JPS63236116A - Application system for power supply of information processor - Google Patents

Abstract

PURPOSE:To suppress the generation of the migration of an information processor circuit by driving a dew condensation eliminating means in case the dew condensation is detected by a dew condensation detecting means and delaying the application of a power supply until the elimination of the dew condensation is through. CONSTITUTION:A power supply application program set in a service processor 10 receives a power supply application request and obtains the information on the dew condensation from dew condensation detecting means 3 via a dew condensation detection control means 13 to decide whether a dew condensation detecting state is secured or not within an information processor 1 before the power supply is applied. When a dew condensation state is confirmed, a fan 4 is started via a dew condensation elimination control means 14 for elimination of the dew condensation. Then, the information on the end of elimination of the dew condensation is received via the means 13 and the power supply is applied after elimination of the dew condensation even though the processor 1 is kept under a dew condensation state. Thus, the processor 1 has no inconvenience.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to a power-on method for an information processing device, and particularly to an information processing method suitable for optimal power-on according to the environment in which the information processing device is placed. Regarding the method of powering on the device.

[Conventional technology]

Generally, information processing devices have environmental monitors for temperature, humidity, dew condensation, etc., and when an abnormality is detected, they perform processing corresponding to the content of the abnormality. Processing in the event of an abnormality includes, for example, turning off the power, reporting the abnormal state to software, displaying an abnormal message on the display, and storing failure information in a file.

FIG. 3 shows an example of a conventional configuration in the case of dew condensation. The information processing device 1 includes a dew condensation detection sensor 3, and the service processor 10 that maintains the information processing device 1 includes a sensor control circuit 13 connected to the dew condensation sensor 3. When there is condensation, dew condensation information is sent from the dew condensation sensor 3 to the sensor control circuit 13, and the condensation information is sent to the microprocessor 11.
The program inside handles the process when condensation occurs.

This process includes displaying the detection of condensation on the console display 20 via the console control circuit 15, and displaying the detection of condensation on the fault information storage file 20 via the file control circuit 16.
is to store dew condensation information. This allows operators and maintenance personnel to recognize condensation and obtain information on the cause of the failure and how to improve the environment.

Note that, for example, Japanese Patent Application Laid-Open No. 61-2117 is related to this kind of environmental abnormality processing in an information processing device.
Publication No. 18 is mentioned.

[Problems to be solved by the invention]- The above conventional technology deals with abnormalities after the power is turned on, but no consideration is given to turning on the power in a state of condensation.
Since the power is turned on even when there is condensation, there is a problem in that the power is turned on with water droplets attached to various circuits of the information processing equipment, resulting in problems such as migration of the information processing equipment circuits. .

SUMMARY OF THE INVENTION An object of the present invention is to provide a method for turning on the power of an information processing apparatus in such a way that, when the inside of the information processing apparatus is in a state of condensation, inconveniences such as migration of the information processing apparatus circuit do not occur. .

[Means for solving problems]

The above object is to provide a dew condensation detection means and a dew condensation removal means in an information processing device, for example to provide a dew condensation detection control means and a dew condensation removal control means in a service processor, and to provide a power-on program that uses the above control means in a control program. This is achieved by adding .

[For production]

When the power-on program in the service processor receives a power-on request, it processes information before power-on! j! The fog detection means determines whether or not there is condensation inside the equipment by obtaining dew condensation information via the condensation detection control means, and if there is condensation, the condensation removal means is activated via the fog removal control means. By multiplying.

Try to remove condensation. Thereafter, upon receiving information indicating completion of dew condensation removal via the dew condensation detection control means, an instruction is given to turn on the power of the information processing apparatus. As a result, even if the information processing device is in a dew condensation state, the power is turned on after dew condensation is removed, so that no inconvenience occurs to the information processing device.

〔Example〕

An embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 is a block diagram of one embodiment of the present invention.

In FIG. 1, an information processing device 1 includes an f4 source 2, a dew condensation sensor 3, which detects a dew condensation state as related components. and a fan 4 for removing condensation. Further, a power-on switch 5 is provided on a console or the like (not shown) of the information processing device 1 . The service processor 10 maintains the information processing device 1, and includes a microprocessor 11, a power supply control circuit 12. Sensor control circuit 13, fan control circuit 14. It has a console control circuit 15, a file control circuit 16, a display 20, and a failure information storage file 21.

The microprocessor 11 of the service processor 10 has built-in programs for executing various processes, and a power-on control program is added to the programs. The microprocessor 11 operates independently of the information processing device 1 and controls the power supply control circuit 12, sensor control circuit 13, fan control circuit 14 . Console control circuit 15, file control circuit 16
control.

The power supply control circuit 12 is connected to the power supply 2 in the information processing device 1, and powers on the information processing bag rf11 under the control of the microprocessor 110.

The sensor control circuit 13 is connected to the dew condensation sensor 3 in the information processing device 1 and reads the dew condensation state of the information processing device 1 under the control of the microprocessor 11.

The fan control circuit 14 controls the fan 4 (
The microprocessor 11 removes condensation inside the information processing device under the control of the microprocessor 11.

The console control circuit 15 is connected to a display 20, and displays messages to the operator on the display 20 under the control of the microprocessor 110.

The file control circuit 16 is connected to the fault information storage file 21 and reads/writes the fault information storage file 21 under the control of the microprocessor 11.

FIG. 2 is a flowchart of the power-on control program within the microprocessor 11. This power-on control program starts its operation when a power-on request for the information processing device 1 is sent to the microprocessor 11 in the service processor 10 through the power-on switch 5. The operation shown in FIG. 1 will be explained below with reference to FIG.

When a power-on request is received, the dew condensation state within the information processing device 1 is read by the dew condensation sensor 3 via the sensor control circuit 13 (step 101), and the presence or absence of dew condensation is determined (step 102). If there is no condensation, the fan 4 in the information processing device 1 is immediately controlled via the fan control circuit 14.
(Step 105). In this case, the fan 4 is used to air-cool the information processing device 1. On the other hand, if there is condensation, the condensation is displayed on the display 20 via the console control circuit 15 (step 10).
3) Next, after storing the condensation information read by the condensation sensor 3 in the failure information storage file 21 via the file control circuit 16 (step 104), the information is stored via the fan control circuit 14 in order to remove the condensation. An instruction is given to drive the fan 4 in the information processing device 1 (step 105).

After driving the fan 4 for air cooling or removing condensation within the information processing device 1, the condensation state within the information processing device 1 is again read by the dew condensation sensor 3 via the sensor control circuit 13 (step 106).

Then, it is determined whether or not there is condensation (step 107), and if there is no condensation, an instruction is given to turn on the power supply 2 in the information processing device 1 via the power supply control circuit 12 (step 110).

On the other hand, if it is determined in step 107 that there is condensation, the process loops through steps 108→109→106→107. In step 108, it is checked whether the maximum condensation removal waiting time has elapsed. If the waiting time for one time defined in step 109 is M seconds and the maximum number of times of waiting is N times, then the maximum waiting time is (M x N) seconds. In step 108, the number of times of waiting is actually incremented by 1 each time the loop is repeated, and a comparison is made with the maximum number of times of waiting N. If the maximum number of times of waiting N is exceeded, it is assumed that the condensation cannot be removed and the process ends abnormally. If the waiting time is within the maximum waiting time, the process waits for M seconds in step 109, and then returns to step 106. In this way, if the condensation is removed within the predetermined maximum waiting time (MXN), step 107
exits the loop, and in step 110 the information processing device 1
The power inside is turned on.

In the above embodiments, the fan 4 is used for both cooling the device and removing condensation, but they may be used separately.

Also, it is not necessary to use a fan as a means of removing condensation.
For example, you can use an auxiliary power source to turn on the heater to remove condensation.)

Furthermore, higher-level functions of the service processor 10 may be provided within the information processing device 1. In this case, power may be supplied to the function using an auxiliary power source.

〔Effect of the invention〕

As explained above, according to the present invention, since the information processing device is not powered on when dew condenses, it is possible to suppress migration of the information processing device circuit by turning on the power during fogging, thereby improving the reliability of the information processing device. This will improve the Further, even in a dew condensation state, it is possible to make a large amount of TLI power by driving the dew condensation removal means, thereby improving the operability of the information processing apparatus.

[Brief explanation of the drawing]

FIG. 1 is a block diagram of one embodiment of the present invention, and FIG. 2 is a block diagram of an embodiment of the present invention.
FIG. 3 is a diagram showing an example of the processing flow of a power-on control program in the service processor in the figure, and FIG. 3 is a block diagram showing a conventional processing method when condensation occurs. DESCRIPTION OF SYMBOLS 1... Information processing device, 2... Power supply, 3... Condensation sensor, 4... Fan, 5... Power on switch, 10... Service processor, 1
DESCRIPTION OF SYMBOLS 1... Microprocessor, 12... Power supply control circuit, 13... Sensor control circuit, 14... Fan control circuit, 15... Console control circuit, 16
...File control circuit, 20...Display, 21...Fault information accumulation file. -・t・:-shi

Claims (1)

[Claims] (1) The information processing device is provided with a dew condensation detection means for detecting the state of dew condensation and a dew condensation removal means for removing the dew condensation. If the dew condensation removal means is removed, the power-on method for the information processing device is delayed until the dew condensation removal is completed.