JPWO2013140512A1 - Information processing apparatus, erroneous connection detection method, and erroneous connection detection program - Google Patents

Abstract

It is an object to detect a connection difference between a power supply device and a power supply unit of an information processing device. A first power supply unit connected to a first power supply device that supplies power, a second power supply unit connected to a second power supply device that supplies power, and a connection between the first power supply device and the first power supply unit. A storage unit for storing a first expected value indicating a connected state, a second expected value indicating a state where the second power supply unit and the second power supply unit are connected, a first power supply unit, An acquisition unit for acquiring first connection information indicating a connection state with one power supply device and second connection information indicating a connection state between the second power supply unit and the second power supply device, and an expected value and connection information, respectively. A detection unit for detecting a connection difference between the first power supply device and the first power supply unit or between the second power supply device and the second power supply unit, based on the comparison result and the comparison result; Have

Description

  This case relates to an information processing apparatus, an erroneous connection detection method, and an erroneous connection detection program.

  Information processing devices such as servers that require continued operation must be equipped with redundant power supply units in order to improve the reliability of the power supply units that supply power (power) to the devices and maintainability in the event of a failure. There is. Thereby, even when one power supply unit fails, the information processing apparatus can continue to operate without stopping operation by operating instead of the failed power supply unit.

Further, as shown in FIG. 20, the power supply device that is the power supply source may be made redundant. FIG. 20 is a block diagram illustrating a configuration example of the information processing apparatus 100 connected to the plurality of power supply apparatuses 200-1 and 200-2.
As shown in FIG. 20, a plurality of, for example, two power supply devices 200-1 and 200-2 are connected to power sources such as a breaker, a PDU (Power Distribution Unit), a UPS (Uninterruptible Power Supply), etc. A supply source that supplies power to the information processing apparatus 100. The PDU is a power strip for distributing power supplied from a data center or the like to various devices such as servers and routers in the rack.

  An information processing apparatus 100 illustrated in FIG. 20 includes two power supply units 300-1 and 300-2, a CPU (Central Processing Unit) unit 500, an HDD (Hard Disk Drive) unit 600, and a FAN unit 700. Yes. The CPU unit 500, the HDD unit 600, and the FAN unit 700 are power supply targets 400 to which power is supplied by the power supply unit 300-1 or the power supply unit 300-2.

In the following description, the power supply device 200-1 and the power supply device 200-2 are simply denoted by reference numeral 200 when not distinguished from each other, and the power supply unit 300-1 and the power supply unit 300-2 are simply denoted by reference numeral 300. It shows with.
The power supply unit 300-1 is connected to one of the terminals (for example, an outlet) 210 of the power supply apparatus 200-1 through the power line 200a, and is connected to the power supply target 400 through the power line 300a. Is supplied with power from the power supply apparatus 200-1. The power supply unit 300-2 is connected to one of the terminals 220 of the power supply device 200-2 through the power line 200b, and is connected to the power supply target 400 through the power supply line 300b, and is connected to the power supply target 400. Supply power from -2. In addition, at least one of the power supply units 300 supplies power to the power supply target 400 according to the presence / absence of power supply from the power supply apparatus 200, the operating state of the power supply unit 300, the operation state of the power supply target 400, and the like. The power supply unit 300 is controlled by the CPU unit 500, for example, via the communication line 400a.

In the example illustrated in FIG. 20, even if power supply from one of the power supply devices 200 is interrupted due to a failure or the like, for example, the information processing device 100 can receive power supply from the other power supply device 200. The operation can be continued without stopping the operation.
As a related technique, there is a technique for supplying power from a battery to a magnetic disk device when a failure occurs in one of two AC / DC converters that are supplied with power from separate AC power supply units. .

  As another related technique, there is a technique for controlling power supply between two server apparatuses. In this technique, the first server device requests power supply to the second server device in accordance with the power supply state, sets power to be received from the second server device, The second server device supplies power from its own power source to the first server device in response to a request from the first server device.

  Further, as another related technique, there is a technique for detecting a failure occurring in a signal path for transmitting and receiving a data signal between a data transmission / reception circuit and a communication line by a power line communication device. In this technology, inspection data for detecting a failure is transmitted to the communication line, data is received from the communication line, the transmitted inspection data is compared with the received data, and the comparison result is inconsistent. When detecting that there is a failure in data transmission.

JP 2003-309936 A JP 2011-81716 A JP 2004-320518 A

FIG. 21 is a block diagram illustrating a configuration example of the information processing apparatus 100 connected to one power supply apparatus 200-1.
As shown in FIG. 21, even when two power supply units 300 are both connected to the same power supply apparatus 200-1, as long as power is supplied from the power supply apparatus 200-1, the information processing apparatus 100. Works normally. However, for example, when the supply of power from the power supply apparatus 200-1 is interrupted due to the occurrence of a failure or the like, neither of the two power supply units 300 can receive the supply of power, and the information processing apparatus 100 stops. End up.

Therefore, as shown in FIG. 20, the power supply unit 300-1 and the power supply unit 300-2 redundantly mounted on the information processing apparatus 100 are connected to separate power supply apparatuses 200-1 and 200-2, respectively. It is desirable.
However, when two power supply units 300 are mistakenly connected to the same power supply device 200-1 by an operator or the like during installation or operation (see FIG. 21), power supply from the power supply device 200-1 is not performed. There is a high possibility that a connection error will not be noticed until the information processing apparatus 100 stops and stops. In order to detect an erroneous connection, for example, it is conceivable to stop the power supply device 200 at a predetermined timing and check the redundancy of the two power supply devices 200 with respect to the power supply unit 300. However, when the information processing apparatus 100 or another information processing apparatus is already operated by the supply of power from the power supply apparatus 200, if the power supply apparatus 200 is stopped, the information processing apparatus 100 or other information processing apparatus The operation is stopped, which is not preferable in a server or the like that requires continuous operation.

Note that none of the related technologies described above considers whether the redundant power supply unit is connected to a different power supply device, and does not consider between the power supply device and the power supply unit. The connection difference cannot be detected.
In one aspect, an object of the present invention is to detect a connection difference between a power supply device and a power supply unit of an information processing device.

  The information processing apparatus of the present invention is an information processing apparatus to which power is supplied from a first power supply apparatus or a second power supply apparatus, and includes a first power supply unit connected to the first power supply apparatus, and a second power supply apparatus. A connected second power supply unit, a first expected value indicating a state in which the first power supply unit and the first power supply unit are connected, and the second power supply unit and the second power supply unit. A storage unit for storing a second expected value indicating a state in which the two are connected, first connection information indicating a connection state between the first power supply unit and the first power supply device, and the second power supply unit And a second connection information indicating a connection state between the second power supply apparatus, a comparison between the first expected value and the first connection information, and a second expected value and the second connection information. Comparing unit for comparing with two connection information, and by the comparing unit Detection for detecting a connection difference between the first power supply unit and the first power supply unit or detecting a connection difference between the second power supply unit and the second power supply unit based on the comparison result Part.

  According to one embodiment, a connection difference between the power supply device and the power supply unit of the information processing device can be detected.

It is a block diagram which shows the structural example of the information processing apparatus connected with the several power supply device which concerns on one Embodiment. It is a figure explaining an example of transmission / reception of the identification information according to the connection state of the power supply unit and power supply device in the information processing apparatus shown in FIG. It is a figure explaining an example of transmission / reception of the identification information according to the connection state of the power supply unit and power supply device in the information processing apparatus shown in FIG. It is a block diagram which shows the other structural example of the information processing apparatus connected with the several power supply device which concerns on one Embodiment. It is a block diagram which shows the function structural example of the information processing apparatus shown in FIG. It is a figure explaining an example of the power supply division information which a storage part stores. It is a figure explaining an example of the expected value table which a storage part stores. It is a figure explaining the identification information of the expected value table shown in FIG. It is a figure explaining an example of the reception table which a storage part stores. It is a figure explaining an example of the reception table which a storage part stores. It is a figure explaining an example of transmission / reception of the identification information according to the connection state of the power supply unit and power supply device in the information processing apparatus shown in FIG. It is a figure explaining an example of transmission / reception of the identification information according to the connection state of the power supply unit and power supply device in the information processing apparatus shown in FIG. It is a figure explaining an example of the comparison table which a storage part stores. It is a figure explaining an example of the power supply connection information which a storage part stores. It is a figure explaining an example of the power supply connection information which a storage part stores. 5 is a flowchart for explaining an operation example of a power supply redundancy monitoring unit in the information processing apparatus shown in FIG. 4. 5 is a flowchart for explaining an operation example of a power supply redundancy monitoring unit in the information processing apparatus shown in FIG. 4. FIG. 5 is a sequence diagram illustrating an operation example of the information processing apparatus when there is no connection difference between the power supply apparatus and the power supply unit in the information processing apparatus illustrated in FIG. 4. FIG. 5 is a sequence diagram illustrating an operation example of the information processing apparatus when there is a connection difference between the power supply apparatus and the power supply unit in the information processing apparatus illustrated in FIG. 4. It is a block diagram which shows the structural example of the information processing apparatus connected with a several power supply device. It is a block diagram which shows the structural example of the information processing apparatus connected with one power supply device.

Hereinafter, embodiments will be described with reference to the drawings.
[1] One Embodiment [1-1] Description of Information Processing Device FIG. 1 illustrates a configuration example of an information processing device 1a (1) connected to a power supply device 2-1 and a power supply device 2-2 according to an embodiment. FIG. As shown in FIG. 1, a plurality of, for example, two power supply devices 2-1 and 2-2 are power supply sources such as breakers, PDUs, UPSs, etc., and an AC power supply (power) is supplied to the information processing device 1a. Supply. In the following description, when the power supply device 2-1 and the power supply device 2-2 are not distinguished, they are simply denoted by reference numeral 2.

The power supply device (first power supply device) 2-1 has at least one terminal 21, and the power supply device (second power supply device) 2-2 has at least one terminal 22. The terminal 21 and the terminal 22 are connection portions to which a power line 2a and a power line 2b such as an outlet can be attached, respectively.
The information processing apparatus 1a illustrated in FIG. 1 is an apparatus to which power is supplied from the power supply apparatus 2-1 or the power supply apparatus 2-2. In the example illustrated in FIG. 1, even if the power supply from one of the power supply devices 2 is interrupted due to a failure or the like, for example, the information processing device 1 a can receive power supply from the other power supply device 2. The operation can be continued without stopping the operation.

  The information processing apparatus 1a includes a plurality of, for example, two power supply units 300-1 and 300-2, a CPU unit 5, an HDD unit 6, and a FAN unit 7. In the following description, when the power supply unit 3-1 and the power supply unit 3-2 are not distinguished, they are simply denoted by reference numeral 3. The CPU unit 5, HDD unit 6, and FAN unit 7 are power supply targets 4 to which power (electric power) is supplied by the power supply unit 3-1 or the power supply unit 3-2.

  The power supply unit (first power supply unit) 3-1 is connected to one of the terminals 21 of the power supply device 2-1 through the power line 2 a and connected to the power supply target 4 through the power supply line 3 a to supply power. The target 4 is supplied with power from the power supply device 2-1. The power supply unit (second power supply unit) 3-2 is connected to one of the terminals 22 of the power supply device 2-2 through the power line 2b and is connected to the power supply target 4 through the power supply line 3b to supply power. The target 4 is supplied with power from the power supply device 2-2.

  The power supply unit 3-1 has a power line communication unit (communication unit) 31, and the power supply unit 3-2 has a power line communication unit (communication unit) 32. The power line communication unit 31 and the power line communication unit 32 each have a PLC (Power Line Communication) function. Note that PLC is a technique for superimposing and transmitting a high-frequency signal (information) on an AC power supply of a power line, and the communication method is a half-duplex method. In the example shown in FIG. 1, a signal transmitted from the power supply unit 3 by the PLC is transmitted to the power supply device 2 via the power line 2 a or the power line 2 b, and the power line 2 a or the power line 2 b is connected in the power supply device 2. Received at terminal 21 or terminal 22. When the power line is connected to the other terminal 21 or terminal 22 of the power supply device 2, the received signal is output from the power supply device 2 via the other terminal 21 or terminal 22.

  The power line communication unit 31 transmits information (first information) to the power supply device 2-1 via the power line 2a, and information (first information) transmitted from the power supply device 2-1 via the power line 2a. ). In addition, the power line communication unit 32 transmits information (second information) to the power supply device 2-2 via the power line 2b, and information (first information) transmitted from the power supply device 2-2 via the power line 2b. 2 information).

  The CPU unit 5 has a CPU 51 and a memory 52. The CPU 51 is a processing device (processor) that performs various controls and calculations, and executes various programs in the information processing device 1a by executing programs stored in the memory 52, a ROM (Read Only Memory) (not shown), or the like. Realize. In the present embodiment, the CPU 51 functions as a power supply redundancy monitoring unit 10 to be described later by executing an erroneous connection detection program. The memory 52 is a storage device that temporarily stores various data and programs. When the CPU 51 executes the programs, the data and programs are temporarily stored and expanded. The memory 52 includes a volatile memory such as a RAM (Random Access Memory).

  The HDD unit 6 has an HDD 61. The HDD 61 is a magnetic disk device that stores various data, programs, and the like. The HDD unit 6 may include various storage devices such as a semiconductor drive device such as an SSD (Solid State Drive) instead of the HDD 61 or together with the HDD 61. The FAN unit 7 is a cooling device for cooling each unit in the information processing apparatus 1a, and has at least one fan (not shown), for example.

  The power supply unit 3, the CPU unit 5, the HDD unit 6, and the FAN unit 7 are connected to be communicable with each other via the communication line 4a. Communication between each unit is controlled by an IO (Input Output) controller (not shown). For example, an I2C (Inter-Integrated Circuit) bus is used as the communication line 4a between the CPU unit 5 and the power supply unit 3, and communication is controlled by an I2C controller (not shown). Further, at least one of the power supply units 3 supplies power to the power supply target 4 in accordance with the presence / absence of power supply from the power supply device 2, the operating state of the power supply unit 3, or the operation state of the power supply target 4. The power supply unit 3 is controlled by the CPU unit 5 through, for example, the communication line 4a.

  Here, the information processing apparatus 1a in the present embodiment monitors the redundancy (redundancy connectivity) of the power supply unit 3, that is, the redundancy of the power supply unit 3 with respect to the power supply apparatus 2, and Detect connection differences between. Hereinafter, an example of a method for monitoring the redundancy of the power supply unit 3 by the information processing apparatus 1a according to the present embodiment will be described with reference to FIGS. 2 and 3 are diagrams illustrating an example of transmission / reception of identification information according to the connection state between the power supply unit 3 and the power supply device 2 in the information processing apparatus 1a illustrated in FIG.

  The information processing apparatus 1a in the present embodiment transmits and receives identification information of each power supply unit 3 from the power supply units 3 to the power supply apparatus 2 via the power lines 2a and 2b by PLC. Then, the information processing device 1a compares the expected value of the identification information received by each power supply unit 3 with the actual reception result of the identification information by each power supply unit 3, and the connection state between the power supply unit 3 and the power supply device 2 Confirm.

  For example, in the information processing apparatus 1 a shown in FIG. 1, the power supply unit 3-1 is connected to the power supply apparatus 2-1, the power supply unit 3-2 is connected to the power supply apparatus 2-2, and each power supply unit 3 is Power is supplied from independent suppliers. In this case, the identification information of the power supply unit 3-1 transmitted from the power line communication unit 31 is received by the terminal 21 to which the power line 2 a is connected in the power supply device 2-1, but the power line is connected to the other terminals 21. Therefore, the power is not transmitted from the power supply device 2-1. Similarly, the identification information of the power supply unit 3-2 transmitted from the power line communication unit 32 is received at the terminal 22 to which the power line 2 b is connected in the power supply device 2-2, but the power line is connected to the other terminals 22. Therefore, the power is not transmitted from the power supply device 2-2. That is, in the information processing apparatus 1a shown in FIG. 1, the expected value of the identification information received by each power supply unit 3 is “no reception” for both the power supply unit 3-1 and the power supply unit 3-2.

  As shown in FIG. 2, when there is no connection difference between the power supply device 2 and the power supply unit 3 in the information processing apparatus 1 a shown in FIG. 1, the identification information transmitted from the power supply unit 3-1 is As shown by the arrow (i), it is received by the power supply device 2-1 through the power line 2a. Further, the identification information transmitted from the power supply unit 3-2 is received by the power supply device 2-2 through the power line 2b as indicated by an arrow (ii) in FIG. In each power supply unit 3, identification information is not received via the terminal 21 or the terminal 22 of the power supply device 2. That is, the reception result is “no reception” for both the power supply unit 3-1 and the power supply unit 3-2.

  On the other hand, as illustrated in FIG. 3, when there is a connection difference between the power supply device 2 and the power supply unit 3 in the information processing apparatus 1 a illustrated in FIG. 1, for example, the power supply unit 3-2 is not the power supply device 2-2. Consider a case where the terminal is connected to the terminal 21 of the power supply device 2-1. In this case, the identification information transmitted from the power supply unit 3-1 via the power line 2a is transmitted via the terminal 21 of the power supply device 2-1 via the power line 2b as indicated by an arrow (iii) in FIG. Is received by the power supply unit 3-2. Further, the identification information transmitted from the power supply unit 3-2 via the power line 2b is transmitted via the terminal 21 of the power supply device 2-1 via the power line 2a as indicated by an arrow (iv) in FIG. Received by the power supply unit 3-1. That is, the power supply unit 3-1 receives the identification information of the power supply unit 3-2, and the power supply unit 3-2 receives the identification information of the power supply unit 3-1.

  Then, the information processing device 1a compares the expected value of the identification information received by each power supply unit 3 with the actual reception result of the identification information by each power supply unit 3, and the connection state between the power supply unit 3 and the power supply device 2 Is confirmed. For example, in the information processing apparatus 1a shown in FIG. 2, since the expected value and the actual reception result in each power supply unit 3 are all “no reception”, there is no connection difference between the power supply apparatus 2 and the power supply unit 3. Judge that there is no. On the other hand, in the information processing apparatus 1a shown in FIG. 3, the expected values in each power supply unit 3 are all “no reception”, but the actual reception result receives the identification information of the power supply units 3 of each other. Therefore, it is determined that there is “reception” and there is a connection difference between the power supply device 2 and the power supply unit 3.

  As described above, the information processing apparatus 1a according to the present embodiment transmits and receives identification information from each power supply unit 3 via the power line 2a and the power line 2b via the terminal 21 and the terminal 22 such as the outlet of the power supply apparatus 2. . Then, the information processing apparatus 1a compares the expected value of the identification information received by each power supply unit 3 with the identification information actually received by each power supply unit 3, and determines the connection state between the power supply unit 3 and the power supply apparatus 2. Check.

[1-2] Configuration of Information Processing Device Next, instead of the information processing device 1a (1) shown in FIG. 1, the information processing device is referred to with reference to the information processing device 1b (1) shown in FIGS. The configuration of 1 will be described. FIG. 4 is a block diagram illustrating a configuration example of the information processing apparatus 1b connected to the power supply apparatus 2-1 and the power supply apparatus 2-2 according to the embodiment. FIG. 5 is a block diagram illustrating the information processing apparatus 1b illustrated in FIG. It is a block diagram which shows the example of a function structure. 6, 7, and 13 are diagrams illustrating examples of the power source classification information 16 a, the expected value table 16 b, and the comparison table 16 d stored in the storage unit 16. Further, FIGS. 9 and 10 are diagrams illustrating an example of the reception table 16c stored in the storage unit 16, and FIGS. 14 and 15 are diagrams illustrating an example of the power connection information 16e stored in the storage unit 16. It is. 8 is a diagram for explaining the identification information of the expected value table 16b shown in FIG. 7. FIGS. 11 and 12 show the connection between the power supply unit 3 and the power supply device 2 in the information processing apparatus 1b shown in FIG. It is a figure explaining an example of transmission / reception of the identification information according to a state. In FIG. 4, the same reference numerals as those shown in FIG. 1 are the same as or substantially the same as the configuration shown in FIG. 4, 11, and 12, illustration of the CPU 51, the memory 52, and the HDD 61 is omitted for simplification of the drawing.

  An information processing apparatus 1b (1) illustrated in FIG. 4 includes a power supply unit 3-3 and a power supply unit 3-4 in addition to the configuration of the information processing apparatus 1a illustrated in FIG. In the following description, the power supply unit 3-1 to the power supply unit 3-4 are simply indicated by reference numeral 3 when not distinguished from each other. Hereinafter, for convenience of explanation, the power supply device 2-1 and the power supply device 2-2 are referred to as a power supply device X and a power supply device Y, respectively, and the power supply units 3-1 to 3-4 are referred to as a power supply unit A to a power supply unit D, respectively. There is a case.

  The power supply unit (first power supply unit) 3-1 and the power supply unit (first power supply unit) 3-2 are connected to the terminal 21 of the power supply device 2-1 through the power line 2a and the power line 2b, respectively, and the power line The power supply target 4 is connected to the power supply target 4 through 3a and the power supply line 3b, and power is supplied from the power supply device 2-1 to the power supply target 4. The power supply unit (second power supply unit) 3-3 and the power supply unit (second power supply unit) 3-4 are connected to the terminal 22 of the power supply device 2-2 through the power line 2c and the power line 2d, respectively, and the power line The power supply target 4 is connected to the power supply target 4 through the power supply line 3d, and the power supply target 4 is supplied with power from the power supply device 2-2.

The power supply unit 3-3 has a power line communication unit 33, and the power supply unit 3-4 has a power line communication unit. The power line communication unit (communication unit) 33 and the power line communication unit (communication unit) 34 each have a PLC function, similarly to the power line communication unit 31 and the power line communication unit 32.
The power line communication unit (communication unit) 31 and the power line communication unit (communication unit) 32 transmit information (first information) to the power supply device 2-1 via the power line 2a and the power line 2b, respectively. Information (first information) transmitted from 2-1 via the power line 2a and the power line 2b is received. The power line communication unit 33 and the power line communication unit 34 transmit information (second information) to the power supply device 2-2 via the power line 2c and the power line 2d, respectively, and the power line 2c from the power supply device 2-2. , Information (second information) transmitted via the power line 2d is received.

  As shown in FIG. 5, the information processing apparatus 1 b functions as a power supply redundancy monitoring unit 10 that sets and monitors the redundancy (redundancy connectivity) of the power supply unit 3, that is, the redundancy of the power supply unit 3 with respect to the power supply apparatus 2. To do. In addition, the information processing apparatus 1 b includes a storage unit 16. Note that the function as the power supply redundancy monitoring unit 10 is realized by the CPU 51 executing the erroneous connection detection program as described above. The storage unit 16 may be a readable storage device such as the memory 52 or the HDD 62. The power redundancy monitoring unit 10 and the storage unit 16 shown in FIG. 5 can be similarly provided in the information processing apparatus 1a shown in FIG.

[1-2-1] Storage Unit The storage unit 16 stores power supply classification information 16a, an expected value table 16b, a reception table 16c, a comparison table 16d, and power connection information 16e.
The power supply classification information (power supply information) 16a is a table indicating which power supply unit 2 each power supply unit 3 of the information processing apparatus 1b is connected to, as shown in FIG. It is set / updated by an operator, the CPU 51, etc., at the time of initial setting of 1b or a configuration change. For example, as shown in FIGS. 4 and 6, the power supply classification information 16 a includes the power supply unit X for the power supply unit A and the power supply unit B, and the power supply unit Y for the power supply unit C and the power supply unit D. Is set.

  The expected value table 16b includes a first expected value indicating a state in which the power supply device X is connected to the power supply unit A and the power supply unit B, and a connection between the power supply device Y, the power supply unit C, and the power supply unit D. It is information which shows the 2nd expected value which shows the state currently performed. As shown in FIG. 7, the expected value table 16 b includes “reception power supply unit”, “transmission state”, “power supply device”, and “identification information” for each power supply unit 3. The expected value table 16b is generated based on the power supply classification information 16a by the generation unit 11 described later.

  The “reception power supply unit” (first expected value, second expected value) is the power supply device X or the power supply when the identification information is transmitted from the power supply unit A to the power supply unit D to the power supply device X or the power supply device Y. This is an expected value indicating the power supply unit A to power supply unit D that receives the identification information via the device Y. “Reception power supply unit” includes “power supply unit” A to “power supply unit” D that transmits identification information and “reception power supply unit” A to “reception power supply unit” D that can receive identification information, A value indicating “reception” (for example, “1”) is set. The “reception power supply unit” includes intersections of “power supply unit” A to “power supply unit” D that transmits identification information and “reception power supply unit” A to “reception power supply unit” D that cannot receive identification information. Is set to a value indicating “no reception” (for example, “blank”). The “transmission state” is information indicating the transmission state of the identification information, and is set by the identification information transmission processing unit 12 described later. The “power supply device” is information indicating the power supply device 2 connected to each of the power supply units A to D.

  The “identification information” is information indicating each of the power supply units A to D, and includes the device number (ID) of the information processing device 1b and the power supply unit number (U) set in the power supply classification information 16a. The device number is a device-specific number such as a serial number that does not overlap between devices, and the power supply unit number is a number that identifies the power supply unit 3, for example, the numbers “A” to “D” of the power supply unit 3. It is. As shown in FIG. 7, the “identification information” includes a device number added after the identifier “ID =”, a separator such as a comma (“,”), and a power supply added after the identifier “U =”. Represented by unit number.

  In the expectation value table 16b, the ranges of the “reception power supply unit” and the “identification information” of the power supply unit A and the power supply unit B connected to the power supply device X are respectively set to the first expectation value and the first identification information (first identification information). Information). Further, in the expected value table 16b, the ranges of the “reception power supply unit” and the “identification information” of the power supply unit C and the power supply unit D connected to the power supply device Y are respectively set to the second expected value and the second identification information (second identification information). Information).

  The reception table (connection information) 16c includes first connection information indicating a connection state between the power supply unit A and the power supply unit B and the power supply device X, and a first connection state indicating the connection state between the power supply unit C, the power supply unit D, and the power supply device Y. 2 connection information. Specifically, as shown in FIGS. 9 and 10, the reception table 16 c includes, for each power supply unit 3, a power supply that actually receives “identification information” transmitted from the power supply unit 3 via the power supply device 2. This is information indicating the unit 3 and is set by the identification information reception processing unit 13 described later.

  In the “received power supply unit” area of the reception table 16c, a value indicating “no reception” (for example, “blank”) is set by default. The reception table 16c includes “power supply unit” A to “power supply unit” D specified from the received identification information and “received power supply unit” A to “received power supply unit” D that received the identification information. A value indicating “reception” (for example, “1”) is set at the intersection. That is, when “1” is set at the intersection of the “power supply unit” and the “reception power supply unit”, communication of information (identification information) by the PLC between the “power supply unit” and the “reception power supply unit”. Has been done. 9 shows the reception table 16c when the power supply unit 3 and the power supply device 2 in the information processing apparatus 1b are in the connection state shown in FIG. 11 (see FIG. 4), and FIG. 10 shows the power supply unit 3 and the power supply. The reception table 16c when the apparatus 2 is in the connection state shown in FIG.

In the reception table 16c, the range of “received power supply units” of the power supply unit A and the power supply unit B that are shown to be connected to the power supply device X on the expected value table 16b is referred to as first connection information. The range of “received power supply units” of the power supply units C and D indicated as being connected to Y is referred to as second connection information.
As shown in FIG. 13, the comparison table 16d is a table used for comparison processing between the expected value table 16b and the reception table 16c by the comparison unit 14a described later, and is information for determining the connection state of the power supply unit 3. is there. The comparison table 16d corresponds to the value of the expected value set in the “reception power supply unit” in the expected value table 16b and the reception result (connection information) set in the “received power supply unit” in the reception table 16c. The comparison result is set. For example, when the expected value is “blank” and the reception result is “blank”, the comparison result is “blank”, and when the expected value is “blank” and the reception result is “1”, the comparison result is “△”. . When the expected value is “1” and the reception result is “blank”, the comparison result is “×”. When the expected value is “1” and the reception result is “1”, the comparison result is “◯”. is there. Note that the values of “blank”, “×”, “Δ”, “◯” in the comparison table 16d are set as 2-bit data, such as “00”, “01”, “10”, “11”, etc. Is done.

  As shown in FIGS. 14 and 15, the power connection information 16e is a table in which the determination result of the redundancy of the power supply unit 3 by the power redundancy monitoring unit 10 is set, and is set by the detection unit 14b described later. The power connection information 16e includes, for each power supply unit 3, “determination” indicating whether or not the power supply unit 3 is connected to the power supply device 2 indicated by the power supply category information 16a, “power supply device” indicated by the power supply category information 16a, And a “reception power supply unit” set based on the comparison table 16d. 14 shows the power connection information 16e when the power supply unit 3 and the power supply device 2 in the information processing apparatus 1b are in the connection state shown in FIG. 11 (see FIG. 4), and FIG. The power supply connection information 16e when the power supply device 2 is in the connection state shown in FIG. 12 is shown.

[1-2-2] Power Redundancy Monitoring Unit Returning to the explanation of FIG. 5, the power redundancy monitoring unit 10 includes a generation unit 11, an identification information transmission processing unit 12, an identification information reception processing unit 13, and a state determination unit 14. , And an output unit 15.
The generation unit 11 generates the first expectation based on the power supply classification information 16a (see FIG. 6) indicating the connection relationship between the power supply units 3-1 to 3-4 and the power supply devices 2-1 and 2-2. The value and the second expected value are generated and stored in the storage unit 16. Specifically, the generation unit 11 acquires the power supply classification information 16a from the storage unit 16, and generates the expected value table 16b from the acquired “power supply unit” information and “power supply device” information. Further, the generation unit 11 recognizes the power supply device X or the power supply device Y connected to the power supply unit A to the power supply unit D and determines the power supply unit A to the power supply unit D connected to the same power supply device X or the power supply device Y To do.

  The generation unit 11 then, for example, intersects the “power supply unit” A and the “reception power supply unit” B connected to the same power supply device X, and the intersection between the “power supply unit” B and the “reception power supply unit” A. The first expected value is generated by setting “1” to each of the values. Further, the generation unit 11 has an intersection of “power supply unit” C and “reception power supply unit” D connected to the same power supply device Y, and an intersection of “power supply unit” D and “reception power supply unit” C, respectively. By setting “1”, the second expected value is generated. Furthermore, the generation unit 11 acquires the device number of the information processing device 1b and the power supply unit number of the power supply unit 3, and first identification information (first information) about the power supply device X and second identification about the power supply device Y. Information (second information) is generated and set in the “identification information” of the expected value table 16b.

  Based on the expected value table 16b, the identification information transmission processing unit (transmission processing unit) 12 sends each identification information to the power supply unit X or the power supply unit Y connected to the power supply unit A to the power supply unit D. Send it. Specifically, the identification information transmission processing unit 12 determines the power supply unit 3 for each of the power line communication units 31 to 34 of the power supply units A to D based on the expected value table 16b (see FIG. 7). The identification information transmission instruction for transmitting “ID = 1234, U = A” to “ID = 1234, U = D” is issued. Upon receiving this instruction, the power line communication unit 31 and the power line communication unit 32 provide the identification information (first identification) via the power line 2a and the power line 2b by the PLC to the power supply device X connected via the power line 2a and the power line 2b. Information, first information). In response to this instruction, the power line communication unit 33 and the power line communication unit 34 identify the identification information (the first line) via the power line 2c and the power line 2d to the power supply device Y connected via the power line 2c and the power line 2d. 2 identification information, second information).

  The identification information transmitted from the power line communication unit 31 to the power line communication unit 34 by the identification information transmission processing unit 12 is connected to the same power supply device 2 via the terminals 21 and 22 of the power supply device 2. All of the power line communication units 31 to 34 are received by the power line communication unit 34. Further, since the PLC is a half-duplex system, the power supply unit 3 cannot receive the identification information from other power supply units 3 during the transmission of the identification information. Accordingly, the identification information transmission processing unit 12 issues an identification information transmission instruction to each of the power supply units A to D after a certain period of time, for example, in the order of the power supply units A to D set in the expected value table 16b. To do.

  Further, the identification information transmission processing unit 12 confirms the transmittable states of the power line communication unit 31 to the power line communication unit 34 of the power supply unit A to the power supply unit D via, for example, the I2C bus. And if it is a transmission possible state, the identification information transmission process part 12 will take out the identification information of the power supply unit A-power supply unit D which performs transmission from the expected value table 16b, and will respond to the corresponding power line communication part 31-power line communication part 34 Send. On the other hand, if the identification information transmission processing unit 12 is in a state where transmission is not possible, the “transmission state” of the power supply unit 3 in the expected value table 16b is set to “impossible” and the expectation of the column and row of the power supply unit 3 Set all values to off (eg “blank”). In addition, as a transmission possible state, the power line communication part 31-power line communication part 34 (power supply unit 3) is connected with the power supply device 2 via the power line 2a-power line 2d, for example, and the state which can communicate by PLC is mentioned. It is done. Examples of the state where transmission is not possible include a state where the power line communication unit 31 to the power line communication unit 34 (power supply unit 3) are not supplied with power, or a case where operation is not possible due to a failure such as a failure.

  The identification information reception processing unit (acquisition unit) 13 performs the first connection based on the first identification information or the second identification information received by the power supply unit A to the power supply unit D via the power supply device X or the power supply device Y. Information and second connection information are acquired. Specifically, the identification information reception processing unit 13 converts the identification information received by the power line communication unit 31 to the power line communication unit 34 via the terminal 21 and the terminal 22 of the power supply device 2 into the power line communication unit 31 to the power line. It is transmitted from the communication unit 34 and received. Further, the identification information reception processing unit 13 generates a reception table 16c shown in FIG. 9 or FIG. Then, the identification information reception processing unit 13 compares the device number included in the received identification information with the device number of its own information processing device 1b, and if it matches, the received identification information is received with respect to the reception table 16c. “1” is set at the intersection of the “power supply unit” of the power supply unit number included in the “and the received power supply unit” with the identification information.

  For example, as shown in FIG. 8, the information processing apparatus 1b whose apparatus number (ID) is “1234” and the other information processing apparatus 1 ′ whose apparatus number (ID) is “1235” When connected to the apparatus 2 and supplied with power, “1234” is set as the apparatus number in the “identification information” of the expected value table 16b in the information processing apparatus 1b. At this time, when the device number of the received identification information is “1235” indicating another information processing device 1 ′, the identification information reception processing unit 13 is not necessary for generating the reception table 16c, Discard information. 8 is connected to the terminal 21 of the power supply device 2-1 through the power line 2e, and the power supply unit 3-6 is connected to the terminal 22 of the power supply device 2-2 through the power line 2f. Is done. The power supply unit 3-5 and the power supply unit 3-6 supply power to the power supply target 4 ′ via the power supply line 4a ′.

  Here, the procedure of generating the reception table 16c shown in FIGS. 9 and 10 in accordance with the connection state between the power supply unit 3 and the power supply device 2 in the information processing apparatus 1b by the identification information reception processing unit 13 will be described with reference to FIGS. This will be described with reference to FIG. In the following description, the intersection of “power supply unit” and “received power supply unit” in the reception table 16c is represented by [(power supply unit number A to D), (received power supply unit number A to D)]. It shows.

As illustrated in FIGS. 9 and 10, the identification information reception processing unit 13 performs first connection information ([A, A) on the power supply device X based on the identification information received by the power line communication unit 31 and the power line communication unit 32. ] To [B, D]) and second connection information ([C, A] to [D, D]) for the power supply device Y is generated.
First, as shown in FIG. 11, consider a case where there is no connection difference between the power supply device 2 and the power supply unit 3 in the information processing apparatus 1 b shown in FIG. 4. In this case, the identification information transmitted from the power supply unit A via the power line 2a passes through the terminal 21 of the power supply device X as shown by the arrow (I) in FIG. (“1” is set in [A, B] in FIG. 9). Further, the identification information transmitted from the power supply unit B via the power line 2b is transmitted by the power supply unit A via the power line 2a via the terminal 21 of the power supply device X as shown by the arrow (II) in FIG. Received ("1" is set in [B, A] in FIG. 9). Similarly, the identification information transmitted from the power supply unit C via the power line 2c is transmitted via the power line 2d via the terminal 22 of the power supply device Y as indicated by the arrow (III) in FIG. ([1] is set in [C, D] in FIG. 9). Further, the identification information transmitted from the power supply unit D via the power line 2d is transmitted by the power supply unit C via the power line 2c via the terminal 22 of the power supply device Y as shown by the arrow (IV) in FIG. Received ("1" is set in [D, C] in FIG. 9).

As described above, in the connection state illustrated in FIG. 11, the identification information reception processing unit 13 generates the reception table 16 c illustrated in FIG. 9 through the setting process described above.
On the other hand, as shown in FIG. 12, when there is a connection difference between the power supply device 2 and the power supply unit 3 in the information processing apparatus 1b shown in FIG. Consider the case of connection to the terminal 21 of 2-1. In this case, identification information is transmitted and received between the power supply unit A and the power supply unit B in the same manner as the arrows (I) and (II) shown in FIG. 11 ([A, B] and [B, A] is set to “1”). In addition, the identification information transmitted from the power supply unit A via the power line 2a is supplied via the power line 2c via the terminal 21 of the power supply device X as indicated by the arrow (V) in FIG. Received by unit C ([A, C] in FIG. 10 is set to “1”). The identification information transmitted from the power supply unit B via the power line 2b is transmitted by the power supply unit C via the power line 2c via the terminal 21 of the power supply device X as shown by the arrow (VII) in FIG. Received ("1" is set in [B, C] in FIG. 10).

  Also, as shown in FIG. 12, the identification information transmitted from the power supply unit C via the power line 2c passes through the terminal 21 of the power supply device X as indicated by the arrow (VI) in FIG. Is received by the power supply unit A ([C, A] in FIG. 10 is set to “1”). Similarly, the identification information transmitted from the power supply unit C via the power line 2c is transmitted via the power line 2b via the terminal 21 of the power supply device X as indicated by the arrow (VIII) in FIG. ([1] is set in [C, B] in FIG. 10).

Further, the identification information transmitted from the power supply unit D via the power line 2d is received by the power supply device Y via the power line 2d as shown by the arrow (IX) in FIG. The identification information is not received ([D, A] to [D, C] in FIG. 10 remain “blank”).
As described above, in the connection state illustrated in FIG. 12, the identification information reception processing unit 13 generates the reception table 16 c illustrated in FIG. 10 through the setting process described above.

The state determination unit 14 determines the connection state between the power supply unit 3 and the power supply device 2 based on the expected value table 16b and the reception table 16c, and generates power connection information. The state determination unit 14 includes a comparison unit 14a and a detection unit 14b.
The comparison unit 14a compares the first expected value with the first connection information, and compares the second expected value with the second connection information. Specifically, the comparison unit 14a generates the power connection information 16e illustrated in FIG. 14 or FIG. 15, compares the expected value table 16b and the reception table 16c based on the comparison table 16d, and compares the comparison result with the power connection. Information 16e is set.

  More specifically, the comparison unit 14a performs the intersection value (expected value) between the “power supply unit” and the “received power supply unit” in the expected value table 16b illustrated in FIG. 7 and the reception table illustrated in FIG. 9 or FIG. The intersection value (connection information) between the “power supply unit” and the “received power supply unit” of 16c is compared in order. At this time, the comparison unit 14a acquires a comparison result corresponding to the relationship between the expected value and the connection information from the comparison table 16d. Then, the comparison unit 14a sets the acquired comparison result at the intersection of the “power supply unit” and the “reception power supply unit” in the power connection information 16e. The comparison unit 14a skips the comparison for the power supply unit 3 in which “impossible” is set in the “determination” in the expected value table 16b.

  For example, as shown in FIG. 11, the case where there is no connection difference between the power supply device 2 and the power supply unit 3 in the information processing apparatus 1b shown in FIG. 4, that is, the case where the reception table 16c shown in FIG. To do. In this case, the comparison unit 14a converts the expected value table 16b illustrated in FIG. 7 and the reception table 16c illustrated in FIG. 9 into, for example, [A, A],..., [A, D], [ B, A],... [D, D] are compared in this order. When both “expected value” and “connection information” are “blank” as in [A, A] and [A, C], the comparison unit 14a reads “expected value” and “reception result (from the comparison table 16d). The comparison result “blank” when “connection information)” is “blank” is acquired and set in the corresponding area of the power connection information 16e shown in FIG. Further, when both “expected value” and “connection information” are “1” as in [A, B], [B, A], [C, D], and [D, C], the comparison unit 14a obtains the comparison result “◯” from the comparison table 16d and sets it in the corresponding area of the power connection information 16e shown in FIG.

  Next, as shown in FIG. 12, when there is a connection difference between the power supply device 2 and the power supply unit 3 in the information processing apparatus 1b shown in FIG. 4, that is, when the reception table 16c shown in FIG. 10 is generated. explain. Also in this case, the comparison unit 14a sets a comparison result “blank” or “◯” at the place where the “expected value” and the “connection information” coincide with each other as shown in FIG. In addition to this, the comparison unit 14a sets “no match”, that is, “x” or “Δ” indicating an incorrect connection state as a connection state of the power supply unit at a place where the “expected value” and the “connection information” are different. To do. For example, when “expected value” is “0” and “connection information” is “1”, such as [A, C], [B, C], [C, A], and [C, B], The comparison unit 14a acquires the comparison result “Δ” from the comparison table 16d and sets it in the corresponding area of the power connection information 16e shown in FIG. Further, when the “expected value” is “1” and the “connection information” is “0” as in [C, D] and [D, C], the comparison unit 14 a compares the comparison result “ X ”is acquired and set in the corresponding area of the power connection information 16e.

As described above, the comparison unit 14a compares the expected value table 16b and the reception table 16c to generate the power connection information 16e as the connection state between the power supply unit 3 and the power supply device 2 as a comparison result.
The detection unit 14b detects a connection difference between the power supply device X and the power supply unit A and the power supply unit B based on the comparison result by the comparison unit 14a, or the power supply device Y, the power supply unit C, and the power supply unit D. The connection difference between the two is detected. Specifically, the detection unit 14b refers to the power supply connection information 16e to determine the power supply unit 3 having the largest number of “Δ” or “x” indicating an erroneous connection state. Then, the detection unit 14b sets “NG” (for example, 1-bit data “1”) to the “determination” of the detected power supply unit 3 for the power supply connection information 16e, and “determination” of the other power supply units 3 "OK" (for example, 1-bit data "0") is set. In addition, when there are a plurality of power supply units 3 having the largest number of “Δ” or “x” indicating an erroneous connection state, the detection unit 14b sets “NG” to “determination” of the plurality of power supply units 3.

  The output unit 15 stores the power connection information 16e generated by the state determination unit 14 in a recording medium such as the HDD 61 as a result of monitoring (determination) of the redundant connectivity of the power supply unit 3 by the power redundancy monitoring unit 10. Further, when “NG” is set in the power supply connection information 16e, the output unit 15 notifies the operator or the like to confirm the connection state between the power supply device 2 and the power supply unit 3. Note that the output unit 15 may notify an operator or the like when the monitoring (judgment) is completed regardless of whether “NG” is set.

  These notifications may be output / displayed on an output device such as a monitor or a printer (not shown) provided in the information processing apparatus 1b, and other information is provided via a LAN (Local Area Network) adapter (not shown) provided in the information processing apparatus 1b. You may notify to a processing apparatus etc. These notifications may include the contents of the power connection information 16e or information for specifying the power connection information 16e. Information indicating that “NG” is set in the power connection information 16e or monitoring Only information indicating that (determination) has been completed may be included.

In order to monitor the connection state of the power supply unit 3 with the power supply device 2, the power supply redundancy monitoring unit 10 generates a generation unit 11, an identification information transmission processing unit 12, an identification information reception processing unit 13, a state determination unit 14, and an output. The processing described above by the unit 15 may be executed, for example, at regular intervals (periodically).
As described above, in the information processing apparatus 1 (the information processing apparatus 1a and the information processing apparatus 1b) according to the present embodiment, the power supply redundancy monitoring unit 10 causes the power supply unit 3 (the power line communication unit 31 to the power line communication unit 34) to be connected. A connection matrix via the power supply device 2 is created as the expected value table 16b. Then, the power redundancy unit 10 transmits / receives inspection data (identification information) between the power supply units 3, and the connection matrix reception table 16 c via the power supply device 2 between the power supply units 3 is based on the received data. Created. Thereby, it is possible to detect whether or not the power supply unit 3 (power line 2a to power line 2d) of the information processing apparatus 1 is connected to the plurality of power supply apparatuses 2 in a redundant configuration.

  Therefore, the power supply redundancy monitoring unit 10 compares the expected value table 16b and the reception table 16c to identify the power supply unit 3 in which a transmission path different from the expected value is formed due to an incorrect connection (connection error). be able to. That is, according to the power supply redundancy monitoring unit 10, it is possible to reliably detect a connection difference between the power supply device 2 and the power supply unit 3 of the information processing device 1 (the information processing device 1a or the information processing device 1b).

[1-3] Operation Example of Information Processing Device Next, an operation example of the power supply redundancy monitoring unit 10 in the information processing device 1b configured as described above will be described with reference to FIGS. 16 and 17 are flowcharts for explaining an operation example of the power supply redundancy monitoring unit 10 in the information processing apparatus 1b shown in FIG. 4, and FIGS. 18 and 19 are power supply apparatuses in the information processing apparatus 1b shown in FIG. 2 is a sequence diagram illustrating an operation example of the information processing apparatus 1b when there is no connection difference between the power supply unit 2 and the power supply unit 3. FIG.

First, an example of operation of the power supply redundancy monitoring unit 10 will be described with reference to FIGS. 16 and 17.
First, when monitoring by the power supply redundancy monitoring unit 10 is started, the generation unit 11 acquires the power supply classification information 16a from the storage unit 16 (step S1). Then, the generation unit 11 generates an expected value table 16b including the expected value of each power supply unit 3 based on the power supply classification information 16a, and also generates identification information and sets it in the expected value table 16b (step S2). ).

  Next, the identification information transmission processing unit 12 selects, for example, the first set power supply unit 3 along the expected value table 16b, and determines whether or not transmission is possible via the I2C bus or the like (step S3). ). When it is in a transmittable state (Yes route in step S3), the identification information transmission processing unit 12 instructs the transmission of identification information to the power line communication unit 31 to the power line communication unit 34 of the selected power supply unit 3 (step S4). ). In step S4, the identification information transmission processing unit 12 starts waiting time counting for a predetermined time.

  And it is judged by the identification information reception process part 13 whether identification information was received in each power line communication part 31-power line communication part 34 of the power supply unit 3 (step S5). If received (Yes route in step S5), the identification information reception processing unit 13 determines whether or not the device ID included in the identification information matches the device ID of the information processing device 1b (step S6). If they match (Yes route in step S6), the identification information reception processing unit 13 associates the power supply unit 3 that transmitted the identification information with the received power supply unit 3 ("1" is set at the intersection). A reception table 16c is generated (step S7), and the process proceeds to step S9. On the other hand, when the device ID included in the identification information does not match the device ID of the information processing device 1b (No route in step S6), the received identification information is discarded by the identification information reception processing unit 13 (step S8). The process proceeds to S9.

  In step S9, the identification information transmission processing unit 12 determines whether or not the waiting time has elapsed. If the waiting time has not elapsed (No route in step S9), the reception processing by the identification information reception processing unit 13 should be continued. The process proceeds to step S5. On the other hand, when the waiting time has elapsed (Yes route in step S9), the process proceeds to step S10. In step S3, when the selected power supply unit 3 is not in a transmittable state (No route in step S3), the identification information transmission processing unit 12 sets “ “Not possible” is set in the “transmission state”, and “blank” (off) is set in the expected value (step S11), and the process proceeds to step S10.

  In step S10, the identification information transmission processing unit 12 determines whether or not the transmission of identification information from all the power supply units 3 is completed. If not completed (No route in step S10), the identification information transmission is performed. The next power supply unit 3 is selected by the processing unit 12, and the process proceeds to step S3. On the other hand, when transmission of identification information from all the power supply units 3 is completed (Yes route in step S10), the process proceeds to step S12 in FIG.

  In step S12 of FIG. 17, the state determination unit 14 (comparison unit 14a) generates power connection information 16e and sets basic information, that is, “power supply unit” and “power supply device” (see FIGS. 14 and 15). ). At this time, if the state determination unit 14 confirms the transmission state of the expected value table 16b and there is a power supply unit 3 for which “impossible” (see step S11 in FIG. 16) is set, the power supply of the power supply unit 3 “Unavailable” is set in the “determination” of the connection information 16e. Then, the comparison unit 14a compares the connection state of the power supply unit 3 according to the comparison table for the expected value table 16b and the reception table 16c, and sets the comparison result in the power supply connection information 16e (step S13).

  Next, the detection unit 14b determines the power supply unit 3 that is the most “mismatched” based on the power supply connection information 16e, that is, that has a large number of erroneous connections. "Is set (step S14). Further, the detection unit 14b sets “OK” to “determination” of the other power supply unit 3 for the power supply connection information 16e (step S15). The output unit 15 stores the power connection information 16e, and the monitoring result is displayed on the screen of the output device, for example (step S16). The power redundancy monitoring unit 10 waits until the next monitoring time. (No route of step S17, step S17). When the monitoring time is reached (Yes route in step S17), the power supply redundancy monitoring unit 10 proceeds to step S1 in FIG. 16 to perform the next monitoring.

  As described above, the power redundancy monitoring unit 10 performs the identification information transmission process (steps S1 to S4, S9 to S11) and the reception process (steps S5 to S8) between the power supply device 2 and the power supply unit 3. Bidirectional communication is performed. Further, the power supply redundancy monitoring unit 10 performs a determination process for determining and detecting an erroneous connection from information actually communicated (steps S12 to S16). Furthermore, in order to periodically monitor the connection state of the power supply unit 3 with the power supply device 2, a monitoring process (step S17) is performed in order to execute the processes of steps S1 to S16 at regular intervals.

Next, referring to FIGS. 18 and 19, when there is no connection difference between the power supply device 2 and the power supply unit 3 in the information processing apparatus 1b shown in FIG. 4 (FIG. 18; see FIG. 11), the power supply device An operation example of the information processing apparatus 1b when there is a connection difference between the power supply unit 2 and the power supply unit 3 (see FIG. 19; FIG. 12) will be described.
First, the case where there is no connection difference will be described. As shown in FIG. 18, in the power supply redundancy monitoring unit 10, the generation unit 11 acquires the power supply classification information 16a (step T1). Then, the generation unit 11 generates the expected value table 16b, and the identification information of each power supply unit 3 is generated and set in the expected value table 16b (step T2).

  Next, in the power redundancy monitoring unit 10, the identification information transmission processing unit 12 issues an identification information transmission instruction to the power supply unit A, for example, along the expected value table 16b (step T3). In the power supply unit A, the power line communication unit 31 transmits identification information (hereinafter referred to as identification information A) in response to the identification information transmission instruction (step T4). The identification information A is received by the power line communication unit 32 of the power supply unit B via the power line 2a, the terminal 21 of the power supply device X, and the power line 2b. When the received information is notified to the power supply redundancy monitoring unit 10 by the power supply unit B that has received the identification information A (step T5), the identification information reception processing unit 13 of the power supply redundancy monitoring unit 10 receives the identification information A. The reception table 16c of the power supply unit B is created (step T6).

  Subsequently, the identification information transmission processing unit 12 issues an identification information transmission instruction to the power supply unit B, for example, along the expected value table 16b (step T7). In the power supply unit B, the identification information B is transmitted by the power line communication unit 32 in response to the identification information transmission instruction (step T8). The identification information B is received by the power line communication unit 31 of the power supply unit A via the power line 2b, the terminal 21 of the power supply device X, and the power line 2a. When the power supply unit A that has received the identification information B notifies the power supply redundancy monitoring unit 10 of the reception information (step T9), the identification information reception processing unit 13 of the power supply redundancy monitoring unit 10 receives the identification information B. The reception table 16c of the power supply unit A is created (step T10).

  Further, the identification information transmission processing unit 12 issues an identification information transmission instruction for the power supply unit C, for example, along the expected value table 16b (step T11). In the power supply unit C, the identification information C is transmitted by the power line communication unit 33 in response to the identification information transmission instruction (step T12). The identification information C is received by the power line communication unit 34 of the power supply unit D through the power line 2c, the terminal 22 of the power supply Y, and the power line 2d. When the received information is notified to the power redundancy monitoring unit 10 by the power supply unit D that has received the identification information C (step T13), the identification information C is received by the identification information reception processing unit 13 of the power redundancy monitoring unit 10. The reception table 16c of the power supply unit D is created (step T14).

  Then, the identification information transmission processing unit 12 issues an identification information transmission instruction for the power supply unit D, for example, along the expected value table 16b (step T15). In the power supply unit D, the power line communication unit 34 transmits the identification information D in response to the identification information transmission instruction (step T16). The identification information D is received by the power line communication unit 33 of the power supply unit C via the power line 2d, the terminal 22 of the power supply Y, and the power line 2c. When the received information is notified to the power redundancy monitoring unit 10 by the power supply unit C that has received the identification information D (step T17), the identification information reception processing unit 13 of the power redundancy monitoring unit 10 receives the identification information D. The reception table 16c of the power supply unit C is created (step T18).

  When the transmission of the identification information by all the power supply units 3 is completed, the state determination unit 14 (comparison unit 14a, detection unit 14b) causes the expected value table 16b and the reception table 16c to communicate between the power supply unit 3 and the power supply device 2. The connection state is determined, and power connection information 16e is generated (step T19). Then, the power supply connection information 16e is stored by the output unit 15 and displayed on the output device or the like (step T20), and the processing of the power supply redundancy monitoring unit 10 is completed.

Next, a case where there is a connection difference will be described. As shown in FIG. 19, in the power redundancy monitoring unit 10, the power source classification information 16a is acquired by the generation unit 11 (step T21). Then, the generation unit 11 generates the expected value table 16b, and the identification information of each power supply unit 3 is generated and set in the expected value table 16b (step T22).
Next, in the power redundancy monitoring unit 10, the identification information transmission processing unit 12 issues an identification information transmission instruction to the power supply unit A, for example, along the expected value table 16b (step T23). In the power supply unit A, the identification information A is transmitted by the power line communication unit 31 in response to the identification information transmission instruction. The identification information A is received by the power line communication unit 32 of the power supply unit B through the power line 2a, the terminal 21 of the power supply device X, and the power line 2b (step T24), and the power line 2a and the terminal 21 of the power supply device X. , And is received by the power line communication unit 33 of the power supply unit C through the power line 2c (step T25). When the received information is notified to the power supply redundancy monitoring unit 10 by the power supply unit B and the power supply unit C that have received the identification information A (steps T26 and T27), the identification information reception processing unit 13 of the power supply redundancy monitoring unit 10 Then, the reception table 16c of the power supply unit B and the power supply unit C that have received the identification information A is created (step T28).

  Subsequently, the identification information transmission processing unit 12 issues an identification information transmission instruction to the power supply unit B, for example, along the expected value table 16b (step T29). In the power supply unit B, the identification information B is transmitted by the power line communication unit 32 in response to the identification information transmission instruction. The identification information B is received by the power line communication unit 31 of the power supply unit A via the power line 2b, the terminal 21 of the power supply device X, and the power line 2a (step T30), and the power line 2b and the terminal 21 of the power supply device X. , And received by the power line communication unit 33 of the power supply unit C through the power line 2c (step T31). When the received information is notified to the power supply redundancy monitoring unit 10 by the power supply unit A and the power supply unit C that have received the identification information B (steps T32 and T33), the identification information reception processing unit 13 of the power supply redundancy monitoring unit 10 Then, the reception table 16c of the power supply unit A and the power supply unit C that have received the identification information B is created (step T34).

  Further, the identification information transmission processing unit 12 issues an identification information transmission instruction for the power supply unit C, for example, along the expected value table 16b (step T35). In the power supply unit C, the identification information C is transmitted by the power line communication unit 33 in response to the identification information transmission instruction. The identification information C is received by the power line communication unit 31 of the power supply unit A through the power line 2c, the terminal 21 of the power supply device X, and the power line 2a (step T36), and the power line 2c and the terminal 21 of the power supply device X. , And is received by the power line communication unit 32 of the power supply unit B through the power line 2b (step T37). When the received information is notified to the power supply redundancy monitoring unit 10 by the power supply unit A and the power supply unit B that have received the identification information C (steps T38 and T39), the identification information reception processing unit 13 of the power supply redundancy monitoring unit 10 Then, the reception table 16c of the power supply unit A and the power supply unit B that have received the identification information C is created (step T40).

  And the identification information transmission process part 12 issues the identification information transmission instruction | indication with respect to the power supply unit D, for example along the expected value table 16b (step T41). In the power supply unit D, the power line communication unit 34 transmits the identification information D in response to the identification information transmission instruction. The identification information D is transmitted to the terminal 22 of the power supply Y via the power line 2d, but no other power line is connected to the terminal 22 and is not received by the other power supply unit 3 (step T42). . In the power supply redundancy monitoring unit 10, the waiting time by the identification information transmission processing unit 12 elapses without receiving the reception information from the power supply unit that has received the identification information D.

  When the transmission of the identification information by all the power supply units 3 is completed, the state determination unit 14 (comparison unit 14a, detection unit 14b) causes the expected value table 16b and the reception table 16c to communicate between the power supply unit 3 and the power supply device 2. The connection state is determined, and power connection information 16e is generated (step T43). Then, the power supply connection information 16e is stored by the output unit 15 and displayed on the output device or the like (step T44), and the processing of the power supply redundancy monitoring unit 10 is completed.

  As described above, according to the information processing apparatus 1 (the information processing apparatus 1a and the information processing apparatus 1b) illustrated in FIG. 1 or 4, the comparison unit 14a performs the expected value (expected value table 16b) and the connection information (the reception table 16c). ) Is compared. Further, the detection unit 14b detects a connection difference between the power supply device X and the power supply unit A and the power supply unit B based on the comparison result, or between the power supply device Y and the power supply unit C and the power supply unit D. A connection difference is detected. Therefore, in the information processing apparatus 1 connected to the plurality of power supply apparatuses 2, a connection difference between the power supply apparatus 2 and the power supply unit 3 can be detected (detected). Accordingly, for example, an operator or the like can check the connection state and correct the connection, so that the connection difference between the power supply device 2 and the power supply unit 3 can be eliminated, and the reliability of the information processing device 1 is improved. Can be made.

  As shown in FIG. 8, even when the information processing apparatus 1 that is operating and another information processing apparatus 1 'that is operating are connected to the power supply device 2, the operation of the other information processing apparatus 1' is not stopped. In addition, the redundancy of the power supply unit 3 can be confirmed by the information processing apparatus 1. Therefore, even when the redundantly configured power supply unit 3 is mistakenly connected to the power supply device 2, an abnormality can be detected while maintaining the entire system in normal operation.

  In addition, the expected value is obtained when the first information and the second information are received via the power supply device 2 when the first information and the second information are transmitted from the power supply unit 3 to the power supply device 2. The connection information is information indicating the power supply unit 3 that has received the first information and the second information transmitted from the power supply unit 3 via the power supply device 2. In this way, in the information processing device 1, since the identification information of each power supply unit 3 is transmitted and received and the expected value is compared with the actual reception result, the connection state between the power supply device 2 and the power supply unit 3 can be recognized, and the connection Differences can be detected reliably.

Further, according to the identification information transmission processing unit 12, the identification information reception processing unit 13, the power line communication unit 31 to the power line communication unit 34, via the power line actually connected between the power supply device 2 and the power supply unit 3. Since the identification information is transmitted and received (notified alternately), the connection state between the power supply device 2 and the power supply unit 3 can be detected more reliably.
[2] Others While the preferred embodiments of the present invention have been described in detail above, the present invention is not limited to such specific embodiments, and various modifications and changes can be made without departing from the spirit of the present invention. It can be changed and implemented.

For example, in the above-described embodiment, the case where the number of power supply devices 2 is 2 is described, and the case where the number of power supply units 3 is 2 (see FIG. 1) or 4 (see FIG. 4) is described. However, the present invention is not limited to this.
In addition, the state determination unit 14 (detection unit 14b) performs weighting according to, for example, “Δ” or “x” indicating inconsistency based on the power connection information 16e, and then the most erroneous connection (inconsistency) after weighting. You may determine the power supply unit 3 with many.

  Furthermore, the power redundancy monitoring unit 10 (the generation unit 11, the identification information transmission processing unit 12, the identification information reception processing unit 13, the state determination unit 14 (comparison unit 14a, the detection unit 14b), and the output unit 15 described above are included. All or some of the various functions of the information processing apparatus 1 (the information processing apparatus 1a and the information processing apparatus 1b) according to the embodiment are executed by a computer (including a CPU, an information processing apparatus, and various terminals) executing a predetermined program. Realized.

  The program is, for example, a flexible disk, CD (CD-ROM, CD-R, CD-RW, etc.), DVD (DVD-ROM, DVD-RAM, DVD-R, DVD-RW, DVD + R, DVD + RW, etc.), Blu-ray Disc And the like recorded in a computer-readable recording medium. In this case, the computer reads the program from the recording medium, transfers it to the internal storage device or the external storage device, and uses it.

  Here, the computer is a concept including hardware and an OS (operating system) and means hardware that operates under the control of the OS. Further, when the OS is unnecessary and the hardware is operated by the application program alone, the hardware itself corresponds to the computer. The hardware includes at least a microprocessor such as a CPU and means for reading a computer program recorded on a recording medium. The program includes program code for causing the computer as described above to realize various functions of the information processing apparatus 1 of the present embodiment. Also, some of the functions may be realized by the OS instead of the application program.

  In addition, the present invention is not limited to the above-described object, and is an operational effect derived from each configuration shown in the best mode for carrying out the invention described above. It can be positioned as one of the purposes.

1, 1a, 1b, 1 ', 100 Information processing device 10 Power supply redundancy monitoring unit 11 Generation unit 12 Identification information transmission processing unit (transmission processing unit)
13 Identification information reception processing unit (acquisition unit)
14 State determination unit 14a Comparison unit 14b Detection unit 15 Output unit 16 Storage unit 16a Power supply classification information (power supply information)
16b Expected value table 16c Reception table (connection information)
16d Comparison table 16e Power connection information 2, 2-1, 2-2 Power supply (first power supply, second power supply)
2a to 2f, 200a, 200b Power line 21, 22, 210, 220 Terminal 200, 200-1, 200-2 Power supply device 3, 3-1 to 3-4 Power supply unit (first power supply unit, second power supply unit)
3-5, 3-6 Power supply units 3a-3f, 300a, 300b Power supply lines 31-34 Power line communication unit 300, 300-1, 300-2 Power supply unit 4, 4 ', 400 Power supply target 4a, 4a', 400a Communication line 5,500 CPU unit 51 CPU
52 Memory 6,600 HDD unit 61 HDD
7,700 FAN unit

The information processing apparatus 1a includes a plurality, for example two power supply units 3 -1 and the power supply unit 3 -2, a CPU unit 5, HDD unit 6 and FAN unit 7. In the following description, when the power supply unit 3-1 and the power supply unit 3-2 are not distinguished, they are simply denoted by reference numeral 3. The CPU unit 5, HDD unit 6, and FAN unit 7 are power supply targets 4 to which power (electric power) is supplied by the power supply unit 3-1 or the power supply unit 3-2.

As shown in FIG. 5, the information processing apparatus 1 b functions as a power supply redundancy monitoring unit 10 that sets and monitors the redundancy (redundancy connectivity) of the power supply unit 3, that is, the redundancy of the power supply unit 3 with respect to the power supply apparatus 2. To do. In addition, the information processing apparatus 1 b includes a storage unit 16. Note that the function as the power supply redundancy monitoring unit 10 is realized by the CPU 51 executing the erroneous connection detection program as described above. As the storage unit 16, reading a storage device such as a memory 52 and HDD 6 1 and the like. The power redundancy monitoring unit 10 and the storage unit 16 shown in FIG. 5 can be similarly provided in the information processing apparatus 1a shown in FIG.

In the “received power supply unit” area of the reception table 16c, a value indicating “no reception” (for example, “blank”) is set by default. The reception table 16c includes “power supply unit” A to “power supply unit” D specified from the received identification information and “received power supply unit” A to “received power supply unit” D that received the identification information. A value indicating “reception” (for example, “1”) is set at the intersection. In other words, between the case where "Power Supply" and intersection to "1" and "power supply unit that has received" is set, the "power supply unit" and "power supply unit that has received" information by PLC (identification information) Communication has been carried out. 9 shows the reception table 16c when the power supply unit 3 and the power supply device 2 in the information processing apparatus 1b are in the connection state shown in FIG. 11 (see FIG. 4), and FIG. 10 shows the power supply unit 3 and the power supply. The reception table 16c when the apparatus 2 is in the connection state shown in FIG.

More specifically, comparator unit 14a, the expected value table 16b shown in FIG. 7 as "power supply unit" and the value at the intersection of the "reception power unit" (expected value), the reception shown in FIG. 9 or 10 The intersection value (connection information) between the “power supply unit” and the “received power supply unit” in the table 16c is compared in order. At this time, the comparison unit 14a acquires a comparison result corresponding to the relationship between the expected value and the connection information from the comparison table 16d. Then, the comparison unit 14a sets the acquired comparison result at the intersection of the “power supply unit” and the “reception power supply unit” in the power connection information 16e. The comparison unit 14a skips the comparison for the power supply unit 3 in which “impossible” is set in the “determination” in the expected value table 16b.

In step S12 of FIG. 17, the state determination unit 14 (comparison unit 14a) generates power connection information 16e and sets basic information, that is, “power supply unit” and “power supply device” (see FIGS. 14 and 15). ). At this time, if the state determination unit 14 confirms the transmission state of the expected value table 16b and there is a power supply unit 3 for which “impossible” (see step S11 in FIG. 16) is set, the power supply of the power supply unit 3 “Unavailable” is set in the “determination” of the connection information 16e. Then, the comparison unit 14a compares the expected value table 16b and the reception table 16c with the connection state of the power supply unit 3 according to the comparison table 16d, and sets the comparison result in the power supply connection information 16e (step S13).

In addition, the present invention is not limited to the above-described object, and is an operational effect derived from each configuration shown in the best mode for carrying out the invention described above. It can be positioned as one of the purposes.
[3] Appendix
Regarding the above embodiment, the following additional notes are disclosed.
(Appendix 1)
An information processing apparatus to which power is supplied from a first power supply apparatus or a second power supply apparatus,
A first power supply unit connected to the first power supply;
A second power supply unit connected to the second power supply device;
A first expected value indicating a state where the first power supply unit and the first power supply unit are connected, and a state where the second power supply unit and the second power supply unit are connected. A storage unit for storing the second expected value;
Acquisition of obtaining first connection information indicating a connection state between the first power supply unit and the first power supply device and second connection information indicating a connection state between the second power supply unit and the second power supply device. And
A comparison unit that compares the first expected value with the first connection information, and compares the second expected value with the second connection information;
Based on the comparison result by the comparison unit, detection of a connection difference between the first power supply unit and the first power supply unit or a connection difference between the second power supply unit and the second power supply unit. A detection unit for performing detection;
An information processing apparatus comprising:
(Appendix 2)
The first expected value indicates a power supply unit that receives the first information via the first power supply device when the first information is transmitted from the first power supply unit toward the first power supply device. The first connection information is information indicating a power supply unit that has received the first information transmitted from the first power supply unit via the first power supply device;
The second expected value indicates a power supply unit that receives the second information via the second power supply device when the second information is transmitted from the second power supply unit toward the second power supply device. The second connection information is information indicating the power supply unit that has received the second information transmitted from the second power supply unit via the second power supply device. 1. An information processing apparatus according to 1.
(Appendix 3)
The first information is first identification information indicating the first power supply unit, and the second information is second identification information indicating the second power supply unit,
The first power supply unit is caused to transmit the first identification information toward the first power supply device, and the second power supply unit is directed toward the second power supply device so that the second identification is performed. A transmission control unit for transmitting information;
The acquisition unit is based on the first identification information or the second identification information received by the first power supply unit and the second power supply unit via the first power supply device or the second power supply device. The information processing apparatus according to appendix 2, wherein the first connection information and the second connection information are acquired.
(Appendix 4)
Each of the first power supply unit and the second power supply unit is
The first information or the second information is transmitted through the power line to the power supply device connected through the power line, and the first information or the second information from the power supply device is transmitted to the power line. The information processing apparatus according to supplementary note 2 or supplementary note 3, characterized by having a communication unit that receives the information via the communication unit.
(Appendix 5)
The first expected value and the second expected value are generated based on power information indicating a connection relationship between the first power unit, the second power unit, the first power device, and the second power device. The information processing apparatus according to any one of appendices 2 to 4, further comprising a generation unit that stores the first information and the second information while storing the first information and the second information.
(Appendix 6)
An information processing apparatus having a first power supply unit connected to the first power supply apparatus and supplied with power from the first power supply apparatus or the second power supply apparatus, and a second power supply unit connected to the second power supply apparatus A method for detecting an erroneous connection of a power source in
Obtaining first connection information indicating a connection state between the first power supply unit and the first power supply device and second connection information indicating a connection state between the second power supply unit and the second power supply device;
Comparison between the first expected value indicating a state where the first power supply unit and the first power supply unit stored in the storage unit are connected to the acquired first connection information, and the storage unit A second expected value indicating a state in which the second power supply unit and the second power supply unit stored in are connected, and the acquired second connection information is compared,
Based on the comparison result, detection of a connection difference between the first power supply device and the first power supply unit or detection of a connection difference between the second power supply device and the second power supply unit is performed.
A method of detecting an erroneous connection of a power supply, characterized by:
(Appendix 7)
The first expected value indicates a power supply unit that receives the first information via the first power supply device when the first information is transmitted from the first power supply unit toward the first power supply device. The first connection information is information indicating a power supply unit that has received the first information transmitted from the first power supply unit via the first power supply device;
The second expected value indicates a power supply unit that receives the second information via the second power supply device when the second information is transmitted from the second power supply unit toward the second power supply device. The second connection information is information indicating the power supply unit that has received the second information transmitted from the second power supply unit via the second power supply device. 6. The erroneous connection detection method according to 6.
(Appendix 8)
The first information is first identification information indicating the first power supply unit, and the second information is second identification information indicating the second power supply unit,
The first power supply unit is caused to transmit the first identification information toward the first power supply device, and the second power supply unit is directed toward the second power supply device so that the second identification is performed. Send information,
In the processing to obtain, based on the first identification information or the second identification information received by the first power supply unit and the second power supply unit via the first power supply device or the second power supply device. The erroneous connection detection method according to appendix 7, wherein the first connection information and the second connection information are acquired.
(Appendix 9)
In the first power supply unit and the second power supply unit, the first information or the second information is transmitted to the power supply device connected via the power line via the power line, and The misconnection detection method according to appendix 7 or appendix 8, wherein the first information or the second information is received via the power line.
(Appendix 10)
The first expected value and the second expected value are generated based on power information indicating a connection relationship between the first power unit, the second power unit, the first power device, and the second power device. The erroneous connection detection method according to claim 7, wherein the first information and the second information are generated while being stored in the storage unit.
(Appendix 11)
Power is supplied from the first power supply device or the second power supply device, and is executed on a computer having a first power supply unit connected to the first power supply device and a second power supply unit connected to the second power supply device A power supply misconnection detection program
Obtaining first connection information indicating a connection state between the first power supply unit and the first power supply device and second connection information indicating a connection state between the second power supply unit and the second power supply device;
Comparison between the first expected value indicating a state where the first power supply unit and the first power supply unit stored in the storage unit are connected to the acquired first connection information, and the storage unit A second expected value indicating a state in which the second power supply unit and the second power supply unit stored in are connected, and the acquired second connection information is compared,
Based on the comparison result, detection of a connection difference between the first power supply device and the first power supply unit or detection of a connection difference between the second power supply device and the second power supply unit is performed.
An erroneous connection detection program for a power supply, characterized by causing the computer to execute processing.
(Appendix 12)
The first expected value indicates a power supply unit that receives the first information via the first power supply device when the first information is transmitted from the first power supply unit toward the first power supply device. The first connection information is information indicating a power supply unit that has received the first information transmitted from the first power supply unit via the first power supply device;
The second expected value indicates a power supply unit that receives the second information via the second power supply device when the second information is transmitted from the second power supply unit toward the second power supply device. The second connection information is information indicating the power supply unit that has received the second information transmitted from the second power supply unit via the second power supply device. 11. The erroneous connection detection program according to 11.
(Appendix 13)
The first information is first identification information indicating the first power supply unit, and the second information is second identification information indicating the second power supply unit,
The first power supply unit is caused to transmit the first identification information toward the first power supply device, and the second power supply unit is directed toward the second power supply device so that the second identification is performed. Send information,
In the processing to obtain, based on the first identification information or the second identification information received by the first power supply unit and the second power supply unit via the first power supply device or the second power supply device. 13. The erroneous connection detection program according to appendix 12, wherein the computer acquires the first connection information and the second connection information, and causes the computer to execute a process.
(Appendix 14)
In the first power supply unit and the second power supply unit, the first information or the second information is transmitted to the power supply device connected via the power line via the power line, and The erroneous connection detection program according to appendix 12 or appendix 13, wherein the computer receives the first information or the second information via the power line and causes the computer to execute a process.
(Appendix 15)
The first expected value and the second expected value are generated based on power information indicating a connection relationship between the first power unit, the second power unit, the first power device, and the second power device. The erroneous connection detection according to any one of appendices 12 to 14, wherein the computer executes the process of generating the first information and the second information while storing the information in the storage unit. program.

Claims (15)

An information processing apparatus to which power is supplied from a first power supply apparatus or a second power supply apparatus,
A first power supply unit connected to the first power supply;
A second power supply unit connected to the second power supply device;
A first expected value indicating a state where the first power supply unit and the first power supply unit are connected, and a state where the second power supply unit and the second power supply unit are connected. A storage unit for storing the second expected value;
Acquisition of obtaining first connection information indicating a connection state between the first power supply unit and the first power supply device and second connection information indicating connection information between the second power supply unit and the second power supply device. And
A comparison unit that compares the first expected value with the first connection information, and compares the second expected value with the second connection information;
Based on the comparison result by the comparison unit, detection of a connection difference between the first power supply unit and the first power supply unit or a connection difference between the second power supply unit and the second power supply unit. A detection unit for performing detection;
An information processing apparatus comprising: The first expected value indicates a power supply unit that receives the first information via the first power supply device when the first information is transmitted from the first power supply unit toward the first power supply device. The first connection information is information indicating a power supply unit that has received the first information transmitted from the first power supply unit via the first power supply device;
The second expected value indicates a power supply unit that receives the second information via the second power supply device when the second information is transmitted from the second power supply unit toward the second power supply device. The second connection information is information indicating a power supply unit that has received the second information transmitted from the second power supply unit via the second power supply device. Item 6. The information processing apparatus according to Item 1. The first information is first identification information indicating the first power supply unit, and the second information is second identification information indicating the second power supply unit,
The first power supply unit is caused to transmit the first identification information toward the first power supply device, and the second power supply unit is directed toward the second power supply device so that the second identification is performed. A transmission control unit for transmitting information;
The acquisition unit is based on the first identification information or the second identification information received by the first power supply unit and the second power supply unit via the first power supply device or the second power supply device. The information processing apparatus according to claim 2, wherein the first connection information and the second connection information are acquired. Each of the first power supply unit and the second power supply unit is
The first information or the second information is transmitted through the power line to the power supply device connected through the power line, and the first information or the second information from the power supply device is transmitted to the power line. The information processing apparatus according to claim 2, further comprising a communication unit that receives the data via the communication unit.   The first expected value and the second expected value are generated based on power information indicating a connection relationship between the first power unit, the second power unit, the first power device, and the second power device. The information processing apparatus according to claim 2, further comprising a generation unit that stores the first information and the second information while storing the information in the storage unit. An information processing apparatus having a first power supply unit connected to the first power supply apparatus and supplied with power from the first power supply apparatus or the second power supply apparatus, and a second power supply unit connected to the second power supply apparatus A method for detecting an erroneous connection of a power source in
Obtaining first connection information indicating a connection state between the first power supply unit and the first power supply device and second connection information indicating a connection state between the second power supply unit and the second power supply device;
Comparison between the first expected value indicating a state where the first power supply unit and the first power supply unit stored in the storage unit are connected to the acquired first connection information, and the storage unit A second expected value indicating a state in which the second power supply unit and the second power supply unit stored in are connected, and the acquired second connection information is compared,
Based on the comparison result, detection of a connection difference between the first power supply device and the first power supply unit or detection of a connection difference between the second power supply device and the second power supply unit is performed.
A method of detecting an erroneous connection of a power supply, characterized by: The first expected value indicates a power supply unit that receives the first information via the first power supply device when the first information is transmitted from the first power supply unit toward the first power supply device. The first connection information is information indicating a power supply unit that has received the first information transmitted from the first power supply unit via the first power supply device;
The second expected value indicates a power supply unit that receives the second information via the second power supply device when the second information is transmitted from the second power supply unit toward the second power supply device. The second connection information is information indicating a power supply unit that has received the second information transmitted from the second power supply unit via the second power supply device. Item 7. An erroneous connection detection method according to item 6. The first information is first identification information indicating the first power supply unit, and the second information is second identification information indicating the second power supply unit,
The first power supply unit is caused to transmit the first identification information toward the first power supply device, and the second power supply unit is directed toward the second power supply device so that the second identification is performed. Send information,
In the processing to obtain, based on the first identification information or the second identification information received by the first power supply unit and the second power supply unit via the first power supply device or the second power supply device. The erroneous connection detection method according to claim 7, wherein the first connection information and the second connection information are acquired.   In the first power supply unit and the second power supply unit, the first information or the second information is transmitted to the power supply device connected via the power line via the power line, and The erroneous connection detection method according to claim 7 or 8, wherein the first information or the second information is received via the power line.   The first expected value and the second expected value are generated based on power information indicating a connection relationship between the first power unit, the second power unit, the first power device, and the second power device. The erroneous connection detection method according to claim 7, wherein the first information and the second information are generated while being stored in the storage unit. Power is supplied from the first power supply device or the second power supply device, and is executed on a computer having a first power supply unit connected to the first power supply device and a second power supply unit connected to the second power supply device A power supply misconnection detection program
Obtaining first connection information indicating a connection state between the first power supply unit and the first power supply device and second connection information indicating a connection state between the second power supply unit and the second power supply device;
Comparison between the first expected value indicating a state where the first power supply unit and the first power supply unit stored in the storage unit are connected to the acquired first connection information, and the storage unit A second expected value indicating a state in which the second power supply unit and the second power supply unit stored in are connected, and the acquired second connection information is compared,
Based on the comparison result, detection of a connection difference between the first power supply device and the first power supply unit or detection of a connection difference between the second power supply device and the second power supply unit is performed.
An erroneous connection detection program for a power supply, characterized by causing the computer to execute processing. The first expected value indicates a power supply unit that receives the first information via the first power supply device when the first information is transmitted from the first power supply unit toward the first power supply device. The first connection information is information indicating a power supply unit that has received the first information transmitted from the first power supply unit via the first power supply device;
The second expected value indicates a power supply unit that receives the second information via the second power supply device when the second information is transmitted from the second power supply unit toward the second power supply device. The second connection information is information indicating a power supply unit that has received the second information transmitted from the second power supply unit via the second power supply device. Item 13. An erroneous connection detection program according to Item 11. The first information is first identification information indicating the first power supply unit, and the second information is second identification information indicating the second power supply unit,
The first power supply unit is caused to transmit the first identification information toward the first power supply device, and the second power supply unit is directed toward the second power supply device so that the second identification is performed. Send information,
In the processing to obtain, based on the first identification information or the second identification information received by the first power supply unit and the second power supply unit via the first power supply device or the second power supply device. The erroneous connection detection program according to claim 12, wherein the computer is caused to execute a process of acquiring the first connection information and the second connection information.   In the first power supply unit and the second power supply unit, the first information or the second information is transmitted to the power supply device connected via the power line via the power line, and The erroneous connection detection program according to claim 11, wherein the computer receives the first information or the second information via the power line, and causes the computer to execute a process.   The first expected value and the second expected value are generated based on power information indicating a connection relationship between the first power unit, the second power unit, the first power device, and the second power device. The erroneous connection according to claim 12, further comprising: causing the computer to execute a process of generating the first information and the second information while storing the information in the storage unit. Detection program.

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