JP4720575B2 - Power line communication device - Google Patents

Description

  The present invention relates to a power line communication device.

  Recently, modem products with physical speeds of 200 Mbps or higher are available in power line communication networks. In power line communication, a power line is used as a signal transmission path. However, if the power line is disconnected in an emergency or the like, naturally communication is impossible. Even when there is no physical problem with the power line, a sufficient transmission band as a signal transmission path may not be ensured due to the influence of excessive loss or the like.

  Conventionally, in a power line communication system, a configuration has been proposed in which communication is ensured even when a power line as a transmission medium is physically disconnected by providing a function of transmitting and receiving a radio signal (Patent Document 1).

Patent Document 2 describes that when good characteristics cannot be obtained via a power line, the characteristics are improved by receiving a leakage electric field.
JP-A-10-276121 JP 2005-64750 A

  It is preferable that communication can be maintained even if the power line is disconnected. The power line communication signal itself may be obtained even with the power line with the power cut off.

  When there are a plurality of power systems in one power line communication network, the remaining power system may operate normally even if power is not supplied from any one power system.

  Even if AC power is not obtained, it is useful in an emergency if data communication can be maintained using the power line communication function. There is also a demand to use power line communication in a place without an outlet.

  An object of this invention is to show the power line communication apparatus which satisfy | fills such a request.

A power line communication apparatus according to the present invention couples a PLC (power line communication) signal in a non-contact manner between a power plug, a backup power supply, a power detector for detecting the presence or absence of AC power from the power plug, and the power line. A PLC signal combiner, a power line communication modem device having a PLC signal input / output terminal, and when there is AC power from the power plug according to a detection result of the power detector, A first selector for coupling a PLC signal between the PLC signal input / output terminal and the PLC signal coupler when the PLC signal is coupled with the power plug and there is no AC power from the power plug. And when there is AC power from the power plug according to the detection result of the power detector, the AC power is used as the power source of the modem device, and the power plug When al of the AC power is not, characterized by comprising a second selector for use the backup power as a power supply of the modem device.

A power line communication apparatus according to the present invention includes a power plug, a backup power supply, a DC / AC converter that converts an output DC voltage of the backup power supply into an AC voltage, and power that detects presence or absence of AC power from the power plug. Between a power line, a detector, a power line communication modem device having a PLC signal input / output terminal, a selector for coupling one of the power plug and the output of the DC / AC converter to the PLC signal input / output terminal, and the power line A PLC signal combiner that couples PLC (power line communication) signals in a non-contact manner, the PLC signal combiner connected between the selector and the output of the DC / AC converter, and detection of the power detector result accordance with a control circuit for controlling the selector, when there is AC power from the power plug, combines the power plug to the PLC signal output terminal , The modem device to transmit PLC signals to and from the PLC signal output terminal and the power plug with operating the AC voltage of the power supply plug as the power source, if AC power from the power plug is not, the The output of the DC / AC converter and the PLC signal combiner are coupled to the PLC signal input / output terminal to operate the modem device using the output of the DC / AC converter as a power source and the PLC signal input / output terminal. And a control circuit for transmitting a PLC signal between the PLC signal coupler and the PLC signal coupler .

  According to the present invention, even when AC power cannot be obtained, data can be transmitted and received using power line communication.

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

  FIG. 1 shows a schematic block diagram of a first embodiment of the present invention. A power plug 20 is connected to the outlet 12 of the power line 10, and the power plug 20 is connected to a power line communication device 24 according to an embodiment of the present invention via a power line 22. On the other hand, the power line communication device 24 is connected to a data terminal 28 such as a personal computer via a communication line 26. A power plug 30 is connected to the outlet 14 of the power line 10, and the power plug 30 is connected to a PLC (power line communication) modem device 34 via a power line 32. On the other hand, the PLC modem device 34 is connected to a data terminal 38 via a communication line 36.

  The configuration of the power line communication device 24 will be described. An AC power supply voltage and a PLC signal are input from the power plug 20 to the power line communication device 24 via the power line 22. The PLC signal is output from, for example, the PLC modem device 34 or a PLC modem device (not shown) connected to the power line 10.

  The PLC signal separation circuit 40 separates the AC power supply voltage and the PLC signal input from the power line 22, and supplies the AC power supply voltage to the AC / DC converter 42 and the PLC signal to the terminal A of the selector 44. The PLC signal separation circuit 40 also outputs a PLC signal input from the terminal A of the selector 44 onto the power line 22.

  The communication device 24 also includes a PLC signal coupler 46 that can couple a PLC signal to and from the power line 10 in a contactless manner. Such a coupler 46 can be realized by, for example, an electromagnetic coupler using a ferrite core or a coil. Terminal B of selector 44 is connected to PLC signal coupler 46.

  The common terminal C of the selector 44 is connected to the PLC signal input / output terminal of the modem circuit 48 that modulates and demodulates the PLC signal. The common terminal C of the selector 44 is connected to either the terminal A or the terminal B under the control of the control circuit 58 described later. The data input / output terminal of the modem circuit 48 is connected to the data terminal 28 via the communication line 26. The modem circuit 48 modulates the data signal from the data terminal 28 to generate a PLC signal, and outputs the PLC signal to the common terminal C of the selector 44. The modem circuit 48 also demodulates the PLC signal from the common terminal C of the selector 44 and outputs the obtained data signal to the data terminal 28.

  The AC / DC converter 42 converts the AC power supply voltage into a DC voltage necessary for the operation of the modem circuit 48. The DC voltage output from the AC / DC converter 42 is applied to the terminal A of the selector 45 and the charging circuit 52. The charging circuit 52 charges the battery 54 according to the output DC voltage of the AC / DC converter 42. The output voltage of the battery 54 is applied to the terminal B of the selector 50.

  The battery 54 serves as an emergency power source or a backup power source when AC power cannot be taken from the power plug 20. That is, in this embodiment, when the AC power can be taken from the power plug 20, the modem circuit 48 is operated with the AC power, and when the AC power cannot be taken from the power plug 20, the modem 54 is connected with the battery 54. Make it work.

  The power detector 56 detects whether AC power is being supplied from the power plug 20 to the communication device 24 by monitoring the output voltage of the AC / DC converter 42. Of course, the power detector 56 may monitor the AC voltage on the power line 22 or the input AC voltage of the AC / DC converter 32. The power detector 56 applies the detection result to the control circuit 58. The control circuit 48 operates with the DC voltage supplied from the common terminal C of the selector 40 and controls the selectors 34 and 40 in accordance with the detection result of the power detector 46. That is, the control circuit 58 connects the common terminal C of the selectors 44 and 50 to each terminal A when AC power is supplied from the power plug 20 to the communication device 24 according to the detection result of the power detector 46. When AC power is not supplied from the power plug 20 to the communication device 24, the common terminals C of the selectors 44 and 50 are connected to the respective terminals B.

  The operation of the communication device 24 will be described using communication between the data terminals 28 and 38 as an example. The PLC modem device 34 modulates the data signal from the data terminal 38 to generate a PLC signal. The PLC signal reaches the communication device 24 via the power line 32, the power plug 30, the outlet 14, the power line 10, the outlet 12, the power plug 20 and the power line 22.

  When AC power is normally supplied to the outlet 12, the communication device 24 operates as follows. At this time, the AC / DC converter 42 outputs a valid DC voltage, and the power detector 56 detects the output DC voltage of the AC / DC converter 42 and notifies the control circuit 58 of the detection result. . The control circuit 58 connects the common terminal C of the selectors 44 and 50 to the terminal A according to the detection result of the detector 56.

  The AC power supply voltage from the power plug 20 is input to the AC / DC converter 42 via the PLC signal separation circuit 40 and converted into a DC voltage. This DC voltage is supplied as a power supply voltage to the modem circuit 48 via the selector 50. The charging circuit 52 charges the battery 54 according to the output DC voltage of the AC / DC converter 42. This prepares for when the supply of AC power is interrupted.

  The PLC signal separation circuit 40 separates the PLC signal from the power line 22. The separated PLC signal is applied to the modem circuit 48 via the selector 44. The modem circuit 48 demodulates the PLC signal from the selector 44 and supplies the obtained data signal to the data terminal 28 via the communication line 26.

  On the other hand, the modem circuit 48 modulates the data signal output from the data terminal 28 to generate a PLC signal. This PLC signal is applied to the PLC signal separation circuit 40 via the selector 44. The PLC signal separation circuit 40 outputs the PLC signal from the selector 44 onto the power line 22. The PLC signal is input to the PLC modem device 34 via the power lines 22 and 10, the power plug 30 and the power line 32. The PLC modem device 34 demodulates the PLC signal from the power line 32 and supplies the obtained data signal to the data terminal 38.

  Next, it is assumed that the AC power supply voltage is not supplied only to the outlet 12 due to the disconnection of the power line 10 or other reasons. Of course, AC power is supplied to the outlet 14, and the PLC modem device 34 and the data terminal 38 are operating normally. The data terminal 28 is also operating normally with another power source.

  In this state, the AC / DC converter 42 does not output a valid DC voltage, and the power detector 56 does not detect power from the output of the AC / DC converter 42. The control circuit 58 connects the common terminal C of the selectors 44 and 50 to the terminal B according to the detection result of the detector 56. As a result, the modem circuit 48 operates using the battery 54 as a power source, and the PLC signal coupler 46 is used for transmission of the PLC signal. The user places the PLC signal coupler 46 close to the power line 10 on which the PLC signal is propagated.

  The PLC signal on the power line 10 is input to the modem circuit 48 via the PLC signal coupler 46 and the selector 44. The modem circuit 48 demodulates the PLC signal from the selector 44 and supplies the obtained data signal to the data terminal 28 via the communication line 26. On the other hand, the modem circuit 48 modulates the data signal output from the data terminal 28 to generate a PLC signal. This PLC signal is coupled to the power line 10 via the selector 44 and the PLC signal coupler 46. The PLC signal coupled to the power line 10 is input to the PLC modem device 34 via the power line 10, the power plug 30 and the power line 32. The PLC modem device 34 demodulates the PLC signal from the power line 32 and supplies the obtained data signal to the data terminal 38.

  As described above, by using the communication device 24, the data terminals 28 and 38 can transmit data to each other by the PLC even in an environment in which the AC power supply from the outlet 12 is interrupted or an AC power source cannot be obtained.

  The communication device 24 of the present embodiment is particularly useful in places where the power from the outlet cannot be taken outdoors or in places where electrical contacts are not desired.

  FIG. 2 shows a schematic block diagram of the second embodiment of the present invention. A power plug 120 is connected to an outlet 112 of the power line 110, and the power plug 120 is connected to a power line communication device 124 according to the second embodiment of the present invention via a power line 122. On the other hand, the power line communication device 124 is connected to a data terminal 128 such as a personal computer via the communication line 126. A power plug 130 is connected to the outlet 114 of the power line 110, and the power plug 130 is connected to the PLC modem device 134 via the power line 132. On the other hand, the PLC modem device 134 is connected to the data terminal 138 via the communication line 136.

  The configuration of the power line communication device 124 will be described. The AC power supply voltage and the PLC signal are input from the power plug 120 to the power line communication device 124 via the power line 122. The PLC signal is output from, for example, a PLC modem device 134 or a PLC modem device (not shown) connected to the power line 110.

  The power line 122 is connected to the terminal A of the selector 140. The AC / DC converter 142 converts the AC voltage on the power line 122 into a DC voltage, and the charging circuit 144 charges the battery 146 according to the output DC voltage of the AC / DC converter 142. The battery 146 serves as an emergency power source or a backup power source when AC power cannot be taken from the power plug 120.

  The DC / AC converter 148 converts the output DC voltage of the battery 146 into an AC voltage and supplies it to the terminal B of the selector 140. The common terminal C of the selector 140 is connected to the PLC input / output terminal of the PLC modem device 156. The data input / output terminal of the PLC modem device 156 is connected to the data terminal 128 via the communication line 126.

  The power detector 150 detects whether AC power is supplied from the power plug 120 to the communication device 124 by monitoring the AC voltage on the power line 122. The power detector 150 applies the detection result to the control circuit 152. The control circuit 152 operates based on the output voltage of the battery 146 and controls the selector 140 according to the detection result of the power detector 150.

  That is, according to the detection result of the power detector 150, the control circuit 152 connects the common terminal C of the selector 140 to the terminal A when AC power is supplied from the power plug 120 to the communication device 124. When AC power is not supplied from 120 to the communication device 124, the common terminal C of the selector 140 is connected to the terminal B.

  The communication device 124 also includes a PLC signal combiner 154 that can couple a PLC signal to and from the power line 110 in a contactless manner. Such a coupler 154 can be realized by, for example, an electromagnetic coupler using a ferrite core or a coil. PLC signal combiner 154 is connected between the output of DC / AC converter 148 and terminal B of selector 140.

  The operation of the communication device 124 will be described using communication between the data terminals 128 and 138 as an example. The PLC modem device 134 modulates the data signal from the data terminal 138 to generate a PLC signal. This PLC signal reaches the communication device 124 via the power line 132, the power plug 130, the outlet 114, the power line 110, the outlet 112, the power plug 120 and the power line 122.

If the outlet 112 AC power is normally supplied, the communication device 1 24 operates as follows. At this time, the power detector 150 detects an AC voltage on the power line 122 and notifies the control circuit 152 of the detection result. The control circuit 152 connects the common terminal C of the selector 140 to the terminal A according to the detection result of the detector 150. The AC / DC converter 142 converts the AC voltage on the power line 122 into a DC voltage, and the charging circuit 144 charges the battery 146 according to the output DC voltage of the AC / DC converter 142. This prepares for when the supply of AC power is interrupted.

  Since the selector 140 is connected to the terminal A, the AC voltage on the power line 122 and the PLC signal are input to the PLC modem device 156. The PLC modem device 156 operates using the AC voltage as a power source, demodulates the PLC signal, and supplies the obtained data signal to the data terminal 128 via the communication line 126. The PLC modem device 156 also modulates the data signal output from the data terminal 128 to generate a PLC signal. This PLC signal is output on the power line 122 via the selector 140 and is input to the PLC modem device 134 via the power plug 120, the power line 110, the power plug 130 and the power line 132. The PLC modem device 134 demodulates the PLC signal from the power line 132 and supplies the obtained data signal to the data terminal 138.

  Next, it is assumed that the AC power supply voltage is not supplied only to the outlet 112 due to disconnection of the power line 10 or other reasons. Of course, AC power is supplied to the outlet 114, and the PLC modem device 134 and the data terminal 138 are operating normally. The data terminal 128 is also operating normally with another power source.

  In this state, charging of the battery 146 by the charging circuit 144 is not performed. The power detector 150 does not detect an AC voltage on the power line 122. The control circuit 152 connects the common terminal C of the selector 140 to the terminal B according to the detection result of the detector 150. As a result, the output AC voltage of the DC / AC converter 148 is supplied to the PLC modem device 156, and the PLC modem device 156 operates using the battery 146 as a power source. Since the PLC signal combiner 154 is used to transmit the PLC signal, the user places the PLC signal combiner 154 close to the power line 110 on which the PLC signal is propagated.

  The PLC signal on the power line 110 is input to the PLC modem device 156 via the PLC signal combiner 154 and the selector 140. The PLC modem device 156 demodulates the PLC signal input from the PLC signal combiner 154 via the selector 140 and supplies the obtained data signal to the data terminal 128 via the communication line 126. On the other hand, the PLC modem device 156 modulates the data signal output from the data terminal 128 to generate a PLC signal. This PLC signal is coupled to power line 110 via selector 140 and PLC signal combiner 154. The PLC signal coupled from the PLC signal combiner 154 to the power line 110 is input to the PLC modem device 134 via the power line 110, the power plug 130 and the power line 132. The PLC modem device 134 demodulates the PLC signal from the power line 132 and supplies the obtained data signal to the data terminal 138.

  As described above, by using the communication device 124, the data terminals 128 and 138 can transmit data to each other by the PLC even in an environment where AC power supply from the outlet 112 is interrupted or an AC power supply cannot be obtained.

  The communication device 124 of the present embodiment is also particularly useful in places where the power from the outlet cannot be taken outdoors or in places where electrical contacts are not desired.

  Although the invention has been described with reference to specific illustrative embodiments, various modifications and alterations may be made to the above-described embodiments without departing from the scope of the invention as defined in the claims. This is obvious to an engineer in the field to which the present invention belongs, and such changes and modifications are also included in the technical scope of the present invention.

It is a schematic block diagram of the first embodiment of the present invention. FIG. 5 is a schematic configuration block diagram of a second embodiment of the present invention.

Explanation of symbols

10: Power lines 12, 14: Outlet 20: Power plug 22: Power line 24: Power line communication device 26: Communication line 28: Data terminal 30: Power plug 32: Power line 34: PLC modem device 36: Communication line 38: Data terminal 40: PLC signal separation circuit 42: AC / DC converter 44: selector 46: PLC signal coupler 48: modem circuit 50: selector 52: charging circuit 54: battery 56: power detector 58: control circuit 110: power lines 112, 114: Outlet 120: Power plug 122: Power line 124: Power line communication device 126: Communication line 128: Data terminal 130: Power plug 132: Power line 134: PLC modem device 136: Communication line 138: Data terminal 140: Selector 142: AC / DC conversion 144: Charging circuit 146: Battery 148: DC / AC conversion 150: power detector 152: Control circuit 154: PLC signal combiner 156: PLC modem device

Claims (3)

A power plug (20);
A backup power source (54);
A power detector (56) for detecting the presence or absence of AC power from the power plug;
A PLC signal combiner (46) for coupling a PLC (power line communication) signal in a contactless manner with the power line;
A power line communication modem device (48) having a PLC signal input / output terminal;
According to the detection result of the power detector, when there is AC power from the power plug , the PLC signal is coupled between the PLC signal input / output terminal and the power plug, and there is no AC power from the power plug. A first selector (44) for coupling a PLC signal between the PLC signal input / output terminal and the PLC signal coupler (46),
According to the detection result of the power detector, when there is AC power from the power plug, the AC power is used as the power source of the modem device, and when there is no AC power from the power plug, the backup power source ( 54) is used as a power source of the modem device (50)
A power line communication apparatus comprising: A power plug (120);
A backup power source (146);
A DC / AC converter (148) for converting the output DC voltage of the backup power source into an AC voltage;
A power detector (150) for detecting the presence or absence of AC power from the power plug;
A power line communication modem device (156) having a PLC signal input / output terminal;
A selector (140) for coupling one of the power plug and the output of the DC / AC converter to the PLC signal input / output terminal;
A PLC signal coupler (154) that couples a PLC (power line communication) signal in a contactless manner with a power line, and that is connected between the selector and the output of the DC / AC converter (PLC signal coupler (154). 154),
A control circuit for controlling the selector according to the detection result of the power detector, and when there is AC power from the power plug , the power plug is coupled to the PLC signal input / output terminal to The DC / AC converter is operated when the AC voltage of the power plug is operated as a power source and the PLC signal is transmitted between the PLC signal input / output terminal and the power plug, and there is no AC power from the power plug. And the PLC signal combiner (154) are coupled to the PLC signal input / output terminal to operate the modem device using the output of the DC / AC converter as a power source, and to the PLC signal input / output terminal and the PLC signal input / output terminal. Control circuit (152) for transmitting PLC signal to and from PLC signal coupler
A power line communication apparatus comprising:   The power line communication device according to claim 1 or 2, further comprising a charging circuit (52, 144) for charging the backup power source with the AC power from the power plug.

Images