JPH1097354A - Uninterruptible power source connecting method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To guarantee the saving time for application, etc., by starting a saving process for the execution state of the application, etc., on receiving a power failure detection output signal from a 1st UPS(uninterruptible power unit) in case of a power failure, and then starting a forcible shutdown process on receiv ing a power failure detection output signal from a final UPS unless the power supply recovers. SOLUTION: When the AC power source of a UPS 101 is turned OFF, UPSs 101 to 103 start backup processes by a battery 108. Once, however, the UPS 101 starts the backup process, the UPSs 102 and 103 are supplied with electric power, so the backup process is quit. A system control part 105 recognizes the power failure and saves the execution states of application programs, etc. Then when a power failure state is entered again a backup time later and the final UPS starts the backup process, the saving process for the power failure is not completed, so the device 104 forcibly performs the shutdown process.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to an information processing system, and more particularly to an uninterruptible power supply connection method for backing up a system by cascading UPSs.

[0002]

2. Description of the Related Art For example, Japanese Unexamined Patent Publication No.
In the UPS disclosed in Japanese Patent No. 26119, a shutdown sequence is started after a power failure is detected, and the UPS
And stops the output to prevent discharge, and automatically resets and starts the system when power is restored.

[0003]

In the prior art, since the power failure detection is unique, a forced shutdown must be started simultaneously with the power failure detection. That is, since the process of saving the execution state of the application or the like cannot be performed, it takes time to perform the recovery process after the recovery from the power failure.

[0004] Further, depending on the use state of the user, it may be impossible to recover the file in use.

[0005] Further, the backup device and the UPS have a 1: 1 ratio.
Yes, a UPS that matches the load capacity of the backup target device is required.

[0006] Further, as the load capacity of the backup target device has increased, a large-capacity UPS corresponding to it has been required.

[0007] If the capacity of the UPS is insufficient, problems such as the inability to guarantee the backup or a sufficient backup time may occur. In addition, it is necessary to design a large-capacity UPS because margins such as battery charging conditions, ambient temperature, and maximum load capacity must be considered.

[0008] When a large-capacity UPS is to be connected, there is a problem that the charging time is prolonged, and it is necessary to increase the capacity of the charging circuit or arrange menus according to the load capacity.

An object of the present invention is to secure an evacuation time by giving an opportunity to start evacuation of an execution state of an application or the like before starting a forced shutdown.

Another object of the present invention is to make it possible to cope with an increase in load capacity without increasing the number of UPS menus.

[0011]

In order to solve the above-mentioned problem, a plurality of UPSs are connected in cascade, and each UPS detects a power failure and outputs a power failure detection output signal for notifying to the outside that the battery is in a battery backup state. On the other hand, the backup target device has two ports, an evacuation processing port and a shutdown processing port for receiving a power failure detection output signal from the UPS.
A port is provided, and when a power outage occurs, the backup target device is
Upon receiving a power failure detection output signal from the first UPS at the evacuation processing port, the system control unit starts evacuation processing of an execution state of an application or the like. When power is not restored, the Nth last UPS is transmitted to the shutdown processing port. In response to the power failure detection output signal, the system control unit has a function of activating a forced shutdown process by the OS of the backup target device.

In addition, the system control unit is provided with a function of outputting a control signal for shutting off a power supply output of the UPS at the same time as the shutdown is completed. Each UPS is provided with a power supply control for cutting off the power supply output by the control signal. Provide an input port.

When each UPS performs charging, a charging circuit is provided for each UPS.

Further, the plurality of UPSs are cascade-connected, and in the event of a power failure, backup is started sequentially from the first UPS, the backup is taken over, and the backup is continued until the power output of the last UPS is cut off.

[0015]

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

FIGS. 1 and 2 show an embodiment of the present invention.

In the figure, 101 to 103 are UPS, 1
04 indicates a backup target device. 105 is a system control unit in the backup target device, 106 is UP
S is a charging circuit in S, 107 is a power failure detection circuit in UPS, 1
08 is a battery in the UPS, 109 is a power failure detection signal CB
L and 110 are power ON / OFF CBLs.

In this embodiment, the device 104
Input the output of PS103, UPS10 to UPS103
2 and the output of the UPS 101 is input to the UPS 102.

The power failure detection signal CBL 109 is
A signal is input to the system control unit 105 from the UPS 103 and connected to the device 104. UPS101
The battery 108 is charged by the charging circuit 106 in the sections 103 to 103. SW1 is usually connected to 1 side,
At the time of power failure, the power failure detection circuit 107 connects to the second side.

When a power failure occurs in this embodiment, the following operation (FIG. 2) is performed.

The AC power input to the UPS 101 is OF
F (the power failure occurs in FIG. 2).
10 to 103 instantaneously detect the power failure by the power failure detection circuit 107 and start the backup from the battery 108 by switching SW1 to the second side. However, when the UPS 101 starts the backup, power is supplied to the UPSs 102 and 103, so that it is determined that the power is restored, and the backup is stopped by setting SW1 to 1 side.

The power failure detection circuit 107 provides a UPS
The power failure detection signal CBL109 connected to 101 is
By transmitting and holding a signal indicating that a power failure has occurred to the device 104, the system control unit 105 recognizes the power failure and shifts to processing for saving the execution state of an application program or the like.

Next, when the backup time of the UPS 101 elapses, the power is restored again. So UPS102,1
03, a power failure is detected by the power failure detection circuit 107, and SW
The backup is started from the battery 108 with 1 being placed on the 2 side. However, when the UPS 102 starts the backup, power is supplied to the UPS 103, so that it is determined that the power has been restored, and the power failure detection circuit 107
And cancel the backup.

Next, when the backup time of the UPS 102 elapses, the power is restored again. So UPS103,
The power failure is detected by the power failure detection circuit 107, and the backup is started from the battery 108 by switching SW1 to the second side. Further, the power failure detection circuit 107 uses the power failure detection signal CBL109 connected to the UPS 103 to cause the device 104 to recognize that backup by the last UPS has started. Accordingly, when the evacuation process at the time of the power failure has not been completed, the device 104 forcibly performs the shutdown process.

The power ON / OFF signal CBL 110
After the shutdown of the device 104 is completed, the UPS 101
System control unit 105 to prevent power consumption of
Power on / off of UPS 101-103
It is turned off by the signal CBL110, and the UPS 101 to 1
03 power supply output is shut off.

Thus, the consumption of the battery power can be prevented.

In this embodiment, the signal CBL 110 is connected in a twisting manner, but it may be connected from the apparatus 104 to each UPS in a (star) manner.

When the UPSs 101 to 103 perform charging, since the UPS 1 of each UPS is normally connected to one side, AC power is input to the UPSs 101 to 103 at the same time and the charging circuit 106 is connected to each UPS. Is provided, the UPSs 101 to 103 can be charged simultaneously. As a result, even if the total backup capacity increases,
The charging time is equivalent to one UPS, and charging can be performed in a fixed charging time without increasing the capacity of the charging circuit.

As described above, the backup time can be arbitrarily extended by connecting a plurality of the same type of UPS.

Further, when the load capacity of the backup target device is large and the capacity of the UPS is insufficient, a backup for a certain period of time can be secured by this method.

[0031]

According to the present invention, an evacuation time for an application or the like can be secured.

Further, it is possible to back up the capacity according to the load of the apparatus for a certain period of time using only one kind of UPS.

Further, even if the backup capacity increases, it is possible to charge the battery for a fixed charging time without increasing the capacity of the charging circuit.

[Brief description of the drawings]

FIG. 1 is a UPS connection diagram in one embodiment of the present invention.

FIG. 2 is an operation diagram at the time of a UPS power failure in one embodiment of the present invention.

[Description of Signs] 101, 102, 103 ... UPS, 104 ... device, 10
5: System control unit, 106: charging circuit, 107: power failure detection circuit, 108: battery, 109: power failure detection signal C
BL, 110: Power ON / OFF CBL.

Continuing from the front page (72) Inventor Atsushi Fujimura 1 Horiyamashita, Hadano-shi, Kanagawa Prefecture Within Hitachi Information Technology Co., Ltd. (72) Kazuo Morita 810 Shimo-Imaizumi, Hitachi, Ltd.

Claims (4)

[Claims] In a system for information processing or the like having a power failure backup function, a plurality of uninterruptible power supplies (hereinafter referred to as UP
S (abbreviated as S) is cascaded, and in the event of a power outage, backup is started sequentially from the first UPS, and the Nth final UP
Backup is continued until the power output of S is cut off, and each UPS is provided with a power failure detection output signal that detects a power failure and notifies the outside that a battery backup state has been entered.
On the other hand, the backup target device is provided with two ports, an evacuation processing port for receiving a power failure detection output signal from the UPS and a shutdown processing port. When a power failure occurs, the backup target device is connected to the evacuation processing port from the first UPS. In response to the power failure detection output signal, the system control unit activates the evacuation processing of the execution state of the application or the like.
After receiving a power failure detection output signal from the PS, the system control unit provides a function to start a forced shutdown process by the OS of the backup target device, so that the evacuation time of applications and the like after the power failure is detected is secured.
A method of connecting an uninterruptible power supply, which starts a forced shutdown and enables a smooth restart of the system upon power recovery. 2. The system control section has a function of outputting a control signal for shutting off a power supply output of the UPS at the same time as the shutdown is completed. Each UPS has a power supply control for cutting off the power supply output by the control signal. 2. The uninterruptible power supply connection method according to claim 1, wherein the provision of the input port prevents power consumption of the UPS battery by immediately turning off the power supply after the shutdown of the backup target device is completed. 3. When each UPS performs charging, the charging circuit is provided for each UPS and charged at the same time, so that the capacity of the battery and the charging circuit is increased even if the capacity of the backup target device is increased. The uninterruptible power supply connection method according to claim 1, wherein the battery can be charged for a fixed charging time. 4. A cascade connection of a plurality of UPSs, and a backup is sequentially taken over from the first UPS, so that one type of UPS is cascade-connected to a large or small load capacity of a backup target device and a constant load. 2. The method according to claim 1, wherein the backup time is extended.
The uninterruptible power supply connection method described.