KR100526703B1 - Remote Power controller - Google Patents

Abstract

In the remote power controller, the internal control device is separated into an equipment control board that communicates with the administrator and transmits control commands, and a power control board that actually performs the connection / shorting operation of the switching elements for power supply connection. In particular, the input power of the power control board is introduced through two paths, so that 1) a failure of the equipment control board, 2) a reset of the equipment control board, and 3) power supply of the equipment control board are provided. 4) when the power supply for the equipment control board is broken, 5) when the power supply to the power supply for the equipment control board is interrupted, 6) when the power supply to the power control board is interrupted, and 7) for the power control board. 8) Supply of power to the power control board and its connected remote equipment, even in the event of a power supply failure or in the event of a power interruption to the power supply for the power control board Be able to be made properly, to thereby remove the risk of the system equipment of the power supply interruption or reset the power supply is connected to a remote controller and so is a change in status of the power supply control board.

Description

Remote Power Controller

      The present invention relates to a remote power controller for controlling the power of remote equipment (computers and communication equipment), and more particularly to a remote power controller for stably supplying power to be supplied to the remote equipment.

As computer science and data communications met during the 1970s and early 1980s, technology and products in the relevant fields revolutionized the industry. This revolutionary change has exploded with the development of high technology, and each company and institution has established a computer communication system between companies and enterprises or between companies and individuals throughout the country or the world to expand various services. Providing. Computer communication system refers to obtaining remote location information using a computer and various communication equipment connected to the computer, for example, a telephone, a fax machine, or a printer. Such computer communication systems include, for example, stock trading, banking, Point of Sales (POS) systems used for automated tasks such as insurance processing, automated teller machine (ATM) devices, large discount stores, chain-type supermarkets, hotel reservation systems, and reservation systems used in aviation and railroads, power generation and dams It is used for automatic control devices used in water level management, mobile communication, factory automation devices, kiosks, guidance systems, etc., and reservation and purchase systems through the Internet.

In particular, as the computing environment has shifted from mainframe-centric central hosting to client-server computing, there has been an increase in the number of branch servers and branch communications equipment deployed throughout the country or around the world. Since the main server or communication equipment of the company is located in an external institution such as the Internet Data Center, the remote control of the client system and communication equipment in the enterprise is being performed remotely, so the necessity of controlling the remote equipment is emerging. .

Among the abnormal types of remote computer and communication equipment, the remote equipment such as the computer is in a stopped state (commonly called a hang state), and the power of the remote equipment is turned on to resume normal operation of the remote equipment. It may be necessary to perform a hard-reset that completely shuts off and powers up again, or to reset the device to its default settings. To do this hard-reset or reset, the operator directly goes to the remote machine and uses the power switch.

However, in the event of an emergency such as a disaster, it is difficult for an operator to reach the location of the remote equipment and it takes a long time to reach, so that the remote control service can be operated for a long time due to the consumption of time during the arrival time. By being suspended, businesses lose money and even become social problems.

In particular, in a place such as a computer center or IDC that has a large number of various systems, when an administrator manually controls the power of a plurality of systems or communication equipments at the same time, the time required for power supply is considerably high. . If the power of a plurality of systems or communication equipment is to be cut off after a while, if the power of the plurality of systems or communication equipment is not normally controlled at the same time, physical adverse effects on the system (for example, a disk read error) May occur). Therefore, when an emergency occurs, it is necessary to prepare a disaster preparedness by directly controlling the power of a remote system and remotely controlling the booting process of the system or communication equipment so that remote actions and preventions can be made. .

Conventional techniques for controlling " off " and " on " of a power source in a remote system are shown in FIGS.

1 shows a schematic diagram of a remote power controller according to the prior art using one input power source.

The remote power controller 10 receives and operates an input power source, and communicates with a remote manager, and includes a power control board 12 equipped with a process module for controlling a power supply of a computer or communication equipment connected to the remote power controller. Power supply connection circuits 13 provided on a printed circuit board for supplying power to a remote device, a socket 14 for power connection of the remote device, and power supply connection circuits according to a command of the power control board 12. One relay means 15 for controlling the power supply by connecting or shortening all of the sockets 13 to the sockets 14 for power connection of the remote equipment.

The remote controller 10 using one input power as described above has the following problems. First, since the remote devices connected to the power control board 12 and the remote controller 10 receive one input power, when the input power of the remote power controller 10 is cut off (the power control board 12 of the When the input power is cut off) or when the power control board 12 is abnormal, the entire remote controller 10 including the remote devices connected to the socket 14 as well as the power control board 12 is brought down. do. Second, since a single input power is used, when an error occurs in the power control board 12 or when an error occurs in a plurality of remote devices, a portion where the error occurs, that is, the power control board 12 or a plurality of remote devices Some of them cannot be selectively reset, but all of the plurality of remote devices including the power control board 12, that is, the powers of all connected systems must be reset. Third, since a plurality of power supply connection circuits 13 are connected / blocked to a plurality of remote device connection sockets 14 by one relay means 15, in the event of a failure of the relay means 15, There is a problem that the power supply is cut off to all remote equipment. And, since the remote power controller 10 uses one input power, the amount of power that can be used is limited. Therefore, when connecting a remote equipment or system that consumes a lot of power to such a remote power controller 10, the power supply to other systems connected to the remote power controller 10 is insufficient, consequently the remote power controller 10 ) Or the other system does not operate normally.

 The remote power controller 20 of FIG. 2 is substantially the same as that of FIG. 1 except that the remote power controller 20 uses two input power sources. That is, the remote power controller 20 supplies a plurality of power supplies provided on a printed circuit board connected to a pair of power control boards 21a and 21b and each power control board 21a and 21b to receive respective input power. Connection circuits 23a and 23b, a plurality of sockets 25a and 25b for power connection of remote equipment, and relays for collectively connecting / shorting each power supply connection circuits 23a and 23b and sockets 25a and 25b. Means 27a, 27b. Accordingly, the remote power controller 20 of FIG. 2 also divides the input power and distributes the number of remote equipment or systems to be connected. do.

Accordingly, an object of the present invention is to provide a remote power controller that can stably supply power to remote equipment.

Another object of the present invention is to provide a remote power controller that enables independent and selective power supply to a plurality of remote equipment.

In order to achieve the objects of the present invention, the remote power controller is connected to the equipment control board, a first power supply for supplying power to the equipment control board, the equipment control board in communication with the remote management server, the equipment A power control board receiving power from a first power supply unit transmitted through a control board and a control signal generated from the remote management server, and independently installed from the first power supply unit, the equipment control board or the first power supply; When an abnormality occurs in the supply unit, the operation is started by the equipment control board, and the second power supply unit supplying power to the power control board and the power control board receiving the control signal flow into the power control board. Supplying power of the first power supply unit or the second power supply unit to a plurality of remote devices; A plurality of switching means adapted to cut off, for example, is to include the SSR.

The plurality of switching means are connected to the plurality of remote devices in a 1: 1 correspondence. In addition, a plurality of inlet ports are provided between the plurality of switching means and the plurality of remote devices, and a plurality of inlet ports to connect power supplied from the plurality of switching means and a plurality of inlet ports to connect the power supplied to the remote device. A plurality of outlet ports and switching elements were connected in a 1: 1 correspondence for each, ensuring the independence of the power supply of each of the remote equipment.

On the other hand, the equipment control board, if there is a problem with the equipment control board, the program to perform the auto-reset only the equipment control board itself, a plurality of switching means and monitoring the power setting state of the port connected to the remote equipment and EEPROM that stores a program for controlling the operation of the power control board according to the result; A processor for driving a program of the EEPROM; A memory unit for storing a result of program execution in an EEPROM by a processor; And a communication module that manages communication with a remote management server. After the auto-reset program is driven, the processor starts the operation of the first power supply connected to the power control board, cuts off the electrical connection between the power control board and the equipment control board, and then connects the equipment control board. Make sure that only the power supply is disconnected / re-supplied.

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

3 shows a schematic diagram of a remote power controller according to an embodiment of the present invention. Remote power controller 30 according to an embodiment of the present invention is a plurality of switching means (36a, 36b, 36c, 36d, ...., 36h), a plurality of switching means (36a, 36b, 36c, 36d, ...) ..., 36h), a power control board 34 for controlling the selective power supply to a plurality of remote devices, a first power supply unit 35 to provide input power for the power control board 34, and a power source. It includes an equipment control board 32 for controlling the operation of the control board 34 and a second power supply 33 for providing input power to the equipment control board (32).

Here, the plurality of switching means 36a, 36b, 36c, 36d, ....., 36h are sockets (38a, 38b, 38c, 38d, ....., 38g of FIG. 4) connected to remote devices. , And are connected to the inlet ports 37a, 37b, 37c, 37d, ....., 37h connected in a 1: 1 manner. In addition, the equipment control board 32 is connected to the power control board 34 through the wiring of the printed circuit board, so that when the remote power controller or the equipment control board 32 operates normally, the power control board 34 is removed. 2, the power supplied from the power supply 33 is received. If there is a problem with the equipment control board 32 or when the equipment control board 32 is reset, the power of the second power supply 33 supplied to the power control board 34 is cut off. The power of the first power supply unit 35 is supplied to the power control board 34.

In addition, the equipment control board 32 is a program for performing a reset of only the equipment control board 32 itself (hereinafter referred to as auto-reset) when there is a problem with the equipment control board 32, and for power connection. Power setting status of the switching means 36a, 36b, 36c, 36d, ....., 36g, 36h and the ports 37a, 37b, 37c, 37d, 37 ... EEPROM 32a, which stores a program for monitoring and controlling the operation of the power control board 34, a processor 32b for driving the program of the EEPROM 32a, and an EEPROM 32a by the processor 32b. And a memory module 32c for storing a result of program execution in the program, and a communication module 32d for managing communication with a remote manager server (71 in FIG. 7).

In this embodiment, for the 1: 1 connection between the ports 37a, 37b, 37c, 37d, ....., 37h and the switching means 36a, 36b, 36c, 36d, ....., 36h. , Solid State Relay (SSR) was used as a switching means. In particular, the SSR is designed to be larger than the processing capacity of the port for connecting the remote device in order to prevent the high voltage consumption generated at the initial power supply of the remote device connected for the remote control. As a specific example, the processing capacity of the SSR is designed to be 25A (210-240V), and the capacity of the port for connecting remote equipment is designed to be about 15A (210-240V).

In addition, the first power supply unit 35 to provide input power dedicated to the power control board 34 at the time of the abnormality or reset of the equipment control board 32, the equipment control board 32 and the normal operation of the remote power controller and Switching Mode Power Supply (SMPS) was used as the second power supply 33 to provide the input power of the power control board 34. Reference numerals 33a and 33b which are not described refer to wire cables connected to the power supply units 33 and 35.

Therefore, since the power control board 34 receives dual power from the second power supply unit 33 through the first power supply unit 35 and the equipment control board 32, the first power supply unit 35 and the first power supply unit 35 2 If any one of the power supply unit 33 is abnormal, since the remote devices are stably supplied with power through the power control board 34, these remote devices and the power control board 34 will operate normally. . In other words, the power state of the computer and communication equipment connected to the remote controller 30 according to the present invention for remote power control whether the abnormality or normal operation of the equipment control board 32, the power supply of the equipment control board 32 is stopped. Since the normal control is continuously received through the power control board 34 which receives the input power from the power supply unit 35, irrespective of the abnormality of the power supply unit 33 of the equipment control board 32, the equipment control board 32 There is no change in the total power supply of the remote power controller due to the failure of the has a high stability.

On the other hand, since the EEPROM 32a of the equipment control board 32 has an auto-reset execution program built-in, when an abnormality occurs in the equipment control board 32 (S11), the equipment control board ( 32) performs auto reset. First, the auto-reset program provided in the equipment control board 32 is driven (S12), and the equipment control board 32 is initialized (S12a). At this time, the processor 32b of the equipment control board 32 starts the operation of the first power supply unit 35 connected to the power control board 34 and electrically connects the power control board 34 and the equipment control board 32. To block and then perform a command for blocking / resupplying only the power of the second power supply 33 which is connected to the equipment control board 32. Therefore, only the equipment control board 32 is reset, and at this time, the power control board 32 receives input power from the first power supply 33 without being affected by the reset operation of the equipment control board 32. That is, since the equipment control board 32 has a dedicated second power supply 33 which is installed independently of the first power supply 35 of the power control board 34, when the equipment control board 32 is reset In this case, only the equipment control board 32 is initialized and the state of the power supply control board 34 remains unchanged.

Next, check the input power state of the power control board 34, that is, whether or not the input power for the operation of the remote equipment is the "on (power supply)" state (step S12b). Next, the power supply state of the equipment control board 32 is stored in the memory 32c as a registry value (step S12c).

As described above, when there is an abnormality of the equipment control board 32, only the equipment control board 32 is reset through the second power supply 33, and the power control board 34 is the first power source. Since the input power is supplied from the supply unit 35, the power control board 34 and the remote devices connected to the power control board 34 are normally not operated without being reset.

And, in order to ensure the independence of the supply and control of the input power supplied to each of the remote equipment, the ports (37a, 37b, 37c, 37d, ...., 37h) connected to the remote equipment as described above And a plurality of SSRs 36a, 36b, 36c, 36d, ....., 36h as well as 1: 1, as shown in FIG. 4, ports 37a, 37b, 37c, 37d, ... .., 37h) and the sockets 38a, 38b, 38c, 38d, ....., 38h to be connected to the remote equipment are connected 1: 1 and also the SSRs 36a, 36b, 36c, 36d,. ..., 36h) and the sockets 38a, 38b, 38c, 38d, ....., 38h are also connected 1: 1. That is, when the first SSR 36a is "on" connected by the power control board 34, the first port 37a and the first socket 38a connected to the first SSR 36a are connected to each other. Only one remote device connected to the socket 38a is powered or its power is reset. And if there is an abnormality of the first SSR, the first port or the first socket, the power supply to the external equipment connected to the other SSR, port or socket except for the SSR, the port or the socket having the abnormality is not disturbed. 3 and 4 illustrate eight SSRs, eight ports, and eight sockets, respectively. In addition, since the SSR is installed in a 1: 1 relationship corresponding to each external device, it is possible to provide an independent high capacity voltage to a remote device such as a computer or a communication device connected to each SSR.

Here, the ports 37a, 37b, 37c, 37d, ....., 37h are referred to as "inlet ports" as a part of receiving power from the SSR, and in contrast, for supplying power to a remote device. The sockets 38a, 38b, 38c, 38d, ..., 38h are referred to as "outlet ports".

In addition, the remote manager has a power supply passage that is supplied to the remote equipment is SSR (36a, 36b, 36c, 36d, ...., 36h), inlet ports (37a, 37b, 37c, 37d, ...., 37h) and the outlet ports 38a, 38b, 38c, 38d, ....., 38h, it is possible to easily determine in which part of the path the abnormality occurred.

6A and 6B illustrate the appearance of a remote power controller according to an embodiment of the present invention, and equipment for supplying power to the equipment control board (32 of FIG. 3) and the power control board (34 of FIG. 3) during normal operation. / Power control port 33a, power control board 33b for supplying power exclusively to power control board (34 in FIG. 3) in case of an error, inlet port (37) connected to SSR of remote power controller (ah)) and an outlet port 38 (ah) that is connected to power remote equipment such as computers. In particular, FIG. 6A shows a console port 41 used when the communication method between the remote power controller and the manager server is serial communication or when using a dial-up modem. In FIG. 6B, a LAN is used as a communication method. The LAN 42 is shown.

Particularly, in the present invention, the equipment / power control port 33a and the power control port 33b are provided so that the power supply to the equipment control board 32 and the power control board 34 is always switched to the power socket, not to the switching method. Plugs extending from the ports 33a and 33b must be connected to supply power. The reason for adopting this method is to prevent accidents that may be caused by accidentally touching the power switch due to an operator's mistake.

Referring now to FIG. 7, look at a remote power control system comprising a remote power controller (30 of FIG. 3) according to the present invention. The remote power control system is configured to supply power to the remote power controller 30, the remote equipment 77 and 78 connected to the remote power controller 30, and the remote equipment 77 and 78 through the remote power controller 30. It includes a management server 71 to direct the.

First, in order to control the power of a remote device connected to the remote power controller through the management server 71, the remote manager communicates with the remote power controller 30 to the management server 71 and then the remote power controller 30. ) And a GUI program to control the operation of the remote devices. On the other hand, the remote power control system includes a router 74c for LAN communication and a router 74a and 74b for connecting the management server 71 to the remote power controller 30, or a dial modem 73a for modem communication. 73b) is installed. In addition, the LAN communication may be connected to the remote power controller 30 through the intermediate server 72 or may be directly connected to the remote power controller 30 through the router 74b.

First, when power is supplied to the equipment control board 32 of the remote power controller 30 through the second power supply 33, the processor 32b of the equipment control board 32 drives the program of the EEPROM 32a. Initializes the equipment control board 32, connects the ID, password, access time, reserved power control information, power supply status for each power control port and the like stored in the memory unit 32c through LAN communication. Read the data containing the visitor's own IP address for the connection. In addition, the processor 32b may control the SSRs 36a, 36b, 36c, 36d,..., 36g, 36h controlled by the power control board 34 from the power control board 34 and the inlet ports 37a, 37b. , 37c, 37d, ...., 37g, 37h) and outlet ports 38a, 38b, 38c, 38d, ..., 38g, 38h Hand over data about power reservation information and grasp that data.

Then, the processor 32b of the equipment control board 32 receives the identified data, and compares the data with the data of the respective power control ports read from the memory unit 32c during the initialization process. If it matches, it determines that the power supply to that port is normal.

If normal, the communication program module 32d for communication with the management server 71 is driven to make a communication ready state. If there is a port for power control that does not match the data or there is a port whose data is unknown in the above comparison process, the ports are determined to be abnormal, in this case, the processor 32b of the equipment control board 32 Requests the power control board 34 to re-check the power setting state to the remote device and update the data in the memory unit 32c.

In this way, waiting for the request of the "gui program installed in the management server 71 for remote control" in the state that the operation of the equipment is completed.

The GUI program module of the management server 71 is driven to connect the management server 71 to the remote power controller 30 according to the present invention includes LAN communication, communication through a serial connection with a PC connected to the LAN, and Communication via a dial-up modem, and the like. When accessing the remote power controller 30 through the GUI program module performs a procedure for checking the ID and password for user authentication. When the user authentication is completed, the processor 32b of the device control board 32 runs a program of the EEPROM 32a to display the connection state between the remote device and the SSR, the inlet port, and the outlet port, that is, the power setting state data of the remote device. It grasps and transfers it to the management server 71, and this data is displayed on the screen through the GUI program module. If the user wants to change the setting information on the power supply of the remote device through the GUI program module, the GUI program module communicates with the program module stored in the EEPROM 32a of the device control board 32 to manage the server 71. To perform the data change execution, and the processor 32b of the equipment control board 32 instructs the power control board 34 to perform such data change execution. Then, the power control board 34 executes the instruction to perform power connection / blocking of the ports corresponding to the corresponding SSRs among the plurality of SSRs and the plurality of inlet ports, and the result is returned to the equipment control board 32. Notify the program module. Such notification is transmitted to the GUI program module of the management server 71 again through the communication module 32d, and the result of the GUI method is displayed on the screen of the management server 71. On the other hand, since the GUI program module is installed in the management server 71, it is easier to manage when controlling the power supply of a plurality of remote equipment through a plurality of remote power controller. In particular, the current power status of each remote device can be expressed in a GUI method and can be configured and used to easily recognize the power status. Also, the ID and password for user authentication can be changed remotely through the GUI. The memory section 32c of the board 32 is stored.

However, as described with reference to FIGS. 3 and 4, the equipment control board 32 and the power control board 34 of the remote power controller 30 receive the corresponding power from the power supply units 33 and 35, in particular, power control. In addition to the power provided from the dedicated power supply unit 35, the board 34 is also supplied with the power of the power supply unit 33 for the equipment control board provided through the equipment control board 32. Therefore, when grasping or changing the power setting state of the remote equipment by using the remote power controller 30 according to the present invention, it is not significantly affected by the abnormalities of the equipment control board 32 and the power supply units 33 and 35. You can do your work.

In addition, as the switching means for controlling the connection / short circuit by the power control board 34, an SSR disposed 1: 1 in each of the external equipment is used, and the SSR and the inlet port and the outlet port are connected 1: 1. . In other words, by connecting the remote device and the input part of the power supplied to the remote device in a 1: 1 connection, the power supply control operation to the other power input part and the external device connected thereto by the abnormal power input part. This has not been affected.

Therefore, when the remote power control system including the remote power controller 30 according to the present invention is used, the power supply to the remote equipment can be made more stable.

Meanwhile, the remote power controller according to the present invention can also be used as a console controller. For this purpose, the serial port of the remote power controller 30 may be connected to the console of the communication device 77 or the corresponding Unix system 78 by a serial cable. After the connection is completed, the administrator can perform the console role of the communication device 77 or the UNIX system 78 remote from the management server 71 or his PC through the remote power controller 30. That is, the operation control command of the communication device 77 or the Unix system 78 transmits the GUI program of the administrator's own PC 71 to the device control board 32 by accessing the operation program of the device control board 32. In addition, the equipment control board 32 again controls the operation of the power control board 34, the power control board 34 is a communication device 77 which is a remote device connected to the serial port 39 or outlet port 38. Or the operating state of the corresponding Unix system 78.

The remote power controller according to the present invention is a power control board for performing a connection / short operation of an equipment control board 32 that communicates a control device therein with an administrator and transmits a control command and a switching element for actually supplying power ( 34) and each of them has a dedicated power source, and in particular, the input power of the power control board 34 is introduced through two paths, 1) when a failure of the equipment control board 32, 2) When the equipment control board 32 is reset, 3) When the power supply of the equipment control board 32 is stopped, 4) When the power supply 33 for the equipment control board 32 is broken, 5) The equipment control board 32 When the power supply to the power supply 33 is cut off, 6) when the power supply of the power control board 34 is interrupted, 7) when the power supply 35 for the power control board 34 is broken, or 8) When the power supply to the power supply 35 for the power control board 34 is cut off The power supply to the power control board 34 and the remote device connected thereto can be normally performed, so that there is no change in the state of the power control board 34 so that the power of the system and the communication device connected to the remote power controller 30 are maintained. Eliminating the risk of supply interruption or reset.

In addition, by separately configuring the input power supply portion and the output power supply portion of each of the plurality of external devices, even if there is an error in the input power supply portion of any one external device does not affect the operation of the other external device at all.

In addition, when an external device such as a communication device is connected to the serial port or the outlet port of the remote power controller, the remote administrator can control the operation of the external device through his computer, so that the remote power controller is used as a console controller. Can also be used.

1 is a schematic diagram of a remote power controller according to an example of the prior art.

2 is a schematic diagram of a remote power controller according to another example of the prior art.

3 is a schematic diagram of a remote power controller according to an embodiment of the present invention.

4 illustrates a port connection state of a power control board of a remote power controller according to an embodiment of the present invention.

5 is a flowchart showing an auto-resetting process of the equipment control board.

6a and 6b are views showing the appearance of the remote power controller of the present invention.

7 shows a schematic diagram of a remote power control system including a remote power controller according to the present invention.

Claims (7)

Equipment control board for communicating with a remote management server, A first power supply unit supplying power to the equipment control board; A power control board connected to the equipment control board, the power control board receiving power of a first power supply unit transmitted through the equipment control board and a control signal generated from the remote management server; A second power source that is installed independently of the first power supply unit and is operated by the equipment control board when an abnormality occurs in the equipment control board or the first power supply unit and supplies power to the power control board; Supply and A plurality of switching means configured to supply or cut off the power of the first power supply unit or the second power supply unit introduced to the power control board to a plurality of remote devices by the power control board receiving the control signal; Including a remote power controller. The remote power controller as set forth in claim 1, wherein said plurality of switching means comprises an SSR. The remote power controller as claimed in claim 1, wherein the plurality of switching means are connected in a 1: 1 correspondence with the plurality of remote devices. According to claim 2 or 3, Between the plurality of switching means and the plurality of remote equipment to connect a plurality of inlet port receiving power from the plurality of switching means and the power supplied to the remote equipment And a plurality of outlet ports, wherein the plurality of inlet ports, the plurality of outlet ports, and the switching elements are connected to each other in a 1: 1 correspondence. 5. The remote power controller of claim 4, wherein the capacity of the inlet port is designed to be larger than that of the outlet port. The apparatus of claim 1, wherein the equipment control board is connected to the program, the plurality of switching means, and the remote device to perform an auto-reset only for the equipment control board itself when there is an error of the equipment control board. EEPROM that stores a program for monitoring the power setting state of the port and controlling the operation of the power control board according to the result; A processor for driving a program of the EEPROM; A memory unit for storing a result of program execution in the EEPROM by the processor; and And a communication module for managing communication with the remote management server. 7. The system of claim 6, wherein after the auto-reset program is driven, the processor initiates operation of a first power supply connected to the power control board and establishes electrical connection between the power control board and the equipment control board. And blocking and resupplying only power of a power supply unit connected to the equipment control board.