JP2002077191A - Communication network coping type power feeding connector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a communication network coping type power feeding connector for relaying and connecting a house appliance or a lighting instruments with the built-in communication device of a low price and a communication server or a communication network and bidirectionally transmitting and receiving control signals. SOLUTION: This connector is provided with a primary side connector 10a connected to information wiring led out from an outdoor communication network or the communication server installed indoors, a secondary side connector 10b connected to network coping equipment 4, a protocol conversion interface 10e for transmitting and receiving the control signals between the application equipment 4 to network connected to the secondary side connector 10b and the communication server 6 or the like connected to the information wiring 1 for which a communication address is set, and a power feeding connector 10d connected to a power line 3 for feeding power to the application equipment 4 to the network connected to the secondary side connector part 10b.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention comprises a primary connector connected to an information wiring of a communication network, and a secondary connector connected to a network compatible device.
The present invention relates to a communication network compatible power supply connector that enables transmission and reception of a control signal between a communication server connected to an information wiring and a network compatible device connected to a secondary connector unit.

[0002]

2. Description of the Related Art Recently, as an interface device for connecting to the Internet, a communication device using an embedded micro Internet connection technology has been developed. If this communication device is built into home appliances and lighting equipment, it can be used between the communication server installed in the home and various devices, or between the Internet and various devices using the communication protocol used on the Internet. Transmission of information is possible, enabling remote control of various devices from the communication server, collection of data from the device by the communication server, and transmission / reception of control signals with external communication servers via the Internet. It has become.

[0003] Incidentally, as a built-in type micro Internet connection technology, for example, US Pat.
No. 95 discloses a technique.

[0004]

However, there is no technical problem in incorporating the above-mentioned communication device into a device, but since the communication device is expensive, it is built into a low-function device or a low-cost device. This is costly. Further, when the communication method changes, the device having the built-in communication device cannot be used as it is, and it is necessary to replace the device with the device having the changed communication method.

[0005] The present invention has been made in view of such circumstances, and a home appliance or a lighting device incorporating a low-priced communication device is relay-connected to a communication server or a communication network. It is an object of the present invention to provide a communication network compatible power supply connector for transmitting and receiving control signals to and from a communication network.

[0006]

According to a first aspect of the present invention, there is provided a communication network compatible connector for connecting a network compatible device to a communication network in a building such as a building or a home. A communication network compatible power supply connector that is used by being attached to an appropriate place of the laid power supply line, and has a primary connector connected to an outdoor communication network or an information wiring derived from a communication server installed indoors. , A secondary connector connected to the network-compatible device and a communication address are set, and the network-compatible device connected to the secondary connector and the communication server or outdoor communication network connected to the information wiring are connected. A protocol conversion interface for sending and receiving control signals, and a secondary And a power supply connector portion for supplying power to the connected network device separate component.

A power supply connector compatible with a communication network includes:
For the information wiring of the communication network connected to the primary-side connector, bidirectional n: 1 high-performance communication is performed with a communication server and other connectors connected on the communication network, while the secondary-side connector is used. The communication network compatible device connected to the unit performs one-to-one standard communication with the communication network compatible device as a child terminal. Note that the secondary-side connector section may perform one-to-n standard communication so that a plurality of network-compatible devices can be connected.

Specifically, a LAN, CATV, etc., for connecting to the Internet are connected to the primary connector, and a home appliance compatible with a communication network having an RS232C terminal or the like is connected to the secondary connector. Is connected.

The protocol conversion interface has, for example, a function of converting a communication system such as Ethernet (registered trademark) used in a LAN into RS232C, which is a connection standard of a serial interface, and a function of converting RS232C into Ethernet. ing.

[0010] The communication address included in the control signal includes its own communication address and a communication address indicating the destination of the signal, so that between the power supply connector and the communication server and between the power supply connector and the power supply connector. Transmission and reception of signals can be performed by specifying the other party.

According to this power supply connector, a home network is formed by connecting a network compatible device incorporating a low-cost communication device capable of one-to-one standard communication to a communication network having a high-performance communication system. Even if the communication method changes, the network-compatible device can be used as it is simply by replacing the power supply connector.

According to the second aspect of the present invention, the communication network compatible power supply connector is used by attaching it to an appropriate position of a power supply line laid in a building such as a building or a home in order to connect a network compatible device to a communication network. A power supply connector compatible with a communication network, having the following features.

That is, the communication network compatible power supply connector includes a primary connector connected to a power line derived from a power line communication server installed indoors, and a secondary connector connected to a network compatible device. And control information with a communication address from the power line carrier signal received by the primary connector through the power line, and separates the power, and a control response signal sent from the network-compatible device through the secondary connector. The control information / power transmission / reception circuit for returning the control information superimposed on the power line carrier signal transmitted to the power line, the control information separated by the control information / power transmission / reception circuit, and the control signal transmitted from the network-compatible device are mutually exchanged. It is separated from the protocol conversion interface for transmission / reception and the control information / power transmission / reception circuit. The power that is characterized in that a power supply connector portion for supplying power to the connected network device to the secondary side connector unit.

From the power carrier server, control information is superimposed on a power supply having a predetermined waveform, and power is supplied to the power supply line.
The communication network compatible power supply connector separates the control information and the power by the control information / power transmission / reception circuit, and if the communication address included in the control information is its own address, decodes the control information and converts the control information into a protocol conversion interface. , And as a control signal to a network-compatible device connected to the secondary-side connector.

When a control response signal is sent from the network compatible device to the protocol conversion interface, the power supply connector superimposes the control response information on the power line carrier signal by the control information / power transmission / reception circuit and sends it out onto the power supply line.

Since the control signal is carried using the power supply line, only the power supply line needs to be connected between the communication server and the communication network compatible power supply connector.

According to the third aspect of the present invention, a communication network compatible power supply connector is used by attaching it to an appropriate position of a power supply line laid in a building such as a building or a home in order to connect a network compatible device to a communication network. A power supply connector compatible with a communication network, having the following features.

That is, the communication network compatible power supply connector includes a wireless signal processing unit for transmitting and receiving a radio signal required for control to and from a wireless communication server installed indoors, and a secondary communication device connected to a network compatible device. Side connector section, a communication address is set, a protocol conversion interface for transmitting and receiving a control signal between a network compatible device connected to the secondary side connector section and a wireless communication server, and a power supply supplied through a power supply line. receive,
A power supply connector unit for supplying power to the network-compatible device connected to the secondary-side connector unit.

According to a fourth aspect of the present invention, the power supply control is performed by the control signal received by the primary connector or the control signal transmitted from the network-compatible device and received by the secondary connector. And a power cutoff circuit that can perform the operation.

According to a fifth aspect of the present invention, in the third aspect, the power supply can be controlled by the control signal received by the wireless signal processing unit or the control signal transmitted from the network compatible device and received by the secondary connector unit. A circuit is further provided.

According to the power supply connector provided with the power supply cutoff circuit according to the fourth and fifth aspects, the standby power can be easily cut off, and the power supply can be cut off immediately in a danger.

According to a sixth aspect of the present invention, in any one of the first, second, and fourth aspects, a position information setting change means is further provided.
With the control signal received at the primary connector or the control signal received through the secondary connector, the position information of the power supply connector corresponding to the communication address included in the control signal can be rewritten and set.

According to a seventh aspect, in any one of the third and fifth aspects, a position information setting change unit is further provided, and the control signal received by the radio signal processing unit or the control signal received through the secondary side connector unit is provided. Thereby, the position information of the power supply connector corresponding to the communication address included in the control signal can be rewritten and set.

In other words, according to the sixth and seventh aspects, the display and the rewriting setting of the position information of each power supply connector are performed in the communication server through the information wiring or the like, or in the mobile terminal, for example, through the secondary side connector. In this case, the mobile terminal is connected to a power supply connector as a network compatible device, and communicates with another power supply connector via information wiring and a power supply line.

As described above, since communication is performed between the communication server and each power supply connector and between the mobile terminal and each power supply connector, position information distributed and set for each power supply connector is collected whenever necessary. Settings can be easily changed.

According to an eighth aspect of the present invention, there is provided a power supply conversion circuit for converting and outputting a power supply capacity input from a power supply line according to the first to seventh aspects.

The power conversion circuit includes a booster circuit and a booster function, a step-down circuit and a step-down function, or a circuit having both functions. Is provided to adjust the power supply capacity (current, voltage).

[0028]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a diagram showing an example of the configuration of a home network using a power supply connector compatible with a communication network.

An information wiring 1 for a communication network is connected to the primary connector 10a of the connected power supply connector 10, so that the power supply connector 10 and the communication server 6 can communicate with each other. In the connector section 10b,
Network-compatible device 4 such as a home appliance via information line 2
Is connected. Therefore, the communication server 6 and the home electric appliance 4 are configured to be able to transmit and receive control signals via the power supply connector 10. When the network-compatible device is the lighting equipment 5, the lighting power supply connector 11 is installed on a ceiling or the like and connected to the lighting power supply connector 11 so that communication with the communication server 6 is possible. Further, communication can be performed between the home electric appliance 4 and the lighting fixture 5 via the two power supply connectors 10 and 11 and the information wiring 1. The network devices 4 include not only home appliances and lighting devices but also air conditioners, communication devices, security devices, factory equipment, and the like.

Further, the communication server 6 is connected to a public line or a cable television line used for the Internet L. Therefore, a control signal can be transmitted from the outdoor portable terminal P or the like to the indoor network compatible devices 4 and 5 using a communication network such as the Internet L, and conversely, information from the devices 4 and 5 can be transmitted. Can be transmitted to the portable terminal device P.

Although not shown in the figure, the power supply connector 10 can be directly connected to an outdoor communication network in addition to transmitting and receiving signals to and from the communication server 6.

In this example, the power supply connector 10 further includes a power supply input terminal 10c for introducing a power supply line from the power distribution board 7 via the power supply line 3, and a power supply connector section 10d for supplying power to the network compatible device 4. And

Here, the information wiring 1 is an Ethernet,
Although it is composed of dedicated lines such as RS485 and CAN,
Wireless communication such as infrared rays and Bluetooth may be used. When the wireless system is adopted, the power supply connector 10 further includes a wireless signal processing unit (not shown) for transmitting and receiving a radio signal required for control instead of the primary connector unit, and a wireless communication server ( (Not shown).

Further, since the control signal can be transmitted using the power supply line 3 by the power line transfer technique,
The information line 1 may not be used, and the information line 2 and the power line 3 may be connected to each other. In this case, control information is superimposed on a power supply having a predetermined waveform from a power line communication server (not shown), and power is supplied to the device via a power supply line and a power supply connector, and a control signal is also transmitted.
The power supply connector may include only the power supply connector and the secondary connector.

With the wireless or power line carrier, it is not necessary to lay the information wiring on the floor or on the steps.
It is possible to realize a safe device arrangement without wiring and without deteriorating the beauty. Also, since there is no need for wiring work, if a device is purchased and connected to a power supply connector, it can be used immediately as a network-compatible device.

The power supply connector 10 includes the primary connector 1
For the information wiring 1 of the communication network connected to the communication network 0a, bidirectional n-to-1 high-performance communication is performed with the communication server 6 connected to the communication network, and the information wiring 1 is connected to the secondary connector 10b. Network-enabled devices 4 and 5 are one-to-one with network-enabled devices 4 and 5 as child terminals.
Performs standard communication. Also, as described later with reference to FIGS.
The power supply connector 10 may be provided with a plurality of secondary-side connectors, and may perform standard communication with the plurality of network-compatible devices 4, 5 in a 1: n standard.

As described above, the network compatible devices 4, 5
Since it is only necessary to incorporate a low-cost communication device capable of performing standard communication, the price of the entire device does not become high. In addition, there is an advantage that even if the communication method changes, the network-compatible device can be used as it is simply by replacing the power supply connector 10.

FIG. 2 is a diagram showing an example of a main configuration of an interface provided in the power supply connector 10.

As shown in FIG. 1, the power supply connector 10 includes a primary connector 10a, a secondary connector 10b and a power supply connector 10d. Further has a protocol conversion function necessary for transmitting and receiving control signals between the network compatible devices 4 and 5 connected to the secondary side connector unit 10b and the communication server 6 connected to the information wiring 1. A protocol conversion interface 10e is provided. With this protocol conversion function, two different communication systems can be interconnected by relay.

Protocol conversion interface 10e
In order to perform protocol conversion between the high-performance communication system on the primary side (Ethernet) and the standard communication system on the secondary side (RS232C), the primary-side connector 10a and the secondary-side connector 10b It is provided between, for example,
Pulse transformer, Ethernet controller, UART
The configuration includes devices such as a microcomputer and an RS232C transceiver.

FIG. 3 is a diagram showing another example of the power supply connector and its use.

FIG. 3A shows a plurality of secondary side connector sections 1.
2 shows a power supply connector 12 having 2b, 12b, and 12b, which is configured to be connectable to a plurality of network compatible devices 4 and 4. Further, as shown in FIG. 3B, a plurality of power supply connectors 13 and 14 can be connected and used.

FIG. 4 is a diagram showing an example of the shape of the power supply connector.

The power supply connector 10 shown in FIG. 4A has a power supply connector portion 10d and a secondary connector portion 1 which is easily detachable.
0b, and the power supply connector 10 'shown in (b) has a power supply connector portion 10d' and a secondary connector portion 10b 'close to each other so that they can be used with an integrated plug.

The power supply connector shown in FIG.
The power supply connector 11 for illumination shown in FIG. 1 has a conventional hooking ceiling provided with a power supply connector 11d and a shape further provided with a secondary side connector 11b.

Next, position information set in the power supply connector 10 will be described with reference to FIGS.

FIG. 5 is a diagram showing a configuration example of a home network using a plurality of power supply connectors 10 each having position information.

The network compatible devices 4 (# 1 to 3) are connected to the respective secondary connector portions 10b of the power supply connectors 10 (# 1 to 3).
The communication server 6 is connected to 0a. In each of the power supply connectors 10 (# 1 to 3), information indicating a position where the power supply connector 10 is installed is set.

Specifically, for example, in a general house,
The power supply connector 10 (# 1) has location information “1st floor living-1”, # 2 has “1st floor living-2”, and # 3 has “1
Power supply connector 10 (# 1 to # 1 kitchen)
Position information is set in 3). The setting of the position information will be described later with reference to FIGS.

Control signals from the network-compatible devices 4 (# 1 to 3) are supplied to respective power supply connectors 10 (# 1 to # 1).
In step 3), if a unique communication address and position information are added and transmitted to the communication server 6, the communication server 6 grasps the installation positions and operating conditions of the respective network compatible devices 4 (# 1 to # 3). it can. For example, if the device configuration is as shown in FIG. 5, the communication server 6 grasps the connection position (installation location) and operation state of the device 4 (# 1 to 3) on a screen as shown in FIG. can do.

As shown in FIG. 6 (b), a floor plan is displayed on the screen of the communication server 6, and the communication addresses 21 to 24 of the power supply connectors in each room are connected to the connectors. It is displayed together with the devices 21 to 24.

FIG. 7 is a diagram showing detailed information of the power supply connector displayed on the communication server 6 side.

When the communication address on the screen shown in FIG. 6B is clicked, the display is switched to this screen 30, and more detailed information is displayed.

If the position information is set in the power supply connector 10 as described above, it is not necessary for the network-compatible device 4 to have the position information, and even when the installation location of the device 4 is changed, the position information of the device is not changed. It is convenient because there is no need for maintenance.

Next, the setting of the position information of the power supply connector will be described with reference to FIGS.

When setting from the communication server 6 side,
From the communication server 6, each power supply connector 10 (# 1, 2,
3) is specified by the communication address, and a transmission request of the position information is transmitted, and each power supply connector 10 (# 1, 2, 3) transmits its position information by adding its own address in response to the request. . The communication server 6 displays the collected position information on the screen, performs rewriting setting of the position information corresponding to the communication address, and transmits the position information to each power supply connector 10 (# 1, 2, 3). The flow of the above information is shown by arrows in FIG.

The power supply connector 10 (# 1, 2, 3) that has received the changed position information rewrites the stored position information with the transmitted position information by the position information setting change unit.

FIG. 9 is a diagram showing a flow of information when the position information is changed in the mobile terminal.

The mobile terminal 8 is connected to one power supply connector 10 (# 1) as a network compatible device.
By operating the mobile terminal 8, each power supply connector 10
The position information of (# 1, 2, 3) is changed.

The rewriting setting of the position information is not limited to the above method. For example, the mobile terminal 8 may be directly connected to the information wiring 1 to set the position information.

As described above, communication is performed between the communication server 6 and each power supply connector 10 (# 1, 2, 3) and between the mobile terminal 8 and each power supply connector 10 (# 1, 2, 3). At any time, the position information distributed and set for each power supply connector can be collected, and the setting can be easily changed.

The power supply connectors 10 (# 1, 2,.
In 3), a control switch (not shown) may be provided as position information setting change means so that position information can be locally set for each power supply connector.

FIG. 10 is a view showing a power supply connector for a communication network provided with a power supply cutoff circuit.

The power supply connector 10 includes a power supply cutoff circuit 10f that can cut off a control signal transmitted through the information wiring 1 or the secondary connector 10b.
By the operation of the circuit 10f, when there is a power-off request from the communication server 6 or the like, the power can be cut off.

As a result, not only can standby power be cut to save power, but also, for example, when a connected network-compatible device malfunctions and becomes dangerous such that the device cannot be stopped, the power supply is emergency It can also be turned off.

Although not shown, the power supply connector may be provided with a power supply conversion circuit. This power conversion circuit has a booster function and a booster function, a step-down circuit and a step-down function, or both functions. Power capacity (current, voltage) is adjustable.

Thus, even a device requiring a high voltage, such as an air conditioner, can be used as a network compatible device by connecting to the connector adapter and adjusting the voltage with the adjustment dial.

[0069]

As can be understood from the above description, according to the power supply connector of the present invention, even if the device is a network-compatible device incorporating a low-cost communication device capable of one-to-one standard communication. In addition, since it is possible to connect to a communication network having a high-performance communication system, it is possible to realize communication network connection of low-cost equipment at a realistic cost. Further, even if the communication system changes, only by replacing the power supply connector, the network-compatible device can be used as it is, and the maintenance cost can be reduced.

According to the second aspect, since the control signal is transmitted using the power supply line, only the power supply line needs to be connected between the communication server and the communication network compatible power supply connector. The trouble is eliminated.

According to the third aspect of the present invention, since the wireless communication can be performed, a home network can be formed without the necessity of wiring devices.

According to the second and third aspects, the wireless or power line carrier eliminates the necessity of laying the information wiring on the floor or on the steps, thereby realizing a safe device arrangement without deteriorating the beauty. Also, since there is no need for wiring work, if a device is purchased and connected to a power supply connector, it can be used immediately as a network-compatible device.

According to the first to third aspects of the present invention, since the power supply connector compatible with the communication network includes the functions of both the control signal connector and the power supply connector, in addition to the power supply connector, the power supply connector can be used in homes. Therefore, it is not necessary to provide outlets, and an optimal layout of indoor equipment and furniture can be configured with a large number of outlets without impairing the beauty of the room.

According to the fourth and fifth aspects, the power supply connector is provided with a power supply cutoff circuit capable of controlling power supply, so that the standby power of the device can be cut off, and the power supply is cut off in a danger to operate the device. Emergency stop.

In particular, according to the sixth and seventh aspects, the position information including the communication address of the power supply connector can be easily set and changed from the communication server or the mobile terminal.
Even when the connection of the network-compatible device to another power supply connector is changed, this can be easily handled.

As described above, since communication is performed between the communication server and each power supply connector and between the mobile terminal and each power supply connector, the distributed position information of each power supply connector can be collected whenever necessary. Settings can be changed easily. Further, since the status of the device can be displayed in addition to the positional information on a floor plan or the like on the screen of the communication server, the user can select the power supply connector to which the device is connected, its position (room), and The operation state of the device can be easily grasped.

According to the eighth aspect, since the power supply connector is provided with the power supply conversion circuit, even a device requiring a high voltage or a low voltage can be easily used with an adjustment dial provided on the main body. The device can be connected in a proper state.

[Brief description of the drawings]

FIG. 1 is a diagram showing a configuration example of a home network using a power supply connector of the present invention.

FIG. 2 is a diagram illustrating an example of a hardware configuration of an interface provided in a power supply connector of the present invention.

FIG. 3 is a diagram showing another example and a usage mode of the power supply connector of the present invention.

FIG. 4 is a diagram showing an example of the shape of a power supply connector main body according to the present invention.

FIG. 5 is a diagram illustrating a configuration example of a home network using a plurality of power supply connectors.

FIG. 6 is a diagram showing two examples of a screen for displaying a connection position of a network-compatible device in a communication server.

FIG. 7 is a diagram showing power supply connector detailed information displayed on the communication server side.

FIG. 8 is a diagram showing a flow of information when the communication server changes position information.

FIG. 9 is a diagram illustrating a flow of information when changing position information in the mobile terminal.

FIG. 10 is a diagram illustrating a communication network compatible power supply connector including a power supply cutoff circuit.

[Explanation of symbols]

 10-12 Power supply connector for communication network 10a Primary connector 10b Secondary connector 10c Power input terminal 10d Power supply connector 10e Protocol conversion interface 10f Power cutoff circuit 1 Information wiring for communication network 2 Information line for network-compatible device connection 3 Power line 4, 5 Network compatible device 6 Communication server 7 Power distribution panel 8 Mobile terminal

 ──────────────────────────────────────────────────の Continuing on the front page (72) Inventor Satoshi Ogure 1048 Kadoma Kadoma, Osaka Prefecture Matsushita Electric Works, Ltd. (Reference) 5B011 DA01 DB05 DB27 EA04 EA05 EA10 FF04 HH02 HH07 MA15 5K033 AA09 BA01 DA01 DA06 DA13 DB04 DB25 5K046 AA03 BA02 BB05 CC05 CC17 CC18 PP01 PS31 PS41 PS47

Claims (8)

[Claims] 1. A communication network compatible power supply connector which is used by being attached to an appropriate position of a power supply line laid in a building such as a building or a home for connecting and adding a network compatible device to a communication network. A primary connector unit connected to a communication network or an information wiring derived from a communication server installed indoors, a secondary connector unit connected to a network-compatible device, and a communication address are set. A protocol conversion interface for transmitting and receiving control signals between a network-compatible device connected to the connector unit, a communication server connected to the information wiring and an outdoor communication network, and a secondary side connected to a power supply line, A power supply connector unit for supplying power to the network-compatible device connected to the connector unit. Communication network compatible power supply connector. 2. A communication network compatible power supply connector which is used by being attached to an appropriate position of a power supply line laid in a building such as a building or a home for connecting and connecting a network compatible device to a communication network. A primary connector connected to a power line derived from the installed power line carrier communication server; a secondary connector connected to a network-compatible device; and a power line carrier received by the primary connector through the power line. Control information with a communication address from the signal;
A control information / power transmission / reception circuit that separates power from power and superimposes a control response signal sent from a network-compatible device through the secondary side connector unit on a power line carrier signal transmitted to the power supply line and returns the control response signal; A protocol conversion interface for mutually transmitting and receiving the control information separated by the control information / power transmission / reception circuit and a control signal transmitted from the network-compatible device; and a protocol conversion interface separated from the control information / power transmission / reception circuit. Power
A power supply connector unit for supplying power to a network-compatible device connected to the secondary-side connector unit. 3. A communication network compatible power supply connector which is used by being attached to an appropriate location of a power supply line laid in a building such as a building or a home for connecting and connecting a network compatible device to a communication network. A wireless signal processing unit that sends and receives radio signals necessary for control to and from the installed wireless communication server, a secondary connector unit that is connected to network-compatible devices, and a communication address that is set. A protocol conversion interface for transmitting and receiving a control signal between the network compatible device connected to the unit and the wireless communication server; and a power supply supplied through the power supply line, and connected to the secondary connector unit. A communication network compatible power supply connector including a power supply connector for supplying power to a network compatible device. 4. The power supply control according to claim 1, wherein the control signal received by the primary connector or the control signal transmitted from the network compatible device and received by the secondary connector. A power supply connector compatible with a communication network, further comprising a power cutoff circuit capable of performing the following. 5. The power supply according to claim 3, wherein power supply can be controlled by a control signal received by said wireless signal processing unit or a control signal transmitted from said network compatible device and received by said secondary side connector unit. A communication network compatible power supply connector further comprising a circuit. 6. The control signal according to claim 1, further comprising a position information setting change unit, wherein the control signal received by the primary connector or the control signal received through the secondary connector. A communication network compatible power supply connector that allows rewriting and setting of the position information of the communication network compatible power supply connector corresponding to the communication address included in the control signal. 7. The apparatus according to claim 3, further comprising a position information setting change unit, wherein the control unit receives a control signal received by the wireless signal processing unit or a control signal received through the secondary side connector unit. ,
A communication network compatible power supply connector in which position information of a communication network compatible power supply connector corresponding to a communication address included in the control signal can be rewritten and set. 8. A communication network compatible power supply connector according to claim 1, further comprising a power supply conversion circuit for converting and outputting a power supply capacity inputted from a power supply line.