JP2013186780A - Ict apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enhance reliability of ICT apparatuses such as a server device.SOLUTION: An ICT apparatus 100 comprises a power supply device 101 which converts an AC current into a DC current and outputs it, a battery 102, and a charge/discharge control unit 103 which controls charging and discharging of the battery 102. The AC current outputted from the power supply device 101 is supplied to an electronic component 104 loaded on the ICT apparatus 100, a DC power shared path 200 used to perform power supplying and power receiving with another ICT apparatus, and the charge/discharge control unit 103 through a first path 105. The DC current supplied from the DC power shared path 200 and the DC current outputted from the battery 102 are supplied to the electronic component 104 through a second path 106.

Description

The present invention relates to ICT (Information and Communication) such as server devices.
Technology) Power source redundancy technology in equipment.

  Various technologies are known as power source redundancy technologies for ICT devices such as server devices. For example, a plurality of network devices (ICT devices) each having one AC-DC power supply device are mutually fed. What receives power is known (for example, refer to Patent Document 1).

JP 2009-290814 A

  According to the technology described in Patent Document 1 described above, each ICT device that exchanges power with each other can be separated from other ICT devices even if an AC-DC power supply device in the ICT device fails. Since power is supplied, processing can be continued. However, the technique described in Patent Document 1 has a problem that sufficient reliability cannot be obtained. That is, the technique described in Patent Document 1 is the above when the AC power is not supplied to the AC-DC power supply devices of a large number of ICT devices due to a power failure or the like, and the AC-DC power supplies in the large number of ICT devices are faulty. There is a possibility that the power required for the operation of many ICT devices cannot be supplied from the remaining ICT devices, and the above-mentioned many ICT devices are stopped.

[Object of the invention]
Therefore, an object of the present invention is to provide an ICT device that solves the problem that sufficient reliability cannot be obtained.

The ICT device according to the present invention is
An ICT device including a power supply device that converts alternating current into direct current and outputs it,
Battery,
Charging / discharging control unit for controlling charging and discharging of the battery;
The direct current output from the power supply device is an electronic component mounted on its own ICT device, a DC power shared path used for feeding and receiving power with another ICT device, and the charge / discharge control A first pass for supplying to the part;
A second path for supplying a DC current supplied from the DC power shared path and a DC current output from the battery to the electronic component.

The power control method according to the present invention includes:
A power control method in an ICT device comprising a power supply device that converts an alternating current into a direct current and outputs, a battery, and a charge / discharge control unit that controls charging and discharging of the battery,
Shared DC power used to feed and receive DC current output from the power supply device with electronic components mounted on the ICT device and other ICT devices via the first path Pass, and supply to the charge / discharge control unit,
A DC current supplied from the DC power shared path and a DC current output from the battery are supplied to the electronic component via a second path.

The program according to the present invention is:
A power supply device that converts an alternating current into a direct current and outputs it, a battery, a charge / discharge control unit that controls charging and discharging of the battery, and a direct current output from the power supply device to the ICT device A DC power shared path used for feeding and receiving power with the mounted electronic component, another ICT device, a first path for supplying to the charge / discharge control unit, and the DC power A computer comprising: a direct current supplied from a shared path; and a second path for supplying a direct current output from the battery to the electronic component;
Control that instructs the charge / discharge control unit of the ICT device to prohibit charging the battery when a failure of a power supply device of another ICT device connected to the DC power shared path is detected Function as a part.

  According to the present invention, it is possible to obtain an effect that the reliability of the ICT device can be increased.

It is a block diagram which shows the structural example of the 1st Embodiment of this invention. 3 is a diagram illustrating a configuration example of a control unit 16 and a storage device 17. FIG. It is a flowchart which shows a part of process example which the control part 16 performs at the time of power activation. It is a flowchart which shows the remaining part of the process example which the control part 16 performs at the time of power activation. 5 is a flowchart illustrating a processing example performed by the control unit 16 when a failure occurs in the AC-DC power supply device 11. It is a flowchart which shows the process example which the control part 16 performs at the time of failure notification notification reception. It is a flowchart which shows the process example which performs the control part 16 when an ICT apparatus transfers to a standby state. It is a flowchart which shows the process example which the control part 16 performs at the time of a power failure occurrence. It is a flowchart which shows the process example which the control part 16 performs at the time of shutdown. It is a flowchart which shows the process example which the control part 16 performs at the time of reception of the largest identification number change instruction | indication. It is a flowchart which shows the process example which the control part 16 performs at the time of reception of the shutdown notification. It is a block diagram which shows the structural example of the 2nd Embodiment of this invention.

  Next, embodiments of the present invention will be described in detail with reference to the drawings.

[First embodiment of the present invention]
Referring to FIG. 1, in the first embodiment of the present invention, a plurality of ICT devices 1-1 to 1-N and direct current for ICT devices 1-1 to 1-N to feed and receive each other. The power sharing path 2 and the communication path 3 for the ICT devices 1-1 to 1-N to communicate with each other are provided.

  The ICT device 1-1 is a server device or the like, and includes an AC-DC power supply device 11, a battery module 12, a mother board 15 on which electronic components such as a CPU (Central Processing Unit) and a memory are mounted, a control unit 16, and the like. , A storage device 17, a socket 18, a diode D1, and switches SW1 and SW2. Since the other ICT devices 1-2 to 1-N have the same configuration and function as the ICT device 1-1, only the ICT device 1-1 will be described here.

  The AC-DC power supply device 11 converts an alternating current supplied via the socket 18 into a direct current and outputs the direct current.

  The battery module 12 includes a charge / discharge control unit 13, a battery 14, and diodes D2 and D3. The charge / discharge control unit 13 controls charging and discharging of the battery 14 according to the values of the charge prohibition flag and the discharge prohibition flag set by the control unit 16. In the present embodiment, charging is prohibited when the charging prohibition flag is ON, and charging is permitted when it is OFF. Further, discharge is prohibited when the discharge prohibition flag is ON, and discharge is permitted when it is OFF. The charge prohibition flag and the charge prohibition flag are recorded in a memory (not shown) in the charge / discharge control unit 13.

  The storage device 17 is realized by a disk device or the like, and as shown in FIG. 2, an identification number storage unit 171, a maximum identification number storage unit 172, a failure information storage unit 173, a priority storage unit 174, Is provided.

  In the identification number storage unit 171, an identification number assigned to the own ICT device 1-1 is recorded. In the maximum identification number storage unit 172, the maximum value among the identification numbers assigned to the ICT devices is recorded. In the failure information storage unit 173, failure information indicating whether or not a failure has occurred in the AC-DC power supply device 11 is recorded. In the priority storage unit 174, the priority assigned to the ICT device 1-1 is recorded. In the present embodiment, the higher the value, the higher the priority.

  As shown in FIG. 2, the control unit 16 includes a transmission / reception unit 161, an identification number management unit 162, a switch control unit 163, a flag control unit 164, and a power control unit 165.

  The transmission / reception unit 161 has a function of transmitting / receiving data to / from another ICT device via the communication path 3.

  The identification number management unit 162 records the identification number assigned to the own ICT device 1-1 in the identification number storage unit 171 or stores the maximum value among the identification numbers assigned to the ICT device as the maximum identification number. A function of recording in the unit 172. Further, data is exchanged with other ICT devices using the transmission / reception means 161, the states of the switches SW1 and SW2 are controlled using the switch control means 163, and the charge prohibition flag is used using the flag control means 164. And a function of operating a discharge prohibition flag.

  The power control unit 165 uses the switch control unit 163 when a failure occurs in the AC-DC power supply device 11 in the own ICT device 1-1 or when an AC-DC power supply device failure occurs in another ICT device. Thus, it has a function of controlling the states of the switches SW1 and SW2 and operating the charge prohibition flag and the discharge prohibition flag using the flag control means 164.

  The switch control unit 163 has a function of controlling the states of the switches SW1 and SW2 in accordance with instructions from the identification number management unit 162 and the power control unit 165. The flag control unit 164 has a function of operating the charge prohibition flag and the discharge prohibition flag in accordance with instructions from the identification number management unit 162 and the power control unit 165.

  The control unit 16 having such a function can be realized by a CPU. In this case, for example, the following is performed. Prepare a disk, a semiconductor memory, and other recording media on which a program for causing the CPU to function as the transmission / reception means 161, the identification number management means 162, the switch control means 163, the flag control means 164, and the power control means 165, The CPU reads the program. The CPU controls itself according to the read program, and realizes each of the means 161 to 165 on the own CPU.

[Operation of the first embodiment]
Next, the operation of the present embodiment will be described in detail. First, the operation when the power is turned on will be described with reference to the flowcharts of FIGS. In the initial state, the switches SW1 and SW2 are ON and OFF, respectively.

  The AC current is supplied to the AC-DC power supply device 11 by inserting the socket 18 of the ICT device 1-1 into an outlet (not shown). The AC-DC power supply device 11 converts the input alternating current into a direct current and supplies it to the mother board 15 and the control unit 16.

  As a result, the identification number management unit 162 in the control unit 16 broadcasts an operation start notification indicating that the own ICT device 1-1 has started operation via the communication path 3, as shown in the flowchart of FIG. (Step S301).

  This operation start notification is received by the identification number management means 162 in another ICT device that is already operating. Then, the identification number management means 162 that has received the operation start notification determines whether or not the identification number assigned to the own ICT device is the maximum identification number, and if it is the maximum identification number, assigns it to the own ICT device. Is returned to the ICT device 1-1 that is the transmission source of the operation start notification. Whether or not the identification number assigned to the ICT device is the maximum identification number is determined based on the identification number recorded in the identification number storage unit 171 and the maximum identification number recorded in the maximum identification number storage unit 172. Judgment is made based on whether the numbers match.

  When the identification number management means 162 in the ICT device 1-1 that has broadcast the operation start notification fails to receive the identification number even after a predetermined time T1 has elapsed after broadcasting (step S302 is No, S303 is Yes). Then, it is determined that there is no ICT device in operation other than the own ICT device 1-1, and the minimum identification number (1 in the present embodiment) is assigned to the own ICT device 1-1. Then, the assigned identification number “1” is recorded in the identification number storage unit 171 and the maximum identification number storage unit 172 (step S304).

  Thereafter, the identification number management unit 162 instructs the switch control unit 163 to change the switch SW2 to the ON state (step S305). Thereby, the switch control means 163 turns on the switch SW2. At this time, the switches SW1 and SW2 are both turned on.

  Thereafter, the identification number management unit 162 instructs the flag control unit 164 to set the charge prohibition flag = OFF and the discharge prohibition flag = ON (step S306). The flag control means 164 turns OFF and ON a charge prohibition flag and a discharge prohibition flag recorded in a memory (not shown) in the charge / discharge control unit 13, respectively. Thereby, the charge / discharge control part 13 charges the battery 14 with the direct current supplied from the AC-DC power supply device 11 via the switches SW1 and SW2.

  On the other hand, when the identification number can be received (step S302 is Yes), as shown in the flowchart of FIG. 4, the identification number management unit 162 in the ICT device 1-1 increments the received identification number. (+1 in the present embodiment), the incremented identification number is recorded in the identification number storage unit 171 and the maximum identification number storage unit 172 (step S307).

  Next, the identification number management unit 162 determines whether or not a voltage is applied to the battery module 12 in the own ICT device 1-1 (step S308). If the voltage is applied (Yes in step S308), it is determined that the battery module 12 is connected to the DC power shared path 2, and the switch SW2 is turned on for the switch control means 163. Is instructed (step S309).

  Thereafter, the identification number management means 162 in the ICT device 1-1 notifies the maximum identification number including the identification number assigned to the own ICT device 1-1 in order to notify the active ICT device of the maximum identification number. Is broadcast (step S310). The identification number management means 162 in the ICT device that has received this maximum identification number records the received identification number in the maximum identification number storage unit 172.

  Further, the identification number management means 162 in the ICT device 1-1 broadcasts a failure inquiry for inquiring whether or not a failure has occurred in the AC-DC power supply apparatus (step S311). The identification number management means 162 in the ICT device that has received this failure inquiry transmits failure information indicating whether or not a failure has occurred in the AC-DC power supply device to the inquiry-source ICT device 1-1. .

  The identification number management unit 162 in the ICT device 1-1 determines that there is no failure information indicating the occurrence of failure in the received failure information (Yes in step S312), the flag control unit 164 It is instructed to turn off the charge prohibition flag and turn on the discharge prohibition flag (step S306 in FIG. 3). That is, when all the AC-DC power supply devices of the ICT equipment in operation are normal, it is not necessary to supply the direct current output from the AC-DC power supply device 11 to other ICT equipment. Used to charge the battery 14.

  On the other hand, if there is at least one piece of failure information indicating the occurrence of failure in the received failure information (Yes in step S312), the charge prohibition flag is turned on for the flag control means 164, and the discharge inhibition flag is set. Is turned OFF (step S313 in FIG. 4). In other words, when there is an ICT device in which a failure has occurred in the AC-DC power supply device, if the DC current output from the AC-DC power supply device 11 is used to charge the battery 14, the failure occurs. Since there is a possibility that the power supplied to the ICT equipment is insufficient, the charging prohibition flag is turned on to prohibit charging.

  Moreover, when it determines with the voltage not being applied to the battery module 12 by step S308 (step S308 is No), the cause is that the battery module 12 is not connected to the direct-current power shared path 2 ( The middle point of the diodes D2 and D3 and the DC power shared path 2 are not electrically connected to each other). A failure inquiry for inquiring whether or not a failure has occurred in the DC power supply is broadcast (step S314). The identification number management means 162 in the ICT device that has received this failure inquiry transmits failure information indicating whether or not a failure has occurred in the AC-DC power supply device to the ICT device 1-1 that has made the inquiry.

  The identification number management means 162 in the ICT device 1-1 connects the battery module 12 to the DC power shared path 2 when none of the received fault information indicates a fault occurrence (step S315). It is determined that it has not been performed, and error processing such as displaying an error message is performed (step S316).

  On the other hand, if there is at least one piece of failure information indicating failure occurrence (Yes in step S315), the switch control unit 163 is instructed to change the switch SW2 to ON. After (step S317), the process of step S313 described above is performed.

  The above is the process performed when the power is turned on. In the above description, the failure of the control unit 16 is not considered. However, when the failure of the control unit 16 is considered, the following processing may be added.

  The ICT device that has received the broadcast operation start notification in step S301 by the identification number management unit 162 in the ICT device 1-1 has the maximum identification number even if the predetermined time T2 has elapsed after receiving the operation start notification. If the identification number transmitted by the ICT device that has been received cannot be received, it is determined that the ICT device having the maximum identification number has failed, and an identification number non-reception notification is transmitted to the ICT device 1-1. . The predetermined time T2 is shorter than the predetermined time T1 and longer than the time required for the identification number transmission process.

  Upon receiving the identification information non-reception notification, the identification number management means 162 in the ICT device 1-1 determines that there is a problem with the ICT device having the largest identification number, and normalizes in order from the ICT device with the smallest identification number. Inquire whether it is running or not. Then, when the answer can be received within a predetermined time T3 (a time longer than the time required for answering the inquiry), an inquiry is made to the ICT device having a larger identification number. On the other hand, if the response cannot be received within the predetermined time T3, it is determined whether or not there is an ICT device having an identification number larger than the identification number of the ICT device that has not received the response. Broadcast the presence query to be queried. For example, when a response from the ICT device having the identification number “k” cannot be received, a presence inquiry including the identification number “k” is broadcast.

  If there is no response to the existence inquiry within a predetermined time T4 (a time longer than the time required for answering the existence inquiry), the identification number management means 162 in the ICT device 1-1 determines the own ICT. “K” is recorded as the identification number in the identification number storage unit 171 in the device 1-1, and “k” is recorded as the maximum identification number in the maximum identification number storage unit 172. Thereafter, the identification number management means 162 broadcasts a maximum identification number notification including “k” as the maximum identification number. The identification number management means 162 in the ICT device that has received the maximum identification number notification records “k” as the maximum identification value in the maximum identification number storage unit 172 in the ICT device.

  On the other hand, if there is a reply within a predetermined time T4 to the presence inquiry for inquiring whether or not there is an ICT device having an identification number “k” or higher, the identification number management in the ICT device 1-1 is performed. The means 162 performs the processing described above in order from the ICT device with the identification number “k + 1”. As a result, an identification number is assigned to the ICT device 1-1 and the maximum identification number is clarified. The above is the process added when the failure of the control unit 16 is taken into consideration.

  Next, an operation when a failure occurs in the AC-DC power supply device 11 of the ICT device 1-1 will be described.

  The power control means 165 in the control unit 16 of the ICT device 1-1 is a flowchart of FIG. 5 when a failure occurs in the AC-DC power supply device 11 and the supply of direct current from the AC-DC power supply device 11 is interrupted. First, an instruction is issued to the switch control means 163 to turn off both the switches SW1 and SW2 (step S51). In this embodiment, the switch SW1 is turned off, but it may be turned on.

  Next, the power control unit 165 instructs the flag control unit 164 to turn on the charge prohibition flag and turn off the discharge prohibition flag (step S52). Here, the reason why the charging prohibition flag is set to ON and charging of the battery 14 is prohibited is because there is a high possibility that the power required for the operation of the ICT device 1-1 cannot be obtained. Thereafter, the power control unit 165 broadcasts a failure occurrence notification indicating that a failure has occurred (step S53).

  The power control means 165 in the ICT device that has received this failure occurrence notification determines whether or not the AC-DC power supply device in its own ICT device 1-1 is normal, as shown in the flowchart of FIG. Step S61). If it is normal (Yes in step S61), an instruction is issued to the flag control means 164 to turn on the charge prohibition flag and turn off the discharge prohibition flag (step S62). Here, the reason why the charging prohibition flag is set to ON is to supply more power to the ICT device 1-1 in which the failure of the AC-DC power supply apparatus has occurred. On the other hand, when it is not normal (No in step S61), the process is terminated.

  Next, the operation when the ICT device 1-1 shifts from the operating state to the standby state will be described.

  When the ICT device 1-1 shifts from a normal operation state to a standby state (a state in which power consumption is low compared to the operation state), the power control unit 165 in the ICT device 1-1, as shown in FIG. It is determined whether or not the own device 1-1 is a standby power supply device (step S71). The standby power supply device is an ICT device that supplies power from the AC-DC power supply device 11 in its own device to the motherboard 15 and the DC power shared path 2 even in the standby state. As a method for determining whether the device is a standby power supply device, a method for determining whether the identification number assigned to the own device is an even number, or an identification number assigned to the own device is used. Adopting a determination method based on whether or not it is a multiple of a positive number j, a determination method based on whether or not the identification number assigned to the device is a predetermined number, etc. Can do.

  If it is determined that the own ICT device 1-1 is a standby power supply device (Yes in step S71), an instruction is issued to the switch control means 163, and both the switches SW1 and SW2 are turned on (step). S72). Thereby, the direct current output from the AC-DC power supply device 11 is supplied to the mother board 15, the control unit 16, and the direct-current power shared path 2.

  On the other hand, when it is determined that the own ICT device 1-1 is not a standby power supply device (No in step S71), a power supply inquiry for inquiring whether or not power is being supplied to the DC power shared path 2 is made. Broadcast (step S73).

  The power control means 165 in the ICT device that has received the power supply inquiry inquires of the switch control means 163 whether or not both the switches SW1 and SW2 in the own device are ON. If both the switches SW1 and SW2 are ON, a power supply response indicating that power is being supplied to the DC power shared path 2 is returned to the ICT device 1-1.

  The power control means 165 in the ICT device 1-1 has not received any power supply response within a predetermined time T5 (a time longer than the time required for the response processing for the power supply inquiry) (Step S74 is No). ) Performs the process of step S72 described above.

  On the other hand, if the power supply reply can be received within the predetermined time T5 (Yes in step S74), an instruction is given to the switch control means 163, and both the switches SW1 and SW2 in the own ICT device 1-1 are turned on. By turning OFF, supply of direct current (power supply) from the AC-DC power supply device 11 to the mother board 15 and the control unit 16 is stopped (step S75). Generally, the AC-DC power supply apparatus has the highest conversion efficiency when operated at about 50% of the maximum output, and the conversion efficiency decreases as the power during operation decreases. Therefore, in the present embodiment, in the standby state in which power consumption is reduced, the power supply from the AC-DC power supply device 11 in the own device 1-1 to the mother board 15 and the control unit 16 is stopped, and other ICT devices. Is supplied to the mother board 15 and the control unit 16 to reduce the power consumption. In this state (when the switches SW1 and SW2 are both OFF), when an operation instruction is input, the power control unit 165 issues an instruction to the switch control unit 163, and both the switches SW1 and SW2 are turned on. To do.

  Next, the operation when a power failure occurs will be described.

  When AC current is no longer supplied to the AC-DC power supply 11 due to a power failure, the power control means 165 in the ICT device 1-1 issues an instruction to the switch control means 163 as shown in the flowchart of FIG. The switch SW2 in 1-1 is turned on (step S81). Next, an instruction is issued to the flag control means 164, and the charge prohibition flag is turned on and the discharge prohibition flag is turned off (step S82).

  Thereafter, the power control unit 165 determines whether or not the priority recorded in the priority storage unit 174 is greater than or equal to a threshold value (step S83). If the priority is equal to or higher than the threshold (step S83), the processing performed by the ICT device 1-1 is continued. On the other hand, when the priority is less than the threshold value (No in step S83), an end process for stopping the ICT device 1-1 is performed (step S84). That is, the ICT device with a low priority stops its operation and supplies the DC current output from the battery 14 to the ICT device with a high priority via the diode D 1 → switch SW 2 → diode D 2 → DC power shared path 2. This improves the probability that an ICT device with a high priority can continue processing. Instead of performing the termination process in step S84, the mode may be shifted to the low power consumption mode.

  Next, the operation at the time of shutdown will be described.

  The identification number management means 162 in the ICT device 1-1 has an identification number recorded in the identification number storage unit 171 and a maximum identification number recorded in the maximum identification number storage unit 172 when the own device 1-1 is shut down. Whether or not the identification number assigned to the device 1-1 is the maximum identification number is determined (step S91).

  And when it determines with it being a maximum identification number (step S91 is Yes), the maximum identification number change instruction | indication is broadcast (step S92). Upon receiving this maximum identification number change instruction, the identification number management means 162 in the ICT device decrements the maximum identification number recorded in the maximum identification number storage unit 172 (as shown in the flowchart of FIG. 10). Then, -1) is performed (step S101).

  On the other hand, if it is not the maximum identification number (No in step S91), the identification number management unit 162 broadcasts a shutdown notification (step S93). This shutdown notification includes the identification number (for example, m) of the shut-down ICT device 1-1.

  The identification number management means 162 in the ICT device that has received the shutdown notification has the maximum identification number of its own device based on the contents of the identification number storage unit 171 and the maximum identification number storage unit 172, as shown in the flowchart of FIG. It is determined whether it is an identification number (step S111). If the identification number is the maximum identification number (Yes in step S111), the identification number “m” included in the shutdown notification is recorded in the identification number storage unit 171 so that the identification number of the device is “m”. (Step S112). Thereafter, the identification number management means 162 in the ICT device having the maximum identification number decrements the maximum identification number recorded in the maximum identification number storage unit 172 of the own device (in this embodiment, -1) (step) S113). On the other hand, if the identification number of the own ICT device is not the maximum identification number (No in step S111), the maximum identification number recorded in the maximum identification number storage unit 172 in the own device is decremented (step S113). .

  In the above description, the failure of the control unit 16 is not considered. However, even when a failure occurs in the control unit 16, the following may be performed to maintain the consistency of the identification code.

  The identification number management means 162 in the ICT device (referred to as ICT device 1-1) to which the smallest identification number “1” is assigned broadcasts an identification number matching instruction including its own identification number every predetermined time T6. To do. The predetermined time T6 is sufficiently longer than the predetermined time T1 described above. Among the ICT devices that have received the identification number matching instruction, an ICT device (referred to as ICT device 1-2) whose identification number of its own device is one greater than the identification number “1” included in the instruction is a predetermined time. An identification number matching instruction including the identification number “2” of the own device 1-2 is broadcast within T2. Thereafter, an ICT device having an identification number that is one larger than the identification number included in the identification number matching instruction broadcasts the identification number matching instruction in order.

  If an identification number matching instruction including an identification number (for example, h) smaller than the maximum identification number cannot be received, it is determined that there is a failure in the ICT device having the identification number “h”. The ICT device having the identification number records the identification number “h” that should have been included in the identification number matching instruction that could not be received, in the identification number storage unit 171, so that the identification number of the ICT device is “h”. Then, the maximum identification number change instruction is broadcast, and further, the identification number matching instruction including the identification number “h” is broadcast.

  The identification number management means 162 in the ICT device that has received the maximum identification number change instruction decrements the maximum identification number recorded in the maximum identification number storage unit 172 in the own device. Of the ICT devices that have received the identification number matching instruction including the identification number “h”, the ICT device having the identification number “h + 1” broadcasts the identification number matching instruction including the identification number “h + 1”. The above processing is repeated until the ICT device having the largest identification number receives the identification number matching instruction. When receiving the identification number matching instruction, the ICT device having the maximum identification number broadcasts a matching completion notification within a predetermined time T2. Here, if the completion notification of matching cannot be received within the predetermined time T2, the identification number management means 162 in each ICT device decrements the maximum identification number recorded in the maximum identification number storage unit 172. .

  After this, when the identification number matching instruction is not output from the ICT device 1-1 having the identification number “1” even after the predetermined time T6 has elapsed, it is determined that a failure has occurred in the ICT device 1-1. The ICT device 1-2 having the identification number “2” records the identification number “1” in the identification number storage unit 171 in the own device 1-2, thereby changing the identification number of the own device 1-2 to “1”. After that, an identification number matching instruction including the identification number “1” is broadcast. In this case, since there is no ICT device having the identification number “2” and the identification number matching instruction including “2” is not broadcasted, the ICT device having the largest identification number becomes the ICT device having the identification number “2”. .

  In addition, when a plurality of ICT devices broadcast an identification number matching instruction including the same identification number, the identification number matching processing is stopped except for the broadcasted ICT device. Then, the identification number management means 162 in the broadcast ICT device communicate with each other, and any one ICT device holds the identification number where the collision occurred, and the remaining ICT devices perform the processing shown in the flowchart of FIG. Do. With the above processing, the consistency of the identification numbers can be maintained even when a failure occurs in the control unit 16 of the ICT device.

  The management method of the identification number and the maximum identification number of the ICT device is not limited to the above-described method. For example, a specific ICT device among the ICT devices 1-1 to 1-N is used for managing the identification number. The other ICT devices send a power-on report or a shutdown report to the identification number management ICT device when the power is turned on or shut down, and the identification number management is performed based on this report. The identification number and the maximum identification number may be managed by an ICT device for use.

[Effect of the first embodiment]
According to the present embodiment, it is possible to obtain an effect that the reliability of the ICT device can be increased. The reason is that even when the AC-DC power supply device 11 of the own ICT device fails, even if the power supplied from other ICT devices via the DC power shared path 2 is insufficient, the own ICT device. This is because the power necessary for the operation of the ICT device can be supplied from the internal battery 14.

  Further, in the present embodiment, when a failure of the AC-DC power supply device 13 of another ICT device connected to the DC power shared path is detected, the battery 14 is used for the charge / discharge control unit 13 of the own ICT device. Since the control unit 16 is instructed to prohibit charging of the battery, it is possible to supply more power to other ICT devices in which the charge / discharge control unit 13 has failed.

  Further, in the present embodiment, when the own ICT device 1-1 is in a standby state, the first switch W1 is controlled, the power supply by the AC-DC power supply device 11 is stopped, and the DC power shared path 2 is used. Since the power supplied in this way is the operating power in the standby state, the power consumption can be reduced.

  Further, in the present embodiment, when a power failure occurs, the priority of the own ICT device 1-1 recorded in the priority storage unit 174 is compared with the threshold value. If the priority is lower than the threshold value, the own ICT device is shut down. Therefore, it is possible to increase the probability that an ICT device having a high priority can continue processing.

[Second embodiment of the present invention]
Next, a second embodiment of the present invention will be described.

  Referring to FIG. 12, the ICT device 100 according to the second embodiment of the present invention includes a power supply device 101 that converts an alternating current into a direct current and outputs it, a battery 102, and charging and discharging of the battery 102. And a charge / discharge control unit 103 that controls the above. The direct current output from the power supply apparatus 101 is used to supply and receive power to and from the electronic component 104 mounted on the ICT device 100 and other ICT devices via the first path 105. To the DC power shared path 200 and the charge / discharge control unit 103. Further, the direct current supplied from the DC power shared path 200 and the direct current output from the battery 102 are supplied to the electronic component 104 via the second path 106.

[Effect of the second embodiment]
According to the present embodiment, it is possible to obtain an effect that the reliability of the ICT device can be increased. The reason for this is that even when the power supply device 101 of the own ICT device fails, even if the power supplied from the other ICT device via the DC power shared path 200 is insufficient, the battery in the own ICT device is used. This is because the power necessary for the operation of the ICT device can be supplied from 102.

DESCRIPTION OF SYMBOLS 1 ICT apparatus 2 DC power shared path 3 Communication path 11 AC-DC power supply device 12 Battery module 13 Charge / discharge control part 14 Battery 15 Motherboard 16 Control part 161 Transmission / reception means 162 Identification number management means 163 Switch control means 164 Flag control means 165 Power Control unit 17 Storage device 171 Identification number storage unit 172 Maximum identification number storage unit 173 Fault information storage unit 174 Priority storage unit 18 Socket 100 ICT equipment 101 Power supply device 102 Battery 103 Charge / discharge control unit 104 Electronic component 105 First pass 106 First 2 path 200 DC power shared path

Claims (7)

An ICT device including a power supply device that converts alternating current into direct current and outputs it,
Battery,
Charging / discharging control unit for controlling charging and discharging of the battery;
The direct current output from the power supply device is an electronic component mounted on its own ICT device, a DC power shared path used for feeding and receiving power with another ICT device, and the charge / discharge control A first pass for supplying to the part;
An ICT device comprising: a second path for supplying a DC current supplied from the DC power shared path and a DC current output from the battery to the electronic component. The ICT device according to claim 1,
Control that instructs the charge / discharge control unit of the ICT device to prohibit charging the battery when a failure of a power supply device of another ICT device connected to the DC power shared path is detected ICT equipment characterized by comprising a section. The ICT device according to claim 1 or 2,
A first switch that is provided in the first path and controls whether or not a direct current output from the power supply device is supplied to the electronic component, the direct-current power shared path, and the charge / discharge control unit And comprising
The control unit controls the first switch to stop power supply from the power supply device when the own ICT device is in a standby state. The ICT device according to claim 2 or 3,
A priority storage unit in which the priority of the own ICT device is recorded, and
The control unit compares the priority recorded in the priority storage unit with a threshold value when a power failure occurs, and shuts down the ICT device when the priority is lower than the threshold value. . The ICT device according to claim 2 or 3,
A priority storage unit in which the priority of the own ICT device is recorded, and
When the power failure occurs, the control unit compares the priority recorded in the priority storage unit with a threshold value, and if the priority is lower than the threshold value, the control unit shifts its own ICT device to a low power consumption state. Characteristic ICT equipment. A power control method in an ICT device comprising a power supply device that converts an alternating current into a direct current and outputs, a battery, and a charge / discharge control unit that controls charging and discharging of the battery,
Shared DC power used to feed and receive DC current output from the power supply device with electronic components mounted on the ICT device and other ICT devices via the first path Pass, and supply to the charge / discharge control unit,
A power control method comprising: supplying a direct current supplied from the direct current power shared path and a direct current output from the battery to the electronic component through a second path. A power supply device that converts an alternating current into a direct current and outputs it, a battery, a charge / discharge control unit that controls charging and discharging of the battery, and a direct current output from the power supply device to the ICT device A DC power shared path used for feeding and receiving power with the mounted electronic component, another ICT device, a first path for supplying to the charge / discharge control unit, and the DC power A computer comprising: a direct current supplied from a shared path; and a second path for supplying a direct current output from the battery to the electronic component;
Control that instructs the charge / discharge control unit of the ICT device to prohibit charging the battery when a failure of a power supply device of another ICT device connected to the DC power shared path is detected Program to function as a part.

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