible to upgrade the system by connecting the communication unit to the series, and it becomes possible to use only one coaxial cable. In this case, it is possible to easily add / delete or change the position of the communication unit in accordance with the conditions. The communication unit referred to in this specification refers to a radio wave antenna unit and a transmission / reception unit for optical communication, and is not limited to a unit performing two-way communication with the outside, but also includes a unit performing communication in only one direction. It is a thing.

Hereinafter, this embodiment will be described in detail. In this embodiment, as a communication unit that communicates with the outside of the vehicle, an optical beacon receiving / emitting unit 10, a radio wave beacon antenna unit 20, an FM antenna unit 30, a GPS antenna unit 40, and an ETC antenna unit 50 are provided. It is installed in. Each communication unit has a coaxial cable 61 and two connectors (one is a male connector and the other is a female connector).
Together with 71 and 72, they constitute a communication unit.

A connector 71 of one communication unit and a connector 7 of the other communication unit connect adjacent communication units.
2, a plurality of communication units are electrically connected in series, whereby a signal transmission line for transmitting a signal is formed by one coaxial cable 61. Further, the connector 71 of the optical beacon light receiving / emitting unit 10 at the end of the signal transmission line among the plurality of communication units is connected to the connector 72 of the terminator (50Ω terminator) 80, and the terminator is connected to the end of the signal transmission line. 80 are connected. This terminator 80 is for matching the impedance of the signal transmission line to 50Ω. The connector 72 of the ETC antenna unit 50 is connected to the connector 71 of the relay coaxial cable 62, and the relay coaxial cable 62 is connected to the main device 100.

The details of the main unit 100 will be described later, but the optical beacon receiving / emitting unit 10, radio wave beacon antenna unit 20, FM antenna unit 30, GPS antenna unit 4
0, each of which has a main unit provided corresponding to the ETC antenna unit 50, and each main unit has a coaxial cable 6
1 transmits / receives or receives a signal to / from a corresponding communication unit via the signal transmission line according to 1. Then, signals received by the respective communication units from the main device 100 are transmitted to the ITS display device 200, and various displays required for ITS are performed.

As described above, by multiplexing / demultiplexing the signals by serially connecting the various communication units with one coaxial cable, the signals can be physically handled as a single cable, so that the handling is facilitated and the cost is reduced. it can. Further, by adjusting the length of the coaxial cable 61 in the communication unit, the degree of freedom with respect to the installation location of the communication unit can be increased. Furthermore, various communication units can be replaced, added, or deleted arbitrarily.

In the configuration shown in FIG. 1, the optical beacon receiving / emitting unit 10, the radio beacon antenna unit 20, and the F
Each of the M antenna unit 30, the GPS antenna unit 40, and the ETC antenna unit 50 is not limited to the one directly connected by the connector 71 and the connector 72, and a relay coaxial cable forming a relay line is interposed therebetween. You may. FIG. 2 shows a case in which a relay coaxial cable 63 is interposed between the radio wave beacon antenna unit 20 and the FM antenna unit 30.

Next, an optical beacon receiving / emitting unit 10, a radio wave beacon antenna unit 20, an FM antenna unit 30,
The GPS antenna unit 40 and the ETC antenna unit 50 will be described. FIG. 3 shows the detailed configuration.

The optical beacon light receiving / emitting unit 10 includes a light emitting element (LED) 11 and a light receiving element (photodiode) 12.
, An optical beacon transmitting amplifier 13, an optical beacon receiving amplifier 14, filters 15, 16 and capacitors 17, 1
8 and a choke coil 19. The signal output from the light receiving element 12 is amplified by the optical beacon receiving amplifier 14, the frequency component is extracted by the filter 16, the AC component is extracted by the capacitor 18, and is superimposed on the signal of the coaxial cable 61. Also, the main device 100
Transmitted to the optical beacon receiving / emitting unit 10 from the coaxial cable 61 are separated from other signals by the capacitor 17 and the filter 15. That is, the AC component is extracted by the capacitor 17, the frequency component is extracted by the filter 15, and the optical beacon
Are separated (extracted). The light emitting element 11 is driven to emit light by the separated signal via the optical beacon transmission amplifier 13. Further, only the DC component is extracted from the coaxial cable 61 by the choke coil 19, and power is supplied to the amplifiers 13 and 14. In the optical beacon light receiving / emitting unit 10, the capacitors 17 and 18 and the filters 15 and 16 separate the transmission signal from the coaxial cable 61 and convert the received signal into the coaxial cable 61.
Means for multiplexing the signals to be transmitted.

The radio beacon antenna unit 20 includes an antenna 21, an amplifier 22, a filter 23, and a capacitor 2
4 and a choke coil 25. The high-frequency signal input from the antenna 21 is amplified by the amplifier 22, the frequency component is extracted by the filter 23, the AC component is extracted by the capacitor 24, and is superimposed on the signal of the coaxial cable 61. Further, only the DC component is extracted from the coaxial cable 61 by the choke coil 25 and
Is supplied with power. This radio beacon antenna unit 20
In the above, the filter 23 and the capacitor 24 constitute a means for multiplexing the received signal into a signal transmitted by a coaxial cable.

The FM antenna unit 30 includes an antenna 31
The amplifier 32, the filter 33, the capacitor 34, and the choke coil 35, and the high-frequency signal input from the antenna 31 is amplified by the amplifier 32 in the same manner as the radio beacon antenna unit 20. And is superimposed on the signal of the coaxial cable 61 via Further, only the DC component is extracted from the coaxial cable 61 by the choke coil 35, and power is supplied to the amplifier 32.
In the FM antenna unit 30, the filter 33 and the capacitor 34 constitute a unit that multiplexes a received signal into a signal transmitted through a coaxial cable.

The GPS antenna unit 40 includes an antenna 41
, An amplifier 42, a filter 43, and a capacitor 44
And a choke coil 45, like the radio wave beacon antenna unit 20 and the FM antenna unit 30, a high-frequency signal input from the antenna 41 is amplified by the amplifier 42, and the coaxial cable 61 through the filter 43 and the capacitor 44. Is superimposed on the signal of Further, only the DC component is extracted from the coaxial cable 61 by the choke coil 45, and the power is supplied to the amplifier 42. This GPS antenna part 4
At 0, the filter 43 and the capacitor 44 constitute means for multiplexing the received signal into a signal transmitted by a coaxial cable.

The ETC antenna unit 50 includes an antenna 51
, A duplexer 52, amplifiers 53 and 54, filters 55 and 56, capacitors 57 and 58, and a choke coil 59. The high-frequency signal input from the antenna 51 is transmitted to the amplifier 54 through the duplexer 52.
And is superimposed on the signal of the coaxial cable 61 via the filter 56 and the capacitor 58. Also, the main device 1
The signal transmitted from 00 to the ETC antenna unit 50 is transmitted from the coaxial cable 61 to the capacitor 57 and the filter 5.
5 from other signals. The separated signal is transmitted from the antenna 51 via the amplifier 53 and the duplexer 52. Further, only the DC component is extracted from the coaxial cable 61 by the choke coil 59, and power is supplied to the amplifiers 53 and 54. This ET
In the C antenna unit 50, the capacitors 57 and 58 and the filters 55 and 56 constitute a unit that separates a transmission signal from the coaxial cable 61 and multiplexes a reception signal into a signal transmitted by the coaxial cable 61.

In the configuration described above, the choke coils 19, 25, 35, 45, and 59 are connected to the coaxial cable 6
A means for generating a power source by extracting a DC component from the power supply 1 is provided. In each communication unit, filters 15, 16, 2
If 3, 33, 43, 55, 56 require a power supply, choke coils 19, 25, 35, 45, 59
Filters 15, 16, 23, 33, 43, 55, 5
6 may be supplied with power.

The signal connection between the circuit unit (the light-emitting / light-receiving element or the antenna, an amplifier, a filter, a capacitor, a choke coil, and other circuit components in each communication unit) in each communication unit and the coaxial cable 61 is shown in FIG.
This is performed as shown in FIG. That is, in each communication unit, the circuit unit 91 is mounted on the circuit board 90, and the first coaxial cable 61a connected to the connector 71 and the second coaxial cable 61b connected to the connector 72 are:
It is electrically connected to wiring 92 connected to the circuit unit 91 via connection units (input / output units) 93 and 94.

Next, the main device 100 will be described.
FIG. 5 shows the detailed configuration.

The main unit 100 is electrically connected to the coaxial cable 62 shown in FIG. The main device 100 includes a power supply circuit 101a for stabilizing the voltage of the vehicle-mounted battery and a choke coil 10 as means for superimposing a DC voltage on the signal transmission line (consisting of the coaxial cables 61, 62, and 63).
1b is provided. Further, the main body device 100 includes main body units 110 and 120 provided corresponding to the optical beacon light receiving / emitting unit 10, the radio wave beacon antenna unit 20, the FM antenna unit 30, the GPS antenna unit 40, and the ETC antenna unit 50, respectively. 130, 14
0, 150.

The main body unit 110 includes the optical beacon transmitting / receiving unit 11
1, filters 112 and 113, capacitor 114,
115. Optical beacon transceiver 11
From the transmission signal from 1, the frequency component is extracted by the filter 113, the AC component is extracted by the capacitor 115, and superimposed on the signal of the signal transmission line. The signal transmitted from the optical beacon light receiving / emitting unit 10 is separated from other signals by a capacitor 114 and a filter 112 from a signal transmission line, input to the optical beacon transmitting / receiving unit 111, and subjected to reception processing.

The main body unit 120 includes the radio beacon receiving unit 12.
1, a filter 122, and a capacitor 123. The signal transmitted from the radio beacon antenna unit 20 is separated from other signals by a capacitor 123 and a filter 122 from a signal transmission line, input to the radio beacon receiving unit 121, and subjected to reception processing.

The main unit 130 includes an FM multiplex receiving unit 131
, A filter 132, and a capacitor 133. The signal transmitted from the FM antenna unit 30 is
The signal is separated from other signals by the capacitor 133 and the filter 132 from the signal transmission line, input to the FM multiplex reception unit 131, and subjected to reception processing.

The main unit 140 includes a GPS receiving unit 141,
It comprises a filter 142 and a capacitor 143. The signal transmitted from the GPS antenna unit 40 is separated from other signals by the capacitor 143 and the filter 142 from the signal transmission line, input to the GPS receiving unit 141, and subjected to reception processing.

The main unit 150 includes an ETC transmission / reception unit 151.
, Filters 152 and 153, capacitors 154 and 1
55. From the transmission signal from the ETC transmission / reception unit 151, the frequency component is extracted by the filter 153, the AC component is extracted by the capacitor 155, and is superimposed on the signal of the signal on the signal transmission line. Further, the signal transmitted from the ETC antenna unit 50 is separated from other signals by a capacitor 154 and a filter 152 from the signal transmission line, input to the ETC transmission / reception unit 151, and subjected to reception processing.

In the example shown in FIG.
In the power supply unit 101, the main body unit 110,
Wirings 120, 130, 140, and 150 are mounted and electrically connected to each other, as in the case shown in FIG. 4, and are electrically connected to a coaxial cable connected to the connector 71 via a connection portion. However, also in the main device 100, as in the case of each communication unit, it may be unitized and connected by a connector. FIG. 6 shows the configuration in this case.

In the example shown in FIG. 6, the unit of the power supply unit 101 and the main units 110, 120, 130,
It comprises 140 and 150 units. Each unit has a coaxial cable 64 and connectors 71 and 72, and a connector 71 and a connector 7
2 are electrically connected in series. Note that the coaxial cable 64 and the circuit unit (power supply unit 1) in each unit
01, body parts 110, 120, 130, 140, 150
Are electrically connected by the same configuration as that shown in FIG.

If it is necessary to match the impedance of the signal transmission line outside each unit, the main unit 150
Connector 72 on one end of coaxial cable 64 connected to
May be connected to a terminator 80 as shown in FIG.

By unitizing the inside of main unit 100 in this way, only the main unit corresponding to the communication unit can be provided in main unit 100.

In the above embodiment, the main unit 1
Although the signal received at 00 is used as the display information of the ITS display device 200, the signal may be used for a navigation device.

Further, in the above-described embodiment, an example in which the present invention is applied to a communication device for a vehicle is described. Further, the present invention can be applied to other communication devices that are not mobile objects.

[Brief description of the drawings]

FIG. 1 is a diagram showing an overall configuration of a vehicle communication device according to an embodiment of the present invention.

FIG. 2 is a diagram showing an example in which a relay coaxial cable 63 is interposed between the radio wave beacon antenna unit 20 and the FM antenna unit 30 in the configuration shown in FIG.

FIG. 3 is a diagram showing a detailed configuration of an optical beacon light receiving / emitting unit 10, a radio wave beacon antenna unit 20, an FM antenna unit 30, a GPS antenna unit 40, and an ETC antenna unit 50.

FIG. 4 is a diagram illustrating a signal connection configuration between a circuit unit and a coaxial cable 61 in each communication unit.

FIG. 5 is a diagram showing a detailed configuration of the main device 100.

FIG. 6 is a diagram showing another configuration example of the main device 100.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 10 ... Optical beacon light receiving / emitting part, 20 ... Radio beacon antenna part, 30 ... FM antenna part, 40 ... GPS antenna part, 50 ... ETC antenna part, 61, 62, 63, 6
4, coaxial cable, 71, 72, connector, 80, terminator, 100, main unit, 101, power supply unit, 110,
120, 130, 140, 150 ... body, 200 ... I
TS display device.

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 3D020 BA06 BA13 BC01 BD03 BE03 5H180 AA01 CC01 CC12 EE10 EE18 FF05 FF13 FF22 5K011 AA16 JA01 KA12 5K032 AA09 BA06 DB04

Claims (17)

[Claims] 1. A plurality of communication units for communicating with the outside of a mobile unit, and a plurality of communication units provided corresponding to the plurality of communication units for transmitting / receiving a signal or corresponding communication with the corresponding communication units. A plurality of main units that receive signals from the unit, and a signal transmission unit that electrically connects the plurality of communication units in series and that transmits the signals, wherein each of the plurality of communication units includes the signal Means for demultiplexing / multiplexing a signal to / from a transmission means or multiplexing a signal to the signal transmission means, wherein each of the plurality of main units separates / multiplexes a signal to / from the signal transmission means. Alternatively, there is provided a communication device for a mobile body, comprising: means for separating a signal from the signal transmission means. 2. The mobile communication device according to claim 1, wherein a terminator is electrically connected to an end of said signal transmission means. 3. The apparatus according to claim 1, further comprising: means for superimposing a DC voltage on the signal transmission means, and wherein each of the plurality of communication units has means for extracting a DC component from the signal transmission means and generating power. The mobile communication device according to claim 1. 4. The signal transmission means includes a signal line provided corresponding to each of the plurality of communication units, and detachable first and second electrical lines provided at both ends of the signal line. The mobile communication device according to claim 1, further comprising a connection unit. 5. The mobile communication device according to claim 4, wherein said first and second electrical connection means are first and second connectors. 6. The mobile communication device according to claim 5, wherein the signal line includes a cable electrically connected through the first and second connectors. 7. The cable includes a first cable connected to the first connector and a second cable connected to the second connector, wherein the first cable and the second cable are connected to each other. The communication device according to claim 6, wherein the cables are electrically connected by wiring on a circuit board on which the communication unit is mounted. 8. One of the plurality of communication units includes: a light emitting / receiving unit of an optical beacon; a capacitor and a filter for separating / multiplexing a signal between the signal transmitting unit; 8. The mobile communication device according to claim 1, further comprising a unit that extracts a DC component from a transmission unit and generates a power supply to a light emitting / receiving unit of the optical beacon. 9. One of the plurality of communication units includes an antenna unit of a radio beacon, a capacitor and a filter for multiplexing a signal to the signal transmission unit, and a DC component from the signal transmission unit. The mobile communication device according to any one of claims 1 to 8, further comprising a unit that extracts the power and supplies power to the antenna unit of the radio wave beacon. 10. One of the plurality of communication units is F
An M antenna unit, a capacitor and a filter for multiplexing signals to the signal transmission unit, and a unit for extracting a DC component from the signal transmission unit and generating power to the FM antenna unit. The communication device for a mobile body according to claim 1, wherein 11. One of the plurality of communication units is G
A PS antenna unit, a capacitor and a filter for multiplexing a signal to the signal transmission unit, and a unit for extracting a DC component from the signal transmission unit to generate a power supply to the GPS antenna unit. Claim 1
11. The mobile communication device according to any one of items 1 to 10. 12. One of the plurality of communication units,
A capacitor and a filter for separating / multiplexing a signal between the TC antenna unit and the signal transmission unit, and a unit for extracting a DC component from the signal transmission unit and generating a power supply to the ETC antenna unit are included. The mobile communication device according to any one of claims 1 to 11, wherein: 13. A plurality of communication units for communicating with the outside, and a plurality of communication units provided corresponding to the plurality of communication units, for transmitting / receiving a signal to / from the corresponding communication unit, or receiving a signal from the corresponding communication unit. A plurality of main units for receiving signals, wherein each of the plurality of communication units has one-side electrical connection means and the other-side electrical connection means for electrically connecting the other communication units in series. The plurality of communication units are electrically connected in series between adjacent communication units so as to connect one-side electrical connection means of one communication unit and the other-side electrical connection means of the other communication unit. Thus, a signal transmission line for transmitting the signal is formed, and each of the plurality of communication units is configured to separate / multiplex a signal with the signal transmission line. Or a means for multiplexing a signal to the signal transmission line, wherein each of the plurality of main units separates / multiplexes a signal from / to the signal transmission line or separates a signal from the signal transmission line. A communication device comprising means for performing: 14. The communication device according to claim 13, wherein a terminator is electrically connected to an end of said signal transmission line. 15. The communication device according to claim 13, wherein a specific communication unit and a communication unit adjacent thereto are connected by a relay line. 16. Each of the plurality of main bodies also has one-side electrical connection means and the other-side electrical connection means for electrically connecting the other main body parts in series, and is provided between adjacent main body parts. The plurality of main units are electrically connected in series by connecting the one-side electric connection unit of one main unit and the other-side electric connection unit of the other main unit, whereby the signal transmission line is The communication device according to any one of claims 13 to 15, wherein the communication device is formed. 17. The signal transmission line according to claim 13, wherein each of the one-side electrical connection means and the other-side electrical connection means is a connector, and the signal transmission line is formed by a coaxial cable connected to the connector. Or 16
Communication device according to any one of the above.