JP3502505B2 - Uninterruptible power system - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an uninterruptible power supply for supplying AC power to a personal computer, a workstation or the like. 2. Description of the Related Art In an information processing apparatus such as a personal computer or a work station, when a commercial AC power supply is cut off, data being processed is lost or destroyed. Therefore, this type of information processing apparatus is provided with a battery and an inverter for converting the DC output voltage of the battery into an AC power supply. An uninterruptible power supply that supplies the information processing device instead of the power supply is added as needed. [0004] When the conventional uninterruptible power supply detects a power failure of the commercial AC power supply, it immediately switches to a backup state by an inverter, transmits a power failure report signal to the information processing apparatus, and processes the information processing apparatus. If a termination process such as a process of saving intermediate data is executed, and a battery backup stop signal is returned from the information processing device to the uninterruptible power supply with the completion of the termination process,
The backup by the inverter was stopped to prevent wasteful consumption of the battery. [0005] However, in the conventional uninterruptible power supply, no consideration is given to the case where the commercial AC power supply is restored, so that the commercial AC power supply is restored. In such a case, the power-on switch of the information processing apparatus must be manually operated to turn on the power of the information processing apparatus. [0006] Further, if the staff member does not notice that the power has been restored after a temporary power failure due to the absence of a staff member or the like, the state in which the power is not turned on until the staff member notices that the power supply continues continues. There were problems such as a decrease in the operation rate of the device. SUMMARY OF THE INVENTION An object of the present invention is to provide an uninterruptible power supply capable of automatically turning on a power supply of an information processing device or the like without manual intervention when a commercial AC power supply temporarily loses power and is restored. Is to do. [0008] To achieve the above object, according to an aspect of, the uninterruptible power supply of the present invention is supplied to the utilization device switches between the output AC power of the inverter and the commercial AC power source A switch, storage means for storing a power failure detection signal indicating that the commercial AC power supply has failed, and switching the switch when detecting that the commercial AC power supply has failed, to output the output of the inverter to the utilization device. An AC power supply is supplied to make a backup state, the power failure detection signal is stored in the storage means, a power failure report signal is output to the use device, and “0” indicating completion of the termination process is output from the use device. A power failure detection means for returning the switch to the commercial AC power supply side and receiving a backup release state when receiving a battery backup stop signal of a level ; If a power failure detection signal is stored in the storage unit when the commercial AC power is restored, a power-on signal for setting the power control circuit of the utilization device to a state equivalent to a state in which a power-on switch is turned on is provided. Output to the device
Backup stop signal from the device
Becomes “1” level, indicating that it is in the normal operating state.
When the AND condition with the power-on signal is satisfied,
Power-on signal output means for resetting the storage means . Embodiments of the present invention will be described below in detail with reference to the drawings. FIG. 1 is a circuit diagram showing an embodiment of an uninterruptible power supply to which the present invention is applied. The uninterruptible power supply 1 of this embodiment is inputted via a plug 10 and a circuit breaker 11. Commercial AC power supply (AC100V)
A power failure detection circuit 12 for detecting that a power failure has occurred, a charging circuit 13 for converting a commercial AC power supply into a DC voltage to charge a battery 14, and an AC voltage having the same voltage and the same frequency as the commercial AC power supply. And an inverter 15 for converting the power into a power supply. The AC power output from the inverter 15 is input to a socket 17 which is an AC power output terminal through a switch 16 which is switched to the b side when the commercial AC power input from the plug 10 is out of power. When the power failure detection circuit 12 detects a power failure of the commercial AC power supply (AC 100 V), the switch 16 is switched to the side b by a switching signal CS1 shown by a broken line. The uninterruptible power supply 1 further includes a latching relay 18 for storing a power failure detection signal S2 output from the power failure detection circuit 12 when the commercial AC power supply (AC 100V) fails, and an inversion for inverting the power failure detection signal S2. Circuit 19
The closing contact 18M of the latching relay 18 is connected in series with the output of the inverting circuit 19, and outputs the output signal of the inverting circuit 19 as the power-on signal S3 while the latching relay 18 stores the power failure detection signal. And an AND circuit 20 that detects that a battery backup stop signal has been returned from the terminal device 2 after outputting the power-on signal S3, and resets the latching relay 18. The power failure detection signal S2 is input to the terminal device 2 as a power failure report signal S4. On the other hand, the terminal device 2, which is a device using a commercial AC power supply, includes a power supply 23 for internally generating various necessary DC voltages using an AC power supply from a plug 26 connected to the socket 17, and a non-locking device. Power switch 24
And a power control circuit 27 that controls the power supply 23 to an operating state when the power supply switch 24 is turned on or when the power supply signal S3 is input from the uninterruptible power supply 1.
When the power failure report signal S4 is input, an end process such as saving data being processed to a disk memory or the like is performed, and when the end process is completed, the battery backup stop signal S5 is output to the uninterruptible power supply. 1 and a termination processing circuit 25 for returning to 1. Next, the operation of the uninterruptible power supply 1 will be described with reference to the time chart of FIG. First, the commercial AC power supply (A
When the power failure occurs at time t1 as shown in FIG. 2 (a), the power failure detection circuit 12 detects this and switches the switch 16 to the b side by the switching signal CS1. Then, the AC power output from the inverter 15 is supplied to the terminal device 2 through the switch 16 as an alternative power supply to the commercial AC power supply (AC 100 V). That is, as shown as the UPS output in FIG. 2B, the backup state is set by the uninterruptible power supply 1. In this case, the battery 14 is constantly charged by the charging circuit 13 in the energized state, and the charged voltage is converted into an AC power supply by the inverter 15. The power failure detection circuit 12 switches the switch 16, outputs a power failure detection signal S2, and sets the latching relay 18. As a result, the fact that the state has changed from the energized state to the power outage state is stored in the latching relay 18. The power failure detection signal S2 is input to the termination processing circuit 25 of the terminal device 2 as a power failure report signal S4 as shown in FIG. When the power failure report signal S4 is input, the termination processing circuit 25 of the terminal device 2 performs termination processing such as saving data in process to a disk memory or the like. For example, as shown in FIG. 2D, the battery backup stop signal S5 is transmitted to the uninterruptible power supply 1
Reply to The power failure detection circuit 12 which has received the battery backup stop signal S5 determines that the termination processing of the terminal device 2 has been completed and the backup state can be released, and the switch 16 is switched to the a side by the switching signal CS1. To return to. Thus, the backup state for the terminal device 2 is released. After completion of the termination processing of the terminal device 2,
The reason for canceling the backup state is to prevent the battery 14 from being wasted. When the commercial AC power supply (AC 100 V) is restored at time t2 after the backup is released, the power failure detection circuit 12 does not enter the power failure detection state. That is, at the time of a power failure, the power failure detection signal S2 and the power failure report signal S4 indicating the "1" level are held at the "0" level. Then, the output signal of the inversion circuit 19 for inverting the power failure report signal S4 becomes "1" level, and the signal of "1" level is output as the power-on signal S3 through the closing contact 18M of the latching relay 18. . That is, a commercial AC power supply (AC 100 V)
Has been restored, and a power failure has occurred before the power restoration, and the AND condition that the closing contact 18M of the latching relay 18 is closed is satisfied, and the terminal device 2 is turned on at the timing shown in FIG. Is supplied with a power-on signal S3. The power-on signal S3 is input to the power control circuit 27 as a logical sum signal with the output of the non-lock type power-on switch 24. Thereby, the power supply control circuit 27 is equivalent to a state where the power supply switch 24 is turned on, and operates the power supply 23. As a result, the terminal device 2 enters a normal operation state. When the terminal device 2 enters the normal operating state, battery backup stop signal S5 becomes "1" level as shown in Figure 2 (d). When the battery backup stop signal S5 goes to the "1" level, an AND condition with the power-on signal S3 is satisfied, and the latching relay 18
Is output. As a result, the latching relay 18 returns to the reset state. Thereafter, even when the commercial AC power supply fails again, the power of the terminal device 2 is automatically turned on by the same operation. As described above, in the present embodiment, the occurrence of a power failure is stored in the latching relay 18, and if power is subsequently restored, the latching relay 1
8 in response to the AND condition of the storage signal of FIG.
3 is input to the terminal device 2 and the power of the terminal device 2 is automatically turned on, so that the power of the terminal device 2 can be turned on without manual intervention when the power is restored after the power failure. As a result, it is possible to prevent a decrease in the operating rate of the terminal device 2 due to the fact that the attendant does not notice the power recovery after the power failure. In this embodiment, the occurrence of a power failure is stored by the latching relay 18, but a storage element that is directly backed up by the DC voltage of the battery 14 (or its divided voltage) may be used. Good. As described above, according to the present invention, the storage means for storing the power failure detection signal indicating that the commercial AC power supply has failed, and the storage means when the commercial AC power supply is restored, If the power failure detection signal is stored, a new power-on signal output circuit for inputting a power-on signal to a commercial AC power utilization device such as an information processing device is newly provided. Thereafter, when the power is restored, the power of the information processing device or the like can be automatically turned on without human intervention. Then, it is possible to prevent a decrease in the operation rate of the information processing device or the like due to the fact that the attendant does not notice the power recovery after the power failure.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a circuit configuration diagram showing an embodiment of an uninterruptible power supply to which the present invention is applied. FIG. 2 is a time chart for explaining an operation in the embodiment of FIG. 1; [Description of Signs] 1 ... Uninterruptible power supply device, 2 ... Terminal device, 12 ... Power failure detection circuit, 13 ... Charging circuit, 14 ... Battery, 15 ... Inverter, 16 ... Switch, 18 ... Latching relay, 20 ...
AND circuit, 24 power-on switch, 25 termination processing circuit.

──────────────────────────────────────────────────続 き Continuing from the front page (72) Inventor Takahiko Shirakawa 1 Ikegami, Haruoka-cho, Owariasahi-shi, Aichi Prefecture Inside Hitachi Asahi Electronics Co., Ltd. (72) Inventor Yoshifumi Hori 120-1 Yukicho, Inazawa-shi, Aichi Prefecture 1 (56) References JP-A-9-274524 (JP, A) JP-A-7-281797 (JP, A) JP-A-6-11021 (JP, U) JP-A-2-95426 (JP, A) U) Japanese Utility Model 2-138322 (JP, U) JP-B 7-95253 (JP, B2) (58) Fields investigated (Int. Cl. ⁷ , DB name) H02J 9/00 G06F 1/26

Claims (1)

(57) [Claim 1] A utilization device including a battery and an inverter for converting a DC output voltage of the battery into an AC power supply, and using the commercial AC power supply during a power failure of the commercial AC power supply. On the other hand, in an uninterruptible power supply that supplies the output AC power of the inverter, a switch that switches between the commercial AC power and the output AC power of the inverter and supplies the power to the utilization device, and indicates that the commercial AC power has failed. Storage means for storing a power failure detection signal, and when detecting that the commercial AC power supply has failed, switch the switch to supply the output AC power supply of the inverter to the utilization device to be in a backup state, and The power outage detection signal is stored in a storage unit, a power outage report signal is output to the use device, and the completion process of the end process is completed from the use device. When receiving the "0" level battery backup stop signal indicating a power failure the switch and the power failure detection means to backup release state is returned to a commercial AC power supply side, the power recovery of the commercial AC power source, in the storage means If the detection signal is stored, a power-on signal for setting the power control circuit of the utilization device to a state equivalent to a state in which a power-on switch is turned on is output to the utilization device, and the utilization device is output.
The battery backup stop signal from the
It becomes "1" level indicating that it is in a normal operation state,
The above-mentioned memory is stored when an AND condition with the power-on signal is satisfied.
An uninterruptible power supply, comprising: power-on signal output means for resetting the means .