JPH06175755A - Power control system - Google Patents

Abstract

PURPOSE:To reduce the total stopping frequency of an information processor and to improve the reliability and the working rate and also to attain the partial maintenance in a power control system by stopping the operation and cutting the power supply limiting to each related function unit of the information processor when a fault occurs. CONSTITUTION:A power control circuit 20 individually switches on and off the power supplies 51-5n by the instructions of a service processor 30. Thus, the circuit 20 individually monitors the states of supplies 51-5n. If a fault is detected by the monitoring of the circuit 20, the faulty one of supplies 51-5n is reported to the processor 30. The processor 30 gives instructions of the start/ stop of operations to the units 41-4n and also monitors the state of each unit. Then the processor 30 instructs the circuit 20 to switch on or off the power supplies.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power supply control for an information processing apparatus, and more particularly to a power supply control method for an information processing apparatus configured by distributing a plurality of functional units and power supplies.

[0002]

2. Description of the Related Art In an information processing apparatus having a plurality of functional units, the information processing apparatus is commonly controlled by supplying electric power to each unit in common. . Further, when a failure occurs in only one functional unit and the unit is replaced or repaired, it is necessary to stop the entire information processing apparatus even if the failure does not affect other units at all. .

As a means for solving such a problem,
A power supply control method has been devised in which only the faulty part is replaced even when the power is turned on as follows. That is, in a power supply device including a plurality of power supplies, a detection circuit that detects a failure of the power supply and an open / close switch that opens and closes an input to the power supply are provided for each power supply, and the detection circuit and the open / close switch are connected to detect a failure of the power supply. By opening the corresponding open / close switch and turning off the faulty power supply, the power supply that has not failed can be replaced with the power supply that has failed (JP-A-56-152021: Online replacement possible). Power supply device) and multiple information processing devices having independent functions and a common power supply, each package is provided with a power control circuit including a power on / off switch, and by operating the power on / off switch Inserting or pulling out a certain package for maintenance etc. by enabling control of power supply to the corresponding package At this time, other functions than those of the package are operated as they are (Japanese Patent Laid-Open No. 62-135913: Computer system power-on / off control system, Japanese Patent Laid-Open No. 1-128109: Power control circuit for information processing device), etc. Is.

[0004]

The above-mentioned power supply control system has not been considered with respect to the following points. That is, in the method of the above-mentioned (Japanese Patent Laid-Open No. 56-152021), the condition for turning the power on and off individually is only when a failure of the power supply is detected, so that a failure occurs in the functional unit and the functional unit is replaced. When repairing, it is necessary to stop the entire device even if the failure does not affect other functional units.

In the systems of the above-mentioned (JP-A-62-135913 and JP-A-1-128109), since the power source is common, when the power source fails, the entire apparatus stops or does not operate.

In view of the above-mentioned problems, the present invention is to cut off the power supply when the power supply or the functional unit fails.
Alternatively, it is a method for realizing reliability, improvement in operating rate, and partial maintenance of the information processing apparatus by localizing the power source corresponding to the functional unit.

[0007]

To achieve the above object, the power supply control system of the present invention has a plurality of functionally dividable units, unit 41, unit 42, ..., As shown in FIG.
In the information processing device 1 including the unit 4n,
Power supply 51, power supply 52, ..., Power supply 5 individually for each unit
n is provided, the power supply control circuit 20 for controlling and monitoring each power supply is connected to all the power supplies, the service processor 30 for controlling and monitoring the operation of each unit is connected to each unit, and the service processor is further provided. 30 and the power supply control circuit 20 are connected to integrally control and monitor a plurality of power supplies.

[0008]

A plurality of functionally dividable units, unit 41, unit 42, ..., Unit 4n, are supplied with power from a power source 51, a power source 52 ,.

Each power source, power source 51, power source 52, ..., Power source 5
Each n supplies power to the corresponding unit in response to a turn-on / off instruction from the power supply control circuit 20.

The power supply control circuit 20 individually instructs each power supply, the power supply 51, the power supply 52, ..., And the power supply 5n to be turned on and off according to an instruction from the service processor 30, and also supplies each power supply, the power supply 51, the power supply 52 ,. The state of the power supply 5n is individually monitored. Further, as a result of monitoring the state of each power supply, the power supply 51, the power supply 52, ..., And the power supply 5n, when a failure has occurred, which power supply has a failure is reported to the service processor 30.

The service processor 30 includes each unit,
The unit 41, the unit 42, ..., The unit 4n are instructed to start and stop the operation, and the state of each unit, the unit 41, the unit 42 ,. The service processor 30 also instructs the power supply control circuit 20 whether to turn on or off the power supply.

[0012]

Embodiments of the present invention will be described with reference to FIGS. 1, 2 and 3.

For example, when a failure is detected in the power source 51 feeding the unit 41 as a result of monitoring each power source, the power source 51 is replaced and repaired by the following procedure (procedure 1 in FIG. 2).

(201) The power supply control circuit 20 reports to the service processor 30 that the power supply 51 is abnormal.

(202) The service processor 30 which has received the power supply abnormality report of the power supply 51 gives an instruction to stop the operation of the unit 41.

(203) Upon receipt of the stop instruction, the unit 41 reports the stop completion to the service processor 30 after the stop processing is completed.

(204) Upon receiving the stop completion report from the unit 41, the service processor 30 instructs the power supply control circuit 20 to disconnect the power supply 51.

(205) The power supply control circuit 20, which has received the instruction to disconnect the power supply 51, instructs the power supply 51 to disconnect.

(206) The power supply 51 which has received the disconnection instruction
Reports the completion of disconnection to the power supply control circuit 20 after executing the disconnection process.

(207) The power supply control circuit 20 which has received the disconnection completion report from the power supply 51
The completion of the disconnection of the power supply 51 is reported to.

(208) Upon receiving the disconnection completion report of the power supply 51, the service processor 30 requests the maintenance manager 10 to replace the power supply 51.

(209) Upon receiving the request for replacement of the power supply 51, the maintenance manager 10 replaces the power supply 51 with an alternative power supply.

(210) The maintenance manager 10 who has completed the replacement work of the power supply 51 causes the service processor 20 to supply the power supply 51.
Instruct to input.

(211) The service processor 30 which has received the replacement repair completion report of the power supply 51,
0 is instructed to turn on the power supply 51.

(212) Upon receiving the instruction to turn on the power source 51, the power source control circuit 20 instructs the power source 51 to turn on.

(213) The power source 51 which has received the turn-on instruction
After executing the closing process, reports the completion of closing to the power supply control circuit 20.

(214) The power supply control circuit 20 which has received the power-on completion report from the power supply 51, the service processor 30
The completion of turning on the power supply 51 is reported to.

(215) The service processor 30, which has received the power-on completion report, instructs the unit 41 to resume operation.

(216) Upon receipt of the restart instruction, the unit 41 executes the restart processing and then reports the restart completion to the service processor.

According to the present invention, as shown in the above procedure, the failed power source 51 can be replaced and repaired without affecting other functionally divided units.

When the service processor 30 monitors each unit and detects a failure in the unit 41, the unit 41 is replaced and repaired by the following procedure (procedure 2 in FIG. 3).

(301) The service processor 30 instructs the unit 41 having a failure to stop.

(302) Upon receiving the stop instruction, the unit 41 reports the stop completion to the service processor 30 after executing the stop processing.

(303) When the service processor 30 receives the stop completion from the unit 41, the service processor 30
The power supply 51 is instructed to be disconnected.

(304) The power supply control circuit 20, which has received the instruction to disconnect the power supply 51, instructs the power supply 51 to disconnect.

(305) The power source 51 which has received the disconnection instruction
Reports the completion of disconnection to the power supply control circuit 20 after executing the disconnection process.

(306) The power supply control circuit 20 which has received the disconnection completion report from the power supply 51, the service processor 30
The completion of the disconnection of the power supply 51 is reported to.

(307) The service processor 40 having received the disconnection completion report of the power supply 51 requests the maintenance manager 10 to replace the unit 41.

(308) The maintenance manager 10 receiving the replacement request for the unit 41 replaces the unit 41 with a substitute part.

(309) The maintenance manager 10 who has completed the replacement work of the unit 41 instructs the service processor 30 to restart the operation of the unit 41.

(310) The service processor 30 which has received the replacement completion report of the unit 41 causes the power supply control circuit 2
0 is instructed to turn on the power supply 51.

(311) The power supply control circuit 20, which has received the instruction to turn on the power supply 51, instructs the power supply 51 to turn on.

(312) The power source 51 which received the turn-on instruction
Reports the completion of the supply to the power supply control dissociation unit 20 after the execution of the supply process.

(313) The power supply control circuit 20 which has received the power-on completion from the power supply 51 reports the power-on completion to the service processor 30.

(314) The service processor 30, which has received the power-on completion report, instructs the unit 41 to resume operation.

(315) The unit 41 which has received the operation restart instruction reports the restart completion to the service processor 30 after executing the restart processing.

According to the present invention, as shown in the above procedure, the failed unit 41 can be replaced and repaired without affecting other functionally divided units.

The power control circuit 20 and the service processor 30 may be integrated into one circuit.

[0049]

EFFECTS OF THE INVENTION By localizing the operation stoppage and power-off for maintenance work for replacement and repair when a failure occurs in each functional unit, the stoppage of the entire information processing apparatus can be reduced, and reliability and availability can be improved. Achieve improvement and partial maintenance.

[Brief description of drawings]

FIG. 1 is a configuration diagram of an information processing apparatus according to an embodiment of the present invention.

FIG. 2 is a diagram showing a procedure 1 of the operation of the present invention.

FIG. 3 is a diagram showing a procedure 2 of the operation of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Information processing apparatus, 10 ... Maintenance manager, 20 ... Power supply control circuit, 30 ... Service processor, 41 ... Unit, 42 ... Unit, 4n ... Unit, 51 ... Power supply, 52 ... Power supply, 5n ... Power supply, 201 ... Power supply 51 Abnormality report, 202 ... Unit stop instruction, 203 ... Unit stop completion report, 204 ... Power source 51 power off instruction, 205 ... Power off instruction, 206 ... Power off completion report, 207 ... Power source 51 Power off completion report, 208 ... Power source 51 Replacement / repair request notification, 209 ... Power source 51 replacement / repair execution, 210 ... Power source 51 power-on instruction, 211 ... Power source 51 power-on instruction, 212 ... Power-on instruction, 213 ... Power-on completion report, 214 ... Power source 51 power-on completion Report, 215 ... Unit operation restart instruction, 216 ... Unit operation restart completion report, 301 ... Unit stop Instructions, 302 ... Unit stop completion report, 303 ... Power source 51 power off instruction, 304 ... Power off instruction, 305 ... Power off completion report, 306 ... Power source 51 power off completion report, 307 ... Unit 41 replacement repair request notification, 308 ... Unit 41 replacement and repair execution, 309 ... Unit 41 operation restart instruction, 310 ... Power supply 51 power-on instruction, 311 ... Power-on instruction, 312 ... Power-on completion report, 313 ... Power-source 51 completion report, 314 ... Unit operation restart instruction, 315: Report of completion of unit operation restart.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Makoto Muramatsu 810 Shimoimaizumi, Ebina City, Kanagawa Prefecture Hitachi Office System Systems Division (72) Inventor Kikuo Oshima 810 Shimoimaizumi, Ebina City, Kanagawa Stock Company Hitachi (72) Inventor Hiroaki Sato, 810 Shimoimaizumi, Ebina, Kanagawa, Ltd. Office Systems Division, Hitachi, Ltd. (72) Inventor, Takayo Nagao 1 Horiyamashita, Hadano, Kanagawa Prefecture, Nisitsu Computer Electronics Co., Ltd. Within

Claims (1)

[Claims] 1. An information processing apparatus comprising a plurality of functionally divisible units, wherein a power source is provided for each unit, and a service processor for individually controlling and monitoring each unit, and each power source are provided. A power supply control circuit for individually controlling and monitoring, wherein the service processor and the power supply control circuit cooperate with each other to integrally control a plurality of power supplies and localize power supply disconnection due to a failure. method.