JP2011166886A - Information processing apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an information processing apparatus in which it is not necessary to add an interface, and which is eliminated in the change of BIOS software, avoids the stop of power supply during shut-down processing, and is automatically actuated when primary-side power supply is recovered from power interruption. <P>SOLUTION: A computer 2a which receives power supply from a primary-side power supply 1 includes: a power supply unit 3a which performs power supply by using power when the power is supplied by the primary-side power supply 1 and performs power supply by using a battery 4 when the power supply performed by the primary-side power supply is stopped; an actuation/termination control unit 11 which generates an actuation start signal for actuating the computer 2a on the basis of the presence and absence of normal power supply; and an actuation/termination processing determination unit 10 which determines that the termination processing of the computer 2a should be performed when normal power is supplied and a primary-side power supply cut-off signal is generated, and which determines that the actuation processing of the computer 2a should be performed when the supply of the normal power is stopped and an actuation start signal is generated. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to an information processing apparatus that appropriately performs a shutdown process when a primary power supply is cut off due to a power failure or the like and that automatically starts when the power supply is restored.

  In general, operating systems such as Windows (registered trademark) load system file data stored in an auxiliary storage device such as an HDD (Hard Disk Drive) into a main storage device such as a nonvolatile memory. Operate. Since this operating system frequently performs operations such as updating system data on the main storage device and writing it back to an auxiliary storage device such as an HDD, etc., if the computer is suddenly turned off due to a power failure, etc. It is possible that an inconsistency occurs in the system file stored in the device, and the computer does not operate normally. Similarly, in a computer having a database function or the like, there is a problem that the stored data is destroyed because the power is turned off before the data backup is completed.

  As a countermeasure against these problems, a method of supplying electric power during a power failure using an uninterruptible power supply (UPS) is widely used. In the uninterruptible power supply, since the power that can be supplied at the time of a power failure is temporary using a battery, the power is supplied at the time of a power failure, and the operating system uses the notification function that it has from the primary power supply. It notifies that the power supply has been cut off, and operates so that the application termination processing and the operating system shutdown processing are appropriately performed on the computer side.

  Some high-function uninterruptible power supplies not only cause the operating system to perform shutdown processing with the above-described notification function when a power failure occurs, but also automatically start the computer when the primary power supply is restored Some have options as an option.

  That is, a general uninterruptible power supply has a function that focuses on termination processing such as automatic shutdown when the primary power supply is cut off, and many automatic startup processing are provided as options. However, since a computer installed together with the uninterruptible power supply has many applications on the premise that the database server and the management server are always operated, not only the termination processing but also the automatic startup function is important. In particular, such a computer is often operated by unattended operation, and may be installed in a place that cannot be easily touched by an operator such as a remote place or a security room, and an automatic start function is essential.

  Here, the automatic starting means generally used widely utilizes a power management function of a computer's BIOS (Basic Input Output System) software. Specifically, the uninterruptible power generation device detects that the primary power supply has returned to the computer for which the setting of “turn on the computer whenever power is supplied” is performed on the BIOS software. The computer can be automatically started by temporarily cutting off the power supplied to the computer after a predetermined time has elapsed and starting the supply again.

  FIG. 9 is a block diagram showing the configuration of a general uninterruptible power supply 17 and the computer 2. As shown in FIG. 9, the uninterruptible power supply 17 includes a battery 18, a relay switch 19, and a control unit 22 and receives power from the primary power supply 1. Here, the primary power supply 1 is, for example, a general commercial power supply, and supplies power to the computer 2 via the uninterruptible power supply device 17 in a normal time.

  The computer 2 includes a power supply unit 3, a main circuit unit 5, and a power switch 12. The main circuit unit 5 includes a CPU 6, a memory 7, an HDD 8, a BIOS-ROM 9, and an activation / termination process determination unit 10 inside. Further, it is assumed that the BIOS-ROM 9 is set to “turn on the computer whenever power is supplied” as described above.

FIG. 10 is a time chart showing operations of the uninterruptible power supply 17 and the computer 2 shown in FIG. The operation of the uninterruptible power supply 17 and the computer 2 shown in FIG. 9 will be briefly described with reference to FIG. First, until the time t ₀ , the computer 2 is in a normal “operating” state. In FIG. 10, “UPS power supply” is power supply by the uninterruptible power supply 17 to the computer 2, and the primary power of the primary power supply 1 is supplied as it is until time t ₀ . .

When the primary power supply 23 is cut off at time t _{0 due} to a power failure or the like, the control unit 22 in the uninterruptible power supply 17 detects that the primary power supply 23 is cut off, and the relay switch 19 is operated to switch to power supply by the battery 18. Further, the control unit 22 outputs an H (High) level power-off signal 25 to the main circuit unit 5 in the computer 2 in order to notify that the primary power supply 23 has been cut off.

  The power supply unit 3 in the computer 2 receives power supply 27 from the battery 18 and supplies normal power 28 and standby power 29 to the main circuit unit 5.

  The start / end process determination unit 10 in the main circuit unit 5 determines that the primary power supply 23 has been cut off when the normal power 28 is supplied from the power supply unit 3 and the power cut-off signal 25 is received. Then, the CPU 6 starts the shutdown process.

When the shutdown process at time t ₁ is finished, the state of the computer 2 is "waiting", start / end determination unit 10 of the main circuit unit 5 (or the CPU 6) is a power supply start instruction signal 24 L ( Low) level and output to the power supply unit 3. The power supply unit 3 stops the supply of the normal power 28 based on the L level power supply start instruction signal 24, but continues to supply the standby power 29.

Thereafter, the primary side power is restored at time t _2, the control unit 22 of the uninterruptible power supply device 17 detects that the primary electric power is restored, the primary-side power-off signal 25 to the L level At the same time, the relay switch 19 is operated to switch to the power supply by the primary power source 1. Further, the control unit 22 starts a counter time, temporarily stopping the power supply from the uninterruptible power supply 17 to the time t ₃ after a predetermined time. Accordingly, the power supply unit 3 stops supplying standby power 29 to the main circuit unit 5.

Thereafter, at time t ₄ , the control unit 22 resumes power supply from the uninterruptible power supply 17. Accordingly, the power supply unit 3 resumes supply of the standby power 29 to the main circuit unit 5.

The start / end process determination unit 10 determines that the start process is started when the supply of the standby power 29 is started in a state where the normal power 28 is not supplied, and the CPU 6 uses the power management function of the BIOS software to execute the computer. 2 is activated. Start / end determination unit 10, the power supply start instruction signal 24 at time t ₅ the activation process is completed in the H level and outputs to the power supply unit 3. The power supply unit 3 resumes the supply of the normal power 28 based on the H level power supply start instruction signal 24.

  By the operation as described above, the computer 2 can be automatically started when the primary power supply 23 is restored even when the primary power supply 23 is shut down due to a power failure or the like.

  As a method of automatically starting up the computer by UPS, in addition to the above-described method of using the power management function of the BIOS software, there is a method of automatically starting up using a WOL (Wake On LAN) function. In this case, when the UPS detects that the primary power supply 23 has been restored, the UPS outputs a startup start signal 26 to the computer via the Ethernet (registered trademark) cable.

  Patent Document 1 describes an information processing apparatus, an uninterruptible power supply apparatus, and the like that can more easily control the timing of starting or stopping power supply to a load device. This uninterruptible power supply is a setting means for setting a maximum time which is an upper limit of a time for performing backup power supply to a load device by a battery when an abnormality occurs in input power supplied from the outside based on a command from a user. And monitoring means for monitoring the input power, and power supply control means for performing control so as to perform backup power supply with the longest time as an upper limit when an abnormality in the input power is detected.

  Therefore, it is possible to easily control the backup time of the uninterruptible power supply, suppress unnecessary discharge of the battery of the uninterruptible power supply, and prevent early deterioration of the battery.

  Furthermore, in this uninterruptible power supply, the setting means described above further sets a delay time, which is a time for delaying the start of power supply to the load device, based on a command from the user. When the input power becomes normal when power supply to the load equipment is stopped, the power supply control means supplies power to the load equipment after the delay time has elapsed since the input power became normal. Can be controlled to start.

  This makes it easy to delay the start of power supply to the uninterruptible power supply by an appropriate amount of time, and ensures that the load equipment connected to the uninterruptible power supply is Can be activated.

  In addition, the uninterruptible power supply described in Patent Document 1 includes setting means for setting a delay time, which is a time for delaying the start of power supply to a load device, based on a command from a user, and an input supplied from the outside Monitoring means for monitoring the power and when the input power becomes normal when power supply to the load equipment is stopped, the load equipment after the delay time has elapsed since the input power became normal Power supply control means for controlling to start power supply to the power supply.

  In this case, the uninterruptible power supply device is set with a delay time, which is a time for delaying the start of power supply to the load device, based on a command from the user, the input power supplied from the outside is monitored, and the load device is When the input power becomes normal when power supply is stopped, control is performed to start power supply to the load device after the delay time has elapsed since the input power became normal. .

  Therefore, according to this uninterruptible power supply, it is possible to easily delay the start of power supply by an appropriate time, and to reliably start the load device connected to the uninterruptible power supply when power supply is started Can do.

JP 2007-37282 A

  However, the conventional automatic startup means as described with reference to FIGS. 9 and 10 require that the BIOS software on the computer main body side support the Wake On LAN function and the power management function, and further, by changing the settings on the software Must be enabled.

  In addition, the uninterruptible power supply has a problem that a relay switch for temporarily stopping and restarting the power supply is required and the equipment becomes large. This problem also applies to the device described in Patent Document 1. In particular, the installation space may be limited depending on the installation environment of the computer, and when installing the same number of uninterruptible power supply units for a plurality of computers. The restrictions will be even stricter.

  As a solution to this problem, there may be a configuration in which a battery for supplying power to the computer in the event of a power failure is incorporated in the power circuit of the computer main body to realize the function of the uninterruptible power supply. Is possible.

  In addition, when using the Ethernet (Wake On LAN) function, the Ethernet (registered trademark) function is incorporated into the uninterruptible power supply, and the computer and the uninterruptible power supply are connected by an Ethernet (registered trademark) cable. This is disadvantageous in terms of cost and installation space.

  Further, in the conventional apparatus shown in FIG. 9, when the primary power supply 1 is restored during the computer shutdown process, the power supply may be forcibly turned off even during the shutdown process. This problem will be described with reference to FIG. FIG. 11 is another example of a time chart showing the operations of the uninterruptible power supply 17 and the computer 2 shown in FIG.

First, until the time t ₀ , the computer 2 is in a normal “operating” state, and the operation described in FIG. 10 is performed until the primary power supply 23 is cut off at the time t _{0 due} to a power failure or the like. Is the same. However, the primary power supply 23 is restored at time t ₁ when the computer 2 is in the process of shutting down, and is different from FIG. 10 in this respect.

In this case, the control unit 22 in the uninterruptible power supply 17 detects that the primary side power has been restored, sets the primary side power cut-off signal 25 to the L level, and operates the relay switch 19 to set 1 Switch to power supply by the secondary power supply 1. Further, the control unit 22 starts a counter time, temporarily stopping the power supply from the uninterruptible power supply 17 to the time t ₂ after a predetermined time. Accordingly, the power supply unit 3 stops both the normal power 28 supply and the standby power 29 supply to the main circuit unit 5. Therefore, the computer 2 may not be able to end normally.

Thereafter, at time t ₃ , the control unit 22 resumes power supply from the uninterruptible power supply 17. Accordingly, the power supply unit 3 resumes the normal power 28 supply and the standby power 29 supply to the main circuit unit 5. However, the computer 2 is still because it is during the shutdown process at time t _3, can not be started automatically.

When the shutdown process is completed at time t _4, the state of the computer 2 is "waiting", start / end determination unit 10 of the main circuit unit 5 (or the CPU 6) is a power supply start instruction signal 24 L ( Low) level and output to the power supply unit 3. The power supply unit 3 stops the supply of the normal power based on the L-level power supply start instruction signal 24, but continues to supply the standby power 29. However, since the power supply stop / restart operation by the uninterruptible power supply 17 has already been performed, the computer 2 cannot perform automatic startup.

Such a problem, count time of the uninterruptible power supply 17 (time from the primary power supply 23 is cut off until the temporarily stops power supply by UPS, i.e. between time t ₁ ~t ₂ in FIG. 11) It seems that this can be avoided by setting the value longer than the shutdown processing time of the computer 2, but there are some obstacles. For example, there may be a case where the shutdown processing time becomes longer than usual due to a mismatch in counter setting values between the uninterruptible power supply 17 and the computer 2 or a program load on the computer 2.

  The present invention solves the above-described problems of the prior art, and it is not necessary to add an interface such as a network cable or a relay switch, and it is not necessary to change the BIOS software, and avoids stopping the power supply during the shutdown process. In addition, an object of the present invention is to provide an information processing apparatus that automatically starts when the primary power supply returns from a power failure.

  In order to solve the above problems, an information processing apparatus according to the present invention is an information processing apparatus that receives supply of power from a primary power supply, and detects the presence or absence of power supply by the primary power supply. When the primary side power supply is generating power, the primary side power supply is supplied with normal power and standby power using the power. When the power supply by is stopped, a power supply unit that supplies normal power and standby power using an internal battery, and activates the information processing device based on the presence or absence of normal power supply by the power supply unit A control unit that generates an activation start signal for causing the power supply unit to supply normal power, and since the power supply of the primary power supply is stopped, the power supply unit generates a primary power-off signal. Generated field The information processing apparatus is terminated when the normal power supply by the power supply unit is stopped and the activation start signal is generated by the control unit. And a determination unit that determines whether to perform the operation.

  According to the present invention, it is not necessary to add an interface such as a network cable or a relay switch, it is not necessary to change the BIOS software, the power supply stop during the shutdown process is avoided, and the primary power supply is prevented from the power failure. It can be automatically started when it returns.

It is a block diagram which shows the structure of the information processing apparatus of the form of Example 1 of this invention. It is a block diagram which shows the detailed structure of the starting / ending control part of the information processing apparatus of the form of Example 1 of this invention. It is a flowchart figure which shows operation | movement of the information processing apparatus of the form of Example 1 of this invention. It is a time chart figure which shows the state of each part of the information processing apparatus of the form of Example 1 of this invention. It is another example of the time chart figure which shows the state of each part of the information processing apparatus of the form of Example 1 of this invention. It is a block diagram which shows the modification of a detailed structure of the starting / termination control part of the information processing apparatus of the form of Example 1 of this invention. It is a block diagram which shows the structure of the information processing apparatus of the form of Example 2 of this invention. It is a block diagram which shows the detailed structure of the starting / termination control part of the information processing apparatus of the form of Example 2 of this invention. It is a block diagram which shows the structure of the conventional uninterruptible power supply and a computer. It is a time chart figure which shows the operation | movement of the conventional uninterruptible power supply and a computer. It is another example of the time chart figure which shows the operation | movement of the conventional uninterruptible power supply and a computer.

  Embodiments of an information processing apparatus according to the present invention will be described below in detail with reference to the drawings.

  FIG. 1 is a block diagram showing the configuration of the information processing apparatus according to the first embodiment of the present invention. A computer 2a corresponds to the information processing apparatus of the present invention. The configuration of the information processing apparatus will be described with reference to FIG. The computer 2a according to the present embodiment is an information processing apparatus that receives power from the primary-side power supply 1, and as shown in FIG. 1, a power supply unit 3a, a main circuit unit 5, a start / end control unit 11, and a power supply The switch 12 is configured. That is, unlike the conventional configuration described in FIG. 9, the computer 2a of the present embodiment does not require an uninterruptible power supply.

  When the power supply unit 3a detects the presence or absence of power supply by the primary power supply 1 and generates the primary power cut signal 25 according to the detection result, the power supply is performed by the primary power supply. Supplies the normal power 28 and the standby power 29 using the power, and when the power supply by the primary power supply is stopped, the internal battery 4 is used to supply the normal power 28 and the standby power 29. And supply.

  The main circuit unit 5 includes a CPU 6, a memory 7, an HDD 8, a BIOS-ROM 9, and a start / end process determination unit 10. Here, the CPU 6, the memory 7, the HDD 8, and the BIOS-ROM 9 that are connected to each other via an internal bus are configurations included in a conventional computer and are not described because they are known technologies.

  The activation / termination processing determination unit 10 corresponds to the determination unit of the present invention, and since the normal power 28 is supplied by the power supply unit 3a and the power supply of the primary-side power supply 1 is stopped, the power supply unit 3a outputs 1 When the secondary power-off signal 25 is generated, it is determined that the information processing apparatus (computer 2a) is to be terminated (shut down). Further, the activation / termination processing determination unit 10 is configured to perform the processing of the information processing apparatus (computer 2a) when the supply of the normal power 28 by the power source unit 3a is stopped and the activation / termination control unit 11 generates the activation start signal 26. It is determined that the startup process is to be performed.

  In addition, the activation / termination process determination unit 10 outputs a power supply start instruction signal 24 for starting the supply of the normal power 28 when it determines that the activation process of the information processing apparatus (computer 2a) is to be performed. Generate. The power supply unit 3a starts supplying the normal power 28 based on the power supply start instruction signal 24 generated by the start / end process determination unit 10.

  The start / end control unit 11 corresponds to the control unit of the present invention, and generates a start signal 26 for starting the information processing apparatus (that is, the computer 2a) based on whether or not the normal power 28 is supplied by the power supply unit 3a. To do.

  However, in this specification, starting (or ending) the computer 2a means starting (ending) the main circuit unit 5 and starting up to other parts (the power supply unit 3a and the start / end control unit 11) ( It does not end. Therefore, the activation / termination process determination unit 10 makes the CPU 6 perform the activation process or the termination process according to the determination result after performing the determination to perform the activation process or the termination process.

  FIG. 2 is a block diagram showing a detailed configuration of the start / end control unit 11 of the computer 2a of this embodiment. As illustrated in FIG. 2, the start / end control unit 11 includes a start / end control unit power supply 13, a counter circuit 14, a next automatic start start determination unit 15, and a start / end process start signal generation unit 16. .

  The start / end control unit power supply 13 supplies power to the entire start / end control unit 11 using the standby power 29 supplied from the power supply unit 3a.

  The counter circuit 14 corresponds to the timing unit of the present invention, receives the normal power 28 supplied from the power supply unit 3a, and generates a time lapse signal 30 after a predetermined time has elapsed after the supply of the normal power 28 by the power supply unit 3a is stopped. To do. However, the counter circuit operates only when it is determined by the next automatic activation start determination unit 15 to be described later that automatic activation is performed, and when it is determined by the next automatic activation start determination unit 15 that automatic activation is not performed. In this case, the time lapse signal 30 is not generated.

  The next automatic activation start determination unit 15 determines whether or not automatic activation is performed when the primary power supply 1 is restored. For example, the next automatic activation start determination unit 15 determines whether or not automatic activation is performed based on a setting input in advance by the user. That is, the activation / termination control unit 11 includes the next automatic activation start determination unit 15 and can determine whether or not to generate the activation start signal 26 based on settings input in advance. In this embodiment, the setting by the user is stored in the activation / termination process determination unit 10, and the activation / termination process determination unit 10 outputs the setting as a setting signal 31 to the next automatic activation start determination unit 15. The next automatic activation start determination unit 15 can determine whether or not to perform automatic activation with reference to the setting input in advance by the user.

  The next automatic activation start determination unit 15 is not necessarily an essential configuration in an information processing apparatus that cannot be set for the next activation by the user. In the case where the next automatic activation start determination unit 15 is not provided, the counter circuit 14 generates the time lapse signal 30 after a predetermined time elapses on the condition that the supply of the normal power 28 by the power supply unit 3a is stopped.

  The activation / termination process start signal generation unit 16 corresponds to the generation unit of the present invention, and generates the activation start signal 26 based on the time lapse signal 30 generated by the counter circuit 14.

  The power switch 12 is a general power switch provided in an information processing apparatus such as a computer. Therefore, the start / end processing start signal generation unit 16 does not depend on the operation of the counter circuit 14, and the power switch 12 is initially set by the user at the normal time (when the primary power supply 1 is normally supplying power). When turned on, the activation start signal 26 is generated and the main circuit unit 5 is activated.

  Next, the operation of the present embodiment configured as described above will be described. FIG. 3 is a flowchart illustrating the operation of the information processing apparatus according to the present exemplary embodiment. FIG. 4 is a time chart showing the state of each part of the information processing apparatus of this embodiment. The operation of the information processing apparatus (computer 2a) of this embodiment will be described with reference to FIGS. In FIG. 3, a description will be given from a state in which a power failure occurs first and a termination (shutdown) process of the computer 2a is performed.

First, until the time t _{0 in} FIG. 4, the computer 2 a is in a normal “operating” state. The power supply unit 3a, to the main circuit section 5 starts / ends the control unit 11, by using the primary electric power of the primary power source 1, a normal power 28 between times t ₀ Standby Electric power 29 is supplied.

When the primary power supply 23 is cut off at time t _{0 due} to a power failure or the like, the power supply unit 3a detects that the primary power supply 23 has been cut off, and the H-level primary power cut-off signal is detected. 25 and the normal battery 28 and the standby power 29 are supplied using the internal battery 4.

  The start / end processing determination unit 10 in the main circuit unit 5 is supplied with the normal power 28 by the power supply unit 3a and the power supply 23 of the primary power supply 1 is stopped, so that the power supply unit 3a stops the primary side. Since the power-off signal 25 is generated, it is determined that the computer 2a is to be shut down (terminated). Thereby, the CPU 6 performs the termination process of the main circuit unit 5 based on the determination result of the activation / termination process determination unit 10.

  On the other hand, the counter circuit 14 in the start / end control unit 11 determines whether or not the supply of the normal power 28 by the power supply unit 3a is stopped (step S1 in FIG. 3). The counter circuit 14 determines whether or not the shutdown process has been completed by the operation of confirming whether or not the normal power 28 is supplied.

When the shutdown process is completed at time t ₁ in FIG. 4, the state of the computer 2 becomes “standby”. Therefore, the activation / termination process determination unit 10 of the main circuit unit 5 sets the power supply start instruction signal 24 to the L level. Output to the power supply unit 3a. The power supply unit 3a stops the supply of the normal power 28 based on the L level power supply start instruction signal 24, but the supply of the standby power 29 is continued.

  The counter circuit 14 in the start / end control unit 11 detects that the supply of the normal power 28 by the power supply unit 3a has been stopped, and determines that the shutdown process by the main circuit unit 5 has ended. Next, the activation / termination control unit 11 determines whether or not to generate the activation start signal 26 based on a setting input in advance. Specifically, the counter circuit 14 determines whether or not the next automatic activation start setting signal 15 has been set by the next automatic activation start determination unit 15 (step S2). The counter is started under the condition that the supply of power 28 is stopped (step S3). If the next automatic activation start determination unit 15 does not set the next automatic activation start setting signal 31, the counter circuit 14 ends the processing there.

  As described above, the next automatic activation start determination unit 15 determines whether or not automatic activation is performed based on a setting input in advance by the user. When it is determined that automatic activation is performed, the next automatic activation start is started. Assume that the setting signal 31 is set.

Thereafter, the primary side power is restored at time t _2, the power supply unit 3a detects that the primary electric power is restored, with a primary power failure signal 25 to L level, the power supply from the battery 4 Is switched to power supply by the primary power source 1. However, the power source unit 3a does not change the power supply status to the main circuit section 5 and the start / end control unit 11 before and after the time t _2, the normal power 28 supply while maintaining the stopped state, the standby power 29 supply continue.

On the other hand, the counter circuit 14 waits until a predetermined time elapses after the supply of the normal power 28 by the power supply unit 3a is stopped (time t ₁ ) in order to wait for the primary power supply 23 to return ( Step S4). Thereafter, the counter circuit 14 generates a time elapse signal 30 to be the primary power supply 23 at time t ₃ after a predetermined time is restored (Step S5) and if it is not the normal power 28 supplied (step S6) To do.

  Note that the counter circuit 14 can determine whether or not the primary power supply 23 has been restored by, for example, receiving the primary power supply cutoff signal 25 from the power supply unit 3a. Alternatively, when the counter circuit 14 does not determine whether or not the primary power supply 23 has been restored, the start / end processing determination unit 10 determines whether or not the primary power supply 23 has been restored. To start the startup process. That is, the activation / termination process determination unit 10 determines whether or not the activation start signal 26 is generated when the power supply of the primary power supply 1 is stopped based on the primary power supply interruption signal 25. Therefore, it is not determined that the information processing apparatus (computer 2a) is to be activated. In this case, the determination in step S5 is performed by the activation / termination process determination unit 10 after the activation start signal 26 in step S9 is output.

  In any case, if the power supply by the primary power supply 1 has not been restored, the activation / termination process determination unit 10 determines that automatic activation is not performed and ends (step S6).

  The reason why the counter circuit 14 confirms whether or not the normal power 28 is supplied in step S6 is that the user may have already started the operation by operating the power switch 12 or the like before the automatic activation. This is to prevent contention with the switch 12. If the normal power 28 is supplied, the counter circuit 14 ends without generating the time lapse signal 30 (step S8).

Start / end processing start signal generating unit 16 generates a starting signal 26 based on the time lapse signal 30 generated by the counter circuit 14 at time t _3, and outputs a start / end determination unit 10 (step S9 ). The activation / termination process determination unit 10 is caused by the supply of the normal power 28 by the power supply unit 3a being stopped and the activation / termination control unit 11 (activation / termination process start signal generation unit 16) generating the activation start signal 26. Then, it is determined that the startup process is to be performed, and the CPU 6 starts the startup process. Also, start / end determination unit 10, the activation process is a power supply start instruction signal 24 at time t ₄ when completed in the H level and outputs to the power supply unit 3a. The power supply unit 3a resumes the supply of the normal power 28 based on the H level power supply start instruction signal 24.

  With the operation as described above, the computer 2a can be automatically started when the primary power supply 23 is restored even when the primary power supply 23 is shut down due to a power failure or the like. That is, the start / process control unit 11 in this embodiment controls the start / end processing of the computer 2a by simulating a power switch input triggered by the interruption of the supply of the normal power 28.

FIG. 5 is another example of a time chart showing the state of each part of the information processing apparatus according to the present embodiment, and shows a case where the primary power supply 23 is restored during the shutdown process. First, the computer 2a to the time t ₀ in FIG. 5 is a normal "operating", the reason the primary electric power supply 23 such as a power failure time t ₀ is cut off the operation until the start of shutdown processing, This is the same as in the case of FIG.

When the primary-side power is restored during the shutdown process at time t _1, power unit 3a detects that the primary electric power is restored, with a primary power failure signal 25 to L level due to the battery 4 The power supply is stopped and switched to the power supply by the primary power source 1. However, the power source unit 3a does not change the power supply status to the main circuit section 5 and the start / end control unit 11 before and after the time t _1, the normal continuing a power 28 supply and standby power 29 supply.

  On the other hand, the counter circuit 14 in the start / end control unit 11 determines whether or not the supply of the normal power 28 by the power supply unit 3a is stopped. The counter circuit 14 determines whether or not the shutdown process has been completed by the operation of confirming whether or not the normal power 28 is supplied.

When the shutdown process is completed at time t _2, the the state of the computer 2 is "waiting", start / end determination unit 10 of the main circuit unit 5, the power supply unit and the power supply start instruction signal 24 to the L level Output to 3a. The power supply unit 3a stops the supply of the normal power 28 based on the L level power supply start instruction signal 24, but the supply of the standby power 29 is continued.

  The counter circuit 14 in the start / end control unit 11 detects that the supply of the normal power 28 by the power supply unit 3a has been stopped, and determines that the shutdown process by the main circuit unit 5 has ended. Next, similarly to the case of FIG. 4, the activation / termination control unit 11 determines whether or not to generate the activation start signal 26 based on settings input in advance. Here, it is assumed that the user has set in advance to perform automatic activation, and the next automatic activation start determination unit 15 sets the next automatic activation start setting signal 31.

The counter circuit 14 waits until a predetermined time elapses after the supply of the normal power 28 by the power supply unit 3a is stopped (time t ₂ ), and the primary power supply 23 is restored at time t ₃ after the predetermined time elapses. In addition, since the normal power 28 is not supplied, the time lapse signal 30 is generated. As described above, it is not always necessary for the counter circuit 14 to determine whether or not the primary power supply 23 has returned, and after the start / end control unit 11 generates the start start signal 26, the start / end process determination unit 10. However, it is possible to determine whether or not the primary power supply 23 has been restored and start the activation process only when the primary power supply 23 has been restored.

  In any case, if the power supply by the primary power source 1 has not been restored, the activation / termination process determination unit 10 determines that automatic activation is not performed and ends.

The activation / termination process start signal generation unit 16 generates an activation start signal 26 based on the time lapse signal 30 generated by the counter circuit 14 at time t ₃ and outputs it to the activation / termination process determination unit 10. The activation / termination process determination unit 10 is caused by the supply of the normal power 28 by the power supply unit 3a being stopped and the activation / termination control unit 11 (activation / termination process start signal generation unit 16) generating the activation start signal 26. Then, it is determined that the startup process is to be performed, and the CPU 6 starts the startup process. Also, start / end determination unit 10, the activation process is a power supply start instruction signal 24 at time t ₄ when completed in the H level and outputs to the power supply unit 3a. The power supply unit 3a resumes the supply of the normal power 28 based on the H level power supply start instruction signal 24.

  By the operation as described above, even if the primary power supply 23 is restored during the shutdown process, the computer 2a does not forcibly cut off the power supply during the shutdown process and starts up properly after the shutdown process is completed. be able to.

  As described above, according to the information processing apparatus according to the first embodiment of the present invention, it is not necessary to add an interface such as a network cable or a relay switch, and it is not necessary to change the BIOS software. It can be automatically started when the power supply is stopped and the primary power supply is restored from a power failure.

  That is, the computer 2a according to the present embodiment includes the activation / processing control unit 11 that detects the presence / absence of the power supply 3a having the battery 4 and the supply of the normal power 28 and controls the timing of starting the activation process. Thus, there is no need to prepare an uninterruptible power supply externally, and a minimum cost and installation space can be achieved, and a forced power supply stop by the uninterruptible power supply is not performed during the shutdown process.

  Furthermore, since the computer 2a of this embodiment includes the counter circuit 14, the computer 2a generates the time lapse signal 30 that triggers the start-up process after a lapse of a predetermined time after the supply of the normal power 28 is stopped. It is possible to wait for the power supply 23 to return. If the primary power supply 23 has not returned even after a predetermined time has elapsed, as described above, the activation / termination process determination unit 10 determines that the information processing apparatus (computer 2a) is to be activated. Since it does not do, it does not start by mistake.

  Further, when performing the activation process, the activation / termination process determination unit 10 generates the power supply start instruction signal 24 for starting the supply of the normal power 28 and causes the power supply unit 3a to supply the normal power 28. 2a can be properly activated to start operation.

  Furthermore, the activation / termination control unit 11 includes the next automatic activation start determination unit 15 and can determine whether or not to generate the activation start signal 26 based on a setting input in advance.

  FIG. 6 is a block diagram illustrating a modification of the start / end control unit 11 of the information processing apparatus according to the present embodiment. The difference from the start / end control unit 11 shown in FIG. 2 is that a switch 20 is provided between the counter circuit 14 and the start / end process start signal generation unit 16.

  As described with reference to FIGS. 3 to 5, the computer 2 a provided with the start / end control unit 11 described with reference to FIG. 2 has a configuration that starts to start when the supply of the normal power 28 is stopped. Therefore, if the supply of the normal power 28 is interrupted for a moment due to a power interruption in a short time without affecting the operation of the operating system or the computer, an unintended start start signal 26 is generated during the operation of the computer 2a, which may cause a malfunction. Can be considered. Therefore, the computer 2a of the present embodiment can be prevented from malfunctioning by providing a switch 20 as shown in FIG.

  The switch 20 is turned on when the normal power supply by the power supply unit 3a is stopped, and turned off when the normal power supply by the power supply unit 3a is being performed. Due to the function of the switch 20, the counter circuit 14 cannot output the time lapse signal 30 to the start / end process start signal generation unit 16 when the normal power 28 is supplied. In other words, the activation / termination control unit 11 in this case stops generating the activation start signal 26 when the normal power 28 is supplied from the power supply unit 3a when generating the activation start signal 26. As a result, the computer 2a according to the present embodiment does not generate the activation start signal 26 during operation, and can prevent malfunction caused by a momentary interruption of the supply of the normal power 28 or the like. In particular, since the counter circuit 14 generates the time lapse signal 30 only after a predetermined time has elapsed, there is a high possibility that the normal power 28 supply is restored during that time, and the switch 20 can be reliably combined with the counter circuit 14. Malfunctions can be prevented.

  FIG. 7 is a block diagram illustrating the configuration of the information processing apparatus according to the second embodiment of this invention. The difference from FIG. 1 is that the primary power source 1 and the start / end control unit 11 are connected. FIG. 8 is a block diagram showing a detailed configuration of the start / end control unit 11 of the computer 2a of this embodiment. The difference from the start / end control unit 11 shown in FIG. 2 is that an AND logic circuit 21 is provided instead of the counter circuit 14.

  The AND logic circuit 21 is connected to the primary-side power supply 1, the power supply unit 3a, the next automatic activation start determination unit 15, and the activation / termination process start signal generation unit 16, and normal power 28 is supplied by the power supply unit 3a. The AND signal 32 is generated when the power is stopped and the power is supplied from the primary power source 1. The primary power source 1 outputs a power supply signal 33 indicating the power supply state. The AND logic circuit 21 determines whether power is supplied from the primary power source 1 based on the power supply signal 33. The activation / termination process start signal generation unit 16 generates an activation start signal 26 based on the AND signal 32 generated by the AND logic circuit 21.

  That is, the activation / termination control unit 11 generates the activation start signal 26 when the supply of the normal power 28 by the power supply unit 3a is stopped and the power is supplied by the primary side power supply 1.

  The AND logic circuit 21 determines whether or not the next automatic activation start setting signal 31 has been set by the next automatic activation start determination unit 15 in the same manner as the counter circuit 14 in the first embodiment. An AND signal 32 is generated under the above-described conditions. Further, the AND logic circuit 21 may determine whether or not power is supplied from the primary power supply 1 by receiving the power-off signal 25 from the power supply unit 3a. In that case, there is no need to connect the primary power supply 1 and the AND logic circuit 21 in the start / end control unit 11, and the AND logic circuit 21 supplies the power-off signal 25 and the normal power 28 from the power supply unit 3 a. AND condition is judged by receiving.

  Other configurations are the same as those of the first embodiment, and redundant description is omitted.

Next, the operation of the present embodiment configured as described above will be described. The computer 2a according to the present embodiment basically performs the same operation as the computer 2a according to the first embodiment. However, unlike the counter circuit 14, the computer 2a waits for the primary power supply 23 to return to the primary power. When the supply 23 is restored and the AND condition of the AND logic circuit 21 is satisfied, the activation process is started. Thus, the computer 2a in this embodiment, begins the starting process at time t ₂ in the case of FIGS.

  Other operations are the same as those in the first embodiment, and redundant description is omitted.

  As described above, according to the information processing apparatus according to the second embodiment of the present invention, in addition to the effects of the first embodiment, when the power supply by the primary power source 1 is resumed, the startup process is surely and quickly performed. Can start.

  The information processing apparatus according to the present invention is an information processing apparatus such as a computer that automatically performs a shutdown process when the primary power supply is cut off due to a power failure or the like and automatically starts when the power supply is restored. Is available.

DESCRIPTION OF SYMBOLS 1 Primary side power supply 2, 2a Computer 3, 3a Power supply part 4 Battery 5 Main circuit part 6 CPU
7 Memory 8 HDD
9 BIOS-ROM
10 Start / End Process Determination Unit 11 Start / End Process Control Unit 12 Power Switch 13 Start / End Control Unit Power Supply 14 Counter Circuit 15 Next Automatic Start Start Determination Unit 16 Start / End Process Start Signal Generation Unit 17 Uninterruptible Power Supply 18 Battery 19 relay switch 20 switch 21 AND logic circuit 22 control unit 23 primary power supply 24 power supply start instruction signal 25 power-off signal 26 start-up signal 27 UPS power supply 28 normal power 29 standby power 30 time lapse signal 31 setting signal 32 AND signal 33 Power supply signal

Claims (7)

An information processing apparatus that receives power from a primary power source,
It detects the presence or absence of power supply by the primary side power supply, generates a primary side power cut-off signal according to the detection result, and uses the power when power is supplied by the primary side power supply. A power supply unit that supplies normal power and standby power and supplies normal power and standby power using an internal battery when power supply by the primary power supply is stopped;
A control unit for generating a start signal for starting the information processing device based on the presence or absence of normal power supply by the power supply unit;
When the normal power is supplied by the power supply unit and the power supply of the primary side power supply is stopped, and the primary power supply cutoff signal is generated by the power supply unit, the information processing apparatus is terminated. A determination unit that determines whether to perform a startup process of the information processing apparatus when normal power supply by the power supply unit is stopped and a startup start signal is generated by the control unit; ,
An information processing apparatus comprising: The controller is
A timing unit that generates a time lapse signal after a predetermined time has elapsed since the supply of normal power by the power source unit is stopped;
A generation unit that generates the activation start signal based on the time lapse signal generated by the time measuring unit;
The information processing apparatus according to claim 1, further comprising:   2. The information according to claim 1, wherein the control unit generates the activation start signal when supply of normal power by the power supply unit is stopped and power is supplied by the primary power supply. 3. Processing equipment. The determination unit generates a power supply start instruction signal for starting the supply of normal power when determining that the activation processing of the information processing apparatus is to be performed,
The information processing apparatus according to claim 1, wherein the power supply unit starts supplying normal power based on a power supply start instruction signal generated by the determination unit.   When the power supply of the primary side power supply is stopped based on the primary side power cut-off signal, the determination unit determines whether the activation start signal is generated or not. The information processing apparatus according to any one of claims 1 to 4, wherein the determination that the activation process is performed is not performed.   The information processing apparatus according to claim 1, wherein the control unit determines whether to generate the activation start signal based on a setting input in advance.   The control unit, when generating the activation start signal, stops generating the activation start signal when normal power is supplied from the power supply unit. The information processing apparatus according to any one of the above.

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