KR20090001314A - Power distribution panel for remote control based on ethernet - Google Patents

Abstract

A remotely controlled power distribution system based on Ethernet capable of restoring a communication device is provided to provide power located at a remote place from an administrator through Ethernet communication network. A power control system(110) controls power source that a power supply source(130) is supplied to a plurality of communication device(120). The control of the power control system is performed according to the control information generated in a remote server(150). A power control device generates information about on/off state of each output port supplying power to the communication device and transmits the information to the remote server. An administrator in which the remote server is equipped requests the state of power control by transmitting the information about on/off state of the output port to the remote server.

Description

Power distribution panel for remote control based on ethernet}

1 is a block diagram of a power distribution system for Ethernet-based remote control according to an embodiment of the present invention,

2a and 2b is a front view and a rear view of a power supply control apparatus according to an embodiment of the present invention,

3 is an exemplary view of an interface screen output from a remote server according to an embodiment of the present invention;

4 is a circuit diagram of a power supply control apparatus according to an embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

110: power control device 111: input power control switch

112: output power control switch 113: status display LED

114: fan detachable portion 115: output power control switch

116: communication port 117: first power output unit

118: second power output unit 120: communication equipment

130: power supply 140: Ethernet communication network

150: remote server 160: subscriber terminal

The present invention provides a cable modem terminal server (CMTS), a gigabit switch for configuring a data network, a MUX decoder, and the like, which is an end device for servicing Internet, IPTV, and cable broadcasting using a coaxial cable. The present invention relates to a system for supplying power to a network, and more specifically, to an Ethernet-based remote control power distribution system that can control a power supply to a remote communication device through Ethernet.

Thanks to the development of information and communication technology, cable networks, which were used only for wired TVs in the past, are being used not only for high-speed Internet but also for IP phones and IPTV services.

A cable modem terminal server is used as an end device for transmitting various types of service data to such a cable network. This is the most important communication device that constitutes a high-speed data network using a coaxial cable. If this happens, the service will be interrupted for as many as hundreds to thousands of subscribers.

In addition, in order to construct a high-speed Internet network, a plurality of communication equipments, such as a router, a switching device, and a multiplexer, are provided. When an abnormality occurs in any one of them, the corresponding service is interrupted.

Therefore, such communication equipment is required to operate normally at any moment of 365 days a year.

However, operators who provide various services such as the Internet using cable networks calculate data traffic based on the average data volume of all subscribers rather than assuming that all subscribers use the highest amount of communication at the same time in order to operate the equipment efficiently. The data capacity of predetermined communication equipment is calculated and used as a reference.

In such a case, when there is a special issue in society or important news occurs at home and abroad, if a large amount of data traffic is unexpectedly generated by cable network operators, predetermined communication equipment may cause an abnormality in the system due to data congestion. .

In general, in case of a failure of a predetermined communication equipment, it may be possible to recover the predetermined communication equipment by using its own remote management function provided by the predetermined communication equipment. In this case, the system will enter a complete system down state, even without its own remote management capabilities.

Conventionally, in order to recover predetermined communication equipment in a complete system down state, a person directly moves to a control room of a management office or a device room of an unmanned base station and cuts off power supplied to a predetermined communication equipment for a while, and then powers on again. It is the only way to restore the function of a given communication device by injecting a.

That is, conventionally, there is a problem that the administrator must be dispatched to recover the communication equipment in a complete system down state.

In particular, when a predetermined communication equipment installed in the unmanned state is in a state of complete system down, the service users have to suffer a considerable inconvenience as the out of service state is maintained for at least tens of minutes to several hours.

The present invention has been made to solve the above problems, the object of the present invention is to provide an Ethernet-based remote control power distribution system that can easily control the power supplied to the communication equipment located at a far distance from the administrator through the Ethernet communication network. have.

Other objects and advantages of the present invention will be described below, and will be appreciated by the embodiments of the present invention. In addition, the objects and advantages of the present invention can be realized by means and combinations indicated in the claims.

The present invention for achieving the above object is a power control device for controlling the power of a predetermined communication equipment; And a remote server connected to a power control device through an Ethernet communication network, the remote control device generating control information for supplying or cutting off power of a predetermined communication device, wherein the power control device is generated from a remote server. Receiving the control information to supply or cut off the power of the predetermined communication equipment, and the remote server receives information on the on-off state of each output port from which the power control device supplies power to the predetermined communication equipment. It is characterized in that for displaying the status of the remote control power supply device to the administrator.

In this case, two or more power control devices are provided, and the two or more power control devices are connected to each other through a predetermined network, so that when a group of power control devices cannot receive the control information from the remote server through Ethernet, Bypassing the power control device of the other end may be to receive the control information transmitted from the remote server.

The predetermined communication equipment may be one of a CMTS, a gigabit switch, or a MUX decoder.

In addition, the predetermined communication equipment generates self-sensing information including temperature information or operation abnormality information, and the remote server receives the self-sensing information and outputs it to be recognized by an administrator.

In addition, the remote server is a group for managing and grouping the plurality of predetermined communication equipment in accordance with the criteria specified by the administrator, and the power control device to collectively supply or cut off power to the grouped predetermined communication equipment Generating control information, it is more preferable that the power control device receives the group control information to supply or block power collectively to a predetermined communication device corresponding to the group control information.

The remote server may store a history of the generated control information.

In addition, the power supply control device is preferably provided with an overcurrent protection circuit for preventing overcurrent from being input.

Further, the control power for driving the power control device is more preferably input independently of the power input to the power control device to be supplied to the predetermined draw ratio.

In addition, the power control device may be to supply or cut off the power supplied to the predetermined communication equipment by using a power MOSFET switching element.

Lastly, the Power MOSFET switching element is connected in series with the negative terminal, the positive terminal and the relay of the power source from which the gate terminals are connected in parallel with each other, and the source terminal is connected in series with the (-) terminal. The drain terminal is connected in series with the (+) terminal via the predetermined communication device. When the relay is operated and short-circuited, the gate terminal is activated and the (-) terminal of the predetermined communication device and the power source and ( It is preferable that the +) terminal is connected to supply power.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms or words used in the present specification and claims should not be construed as being limited to the common or dictionary meanings, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

1 is a block diagram of a power distribution system for Ethernet-based remote control according to an embodiment of the present invention. As shown in FIG. 1, the power distribution system 100 for an Ethernet-based remote control according to an exemplary embodiment of the present invention includes a power control device 110 and a remote server 150.

Power control device 110 is a configuration for controlling the power supplied by the power supply source 130 to a plurality of communication equipment 120, such control of the power control device 110 is generated in the remote server 150 According to the control information.

In addition, the power control device 110 generates information on the on-off state of each output port for supplying power to the communication equipment 120 and transmits to the remote server.

Thus, in the present invention, by transmitting the information about the on-off state of the output port as described above to the remote server 150, the administrator existing in the location provided with the remote server 150 can grasp the power control situation at a glance.

Here, the communication equipment 120 may be one of a router, a CMTS, a gigabit switch, or a MUX decoder, and the power supply 130 may be a DC voltage source having a 48V output provided with the rectifier circuit 130, but is not limited thereto. It doesn't happen.

Furthermore, the power control device 110 according to the present invention is manufactured to have a specification that the input DC voltage is 48V, the input current is 120A, the output DC voltage supplied to the communication equipment 120 is 48V, the output current is 15A. It is desirable, but can be changed as intended by the designer of the system.

The present invention improves the reliability of the power supply to the communication equipment 120 by the power control device 110 by using the above configuration, so that the subscriber terminal 160 can communicate through the communication equipment 120 at any time. .

2A and 2B illustrate a front view and a rear view of the power control device 110 according to the preferred embodiment of the present invention. As shown in FIG. 2, an input power control switch 111, an output power control switch 112, a status display LED 113, and a fan detachable part 114 are provided on the front of the power control device 110 of the present invention. The rear surface includes power input units 115a, 115b and 115c, communication ports 116a and 116b, a first power output unit 117, and a second power output unit 118.

The input power control switch 111 is configured to connect or cut off the power supplied from the power supply source 130, and the output power control switch 112 connects the power output to the plurality of communication equipments 120 or It is a configuration for blocking.

The input power control switch 111 and the output power control switch 112 can be operated not only by the direct input of the administrator, but also by the control command of the remote server 150. This will be explained in more detail.

The status display LED 113 allows the administrator to easily recognize a situation in which the power controller 110 receives power from the power supply source 130 or outputs power to a plurality of communication equipments 120.

The fan detachable part 114 is configured to easily separate, maintain, or replace a cooling fan (not shown) provided for cooling the power control device 110, as the designer of the system intends. May be omitted.

The power input units 115a, 115b, and 115c are for the power control device 110 to be electrically supplied with the power supply source 130, and to the power and communication equipment 120 for driving the power control device 110. By allowing the power to be supplied and the power to drive the remote server 150 to be independently input, each other can prevent excessive inflow of power and prevent the entire system from going down even if an abnormality occurs at one end.

In addition, the power supply control apparatus 110 according to an exemplary embodiment of the present invention may further include an overcurrent protection circuit (not shown) for preventing overvoltage from being input, thereby further enhancing the safety of the system.

The communication ports 116a and 116b are configured to exchange data with the power control device 110 connected to the remote server 150 or another power control device 100a in the present invention. The communication port 116a uses an RJ-45 interface, and the communication port 116b for connecting with another power supply control device 100a uses a 6pin telephone line interface.

As described above, the effects that the power control device 110 may generate by being connected to the remote server 150 or another power control device 100a will be described in detail later.

The first power output unit 117 is a terminal for supplying power to the remote server 150, the second power output unit 118 is a terminal for supplying power to a plurality of communication equipment (120).

Thus, by separating the power supplied to the communication device side and the remote server side, it is possible to prevent the entire system down like the power input unit (115a, 115b, 115c).

Ethernet communication network 140 is a configuration that allows the power control device 110 and the remote server 150 is connected to each other to send and receive data with each other in the present invention uses the most widely used Ethernet as a local area network (LAN) However, if the power control device 110 and the remote server 150 can exchange data with each other, any other configuration may be used.

The remote server 150 generates control information for the power control device 110 to supply or cut off power to the communication equipment 120.

In this case, the control information may be automatically generated according to the requirements set by the administrator in advance, but may be directly generated by the administrator through input means (not shown) such as a keyboard or a mouse.

In addition, the remote server 150 receives information about the on-off state of each output port from the power control device to the power supply to the predetermined communication equipment to display the status of the remote power control device to the administrator do.

On the other hand, in the power distribution system 100 for the Ethernet-based remote control according to an embodiment of the present invention as described above may be provided with two or more power control device 110, once explaining the power control device 110 As mentioned above, the two or more power control devices are configured to transmit data to each other by forming a predetermined network through the communication port 116b.

In the present invention, through the above configuration, in the present invention, when one of the two power control devices connected to each other does not receive the control information from the remote server 150 due to a failure of the Ethernet communication network, The control information can be received through the power control device 110a.

Therefore, the reliability of the control of the power control device 110 by the remote server 150 can be further enhanced.

In addition, when each communication device 120 generates its own sensing information about its temperature or whether or not it is running without any abnormality, the remote server 150 of the present invention receives this self-sensing information Print it out so that an administrator can recognize it.

3 illustrates an example of an interface screen received from the remote server by receiving the self-sensing information.

According to the present invention, as shown in FIG. 3, the interface screen preferably outputs information on a plurality of communication devices individually, and furthermore, it is possible for an administrator to easily know the power supply state for each communication device. More preferred.

In addition, in the present invention, when the remote server 150 controls the supply of power to the plurality of communication equipments 120, the plurality of communication equipments may be individually controlled as well as grouped.

That is, the remote server 150 groups a plurality of communication equipments according to various criteria (the place where the communication equipment is provided, the type of communication equipment, the characteristics of the communication equipment, etc.) designated by the administrator, and the plurality of communication equipment grouped in this way. Generate group control information that can supply or cut off power in a batch, and the power supply device 110 controls a plurality of communication equipment grouped according to the group control information.

The present invention allows the administrator to more easily control the power supplied to a plurality of communication equipment.

 In addition, the remote server 150 stores a history of the control information or the group control information generated for the control of the power supply 110.

This history can be used as a reference to identify the cause of the abnormality or to analyze the operation pattern of the communication equipment in case of an abnormality in the system.

On the other hand, the power supply control apparatus 110 according to an embodiment of the present invention uses a Power MOSFET device to control the power supplied to the communication equipment according to the control information or group control information.

In other words, the present invention controls the power supplied to each communication device by physically operating the output power control switch 112 associated with each communication device according to the control information or the group control information through the power MOSFET device.

Power MOSFET devices have the characteristics of high speed, high voltage, and high current, so they have sufficient durability against excessive current and voltage, and have the effect of improving control reliability due to fast operation.

Hereinafter, the operation of the power supply control apparatus 110 according to an exemplary embodiment of the present invention will be described in more detail with reference to FIG. 4. 4 is a circuit diagram of a power supply control apparatus 110 according to an embodiment of the present invention.

As shown in FIG. 4, the power control device 110 according to the preferred embodiment of the present invention has a power connection with the gate terminal 21 of the power MOSFET device 20 in parallel with each other. (-) Terminal 10a, (+) terminal 10b and relay 30 of the power input from the outside is connected in series, the source terminal 22 is connected in series with the (-) terminal 10a, drain The terminal 23 is connected in series with the positive terminal 10b via a predetermined communication device 120.

Through this structure, the present invention, based on the control signal (control information) of the remote server 150, when the relay 30 is activated (on) the gate terminal of the MOSFET is turned off (off) and the MOSFET stops operation (MOSFET OFF) On the contrary, when the relay 30 is deactivated (off), the gate terminal of the MOSFET is activated (ON) and the MOSFET is operated (NORMAL ON). Thus, the predetermined communication equipment 120 and the power supply 10 The (-) terminal 10a and (+) terminal 10b of the to be connected. As described above, the relay 30 is controlled according to control information applied through a control signal (control information) supply line (not shown in FIG. 4) of the remote server 150, and the predetermined communication equipment ( Power supply 120 or cut off. The internal structure of the relay 30 may be variously implemented by those skilled in the art as long as the above operation is performed.

The present invention is to remotely control the power supply using the relay 30, has the effect of being able to control the high voltage of DC more easily, quickly. Of course, by placing a local switch of the power control device 110 itself, not remote, it may be supplied or cut off regardless of the MOSFET or relay control.

In addition, the LED 113 is connected in parallel to the source terminal 22 and the drain terminal 23 so that the user can easily know the power supply state, and the potential measuring unit 40 is again equipped with the LED 113. And the information (D) on the on-off state of the output port according to the power supply state is transmitted to the remote server 120.

As mentioned above, although this invention was demonstrated by the limited embodiment and drawing, this invention is not limited by this, The person of ordinary skill in the art to which this invention belongs, Of course, various modifications and variations are possible within the scope of equivalents of the claims to be described.

According to the present invention, it is possible to easily control the power supplied to a predetermined communication equipment remotely from the administrator through the Ethernet communication network, so that even in the state of complete system down in which the predetermined communication equipment has lost its own remote management function. There is an advantage to recover the predetermined communication equipment in.

In addition, when two or more power control devices are provided to control the power of a predetermined communication device, even if the remote server and a set of power control devices cannot exchange data by allowing them to be connected to each other through a predetermined network. At the same time, it is possible to monitor the status of the corresponding power control device at a remote location and to control the power supplied to a predetermined communication device.

Claims (10)

A power supply control device for controlling a power supply of predetermined communication equipment; And A remote server connected to a power control device through an Ethernet communication network, the remote control device generating control information for supplying or cutting off power of predetermined communication equipment; The power control device receives the control information generated by the remote server to supply or cut off the power of the predetermined communication equipment, The remote server receives the information on the on-off state of each output port that the power control device supplies power to the predetermined communication equipment and displays the status of the remote power control device to the administrator Power control system for remote control. According to claim 1, wherein the power control device is provided with two or more, The two or more power control devices are connected to each other through a predetermined network, and when a group of power control devices cannot receive the control information from the remote server via Ethernet, the power control device of the other end is bypassed and the Power distribution system for Ethernet-based remote control, characterized in that for receiving the control information transmitted. The method of claim 1, wherein the predetermined communication equipment, Power distribution system for Ethernet-based remote control, characterized in that one of the CMTS, Gigabit switch or MUX decoder. The method of claim 1, wherein the predetermined communication equipment, Create self-sensing information including temperature information or operation abnormality information, The remote server is a power distribution system for Ethernet-based remote control, characterized in that for receiving the self-sensing information and outputs so that the administrator can recognize. The method of claim 1, wherein the remote server, Group and manage the plurality of predetermined communication devices according to a standard designated by an administrator, and generate group control information for causing the power control device to collectively supply or cut power to the grouped predetermined communication devices, The power control device receives the group control information, the power distribution system for the Ethernet-based remote control, characterized in that to collectively supply or cut off power to a predetermined communication equipment corresponding to the group control information. The method of claim 1, wherein the remote server, Power distribution system for Ethernet-based remote control, characterized in that for storing the history of the generated control information. According to claim 1, wherein the power control device, Power distribution system for an Ethernet-based remote control, characterized in that it comprises an overcurrent protection circuit for preventing overcurrent is input. According to claim 1, wherein the control power source for driving the power control device, Power supply system for the Ethernet-based remote control, characterized in that is input independently from the power input to the power control device to be supplied to the predetermined communication equipment. According to claim 1, wherein the power control device, Power distribution system for Ethernet-based remote control, characterized in that for supplying or cutting off the power supplied to the predetermined communication equipment by using a power MOSFET switching element. The method of claim 9, wherein the power MOSFET switching device, A gate terminal is connected in series with a negative terminal, a positive terminal, and a relay of a power supply drawn from an external parallel connection, a source terminal is connected in series with the negative terminal, and a drain terminal is connected to the predetermined communication equipment. Connected in series with the (+) terminal through When the relay is deactivated (off), the gate terminal is activated (on), the predetermined communication equipment and the (-) terminal and the (+) terminal of the power supply is connected to the Ethernet-based remote Power distribution system for control.

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