KR20020086118A - Shutdown system control method - Google Patents

Abstract

PURPOSE: A shutdown system control method is provided to store data in execution and to automatically shutdown a system if electric power is interrupted and then a set interruption compensation time has passed so that it can stably manage data and definitely secure a system. CONSTITUTION: The method comprises steps of a boat monitoring a power interruption state by checking a current flow at a UPS(Uninterruptible Power Supply) or an external power source(S10), a master checking if a power interruption message is received(S20), the master transmitting the power interruption message to all the slaves connected over a network if the power interruption message is received(S30), the slaves checking if a power recovery message is received(S40), the slaves waiting for a shutdown operation for a set time if the power recovery message is received(S50), the slaves finally checking if the power recovery message is received(S60), the slaves automatically storing the data and shutting down the system if the power recovery message is not received(S70), and the slaves stopping the system shutdown operation and returning to the step S10 if the power recovery message is received.

Description

Shutdown system control method

The present invention relates to a method for controlling a shutdown system. More particularly, the present invention relates to a method for controlling a shutdown system that automatically stores data that is being executed and shuts down the system after a set power failure compensation time has elapsed.

Uninterruptible Power Supply (UPS) is an equipment to prepare for unstable power condition caused by power failure, voltage fluctuations, frequency fluctuations, noise, etc., and it is an expensive equipment that requires stable power supply of constant frequency. It is used for protection and data loss prevention.

However, the conventional UPS provides only an extension of the power failure time, so that, for example, if the power failure persists beyond the power failure compensation time, the UPS shuts down the system without an administrator, making it impossible for the administrator to deal with the data loss. Or equipment breakage may occur. Such problems can result in damage to corporate image and financial loss.

The present invention has been made to solve the conventional problems as described above, the object of the present invention is to automatically shut down the equipment and UPS after the power failure compensation time set at the time of power failure to prevent unauthorized system shutdown To provide a way to control the shutdown system.

1 is a block diagram of a shutdown system for implementing the present invention.

2 is a schematic flowchart of a method of controlling a shutdown system according to the present invention;

3A and 3B are detailed flowcharts of a method for controlling a shutdown system according to the present invention.

4 is a message flow diagram that a boat and a master exchange with a boat, usually.

FIG. 5 is a message flow diagram of a master and a boat exchanging a master.

6 is a message flow diagram that the master and the boat exchange in a power outage (power failure and power recovery).

Explanation of symbols on the main parts of the drawings

10: UPS 12: Boat

15: master 18, 20, 22: slave

In order to achieve the above object, a method for controlling a shutdown system according to the present invention includes a first step of monitoring a power failure situation by a boat checking current flow from a UPS and an external power source; A second step of a master checking whether a power failure message is received from the boat, wherein a power failure notification message is sent to a slave if a power failure message is received, and continuously monitoring the power failure situation; And a third step of checking, by the master, whether to receive a power recovery message from the boat, and when a power recovery message is received, sending the power recovery message to the slave to stop the shutdown, otherwise Wait for a set time value; And a fourth step in which the master checks again whether or not a power recovery message has been received from the boat, wherein if a power recovery message has not been received during the preset time value, automatically saving data and shutting down the system. It features.

The second step may further include transmitting a power failure message to the slave after waiting for a predetermined time when the master receives the power failure message; In the third step, when the power recovery message is not received, the master sends a power failure message to the slave, the slave sends a power failure confirmation message to the master, and the master sends a power failure confirmation message indicating a continuous power failure situation. Sending to a slave; In the fourth step, when the power is restored, the master transmits a power recovery message indicating that power has been restored to the slave, and the shutdown is stopped according to the message.

Preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

1 is a configuration diagram of a shutdown system for implementing a method according to the present invention, the UPS (10) for supplying a constant stable power as the power capacity charged during power failure, and the boat (12) for checking the power failure situation ), A master (15) for processing messages sent from the boat (12), and slaves (18, 20, 22) connected on a local network and controlled by the master (15).

Looking at the operation of the shutdown system configured as described above, the UPS 10 is directly supplied through a power cable to the stable power supply to the boat 12, the master 15, and the slave (18, 20, 22) The boat 12 is directly connected to an external power source and connected to the UPS 10 to generate a corresponding message when a power failure or power is restored and to communicate with the master 15 through an I / O port cable. Replace it. In addition, the master 15 exchanges information with the boat 12 and the slaves 18, 20, 22, which may be configured as a first master 14 and a second master 16 in case of a failure. Can be.

2 is a schematic flowchart of a method for controlling a shutdown system according to the present invention. First, the boat 12 checks the current flow from the UPS and the external power source to monitor the power failure situation (S10).

Next, the master 15 checks whether a power failure message has been received (S20). If the power failure message is not received, the master continuously monitors the power failure situation and, if the power failure message is received, is connected to the local network. The power failure message is transmitted to all slaves 18, 20, and 22 (S30).

Next, when the slave 18, 20, 22 receives the power failure notification message, it is checked whether the power recovery message has been received (S40). At this time, if the power recovery message is not received for a preset time value, the predetermined value Wait for shutdown (S50). In addition, when the power recovery message is received in step S40, the process returns to step S10 of stopping the shutdown process and checking the power failure situation accordingly.

Next, it is checked once again whether a power recovery message is finally received (S60). If the power recovery message is not received, data is automatically stored and the system is shut down (S70). In addition, when the power recovery message is received in the step S60 as in the step S40, the process returns to the step S10 of stopping the shutdown and checking the power failure situation accordingly.

3A and 3B are detailed flowcharts of a method for controlling a shutdown system according to the present invention.

Referring to the drawing, in step S100, the master 15 waits to receive the power failure message from the boat 12 and checks whether the slaves 18, 20, and 22 are connected. Here, the master 15 checks the IP of the slave when the slaves 18, 20, and 22 are connected, and if the registered IP is the registered IP, reregisters the IP with the current time in order to check the recent connection status of the slave. If not, IP registration of the slave is performed through the IP registration procedure. Detailed description thereof will be omitted.

Next, in step S200, the master 15 checks whether a power failure message has been transmitted from the boat 12. When the master 15 receives the power failure message, each slave 18 waits for a predetermined time. 20 and 22 transmit the power failure message (S300), and if the master 15 does not receive the power failure message, the process returns to step S100. The reason for waiting for a predetermined time in step S300 is to prepare for the occurrence of a momentary power failure that is immediately restored within a few seconds.

Next, in step S400, the master 15 checks whether a power recovery message has been sent from the boat 12. If the power recovery message is not received, the master 15 transmits a power cut message (PCM: Power Cut Message) to the slaves 18, 20, and 22 (S500), and if a power recovery message is received, returns to step S100.

When the slaves 18, 20, 22 receive a power failure message from the master 15, the slaves 18, 20, 22 transmit a power cut message question (PCMQ) to the master 15. After checking the power failure confirmation message transmitted from the slave (S600), the master 15 transmits a power cut message true (PCMT: Power Cut Message True) indicating a continuous power failure situation to the slaves 18, 20, and 22. (S700).

Next, the master 15 waits for a preset shutdown waiting time after transmitting the power failure confirmation message (S800). At this time, the slaves 18, 20, and 22 also wait for a preset shutdown waiting time like the master 15.

Next, to check whether the power is restored (S900), if the power outage is continuously maintained, the system including the UPS 10, the master 15 and the slave (18, 20, 22) automatically shuts down after storing the data. (S1000). If the power is restored, the master 15 transmits a power recovery message (PSM: Power Survival Message) indicating that the power has been restored to the slaves 18, 20, and 22, and the shutdown is stopped and restarted according to the message. Return to step S100.

Hereinafter, referring to FIGS. 4 to 6, the messages exchanged between the boat and the master, the master, and the slave under normal and power failure situations are as follows.

First, each message is defined as follows.

Boat Alive Message (BAM):

This message is sent to the master when the boat is operating. It is a message sent periodically to mean that the boat is operating.

MAM (Master Alive Message):

This message is sent when the master is running or when it is stopped and reactivated due to other problems.

Master Down Message (MDM):

This message is sent when the master is terminated by the user.

Power Alive Message (PAM):

A message sent as a signal that power has been restored when a power outage is restored.

Power Down Message (PDM):

This message is sent as a signal that power failure is detected.

FIG. 4 is a message flow diagram that a boat and a master exchange with a boat. When the boat is in operation, it transmits one BAM to the master. If there is no response from the master, the boat enters the standby mode (MSB off). Next, when the master is operating, the master sends the MAM to the boat, which periodically sends the BAM to the master as it enters the MSB on state. Here, the MSB is a master status bit, and when the master operates, the MSB is on, and when the master does not operate, the MSB is off.

5 is a signal flow diagram that a boat is normally exchanged with a master around the master. The MAM is sent to the boat with the master running. The master receives periodic BAM from the boat, and if no BAM is received from the boat, the master enters standby mode. When the BAM is not received for about 2 minutes in the standby mode, the boat is periodically notified of the boat inoperation while waiting for a signal from the boat. In addition, when the master is stopped by the user, the master sends the MSM by boat. During normal operation, the master sends a MAM to the boat and receives a BAM from the boat.

6 is a message flow diagram that the master and the boat exchange in a power failure situation (power failure and power recovery). As shown, the boat and the master periodically exchange BAM and MAM, and when a power failure occurs, the boat transmits PDM to the master to inform the power failure situation, and then when the power is restored, the boat transmits PAM to the master to recover power. Inform the situation.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the technical spirit of the present invention for those skilled in the art to which the present invention pertains. It is not limited to.

According to the method for controlling the shutdown system of the present invention, the problem of unauthorized system shutdown is solved, so that more reliable system protection is possible with stable data management. As a result, it can have side effects of enhancing corporate image and strengthening customer service.

Claims (4)

A UPS that provides a constant and stable power supply as long as the power capacity charged during a power outage, a boat for checking a power outage, a master for processing messages transmitted from the boat, and a slave connected to the local network and controlled by the master. In a method for controlling a shutdown system consisting of, A first step in which the boat checks the current flow from the UPS and an external power source and monitors the power failure situation; A second step of the master checking whether to receive a power failure message from the boat, if a power failure message is received, sending a power failure notification message to the slave; otherwise, continuously monitoring the power failure situation; And a third step of checking, by the master, whether to receive a power recovery message from the boat, when the power recovery message is received, sending the power recovery message to the slave to stop the shutdown, otherwise Wait for a set time value; And a fourth step in which the master checks again whether or not a power recovery message is received from the boat, wherein if a power recovery message has not been received during the preset time value, the system automatically stores data and shuts down the system. Characterized by a method of controlling a shutdown system. The method of claim 1, wherein the second step, Sending a power failure message to the slave after waiting for a predetermined time when the master receives the power failure message. The method of claim 1, wherein the third step, When the power recovery message is not received, the master transmits a power failure message to the slave, the slave transmits a power failure confirmation message to the master, and the master transmits a power failure confirmation message to the slave informing of the continuous power failure situation. The method of controlling a shutdown system further comprising. The method of claim 1, wherein the fourth step, When the power is restored, the master transmits a power recovery message indicating that power has been restored to the slave, and the shutdown is stopped according to the message.