JP2009118053A - Communication apparatus and communication system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To convert power line communication data into operation setting data to make operation setting based on the operation setting data converted from the power line communication data, thereby facilitating the operation setting. <P>SOLUTION: A serial-PLC conversion part 101 converts PLC data received via a power line 107 into serial data for making the operation setting of a main communication part 105. A control part 104 makes the operation setting of the main communication part 105 based on the serial data converted from the PLC data by the serial-PLC conversion part 101. The main communication part 105 transmits and receives information between the main communication part and the other communication apparatuses via a communication network 300 based on the operation setting made by the control part 104. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a communication device and a communication system including a communication unit that transmits and receives information to and from other devices via a communication network.

  There are routers and switches in communication devices that transmit / receive information to / from other communication devices via a communication network. In order for a communication device to send and receive information to and from other communication devices, it is necessary to perform operation settings for the communication device.

  FIG. 8 is an explanatory diagram showing a connection example in the case where operation setting is performed on the communication device 1 based on information transmitted by the control terminal 2 connected in serial. As shown in FIG. 8, the communication device 1 includes a serial connection unit 11 to which a serial connection cable 5 is connected. The control terminal 2 is connected to the serial connection unit 11 via the serial connection cable 5. The communication device 1 includes a power plug 4 connected to a power supply source, and a power line 3 that connects the power plug 4 and the communication device 1 main body.

  In the example illustrated in FIG. 8, the setting data communication unit 12 of the communication device 1 receives serial data transmitted from the control terminal 2 connected to the serial connection unit 11 via the serial connection cable 5. The control unit 13 sets the operation of the main communication unit 14 based on the serial data received by the setting data communication unit 12. The main communication unit 14 transmits / receives information to / from other communication devices via the communication network 6 according to the operation setting performed by the control unit 13.

  FIG. 9 illustrates an example of connection in the case where the operation setting of the communication device 1 is performed using the control terminal 2 installed in a remote place (for example, a room where the communication device 1 is installed and a separate room in the same building). FIG. In the example illustrated in FIG. 9, the communication device 1 is connected to a home power line via a power line 3 and a power plug 4 and is supplied with power. The communication device 1 is connected to the serial-PLC converter 20a via the serial connection unit 11 and the serial connection cable 5.

  The serial-PLC converter 20a is connected to the home power line via the power line 23a and the power plug 24a. The serial-PLC converter 20b is connected to the home power line via the power line 23b and the power plug 24b, and is connected to the control terminal 2 via the serial cable 5b. The serial-PLC converter 20a transmits / receives information to / from the serial-PLC converter 20b via the power line 23a, the power plug 24a, the home power line, the power plug 24b, and the power line 23b. Note that communication with other communication devices performed via a power line is referred to as PLC (Power Line Communications).

  Then, the control unit 13 of the communication device 1 receives, from the control terminal 2, the serial connection cable 5b, the serial-PLC converter 20b, the power line 23b, the power plug 24b, the home power line, the power plug 24a, the power line 23a, and the serial-PLC converter. Based on the information transmitted through the serial connection cable 5 and 20a, the operation setting is performed. The main communication unit 14 transmits / receives information to / from other devices via the communication network 6 based on the operation setting performed by the control unit 13.

  Patent Document 1 discloses a communication device that is connected to a power line and an Ethernet cable (Ethernet is a registered trademark), transmits / receives information to / from other communication devices via the power line, and transmits / receives information to / from the control target device via the Ethernet cable. Is described.

  Patent Document 2 describes a filter device that suppresses communication quality deterioration in a communication device.

JP 2007-116453 A (paragraphs 0031 to 0071, FIG. 3) JP 2007-88695 (paragraphs 0034 to 0049, FIG. 1)

  In the connection example shown in FIG. 8, the communication device 1 is connected to the power supply source via the power line 3 and the power plug 4, and is connected to the control terminal 2 via the serial connection cable 5. That is, in order to set the operation of the communication device 1, two cables (the power line 3 and the serial connection cable 5) must be connected, which is problematic.

  In the connection example shown in FIG. 9, the communication device 1 and the serial-PLC converter 20 a are connected by the serial connection cable 5. That is, even in the connection example shown in FIG. 9, in order to set the operation of the communication device 1, two cables (the power line 3 and the serial connection cable 5) must be connected, which is troublesome.

  Note that the communication device described in Patent Document 1 includes a switch (operation unit) in order to perform a setting operation for each communication line, so that there is a problem that the configuration becomes complicated. Further, as exemplified in paragraph [0038] of Patent Document 1, when the operation unit is configured by a slide switch, a DIP switch, a dial switch, or the like, the setting operation may be complicated. There's a problem.

  The filter device described in Patent Document 2 outputs a PLC carrier signal transmitted from the PLC modem to the outlet side. Therefore, each PLC modem must be set up in consideration of the connection with another PLC modem connected to the outlet of the same in-house power line, which is troublesome.

  In view of the above, an object of the present invention is to provide a communication device in which operation setting is easy and a communication system that can easily perform operation setting in the communication device.

  A communication device according to the present invention is a communication device including a communication unit that transmits and receives information to and from other devices via a communication network, and performs operation setting of the communication unit on power line communication data received via a power line. Data conversion means for converting the data into operation setting data, and control means for setting the operation of the communication means based on the data for operation setting converted from the power line communication data by the data conversion means. .

  A communication system according to the present invention includes a communication device including a communication unit that transmits and receives information to and from other devices via a communication network, and a power supply device that is connected to the communication device via a power line and supplies power to the communication device. A power line for the power supply device to transmit operation setting data for performing operation setting of the communication means transmitted from the connected control terminal to the communication device via the power line Power line data conversion means for converting to communication data and transmitting the power line communication data to the communication device via the power line, and power line communication data converted from the operation setting data by the power line data conversion means Including outflow prevention means for preventing original transmission, and communication equipment operates power line communication data received from the power supply device via the power line. Operation setting data converting means for converting to regular data, and control means for setting the operation of the communication means based on the operation setting data converted from the power line communication data by the operation setting data converting means. It is characterized by.

  According to the present invention, the power line communication data received via the power line is converted into operation setting data, and the operation setting is performed based on the operation setting data converted from the power line communication data. The operation setting of the communication device can be easily performed without connecting a serial connection cable to the communication device.

  Further, according to the present invention, since the communication device and the power supply device are connected one-to-one, the operation setting of the communication device can be easily performed.

Embodiment 1. FIG.
A first embodiment of the present invention will be described. FIG. 1 is a block diagram illustrating a configuration of a communication device 100 according to the first embodiment of this invention. As shown in FIG. 1, a communication device 100 includes a serial-PLC conversion unit (data conversion unit) 101, a serial connection unit 102, a setting data communication unit 103, a control unit (control unit) 104, and a main communication unit (communication unit). 105, a power plug 106 connected to a power supply source, and a power line 107 connecting the power plug 106 and the communication device 100 main body. As shown in FIG. 1, the serial connection unit 102 and the serial-PLC conversion unit 101 are connected via a serial connection circuit 108. The power line 107 is, for example, a power cable.

  The communication device 100 is a communication device such as a router or a switch, for example. Then, setting the operation of the main communication unit 105 may be setting the operation of the communication device 100.

  As shown in FIG. 1, the power plug 106 is connected to the serial-PLC converter 200, and the communication device 100 is supplied with power via the power plug 206 and the power line 207 of the serial-PLC converter 200. The power line 207 is a power cable, for example.

  As shown in FIG. 1, a control terminal 400 is connected to the serial-PLC converter 200 via a serial connection cable 500. The control terminal 400 is equipped with a console program for performing operation settings of the communication device 100. The control terminal 400 transmits serial data based on the operation setting contents of the communication device 100 to the serial-PLC converter 200 via the serial connection cable 500 according to the operation of the administrator.

  The serial-PLC converter 200 converts the serial data transmitted from the control terminal 400 into PLC data, and converts the converted PLC data into the serial-PLC of the communication device 100 via the power plug 106 and the power line 107 of the communication device 100. The data is transmitted to the conversion unit 101. The serial-PLC converter 200 is supplied with power from the power supply source via the power plug 206 and the power line 207, and supplies power to the communication device 100.

  As shown in FIG. 1, the main communication unit 105 is connected to a communication network 300. The main communication unit 105 transmits / receives information to / from other devices via the communication network 300.

  The communication device 100 is supplied with power via the power plug 106 and the power line 107 and starts operating. The serial-PLC converter 101 is connected to the serial-PLC converter 200 via the power line 107 and the power plug 106, and transmits / receives PLC data to / from the serial-PLC converter 200. The serial-PLC converter 101 converts the PLC data received from the serial-PLC converter 200 into serial data, and transmits the converted serial data via the serial connection circuit 108 and the serial connection unit 102. Output to the unit 103. In the example shown in FIG. 1, the power plug 106 is connected to the serial-PLC converter 200, but the power supply plug 106 is connected to the home power line so that the communication device 100 is a device other than the serial-PLC converter 200. Power may be supplied from a power supply source. The serial-PLC converter 101 is connected to the serial-PLC converter 200 via the power line 107, the power plug 106, and the residential power line, and is configured to transmit / receive PLC data to / from the serial-PLC converter 200. May be.

  The control unit 104 performs operation settings for the main communication unit 105 to transmit and receive information to and from other devices via the communication network 300 based on the serial data input to the setting data communication unit 103. Specifically, for example, when the communication device 100 is a router, communication protocol settings, routing information settings, and the like are performed. The main communication unit 105 transmits / receives information to / from other devices via the communication network 300 based on the settings made by the control unit 104.

  Next, operation | movement of the communication apparatus 1 of the 1st Embodiment of this invention is demonstrated. First, the serial-PLC converter 200 receives serial data based on the operation setting of the communication device 100 transmitted by the control terminal 400 via the serial connection cable 500. The serial-PLC converter 200 converts the received serial data into PLC data, and converts the converted PLC data into the serial-PLC conversion unit 101 of the communication device 100 via the power plug 106 and the power line 107 of the communication device 100. Send to.

  The serial-PLC conversion unit 101 of the communication device 100 converts PLC data received via the power plug 106 and the power line 107 into serial data. Then, the serial-PLC conversion unit 101 outputs the converted serial data to the setting data communication unit 103 via the serial connection circuit 108 and the serial connection unit 102. The control unit 104 performs operation settings of the main communication unit 105 based on the serial data input to the setting data 103. The main communication unit 105 transmits / receives information to / from other devices via the communication network 300 based on the operation settings made by the control unit 104.

  The setting data communication unit 103 sends serial data, which is response data to the input serial data (for example, data indicating whether or not operation setting can be performed based on the input serial data), to the serial connection unit 102. The data is output to the serial-PLC conversion unit 101 via the serial connection circuit 108. The serial-PLC conversion unit 101 converts the input serial data into PLC data, and transmits the converted PLC data to the serial-PLC converter 200 via the power line 107 and the power plug 106 of the communication device 100.

  The serial-PLC converter 200 converts PLC data received from the serial-PLC conversion unit 101 of the communication device 100 via the power line 107 and the power plug 106 into serial data, and converts the converted serial data to the serial connection cable 500. To the control terminal 400.

  As described above, according to the present embodiment, since the communication device 100 includes the serial-PLC conversion unit 101, the communication device 100 and the serial-PLC converter 200 are not connected with a serial connection cable. The operation setting of the communication device 100 can be easily performed.

Embodiment 2. FIG.
A second embodiment of the present invention will be described. FIG. 2 is a block diagram illustrating a configuration of the communication device 120 according to the second embodiment of this invention. As shown in FIG. 2, the communication device 120 includes a switching unit (data selection unit) 109 and an external serial connection unit (data reception unit) 110 in addition to the configuration of the communication device 100 of the first embodiment shown in FIG. And an internal serial connection 111. As shown in FIG. 2, the internal serial connection unit 111 and the serial-PLC conversion unit 101 are connected by a serial connection circuit 108. In the example shown in FIG. 2, the power plug 106 is connected to the serial-PLC converter 200, but the power plug 106 is connected to the in-home power line, and the communication device 120 is a device other than the serial-PLC converter 200. Power may be supplied from a power supply source. The serial-PLC converter 101 is connected to the serial-PLC converter 200 via the power line 107, the power plug 106, and the residential power line, and is configured to transmit / receive PLC data to / from the serial-PLC converter 200. May be.

  The switching unit 109 switches whether the connection destination of the serial connection unit 102 is the external serial connection unit 110 or the internal serial connection unit 111 according to an operation performed by the administrator. Note that a control terminal on which a console program is mounted can be connected to the external serial connection unit 110.

  Note that the switching unit 109 may switch the connection destination of the serial connection unit 102 in accordance with an operation performed on a switch provided in the communication device 120, or select one of the connection destinations when the communication device 120 is powered on. The connection destination may be switched in accordance with an operation performed on the control terminal 400 after that, or when the control terminal 400 is connected to the external serial connection unit 110, an external serial connection is made to the connection destination of the serial connection unit 102. The unit 110 may be selected, and the internal serial connection unit 111 may be selected as the connection destination of the serial connection unit 102 when the control terminal 400 is not connected to the external serial connection unit 110.

  When the switching unit 109 sets the connection destination of the serial connection unit 102 as the external serial connection unit 110 according to the operation performed by the administrator, based on the operation performed on the control terminal connected to the external serial connection unit 110, Operation settings can be made in the communication device 120. That is, when the switching unit 109 selects the serial data input from the external serial connection unit 110 as the data input to the setting data communication unit 103 via the serial connection unit 102 according to the operation performed by the administrator, Based on an operation performed on a control terminal connected to the serial connection unit 110, operation settings can be performed on the communication device 120.

  Further, when the switching unit 109 changes the connection destination of the serial connection unit 102 to the internal serial connection unit 111 in accordance with the operation performed by the administrator, the power plug 106 of the communication device 120 is connected as in the first embodiment. Based on an operation performed on the control terminal 400 connected to the serial-PLC converter 200 of the connection destination (which may be connected via a home power line), the operation setting can be performed on the communication device 120. That is, the switching unit 109 converts the serial data obtained by converting the power line communication data transmitted via the power line 107 into data input to the setting data communication unit 103 via the serial connection unit 102 according to the operation performed by the administrator. When selected, the operation setting can be performed on the communication device 120 based on the operation performed on the control terminal 400.

  According to the present embodiment, a control terminal for setting the operation of the communication device 120 can be selected based on an operation performed on the switching unit 109. Further, as in the first embodiment, since the communication device 120 includes the serial-PLC converter 101, the communication device 120 and the serial-PLC converter 200 can be easily connected without connecting them with a serial connection cable. The operation setting of the communication device 120 can be performed.

Embodiment 3. FIG.
A third embodiment of the present invention will be described. In the third embodiment of the present invention, the power plug 106 of the communication device 100 is replaced with a serial-PLC converter including a noise filter 211 (instead of the serial-PLC converter 200 of the first embodiment shown in FIG. (Power supply device, power line data conversion means) 210. FIG. 3 is a block diagram showing a communication system according to the third embodiment of the present invention in which the communication device 100 is connected to the serial-PLC converter 210.

  As illustrated in FIG. 3, the serial-PLC converter 210 removes noise from the power supplied via the power line 217 and the power plug 216, and controls the communication terminal 100 and the serial-PLC converter 210. 400 includes a noise filter (outflow prevention means) 211 that prevents data transmitted to and received from the network 400 from being output from the power line 217 and the power plug 216.

  Accordingly, the serial-PLC conversion unit 101 and the serial-PLC converter 210 built in the communication device 100 are connected one-to-one, and the serial-PLC conversion unit 101 and the serial-PLC converter 210 are connected to the power plug 216. Communication is performed independently of other serial-PLC converters connected to the connection destination.

  Note that general PLC devices are premised on bus connection, and when starting communication, settings such as slave unit registration, bandwidth control and restrictions are taken into account when connecting to other PLC devices. There is a need to do. In the present embodiment, the serial-PLC conversion unit 101 and the serial-PLC converter 210 built in the communication device 100 are connected in a one-to-one relationship. Therefore, the setting is made in consideration of the connection with other PLC devices. There is no need to do it.

  Further, the communication device 100 and the serial-PLC converter 210 are connected via the power line 107 and the power plug 106 of the communication device 100, and the distance for performing communication by the PLC is short. Furthermore, only communication of PLC data based on serial data for operation setting of the communication device 100 is performed between the communication device 100 and the serial-PLC converter 210. Therefore, communication is performed at a lower speed than in the case where communication is performed based on a LAN (Local Area Network) protocol such as Ethernet.

  Generally, when the communication device 100 and the serial-PLC converter 210 communicate at high speed, the operation setting parameters are set according to the connection environment, the installation environment, etc. between the communication device 100 and the serial-PLC converter 210. There is a need to. On the other hand, in the present embodiment, the communication device 100 and the serial-PLC converter 210 communicate at a low speed, so that various parameters are set every time the communication device 100 and the serial-PLC converter 210 are connected. There is no need. Specifically, for example, there is no need to make settings according to the connection environment, installation environment, etc. between the communication device 100 and the serial-PLC converter 210.

  According to the present embodiment, the serial-PLC converter 210 includes the noise filter 211, and the serial-PLC converter 101 and the serial-PLC converter 210 built in the communication device 100 are connected in a one-to-one relationship. Since PLC data is communicated, it is not necessary to set various parameters, and the operation setting of the communication device 100 can be easily performed.

Embodiment 4 FIG.
A fourth embodiment of the present invention will be described. In the fourth embodiment of the present invention, communication devices 100a, 100b, and 100c having the same configuration as the communication device 100 of the first embodiment shown in FIG. 1 are connected to the power supply device 800 that supplies power to each communication device. It is connected. FIG. 4 is an explanatory diagram showing a communication system according to a fourth embodiment of the present invention in which each communication device is connected to the power supply apparatus 800.

  As shown in FIG. 4, in the fourth embodiment of the present invention, the power supply device 800 includes serial-PLC converters 810a, 810b, 810c having the same configuration as the serial-PLC converter 210 shown in FIG. A power plug connection unit 830a, 830b, 830c to which a power plug of each communication device is connected, and a serial selection unit (output destination selection unit) 820 for selecting a serial-PLC conversion unit for the control terminal 400 to transmit and receive serial data. Including. As shown in FIG. 4, the power supply device 800 is supplied with power from a power supply source via a power line 817 and a power plug 816. The control terminal 400 is connected to the serial selection unit 820 via the serial connection cable 500.

  The serial-PLC conversion units 810a, 810b, and 810c and the power plug connection units 830a, 830b, and 830c are provided according to the number of communication devices that supply power. The serial-PLC conversion unit 810a transmits and receives PLC data to and from a communication device (communication device 100a in the example illustrated in FIG. 4) connected via the power plug connection unit 830a, and supplies power. The serial-PLC conversion unit 810b transmits and receives PLC data to and from a communication device (the communication device 100b in the example illustrated in FIG. 4) connected via the power plug connection unit 830b, and supplies power. The serial-PLC conversion unit 810c transmits and receives PLC data to and from a communication device (communication device 100c in the example illustrated in FIG. 4) connected via the power plug connection unit 830c, and supplies power.

  The serial-PLC converter 810a includes a noise filter 811a, the serial-PLC converter 810b includes a noise filter 811b, and the serial-PLC converter 810c includes a noise filter 811c. Each noise filter is, for example, a noise filter having the same configuration as the noise filter 211 in the third embodiment.

  FIG. 4 shows that the power supply device 800 includes three power plug connecting portions, but within the range of the rated capacity (rated current, rated voltage, and rated power) of the power line 817. For example, four or more power plug connecting portions may be included. The power supply apparatus 800 may include a serial-PLC conversion unit corresponding to the power plug connection unit.

  The serial selection unit 820 outputs the serial data transmitted from the control terminal 400 to the serial-PLC conversion unit corresponding to the operation performed on the control terminal 400 by the administrator. The serial-PLC conversion unit to which the serial data is input converts the input serial data into PLC data, and transmits the converted PLC data to the communication device connected to the corresponding power plug connection unit. In addition, the serial-PLC converter that has received PLC data from the communication device via the corresponding power plug connector converts the transmitted PLC data into serial data and outputs the serial data to the serial selector 820. The serial selection unit 820 transmits the input serial data to the control terminal 400 via the serial connection cable 500.

  According to the present embodiment, since the power supply apparatus 800 includes a plurality of serial-PLC conversion units, the administrator controls the serial selection unit 820 without replacing the serial connection cable 500 to control terminal. It is possible to change the communication device of 400 communication partners. Specifically, under the control of the control terminal 400, the power supply device 800 can select a communication device as a communication partner from the connected communication devices, perform serial communication, and perform operation settings of the communication device. . Therefore, the administrator can easily set the operation of the communication device without replacing the serial connection cable 500.

Embodiment 5. FIG.
A fifth embodiment of the present invention will be described. FIG. 5 is a block diagram showing a communication system according to the fifth embodiment of the present invention in which each communication device is connected to the power supply device 860. In the fifth embodiment of the present invention, communication devices 100a, 100b, and 100c having the same configuration as the communication device 100 of the first embodiment shown in FIG. 1 are connected to the power supply device 860 that supplies power to each communication device. It is connected.

  The power supply device 860 in the fifth embodiment shown in FIG. 5 is replaced with a branch-combining unit 840a instead of the serial-PLC conversion units 810a, 810b, and 810c of the power supply device 800 in the fourth embodiment shown in FIG. , 840b, 840c. As illustrated in FIG. 5, the power supply device 860 according to the fifth embodiment includes a serial-PLC conversion unit 850 and a serial selection unit 820.

  The serial-PLC conversion unit 850 is connected to the branch-combination units 840a, 840b, 840c and the serial selection unit 820, converts the serial data output from the serial selection unit 820 into PLC data, and converts the converted PLC data. The data is output to the branch-combining unit according to the selection of the serial selection unit 820. Further, the serial-PLC conversion unit 850 converts the PLC data output from the branch-combination unit according to the selection of the serial selection unit 820 into serial data, and outputs the converted serial data to the serial selection unit 820.

  According to the present embodiment, the power supply device 860 includes the number of branch-combining units corresponding to the connected communication device, and one serial-PLC conversion unit 850 mutually converts PLC data and serial data. , The serial selection unit 820 outputs to the branch-combination unit selected by the serial selection unit 820. Therefore, the serial-PLC conversion unit can be integrated into one unit, and the power supply device 860 can be configured at low cost. it can. Further, as in the fifth embodiment, the administrator can easily set the operation setting of the communication device.

Embodiment 6. FIG.
Since the communication device 100 according to the first embodiment and the communication device 120 according to the second embodiment described above include the serial-PLC converter 101, the communication device and the serial-PLC converter 200 are serially connected. There is an effect that the operation setting of the communication device can be performed without connecting with a connection cable. In the following, other embodiments of communication devices that exhibit similar effects will be described. FIG. 6 is a block diagram illustrating a configuration of the communication device 130 according to the sixth embodiment of this invention.

  As shown in FIG. 6, the communication device 130 includes a communication unit 131, a control unit 132, and a data conversion unit 133.

  The communication unit 131 transmits and receives information to and from other devices via the communication network 300. The data conversion unit 133 converts the power line communication data received via the power line 140 into operation setting data. The control unit 132 sets the operation of the communication unit 131 based on the operation setting data converted from the power line communication data by the data conversion unit 133.

  Therefore, similarly to the communication device 100 of the first embodiment and the communication device 120 of the second embodiment, the operation setting can be performed without connecting the communication device 130 to another device with a serial connection cable or the like. it can.

Embodiment 7. FIG.
In the third embodiment, the fourth embodiment, and the fifth embodiment described above, the power supply source of the communication device includes means for mutually converting serial data and PLC data. There is an effect that the operation setting of the communication device can be performed without connecting the communication device and the control terminal 400 with the serial connection cable. The following shows another configuration example of the communication system that exhibits the same effect. FIG. 7 is a block diagram illustrating a communication system according to a seventh embodiment of this invention.

  As shown in FIG. 7, the communication system according to the seventh embodiment of the present invention includes a communication device 130 and a power supply device 220 connected to the control terminal 400. Since the configuration of the communication device 130 is the same as the configuration of the communication device 130 in the sixth embodiment, the same reference numerals as those in FIG.

  The power supply device 220 includes a power line data conversion unit 221 and an outflow prevention unit 222. The power line data conversion unit 221 converts the operation setting data received from the control terminal 400 into power line communication data, and transmits the converted power line communication data to the operation setting data conversion unit 133 of the communication device 130 via the power line 140. To do.

  The outflow prevention unit 222 prevents power line communication data transmitted / received between the communication device 130 and the power supply apparatus 220 from being output to the power supply source of the power supply apparatus 220.

  Therefore, the communication device 130 and the power supply device 220 perform power line communication on a one-to-one basis independently of the power supply source of the power supply device 220. Therefore, the operation setting of the communication device 130 can be easily performed without considering the connection with other PLC devices or setting the parameters according to the connection environment or the installation environment necessary for high-speed communication. It can be carried out.

  The present invention can be used for a communication device and a communication system that transmit and receive information to and from other devices via a communication network.

It is a block diagram which shows the structure of the communication apparatus of the 1st Embodiment of this invention. It is a block diagram which shows the structure of the communication apparatus of the 2nd Embodiment of this invention. It is a block diagram which shows the communication system of the 3rd Embodiment of this invention with which the communication apparatus was connected to the serial-PLC converter. It is explanatory drawing which shows the communication system of the 4th Embodiment of this invention with which each communication apparatus was connected to the electric power supply apparatus. It is a block diagram which shows the communication system of the 5th Embodiment of this invention with which each communication apparatus was connected to the electric power supply apparatus. It is a block diagram which shows the structure of the communication apparatus of the 6th Embodiment of this invention. It is a block diagram which shows the communication system of the 7th Embodiment of this invention. It is explanatory drawing which shows the example of a connection in the case of performing operation | movement setting to a communication apparatus based on the information which the control terminal connected serially transmitted. It is explanatory drawing which shows the example of a connection in the case of performing operation setting of a communication apparatus using the control terminal installed in the remote place.

Explanation of symbols

100, 120, 130, 100a, 100b, 100c Communication equipment 101, 810a, 810b, 810c Serial-PLC conversion unit 102 Serial connection unit 103 Setting data communication unit 104 Control unit 105 Main communication unit 106, 203, 216, 816, 106a 106b, 106c Power plug 107, 140, 207, 217, 817, 107a, 107b, 107c Power line 108 Serial connection circuit 109 Switching unit 110 External serial connection unit 111 Internal serial connection unit 131 Communication unit 132 Control unit 133 Data conversion unit 200 , 210 Serial-PLC converter 211, 811a, 811b, 811c, 841a, 841b, 841c Noise filter 220, 800, 860 Power supply device 221 Power line data conversion means 22 Outflow preventing device 300 the communication network 400 control terminal 500 serial connection cable 820 serial selector 830a, 830b, 830c power plug connection 840a, 840b, 840c branching - coupling portion 850 serial selector

Claims (7)

A communication means for transmitting / receiving information to / from other devices via a communication network;
Data conversion means for converting power line communication data received via a power line into operation setting data for performing operation setting of the communication means;
A communication device comprising: control means for setting operation of the communication means based on operation setting data converted from power line communication data by the data conversion means. The communication device according to claim 1, wherein the data conversion means converts the power line communication data received via the power line into serial data as operation setting data. Data receiving means for receiving operation setting data;
Data selection means for selecting operation setting data received by the data receiving means, or operation setting data converted from power line communication data by the data conversion means,
The communication device according to claim 1, wherein the control unit performs operation setting of the communication unit based on the operation setting data selected by the data selection unit. Data receiving means for receiving operation setting data;
A data selecting means for selecting the data receiving means or the data converting means as an output source of operation setting data;
The communication device according to claim 1, wherein the control unit performs operation setting of the communication unit based on operation setting data output from the output source selected by the data selection unit. A communication system including a communication device including a communication unit that transmits and receives information to and from other devices via a communication network, and a power supply device that is connected to the communication device via a power line and supplies power to the communication device. Because
The power supply device
Operation setting data for performing operation setting of the communication means transmitted from a connected control terminal is converted into power line communication data for transmission to the communication device via the power line, and the power line communication data Power line data conversion means for transmitting to the communication device via the power line;
Including outflow prevention means for preventing power line communication data converted from operation setting data by the power line data conversion means from being transmitted to the power supply source of the power supply device,
The communication device is:
Operation setting data conversion means for converting power line communication data received from the power supply device via the power line into operation setting data;
And a control unit configured to set operation of the communication unit based on the operation setting data converted from the power line communication data by the operation setting data conversion unit. The power supply device
A plurality of power line data conversion means to which communication devices are respectively connected;
Outflow prevention means corresponding to each power line data conversion means,
The communication system according to claim 5, further comprising: an output destination selection unit that selects a power line data conversion unit that is an output destination of the operation setting data transmitted from the connected control terminal. The power supply device
A plurality of communication device connection means each connected to a communication device;
Outflow prevention means corresponding to each communication device connection means,
Output destination selection means for selecting a communication device as an output destination of operation setting data transmitted from the connected control terminal,
The power line data conversion means outputs the power line communication data converted from the operation setting data to a communication equipment connection means corresponding to the communication equipment selected by the output destination selection means,
The communication system according to claim 5, wherein the communication device connection unit transmits the power line communication data output from the power line data conversion unit to a connection destination communication device.

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