KR20110117956A - High speed telecommunication system between floors using power line - Google Patents

Abstract

The interlayer high speed communication system of the present invention collects and transmits a plurality of power lines, at least one coupler connected to each of the power lines, and communication signals received through the plurality of power lines to one external link, or from the external link. And a link processing device for distributing the received communication signal to each of the plurality of power lines, and a communication device for receiving the communication signal transmitted from the link processing device.

Description

High speed communication system using power line {HIGH SPEED TELECOMMUNICATION SYSTEM BETWEEN FLOORS USING POWER LINE}

The present invention relates to a power line communication system using a power line constructed in a building for supplying power as a line for data communication. Specifically, when a three-phase four-wire power line is used to supply power to each floor of a building. A three-layer high-speed communication system using a power line that can maintain high quality communication characteristics by reducing all noise and line attenuation by guaranteeing high speed by collecting and transmitting three communication signals into one using each power line of three phases. will be.

In general, power line communication (hereinafter referred to as PLC) is installed in a building and communicates with a high-frequency signal of hundreds of KHz to several tens of MHz through a power line that supplies power. Such a power line communication is a local area network that is distributed in a limited area such as a building or a school or factory, and connects various computers and other devices through communication lines so that one device can interact with any other device. Can also be used to build a network (LAN).

In addition, power line communication enables home networking, information appliances, and grid management through existing power lines without the need for a separate communication line. In addition, by minimizing unnecessary cabling work by using the existing power line as it is, it helps the interior aesthetics, and also reduces the construction cost. In addition, the device can be installed without complicated wiring by using the power cable and the communication cable of the device as one.

In power line communication (PLC), a frequency for power line communication at a fundamental frequency of 60 Hz of a power line, for example, a coupling (Coupling) technology for synthesizing or decomposing a communication signal of 100 KHz to 400 KHz, or loads a communication frequency on a power line or reapplies it. Separate.

On the other hand, since power line communication is a shared structure that is physically connected to the copper wire, the RF signal is transmitted to all power line sections to which the RF signal is connected. Accordingly, noises transmitted from the home appliances are applied to the entire power line section, and a signal transmitted for data is also transmitted to all the sections. As a result, since signal interference due to external noise is severe and attenuation according to the transmission distance is large, the communication speed that can actually be transmitted by using power line communication (PLC) is weak to provide an Internet service. To improve this, power line communication needs to increase transmission speed and secure stability.

The present invention has been made to solve the above problems, in the case of using a three-phase four-wire power line to supply power to each floor of the building by using three power lines of each of the three phases to collect three communication signals into one It is an object of the present invention to provide a high-speed interlayer communication system that can maintain a high quality communication signal by ensuring high speed by transmitting and reducing ambient noise or line attenuation.

To this end, according to the first aspect of the present invention, an interlayer high speed communication system using a power line collects a plurality of power lines, at least one coupler connected to each of the power lines, and communication signals received through the plurality of power lines. A link processing device for transmitting to one external link or distributing a communication signal received from the external link to each of the plurality of power lines, and a communication device for receiving a communication signal transmitted from the link processing device. It features.

According to the second aspect of the present invention, in the case where a power line is used for inter-layer and intra-layer connection of a building, an inter-layer high-speed communication system using a power line includes a plurality of power lines and at least one coupler connected to each of the power lines. And a link processing apparatus which collects communication signals received through the plurality of power lines and transmits them to one external link, or distributes and transmits the communication signals received from the external links to each of the plurality of power lines. A concentrator coupler connected to transmit a communication signal transmitted from the link processing apparatus to a communication apparatus or to transmit a communication signal transmitted from the communication apparatus to the link processing apparatus, and a communication apparatus connected to the concentrator coupler. It features.

According to a third aspect of the present invention, an inter-floor high speed communication system in which a power line supply unit is separately provided for each floor of a building includes a plurality of power lines connected to the power line supply units of each floor, at least one coupler connected to each of the power lines, A link processing apparatus which collects communication signals of different phases received through the plurality of power lines and transmits them to one external link, or distributes and transmits communication signals received from the external links to each of the plurality of power lines; And a communication device for receiving a communication signal transmitted from the processing device, and an interlayer connecting coupler for connecting the power lines of the respective floors of the building to each other.

According to a fourth aspect of the present invention, in a link processing apparatus for connecting a plurality of power lines and a communication apparatus, the link processing apparatus includes a power line modem unit including a plurality of power line modems, and communication signals transmitted from the power line modem unit. A frame consolidation and distribution unit for distributing and transmitting a communication signal received from a communication device to each of the plurality of power line modems, and transmitting a communication signal transmitted from the frame integration and distribution unit to an external link, And a bridge for transmitting a communication signal transmitted from a communication device to the frame aggregation and distribution unit, and an external link connection unit connected to the external link.

In the case of using a power line built in a building for power supply as a line for data communication, the conventional power line communication has been difficult to maintain good quality communication characteristics because it is vulnerable to ambient noise and severely attenuated. In the case of using a wire type power line, by using all three phase power lines together, the three phase communication signals are collected and transmitted as one to ensure high speed, thereby reducing surrounding noise or line attenuation, thereby maintaining good quality communication characteristics. have.

In addition, when an inter-layer communication line is not constructed or a line cannot be secured, even if a pre-built power line is used between floors of a building and between floors, a blocking filter and an earth leakage blocking unit can independently transmit communication signals between power lines. It has the effect of eliminating interference.

1 is a diagram showing a power line communication system according to a first embodiment of the present invention showing a network using a power line as a transmission line.
2 is a block diagram illustrating a link processing apparatus according to the present invention.
3 is a block diagram for explaining the principle of the link processing apparatus according to the present invention.
4A is a view for explaining the principle of aggregation of the link processing apparatus according to the present invention, and FIG. 4B is a view for explaining the principle of distribution of the link processing apparatus.
5A and 5B are block diagrams illustrating different embodiments of a link processing apparatus according to the present invention.
6 is a diagram showing a power line communication system according to a second embodiment of the present invention showing a network using a power line as a transmission line.
7 is a diagram showing a power line communication system according to a third embodiment of the present invention showing a network using a power line as a transmission line.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. The configuration of the present invention and the operation and effect thereof will be clearly understood through the following detailed description. Before describing the present invention in detail, the same components are denoted by the same reference symbols as possible even if they are displayed on different drawings. In the case where it is judged that the gist of the present invention may be blurred to a known configuration, do.

1 shows a power line communication system according to a first embodiment of the present invention showing a network using a power line as a transmission line. In Fig. 1, the layered wiring is separately constructed and shows a power line communication system using power lines only for interlayer connection. In addition, the embodiment of the present invention will be described for the inter-floor power line or floor power line communication used in a house such as a house and a collective house, or a large building such as a factory or a building.

Power line communication (hereinafter referred to as PLC) refers to a communication method of transmitting and receiving a data signal (or communication signal) through a power line wired for power supply to a home or an office. That is, power line communication is implemented by modulating and transmitting a data signal to a high frequency signal to an AC line, and receiving the signal separately using a high frequency filter having a 50 Hz or 60 Hz cutoff frequency.

Power Line Communication (PLC) can be used to build a network using existing wiring, so there is no cost for additional wiring. In addition, since the scalability to add additional devices to the network by plugging in even after the network is established, it is applied to various wired and wireless network solutions.

Referring to FIG. 1, a communication system according to a first embodiment of the present invention includes a plurality of power lines, at least one coupler 152, 154, and 156 connected to each power line, and a link processing device connected to the power line through a coupler 152, 154, and 156. And a communication device 200 that receives the communication signal generated from the link processing device 100 or transmits the communication signal from the link processing device 100.

The power lines include first to third power lines as AC power lines, include fourth power lines as ground lines, and the power lines shown in FIG. 1 have a three-phase four-wire structure. R, S, and T three phases are independently transmitted to the first to fourth power lines, and a communication signal applied to each phase operates independently. As described above, although a plurality of power lines are described using a three-phase four-wire structure as an example, embodiments of the present invention are not limited thereto.

The at least one coupler 152, 154, 156 is connected to each of the first to third power lines, and extracts only a communication signal from a power signal and a communication signal on each power line, and transmits the communication signal to the link processing apparatus 100. To this end, the first coupler 152 is connected to the first power line and extracts only a communication signal of the power signal and the communication signal transmitted to the first power line and transmits it to the first power line modem 122 of the link processing apparatus 100. The second coupler 154 is connected to the second power line and extracts only a communication signal from a power signal and a communication signal transmitted to the second power line and transmits the communication signal to the second power line modem 124 of the link processing apparatus 100. The third coupler 156 is connected to the third power line and extracts only a communication signal from a power signal and a communication signal transmitted to the third power line and transmits the communication signal to the third power line modem 156 of the link processing apparatus 100. In addition, couplers 152, 154, 156 connect the interlayer phases.

Meanwhile, in the embodiment of the present invention, the couplers 152, 154, and 156 use the contactless coupler as an example, but the method of physically applying the communication signal is divided into a contact method and a contactless method. Here, the contact type is a method of connecting a data communication device directly to a power line and adding a communication signal to a power signal by using capacitive coupling technology. Contactless is a method of adding a communication signal to a power signal through an inductive current using inductive coupling without direct contact between the power line and the communication equipment. Therefore, the present invention can be used as either a contact coupler or a contactless coupler, but is not limited thereto.

The link processing apparatus 100 may transmit the communication signals to the communication device 200 by utilizing each power line of the first to third power lines to provide a speed three times higher than that of the conventional scheme. In other words, the link processing apparatus 100 transmits a different communication signal for each phase of the first to third power lines, and the communication speed is close to three times that of using the one line by aggregating them on the receiving side. Can be guaranteed. In FIG. 1, although the link processing apparatus 100 and the communication apparatus 200 are illustrated as directly connected, a plurality of communication apparatuses 200 may be connected to the link processing apparatus 100 through a switch apparatus. Connection of a plurality of communication devices 200 through a network device such as a switch device may be similarly applied to FIGS. 6 and 7 described later.

To this end, as shown in FIG. 2, the link processing apparatus 100 includes a power line modem unit 120, a frame integration and distribution unit 110, a bridge 130, and a communication device 200 connected to a plurality of power lines. And an external link connection 134 connected.

The power line modem unit 120 includes first to third power line modems 122, 124, and 126 connected to the first to third power lines, respectively. In other words, the power line modem unit 120 may include a first power line modem 122 connected with the first coupler 152 through a power line, and a second power line modem 124 connected with the second coupler 154 through a power line. ), And a third power line modem 126 connected to the third coupler 156 through a power line.

The power line modem unit 120 is an interface unit connected to the power line. The power line modem unit 120 converts the power line signal received through the power line into an Ethernet signal, and conversely, converts the Ethernet signal into a power line signal. In the embodiment of the present invention, the power line modem unit 120 includes the first to third power line modems 122, 124, and 126 according to the power line of the three-phase four-wire structure, but the power line modem unit 120 is based on the number of power lines installed in the building. Accordingly, the number of power line modem units 120 connected to the power line may vary.

The frame consolidation and distribution unit 110 collects the converted Ethernet signals received from the first to third power line modems 122, 124, and 126 into one and transmits them to the bridge 130, and vice versa, as shown in FIG. 3. We split one Ethernet signal from) into three Ethernet signals.

Specifically, the frame aggregation principle collects packets received through the power line modem unit 120 and transfers them to one external link. As shown in FIG. 4A, reception received through the power line modem unit 120 is illustrated. Collect the signals in order.

In other words, the first Ethernet signal transmitted through the first power line modem 122 first through the power line modem unit 120, the second Ethernet signal transmitted second through the second power line modem 124, and third Third Ethernet signal transmitted third through the power line modem unit 124, and then fourth Ethernet signal transmitted fourth through the first power line modem 122, fifth transmission through the second power line modem 124 When the first to fifth Ethernet signals are sequentially transmitted to the frame consolidation and distribution unit 110, as in the fifth Ethernet signal, the first to fifth Ethernet signals are transmitted in the order delivered to the frame consolidation and distribution unit 110. One is collected and delivered to the bridge 130.

In addition, the principle of frame distribution is to distribute the signal received from the external link to the first to third power lines by using an appropriate distribution algorithm, and the first first input as shown in FIG. 4B. The Ethernet signal to the first power line modem 122, the second second Ethernet signal to the second power line modem 124, the third incoming third Ethernet signal to the third power line modem 126, the fourth incoming The fourth Ethernet signal is distributed to the first power line modem 122 and the fifth incoming fifth Ethernet signal is distributed to the second power line modem 124. As described above, the integration and distribution of the frame may be performed in the same manner as in FIGS. 4A and 4B, but is not limited thereto and may be performed by applying various algorithms.

The bridge 130 is a portion connecting the frame integration and distribution unit 110 and the power line link connection unit 132. The bridge 130 is a signal input to either one of the frame integration and distribution unit 110 and the power line link connection unit 132. Send to one interface. In other words, the bridge 130 transmits a signal from the frame consolidation and distribution unit 110 to the power line link connection unit 132, and when a signal is input from the power line link connection unit 132, the frame integration and distribution unit 110. Signal).

The outer link connecting portion 134 is an interface portion connected to the outer link as shown in FIG. 2. The external link connector 134 may be directly connected to a communication device 200 such as a personal computer (PC) or may be connected to the communication device 200 through a power line (PLC). The external link connection 134 may be an Ethernet link connection 136 as shown in FIG. 5A when directly connected to the communication device 200, and may be a power line link connection when connected to the communication device 200 through a power line. 132. As such, the external link connector 134 may vary according to an external link connected to the link processing apparatus 100.

6 shows a communication system according to a second embodiment of the present invention showing a network using a power line as a transmission line. 6 shows a power line communication system using power lines simultaneously for interlayer wiring and interlayer connection.

Referring to FIG. 6, a communication system according to a second embodiment of the present invention includes a plurality of power lines, at least one coupler 152, 154, and 156 connected to each power line, and a link processing device connected to the power line through a coupler 152, 154, and 156. 100, a concentrator coupler 160 for receiving a communication signal generated from the link processing apparatus 100, a communication device 200 connected to the concentrator coupler 160, and a blocking filter unit connected to two lines of the plurality of power lines. 182 and a ground fault blocking unit 184.

The power lines include first to third power lines as AC power lines, include fourth power lines as ground lines, and the power lines shown in FIG. 6 have a three-phase four-wire structure.

The at least one coupler 152, 154, 156 is connected to each of the first to third power lines, and extracts only a communication signal from a power signal and a communication signal on each power line, and transmits the communication signal to the link processing apparatus 100. To this end, the first coupler 152 is connected to the first power line and extracts only a communication signal of the power signal and the communication signal transmitted to the first power line and transmits it to the first power line modem 122 of the link processing apparatus 100. The second coupler 154 is connected to the second power line and extracts only a communication signal from a power signal and a communication signal transmitted to the second power line and transmits the communication signal to the second power line modem 124 of the link processing apparatus 100. The third coupler 156 is connected to the third power line and extracts only a communication signal from a power signal and a communication signal transmitted to the third power line and transmits the communication signal to the third power line modem 156 of the link processing apparatus 100. In addition, couplers 152, 154, 156 connect the interlayer phases.

As shown in FIG. 3, the link processing apparatus 100 collects communication signals of different phases received through each of the first to third power lines, transfers them to one power line, or distributes and transmits the signals received from the power lines. .

Specifically, when the link processing apparatus 100 collects communication signals of respective phases transmitted through the first to third power lines and transfers them to the aggregation coupler 160, the aggregation coupler 160 communicates with the aggregation coupler 160. The communication signal is transmitted to the device 200. In addition, the communication signal transmitted from the communication device 200 is transmitted to the link processing device 100 through the aggregation coupler 160, one communication signal is distributed and transmitted to each of the first to third power lines.

Accordingly, the first to third power lines transmit a different communication signal for each phase to the link processing apparatus 100 and use a line in which the receiving side of the link processing apparatus 100 aggregates it. It can guarantee nearly 3 times the communication speed.

To this end, the link processing apparatus 100 includes a power line modem unit 120 connected to a plurality of power lines, a frame integration and distribution unit 110, a bridge 130, and a power line link connection unit connected to an external aggregation coupler 160. 132 may include. Here, the description of each block of the link processing apparatus 100 is the same as described above, and will be omitted.

The aggregation coupler 160 is connected at one side to the communication device 200 and at the other side to the link processing device 100. Accordingly, the aggregation coupler 160 transmits a communication signal transmitted from the communication device 200 to the link processing device 100, and transmits a communication signal transmitted from the link processing device 100 to the communication device 200. .

The blocking filter unit 182 is connected between the aggregation coupler 160 and the ground fault breaker 184, and passes only a power signal among the signals received through the power line, and blocks the communication signal.

The earth leakage breaker 184 is connected to two power lines of the plurality of power lines, and prevents a short circuit.

7 shows a communication system according to a third embodiment of the present invention showing a network using a power line as a transmission line.

Referring to FIG. 7, in the communication system according to the third embodiment of the present invention, power line supply units 170 and 172 are separately installed on each floor of an N-story building, and a plurality of communication lines connected to power line supply units 170 and 172 of each floor are provided on each floor. Communication for receiving a communication signal generated from the power line, at least one coupler 152, 154, 156 connected to each power line, the link processing device 100 connected to the power line via the coupler 152, 154, 156, and the link processing device 100. Device 200 and an interlayer coupling coupler portion 174 that connects to power lines of different layers.

The power lines include first to third power lines as AC power lines, include fourth power lines as ground lines, and the power lines shown in FIG. 1 have a three-phase four-wire structure.

The at least one coupler 152, 154, 156 is connected to each of the first to third power lines, and extracts only a communication signal from a power signal and a communication signal on each power line, and transmits the communication signal to the link processing apparatus 100. To this end, the first coupler 152 is connected to the first power line and extracts only a communication signal of the power signal and the communication signal transmitted to the first power line and transmits it to the first power line modem 122 of the link processing apparatus 100. The second coupler 154 is connected to the second power line and extracts only a communication signal from a power signal and a communication signal transmitted to the second power line and transmits the communication signal to the second power line modem 124 of the link processing apparatus 100. The third coupler 156 is connected to the third power line and extracts only a communication signal from a power signal and a communication signal transmitted to the third power line and transmits the communication signal to the third power line modem 156 of the link processing apparatus 100.

The interlayer connection coupler unit 174 includes connection couplers 162, 164, 166, 262, 264, and 266 connected to power lines of different layers. In detail, the interlayer coupling coupler unit 174 may include the N-layer interlayer couplers 162, 164, 166 and N− so as to be connected to the power line of the N (where N layer is a natural number greater than 2) and the power line of the N−1 layer. One-layer interlayer couplers 262, 264, and 266 may be included. Here, it is indicated by the N layer and the N-1 layer to indicate that there is one layer interval, but is not limited to this, the interlayer may be two or more layers.

As shown in FIG. 3, the link processing apparatus 100 collects communication signals of different phases received through each of the first to third power lines, transfers them to one external link, or distributes signals received from the external link. Deliver it.

In detail, the link processing apparatus 100 collects communication signals of respective phases transmitted through the first to third power lines, and transmits them to the communication apparatus 200, and the communication signal transmitted from the communication apparatus 100 is a link processing apparatus. A communication signal is distributed to 100 and distributed on each of the first to third power lines.

Accordingly, the first to third power lines transmit a different communication signal for each phase to the link processing apparatus 100 and use a line in which the receiving side of the link processing apparatus 100 aggregates it. It can guarantee nearly 3 times the communication speed.

To this end, as shown in FIG. 2, the link processing apparatus 100 includes a power line modem unit 120 connected to a plurality of power lines, a frame integration and distribution unit 110, a bridge 130, and a communication device 200. It may include a connected external link connection 134. Here, the description of each block of the link processing apparatus 100 is the same as described above, and will be omitted.

At this time, to describe the communication signal transmission flow of the N-storey building according to the third embodiment of the present invention, one communication signal is transmitted to the link processing device 100 through the communication device 200 of the N floor. S1) The first communication line transmitted to the link processing apparatus 100 of the N layer is divided into three communication signals through the link processing apparatus 100 of the N layer, and is connected to the power line supply unit 170 of the N layer. The communication signal is transmitted through the interlayer connection coupler unit 174 connected to the power line of the N layer and the power line of the N-1 layer (S4). The communication signal transmitted through 174 is transmitted to the three-phase power line of the N-1 layer and then transmitted to the link processing apparatus 100 of the N-1 layer through the power line of the N-1 layer (S5). , The communication signal of the N layer is transmitted to the communication device 200 of the N-1 layer.

The third embodiment of the present invention may include a concentrator coupler 160, a blocking filter unit 182, and an earth leakage blocking unit 184, as in the second embodiment of the present invention. Since it is the same as the second embodiment, it will be omitted.

The above description is merely illustrative of the present invention, and various modifications may be made by those skilled in the art without departing from the technical spirit of the present invention. Therefore, the embodiments disclosed in the specification of the present invention are not intended to limit the present invention. The scope of the present invention should be construed according to the following claims, and all the techniques within the scope of equivalents should be construed as being included in the scope of the present invention.

In the case of using power line communication in a conventional building, it is difficult to maintain good quality communication characteristics because it is vulnerable to ambient noise and severe line attenuation. It is possible to activate the power line communication system by providing a power line communication system having a good quality communication characteristics by ensuring a high speed to the user.

100: link processing device 110: frame integration and distribution
120: power line modem unit
122, 124, 126: first through third power line modems
130: bridge 132: power line link connection
134: external link connection 152, 154, 156: first to third coupler
160: conduit coupler 170, 172: power line supply of each floor of the building
174: interlayer connection coupler portion 182: blocking filter portion
184: earth leakage breaker 200: communication device

Claims (12)

A plurality of power lines;
At least one coupler connected to each of the power lines;
A link processing apparatus that collects communication signals received through the plurality of power lines and transmits them to one external link, or distributes and transmits the communication signals received from the external links to each of the plurality of power lines;
And a communication device for receiving a communication signal transmitted from the link processing device.
The method of claim 1,
The link processing device
A power line modem unit including a plurality of power line modems connected to each of the at least one coupler;
A frame integration and distribution unit for collecting and transmitting the communication signals transmitted from the power line modem unit into one or distributing the communication signals received from the communication device to each of the plurality of power line modems;
A bridge configured to transmit a communication signal transmitted from the frame aggregation and distribution unit to the external link and to transmit a communication signal transmitted from the communication device to the frame integration and distribution unit;
And an external link connection unit connected to the external link.
The method of claim 2,
And the external link connection unit is an Ethernet link connection unit or a power line link connection unit.
A plurality of power lines;
At least one coupler connected to each of the power lines;
A link processing apparatus that collects communication signals received through the plurality of power lines and transmits them to one external link, or distributes and transmits the communication signals received from the external links to each of the plurality of power lines;
A concentrator coupler connected to the link processing apparatus and transferring a communication signal transmitted from the link processing apparatus to a communication apparatus or transmitting a communication signal transmitted from the communication apparatus to the link processing apparatus;
And a communication device connected to the aggregation coupler.
The method of claim 4, wherein
And the plurality of power lines are used simultaneously for inter-layer connection and intra-layer connection.
The method of claim 4, wherein
A blocking filter connected to the aggregation coupler and passing only a power signal among signals received through the power line, and blocking a communication signal;
An interlayer high speed communication system using a power line, characterized in that it further comprises a ground fault blocking unit for preventing a short circuit of the power line.
The method of claim 4, wherein
The link processing device
A power line modem unit including a plurality of power line modems connected to each of the at least one coupler;
A frame integration and distribution unit for collecting and transmitting the communication signals transmitted from the power line modem unit into one or distributing the communication signals received from the communication device to each of the plurality of power line modems;
A bridge configured to transmit a communication signal transmitted from the frame aggregation and distribution unit to the external link and to transmit a communication signal transmitted from the communication device to the frame integration and distribution unit;
And a power line link connection unit connected to the aggregation coupler through a power line.
A plurality of power lines connected to the power line supply of each layer;
At least one coupler connected to each of the power lines;
A link processing apparatus that collects communication signals received through the plurality of power lines and transmits them to one external link, or distributes and transmits the communication signals received from the external links to each of the plurality of power lines;
A communication device for receiving a communication signal transmitted from the link processing device;
Interlayer high speed communication system using a power line, characterized in that it comprises an interlayer connection coupler for connecting the power lines of each floor of the building with each other.
The method of claim 8,
The link processing device
A power line modem unit including a plurality of power line modems connected to each of the at least one coupler;
A frame integration and distribution unit for collecting and transmitting the communication signals transmitted from the power line modem unit into one or distributing the communication signals received from the communication device to each of the plurality of power line modems;
A bridge configured to transmit a communication signal transmitted from the frame integration and distribution unit to the external link, and to transmit a communication signal transmitted from the communication equipment to the frame integration and distribution unit;
And an external link connection unit connected to the external link.
10. The method of claim 9,
And the external link connection unit is an Ethernet link connection unit or a power line link connection unit.
A power line modem unit including a plurality of power line modems;
A frame integration and distribution unit that collects and transfers communication signals transmitted from the power line modem unit into one or distributes communication signals received from a communication device to each of the plurality of power line modems;
A bridge configured to transmit a communication signal transmitted from the frame aggregation and distribution unit to an external link, and to transfer the communication signal transmitted from the communication device to the frame integration and distribution unit;
And an external link connection portion connected to the external link.
The method of claim 11,
And the external link connection unit is an Ethernet link connection unit or a power line link connection unit.

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