JP6094728B2 - COMMUNICATION SYSTEM AND MODEM USED FOR THE SAME - Google Patents

Description

  The present invention relates to a communication system, and more particularly to a communication system having a function of transmitting power by superimposing power on a communication cable. The present invention also relates to a modem used in such a communication system.

  In a remote monitoring system that installs a camera or various measuring instruments in a remote place and monitors the situation, a method of transmitting power using a communication cable is known (see Patent Document 1). In this method, power is supplied to a slave unit modem installed at a remote location by connecting the base unit modem and the slave unit modem with a coaxial cable for signal transmission and superimposing a DC voltage on the coaxial cable. To do. Furthermore, power is supplied from the slave unit modem to the camera or measuring instrument connected to the slave unit modem. For example, when monitoring weather conditions in mountainous areas, rivers and dams, etc., it may not be possible to secure power at remote locations. According to this method, power is supplied to remote cameras and measuring instruments. It is possible.

JP 2010-258769 A

  In the conventional communication system described above, there are various types and types of terminal devices such as cameras and measuring instruments connected to the slave modem, and the specific devices are not determined. In such a case, it is unclear how much load is connected to the handset modem and the voltage drop of the power supplied through the coaxial cable. It is not possible to determine how to set the superimposed power supply voltage.

  Furthermore, when building the devices on the base unit side and the handset side in a one-to-many manner, the fluctuation range of the load becomes very large, so a large voltage drop occurs when a large number of heavy load devices are connected to the handset side. Therefore, the slave modem may be automatically shut down due to a larger load than expected.

  For example, when one of a plurality of terminal devices connected to the handset modem is replaced with another one, the load on the handset modem side changes. Here, there is a sufficient margin in the supply voltage until the terminal device is replaced. However, the terminal device after the replacement is heavily loaded, and may be forced to operate at the limit of the rated voltage.

  It is well known that the load of an electronic device varies depending on environmental conditions such as temperature. Therefore, for example, the load on the terminal device exchanged in winter increases in the summer, and the voltage drop of the power source increases, which may cause the slave modem to shut down suddenly.

  Some slave modems are configured so that they can be restarted by the automatic recovery function even if they are shut down suddenly. However, in the case of the above-mentioned shutdown, this automatic recovery function may appear behind the scenes. In other words, even if the system is restarted by the automatic recovery function, the system is down again, causing an abnormal operation that repeats shutdown and restart.

  In order to solve the above-described problems, a communication system according to the present invention includes a master modem, a slave modem capable of digital communication with the master modem, and a communication cable connecting the master modem and the slave modem. A power supply device that superimposes a predetermined voltage on the communication cable, wherein the slave modem includes a signal processing unit connected to the communication cable, an interface unit connected to the signal processing unit, and the communication cable A power supply unit that converts the predetermined voltage superimposed on the power supply voltage to a power supply voltage, a connection terminal to which a terminal device is connected, a connection terminal connected to the connection terminal, and the power supply voltage together with an output signal from the interface unit A PoE processing unit supplied to the terminal, a pseudo load used to create a state in which the terminal device is pseudo-connected, and the PoE processing unit connected to the connection terminal or Including a changeover switch connected to the pseudo load, wherein the PoE processing unit is connected to the terminal device via the changeover switch and the connection terminal, or connected to the pseudo load via the changeover switch. It is characterized by.

  Further, the modem according to the present invention is capable of digital communication with a counterpart modem connected via a communication cable, and is connected to the signal processing unit connected to the communication cable and the signal processing unit. An interface unit; a power source unit that converts a predetermined voltage superimposed on the communication cable into a power source voltage; a connection terminal to which a terminal device is connected; and a connection terminal connected to the connection terminal, together with an output signal from the interface unit A PoE processing unit that supplies power supply voltage to the connection terminal, a pseudo load that is used to create a state in which the terminal device is pseudo-connected, and the PoE processing unit is connected to the connection terminal or the pseudo load. The PoE processing unit is connected to the terminal device via the changeover switch and the connection terminal, or the changeover switch is included. Through the switch, characterized in that it is connected to the dummy load.

  In the present invention, the handset modem includes first and second connection terminals to which first and second terminal devices are respectively connected, and first and second PoE processing units connected to the interface unit. A first changeover switch for connecting the first and second pseudo loads, the first PoE processing unit to the first connection terminal or the first pseudo load, and the second PoE processing unit. It is preferable that a second changeover switch for connecting an output terminal to the second connection terminal or the second pseudo load is included.

  In the present invention, the master modem preferably has the same configuration as the slave modem. According to this configuration, the modem can be used on both the parent device side and the child device side, the versatility of the modem can be improved, and the manufacturing cost of the modem can be reduced.

  Furthermore, in order to solve the above-described problems, a communication system according to the present invention includes a parent device modem, a child device modem capable of digital communication with the parent device modem, and communication for connecting the parent device modem and the child device modem. A power supply device that superimposes a predetermined voltage on the communication cable; and the slave modem includes: a signal processing unit connected to the communication cable; an interface unit connected to the signal processing unit; A power supply unit that converts the predetermined voltage superimposed on the communication cable into a power supply voltage, a plurality of connection terminals to which each terminal device is connected, and an output signal from the interface unit that is connected to each of the plurality of connection terminals. And a plurality of PoE processing units for supplying the power supply voltage to the corresponding connection terminals, and a control unit. When the slave unit modem is restarted when the system is shut down, the priority order set in advance in the plurality of connection terminals is held, and the slave unit modem performs an abnormal operation that repeats shutdown and restart The plurality of PoE processing units are controlled so as to stop the power supply to the terminal device connected to the connection terminal with the lowest priority.

  Further, the modem according to the present invention is capable of digital communication with a counterpart modem connected via a communication cable, and is connected to the signal processing unit connected to the communication cable and the signal processing unit. An interface unit, a power supply unit that converts a predetermined voltage superimposed on the communication cable into a power supply voltage, a plurality of connection terminals to which terminal devices are respectively connected, and a plurality of connection terminals, respectively, and the interface unit A plurality of PoE processing units that supply the power supply voltage to the corresponding connection terminals together with the output signal from the control unit, and the control unit restarts the modem when the modem shuts down due to insufficient power supply voltage In addition, the preset priority order is held in the plurality of connection terminals, and the modem itself repeats shutdown and restart abnormally. When There occurred, and controls the plurality of PoE processing unit to stop the power supply to the most priority connection of the lower connection terminal is a terminal device.

  In the present invention, when the abnormal operation is not resolved even if the power supply to the terminal device connected to the connection terminal with the lowest priority is stopped, the control unit has the lower priority until the abnormal operation is resolved. Preferably, the plurality of PoE processing units are controlled so as to sequentially stop power supply to terminal devices connected to the connection terminals in order. By performing such control by the control unit, it is possible to reliably avoid the abnormal operation due to a significant shortage of the power supply voltage.

  In the present invention, the master modem preferably has the same configuration as the slave modem. According to this configuration, the modem can be used on both the parent device side and the child device side, the versatility of the modem can be improved, and the manufacturing cost of the modem can be reduced.

  According to the present invention, even if the voltage drop of the power supply due to the load connected to the slave modem is unknown, the pseudo load built into the slave modem is used to superimpose the communication cable from the master modem side. It is possible to determine how the power supply voltage to be set should be set. Therefore, the handset modem can be installed in a remote place.

  Further, according to the present invention, in a situation where the handset modem is operated at the limit of the rated voltage, even if the load of the terminal device connected to the handset modem fluctuates due to environmental conditions such as temperature, the automatic recovery function Therefore, it is possible to avoid an abnormal operation in which the handset modem repeats shutdown and restart.

FIG. 1 is a block diagram showing a configuration of a communication system according to the first embodiment of the present invention. FIG. 2 is a block diagram showing a configuration of a communication system according to the second exemplary embodiment of the present invention.

  Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

  FIG. 1 is a block diagram showing a configuration of a communication system according to the first embodiment of the present invention.

  As shown in FIG. 1, the communication system includes a master modem 1 and a slave modem 2. The master modem 1 and the slave modem 2 are connected to each other via a coaxial cable 3 and can transmit and receive digital signals.

  The master modem 1 and the slave modem 2 have a function of performing one-to-many bidirectional communication using a multiplexing technique (time division multiplexing, frequency division multiplexing, code division multiplexing, etc.). An apparatus having a similar communication mechanism is a PLC modem. The PLC modem employs an OFDM (orthogonal frequency division multiplexing) system, an SS (spread spectrum) system, or the like, and uses a power line as a signal transmission medium.

  The master modem 1 and the slave modem 2 connected to each other via the coaxial cable 3 constitute a local area network (LAN). A personal computer 6 is connected to the master modem 1 via a LAN cable 5, and terminal devices 9 a to 9 c such as IP surveillance cameras are connected to the slave modem 2 via a LAN cable 8. Here, the master unit modem means a modem to which a control-side terminal device is connected, and the slave unit modem means a modem to which a controlled-side terminal device is connected. . In other words, whether the modem is a master or slave is determined by the terminal device connected to them.

The base modem 1 includes a filter 101, a signal processing unit 102, an interface unit 103, and a control unit 109. The base modem 1 includes a communication terminal 1c to which the coaxial cable 3 is connected and a connection terminal (for example, RJ45) 1e of the LAN cable 5. PC 6 is connected to the connection terminal 1e _a parent unit modem 1 via the LAN cable 5.

  The filter 101 allows only communication signals having a certain frequency or higher to pass in both directions. The signal processing unit 102 performs digital processing such as modulation / demodulation of a communication signal. The interface unit 103 is a circuit that has an interface function such as Ethernet (registered trademark) and realizes a physical layer. The control unit 109 controls the operation of the entire modem including the signal processing unit 102 and the like.

  A mixer / demultiplexer 10 is inserted in the coaxial cable 3. A power cord 11 for applying a voltage of, for example, DC 15 V is connected to the mixer / demultiplexer 10 via a plug 13 inserted into an outlet via an AC / DC adapter 12. That is, the plug 13, the AC / DC adapter 12, the power cord 11, and the mixer / demultiplexer 10 constitute a power feeding device that superimposes a predetermined voltage on the coaxial cable 3.

  The mixer / demultiplexer 10 can be provided at any position on the coaxial cable 3 and can easily inject a power supply voltage from anywhere. It is also easy to cut the existing coaxial cable 3 and insert the mixer / demultiplexer 10. When the coaxial cable 3 is long (for example, 100 m or longer), it is preferable to provide the mixer / demultiplexer 10 as close to the handset modem 2 as possible in consideration of a voltage drop. However, in many cases, the mixer / demultiplexer 10 is provided in the vicinity of the master modem 1 in which power can be easily secured.

  Next, the handset modem 2 will be described.

  The slave modem 2 includes a filter 201, a signal processing unit 202, an interface unit 203, three PoE processing units 204a to 204c, a changeover switch 205, a power supply unit 206, three changeover switches 207a to 207c, and three pseudo loads 208a to 208c. And a control unit 209. The filter 201, the changeover switch 205, and the power supply unit 206 constitute a power supply circuit unit that extracts a voltage superimposed on the coaxial cable 3 as a communication cable and generates its own power supply voltage.

The handset modem 2 includes a communication terminal 2c to which the coaxial cable 3 is connected, a power supply terminal 2p for receiving a DC 15V voltage from the outside, and three connection terminals (for example, RJ45) 2e _{a to} 2e _c. Yes. Terminal devices 9 _{a to} 9 _c such as IP surveillance cameras are connected to the connection terminals 2 e _{a to} 2 e _c via the LAN cable 8. Specifically, the connection terminal 2e _a to a connected terminal device 9a is an IP surveillance cameras, the terminal equipment connected to the terminal device 9b connected to a connection terminal 2e _b and the connection terminal 2e _c is a thermometer, water meter It is a measuring instrument. In addition, in the PoE processing units 204a to 204c, the changeover switches 207a to 207c, the pseudo loads 208a to 208c, and the connection terminals 2e _{a to} 2e _c , whether or not alphabets (a, b, c) at the end of the symbols are circuits of the same system Is shown.

  The filter 201 allows only communication signals having a certain frequency or higher to pass between the communication terminal 2c and the signal processing unit 202 in both directions. Since a voltage of 15 VDC is superimposed on the signal received from the communication terminal 2 c, this direct current component is sent from the filter 201 to the changeover switch 205. The changeover switch 205 sends the voltage output from the filter 201 to the power supply unit 206. The power supply unit 206 boosts the input DC 15V voltage and provides it as a DC 48V power supply voltage for use in the handset modem 2. Although it is possible to supply DC15V from the commercial power supply to the power supply terminal 2p through the AC / DC adapter, this embodiment assumes that it is difficult to secure DC15V on the handset modem 2 side. The power supply terminal 2p is not used.

  The signal processing unit 202 performs digital processing such as modulation / demodulation of a communication signal. The interface unit 203 is a circuit that has an interface function such as Ethernet (registered trademark) and realizes a physical layer. A PoE (Power Over Ethernet: Ethernet is a registered trademark) processing unit 204 performs a process of superimposing a power supply voltage (DC48V) on an Ethernet (registered trademark) signal. Thereby, the electric power by PoE is supplied to terminal device 9a-9c. Note that PoE is a technology based on the provisions of IEEE 802.3af.

  IEEE 802.3af defines a pattern A in which a power supply voltage is superimposed on a core wire used for data communication and a pattern B in which an empty core wire not used for data communication is used for power supply, among the LAN cable core wires. ing. In the above embodiment, the connection between the PoE processing units 204a to 204c of the slave modem 2 and the terminal devices 9a to 9c may be the pattern A or the pattern B.

Between the PoE processor 204a~204c and the connection terminal _2e a _{~2e c} provided changeover switch 207a~207c respectively, PoE processor 204a~204c via one of the contacts of the selector switch 207a~207c The connection terminals 2e _{a to} 2e _c are respectively connected. Further, the other contact of the changeover switch and the dummy load 208a~208c is connected, by switching the contact of the changeover switch 207a~207c the dummy load 208a~208c side terminal to the connection terminal _2e a _{~2e c} It is possible to create a state in which devices are pseudo-connected. The modem installer installs and adjusts the slave modem 2 with the changeover switches 207a to 207c switched to the pseudo loads 208a to 208c. After installation of the handset modem 2 has been completed, performs actual operation by switching the changeover switch 207a~207c the connection terminal _2e a _{~2e c} side.

  The three switches 207a to 207c are preferably switched at the same time by one operation, but may be switched separately. When all the changeover switches 207a to 207c are connected to the connection terminal side or the pseudo load side by a single changeover operation, the changeover operation is simple, and a changeover error can be prevented. Further, the three changeover switches 207a to 207c may be configured to be able to select a mode to be switched at a time and a mode to be switched individually. When the terminal device is installed together with the slave modem, set the voltage based on the load of the terminal device that is actually connected, and connect the pseudo load to the unused connection terminal to set the voltage. Can do. Therefore, the voltage can be set in a state closer to the actual connection.

The control unit 209 controls the overall operation of the modem including the signal processing unit 102 and the like. In particular, the control unit 209 of the slave unit modem 2 has an automatic recovery function for restarting the slave unit modem 2 when the slave unit modem 2 is shut down due to a voltage drop of the power supplied via the coaxial cable 3. ing. Further, the control unit 209, when with the advance priority to the connection terminal 2e _a ~2e _c the terminal equipment is connected, the abnormal operation of handset modem 2 repeats the restart and shutdown occurs, for example, within a predetermined time When the shutdown and restart are performed three times, the PoE processing unit 204 is controlled to stop the power supply to the terminal device connected to the connection terminal having the lowest priority. For example, the priority of the connection terminals is higher in the order of 2e _a → 2e _b → 2e _c, first stop the power supply to the lowest precedence connection terminal 2e connected terminal equipment to _c. As a result, a margin can be provided for the supply voltage, the abnormal operation of the slave modem 2 can be avoided, and the operation of the terminal device having a high priority can be continued.

Further, when the abnormal operation is not resolved even if the power supply to the terminal device connected to the connection terminal with the lowest priority is stopped even when the control unit 209 stops the abnormal operation, the control unit 209 sets the connection terminals in the order of lower priority until the abnormal operation is resolved. The PoE processing unit is controlled so as to sequentially stop the power supply to the connected terminal devices. For example, in a case where even after turning off the power supply to the terminal equipment connected to the connection terminal 2e _c initially not fit abnormal operation, it stops supplying power to the terminal equipment connected to the connection terminal 2e _b. When the control unit 209 performs such control, it is possible to reliably avoid the abnormal operation due to a significant shortage of the power supply voltage.

  In the above configuration, a video signal (digital signal) photographed by the IP surveillance camera (terminal device 9a) can be displayed on the monitor of the personal computer 6, and a video signal for a certain past time can also be recorded. In addition, various measurement values such as temperature and water amount measured by the measuring instruments (terminal devices 9 b and 9 c) can be displayed on the monitor of the personal computer 6. Also, a control signal can be sent from the personal computer 6 to the IP surveillance camera or measuring instrument.

  Furthermore, the power of the handset modem 2 is supplied through the coaxial cable 3, and the power of the terminal devices 9 a to 9 c such as the IP surveillance camera is supplied by PoE of the handset modem 2. That is, a communication system with power supply is configured, and no cord dedicated for power supply is required for the terminal devices 9a to 9c such as the slave unit modem 2 and the IP surveillance camera. Therefore, the handset modem 2 and the terminal device can be installed even in remote areas where power cannot be secured. Further, since the cordless handset modem 2 and the terminal device do not require a power cord, the configuration on the appearance is simple, and handling such as routing of the cord is easy.

The communication system 100 according to the present embodiment, handset modem 2 incorporates a simulated load 208a to 208c, the connection for connecting the handset modem 2 and the terminal equipment terminal _2e a _{~2e c} and dummy load 208a~ Since the change-over switches 207a to 207c for switching to 208c are provided, the change-over switch can be switched to the pseudo load 208a to 208c side to install and adjust the slave modem 2 in a state in which the terminal device is pseudo-connected. And a communication system can be easily constructed.

Furthermore, the communication system 100 according to the present embodiment prioritizes the connection terminals 2e _{a to} 2e _c to which the terminal devices are connected, and when the abnormal operation in which the slave modem 2 repeats shutdown and restart occurs, Since the power supply to the terminal device connected to the connection terminal with the lowest priority is stopped, it is possible to give a margin to the supply voltage, thereby avoiding the abnormal operation of the slave modem 2 and the priority order. Operation of expensive terminal equipment can be continued.

  FIG. 2 is a block diagram showing a configuration of a communication system according to the second exemplary embodiment of the present invention.

  As shown in FIG. 2, this communication system 200 is in that the parent modem 1 and the child modem 2 have a common circuit configuration. Compared with the communication system 100 according to the first embodiment, the configuration of the slave modem 2 is the same, but the configuration of the master modem 1 is different. The master modem 1 includes circuits used only by the slave modem 2 such as the PoE processing units 204a to 204c. However, these do not actually function in the master modem 1. Hereinafter, explanation of the slave modem 2 will be omitted, and the master modem 1 will be explained.

  The base modem 1 includes a filter 101, a signal processing unit 102, an interface unit 103, PoE processing units 104a to 104c, a changeover switch 105, a power supply unit 106, three changeover switches 107a to 107c, three pseudo loads 108a to 108c, and The control unit 109 is provided.

The base modem 1 includes a communication terminal 1c to which the coaxial cable 3 is connected, a power supply terminal 1p for receiving the voltage of DC15V from the outside, and three connection terminals (for example, RJ45) 1e _{a to} 1e _c. Yes. PC 6 is connected to the connection terminal 1e _a parent unit modem 1 via the LAN cable 5. The other connection terminals 1e _b and 1e _c are unused terminals to which nothing is connected.

  A power cord 14 for applying a voltage of, for example, DC 15V is connected to the power supply terminal 1p through a plug 16 inserted into an outlet via an AC / DC adapter 15. When the changeover switch 105 receives a DC 15 V voltage from the power supply terminal 1p, the changeover switch 105 sends the voltage to the power supply unit 106. The changeover switch 105 operates so as to send the voltage output from the filter 101 to the power supply unit 106 when it does not receive the voltage of DC 15V from the power supply terminal 1p. The power supply unit 106 boosts the input DC 15V voltage and provides it as a DC 48V power supply voltage for use in the parent device modem 1.

As described above, since sufficient power is supplied to the base modem 1 from the normal power supply system, the power from the coaxial cable 3 is not supplied to the power supply unit 106, and the PoE processing units 104 a to 104 c It will not work. Further, the changeover switches 107a to 107c are not connected to the pseudo loads 108a to 108c. Furthermore, there is no priority control of power to a plurality of terminal devices by the controller 109. PoE processing unit 104a is connected to the connection terminal 1e _a through the switch 107a, thereby the connection between the PC 6 and the base unit modem 1 is ensured.

  As described above, in the communication system 200 according to the present embodiment, the master modem 1 and the slave modem 2 have a common configuration. Therefore, in addition to the operational effects of the communication system 100 according to the first embodiment, the modem Can be used on both the parent device side and the child device side, and the versatility of the modem can be improved. Furthermore, by sharing the hardware of both modems, handling of the modem can be facilitated, and manufacturing costs and management costs can be reduced.

  The preferred embodiments of the present invention have been described above, but the present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the spirit of the present invention. Needless to say, it is included in the range.

  For example, in the above embodiment, the case where the master modem 1 and the slave modem 2 are connected by the coaxial cable 3 has been described as an example. However, for example, other communication cables such as a twisted pair cable can be used. It is. Further, the number of connection terminals provided in the slave modem 2 and the master modem 1 is not limited to three, and may be any number. Furthermore, the type of terminal device connected to the slave modem 2 or the master modem 1 is not particularly limited, and may be, for example, a wireless LAN access point or an IP phone.

1 Master unit modem 1c Communication terminal 1e _{a to} 1e _c connection terminal 1p Power supply terminal 2 Slave unit modem 2c Communication terminal 2e _{a to} 2e _c connection terminal 2p Power supply terminal 3 Coaxial cable 5, 8 LAN cable 6 Personal computer (terminal equipment)
9a to 9c Terminal equipment 10 Mixer / demultiplexer 11, 14 Power cord 12, 15 Adapter 13, 16 Plug 100, 200 Communication system 101 Filter 102 Signal processing unit 103 Interface unit 104a to 104c PoE processing unit 105 Changeover switch 106 Power supply unit 107a to 107c changeover switch 108a to 108c pseudo load 109 control unit 201 filter 202 signal processing unit 203 interface unit 204a to 204c PoE processing unit 205 changeover switch 206 power supply unit 207a to 207c changeover switch 208a to 208c pseudo load 209 control unit

Claims (4)

With the base modem,
A slave modem capable of digital communication with the master modem;
A communication cable for connecting the parent device modem and the child device modem;
A power supply device that superimposes a predetermined voltage on the communication cable,
The handset modem is
A signal processing unit connected to the communication cable;
An interface unit connected to the signal processing unit;
A power supply unit that converts the predetermined voltage superimposed on the communication cable into a power supply voltage;
First and second connecting terminals the first and second terminal device are connected,
First and second PoE processing unit respectively supply the power supply voltage with the output signal from said interface unit to said first and second connection terminals,
First and second pseudo loads used to create a state in which the first and second terminal devices are pseudo-connected to the first and second connection terminals, respectively ;
A first changeover switch for connecting the first PoE processing unit to the first connection terminal or the first pseudo load ;
A second changeover switch for connecting the second PoE processing unit to the second connection terminal or the second pseudo load ;
Said first PoE processing unit, the first through the switch and the first connection terminal connected to said first terminal device, or, the first through the first changeover switch Connected to the pseudo load ,
The second PoE processing unit is connected to the second terminal device via the second changeover switch and the second connection terminal, or the second PoE processing unit via the second changeover switch. communication system according to claim Rukoto connected to dummy load. With the base modem,
A slave modem capable of digital communication with the master modem;
A communication cable for connecting the parent device modem and the child device modem;
A power supply device that superimposes a predetermined voltage on the communication cable,
The handset modem is
A signal processing unit connected to the communication cable;
An interface unit connected to the signal processing unit;
A power supply unit that converts the predetermined voltage superimposed on the communication cable into a power supply voltage;
A plurality of connection terminals to which a plurality of terminal devices are respectively connected;
A plurality of PoE processing unit for supplying each one of the connection terminals corresponding to the power supply voltage with the output signal from the interface unit,
A plurality of pseudo loads used to create a state in which each of the plurality of terminal devices is pseudo-connected to a corresponding one of the connection terminals ;
Includes a plurality of changeover switches connecting respectively each of the plurality of PoE processing unit to a corresponding one of the dummy load in which one of the connection terminals or the corresponding,
Each of the plurality of PoE processing unit is connected to one of said terminal device corresponding through a corresponding one of the connecting terminals in which one of the selector switch and the corresponding, or, via a corresponding one of said changeover switch Connected to the one corresponding pseudo load.   The communication system according to claim 1 or 2, wherein the master unit modem has the same configuration as the slave unit modem. A modem capable of digital communication with the other party's modem connected via a communication cable,
A signal processing unit connected to the communication cable;
An interface unit connected to the signal processing unit;
A power supply unit that converts a predetermined voltage superimposed on the communication cable into a power supply voltage;
First and second connecting terminals the first and second terminal device are connected,
First and second PoE processing unit respectively supply the power supply voltage with the output signal from said interface unit to said first and second connection terminals,
First and second pseudo loads used to create a state in which the first and second terminal devices are pseudo-connected to the first and second connection terminals, respectively ;
A first changeover switch for connecting the first PoE processing unit to the first connection terminal or the first pseudo load ;
A second changeover switch for connecting the second PoE processing unit to the second connection terminal or the second pseudo load ;
Said first PoE processing unit, the first through the switch and the first connection terminal connected to said first terminal device, or, the first through the first changeover switch Connected to the pseudo load ,
The second PoE processing unit is connected to the second terminal device via the second changeover switch and the second connection terminal, or the second PoE processing unit via the second changeover switch. modem, characterized in Rukoto connected to dummy load.

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