JP2014027341A - Management number setting system, management device, and terminal device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To make it possible to easily perform setting of management numbers for a plurality of terminal devices with a simple system configuration.SOLUTION: A BMU 6 and CMUs 1 to 4 are connected to a CAN bus 7 in parallel, in which a signal input unit 5i of the CMU 1 and a signal output unit 6o of the BMU 6 are connected by a signal line 8a, a signal output unit 5o of the CMU 4 and a signal input unit 6i of the BMU 6 are connected by a signal line 8e, and signal output units 5o and signal input units 5i of the adjacent CMUs 1 to 4 are connected by signal lines 8b to 8d. The BMU 6 transmits management numbers to the CMUs 1 to 4 through the bus 7, and outputs a setting signal to the signal line 8a. Each of the CMUs 1 to 4 stores a management number in a storage unit 5b, returns the management number to the BMU 6, and outputs a setting signal to the signal lines 8b to 8e, when receiving the setting signal as an input and the management number in an unset state of the management number. When receiving the management numbers returned from the CMUs 1 to 4, the BMU 6 updates the management numbers and transmits the updated management numbers to the CMUs 1 to 4.

Description

  The present invention relates to a management number setting system for setting a management number for a plurality of terminal devices from a management device.

  There is a system in which a management device and a plurality of terminal devices are connected by a bus, and data is transmitted and received between the management device and each terminal device via the bus. In such a system, in order to manage each terminal device by the management device, it is necessary to set a different management number for each terminal device. The following Patent Documents 1 to 4 disclose techniques for automatically setting a management number to a plurality of terminal devices.

  In Patent Literatures 1 to 3, a management device (controller) and a plurality of terminal devices are connected by a bus, and a management device, a terminal device at the most upstream and adjacent terminal devices are connected by a control line (handshake line). Yes. In Patent Document 3, a control signal generator is connected to the most upstream management device or terminal device provided at the end of the bus via a control line.

  When the management device or the control signal generator outputs a control signal (address setting start trigger) to the adjacent terminal device via the control line, the terminal device can communicate with the management device via the bus, To output a status signal. When the management device receives the status signal and outputs an address setting command via the bus, the terminal device receives the address setting command, sets the address (management number), and sends it to the adjacent terminal device. Outputs a control signal. Thereafter, the address setting of each downstream terminal device is performed in the same procedure.

  In Patent Document 2, as a handshake line between devices, a first line for detecting connection between adjacent devices, a second line for outputting an address setting start trigger, and an output for an address setting completion trigger The third line is provided. When the address setting advances to a place where there is no terminal device adjacent downstream, an address setting completion trigger is sequentially supplied to the upstream device via the third line.

  In Patent Document 4, a management device (control means) and a plurality of terminal devices (module state detection means) are connected by a communication line and are connected in a ring shape by a numbered communication line. Each terminal device assigns an identification number to itself based on the ID information transmitted from the adjacent terminal device on the upstream side and the ID information table stored in advance, and the ID information including the identification number is downstream To the adjacent terminal device. The management device processes information transmitted from each terminal device via the communication line and the numbered communication line.

  In Patent Documents 1 to 3, the management device sets the address setting command including the correct address and the address of the destination terminal device to which the address is set (set in the initial state) so that each terminal device does not set an incorrect address. Address) is output via the bus. For this reason, each terminal device repeatedly performs address setting and updating until a correct address is set. In Patent Document 4, the management device is not involved in setting the identification number.

JP-A-3-225547 Japanese Patent No. 4133117 Japanese Patent No. 2532706 JP 2009-89521 A

  An object of the present invention is to make it easy to set management numbers for a plurality of terminal devices with a simple system configuration.

  The management number setting system of the present invention includes a management device and a plurality of terminal devices, and the management device sets the management number of each terminal device for the plurality of terminal devices. The management device includes a first signal output unit, a first signal input unit, and a first bus communication unit. Each terminal device includes a second signal output unit, a second signal input unit, a second bus communication unit, and a storage unit. The management device and each terminal device are connected via a bus. Of the plurality of terminal devices, the second signal input unit of the terminal device at the most upstream is connected to the first signal output unit of the management device through the first signal line, and the second signal output unit of the terminal device at the most downstream side. Are connected to the first signal input unit of the management device by the second signal line, and the second signal output unit and the second signal input unit of the adjacent terminal device are connected by the third signal line. In this configuration, the management device transmits a management number from the first bus communication unit to each terminal device via the bus, and from the first signal output unit to the most upstream terminal device via the first signal line. To output a setting signal for setting the management number. Each terminal device has a management number not set in the storage unit, a setting signal is input to the second signal input unit via the first or third signal line, and the second bus communication unit via the bus When the management number is received, the management number is set by storing the management number in the storage unit. Then, the first specific information notifying the completion of the setting is returned to the management apparatus via the bus, and the second signal output is performed to the adjacent terminal apparatus or management apparatus via the third or second signal line. The setting signal is output from the unit. When the first bus communication unit receives the first specific information from the terminal device, the management device updates the management number and transmits the updated management number to the terminal device via the bus.

  According to the above, the management device and the plurality of terminal devices (for convenience, A, B, C, and D) are connected by a bus and connected in a ring shape by the first to third signal lines. First, the management device transmits a management number to each of the terminal devices A to D, and outputs a setting signal to the most upstream terminal device A. As a result, the most upstream terminal device A in the management number unset state receives the setting signal and the management number, sets the management number, returns the first specific information to the management device, A setting signal is output to the adjacent terminal device B. When the management device receives the first specific information returned from the most upstream terminal device A, the management device updates the management number and transmits the updated management number to each of the terminal devices A to D. As a result, the terminal device B that is adjacent to the most upstream terminal device A and in which the management number is not set receives the setting signal and the management number, sets the management number, and manages the first identification information. And a setting signal is output to the adjacent terminal device C on the downstream side. Thereafter, a management number is set for each of the downstream terminal devices C and D in the same procedure. Therefore, it is possible to easily set management numbers for a plurality of terminal devices with a simple system configuration.

  In the present invention, when the setting signal is input to the first signal input unit, the management device transmits the second identification information that is not the management number to each terminal device via the bus, and the first signal The output of the setting signal from the output unit may be stopped. Then, each terminal device may store the management number in the storage unit and then stop outputting the setting signal from the second signal output unit when receiving the second specific information via the bus.

  Further, in the present invention, each terminal device stores the received management number in the storage unit, returns the management number to the management device, and then receives a management number different from the previous one, the second signal output unit May output a setting signal.

  In the present invention, the management device may first output a setting signal from the first signal output unit, and then transmit the management number to each terminal device via the bus.

  Furthermore, in the present invention, each terminal device holds the management number when receiving the management number via the bus in a state where the management number is not set in the storage unit, and then sets it in the second signal input unit. When the management number is received again via the bus before the signal is input, the held management number is updated. When the setting signal is input to the second signal input unit, the held or updated management number is updated. You may memorize | store in a memory | storage part.

  According to the present invention, it is possible to easily set management numbers for a plurality of terminal devices with a simple system configuration.

It is a block diagram of the management number setting system by embodiment of this invention. It is an operation | movement flowchart of BMU of 1st Embodiment of this invention. It is an operation | movement flowchart of CMU of 1st Embodiment of this invention. It is explanatory drawing of the management number setting procedure of 1st Embodiment of this invention. It is explanatory drawing of the management number setting procedure of 1st Embodiment of this invention. It is explanatory drawing of the management number setting procedure of 1st Embodiment of this invention. It is explanatory drawing of the management number setting procedure of 1st Embodiment of this invention. It is explanatory drawing of the management number setting procedure of 1st Embodiment of this invention. It is explanatory drawing of the management number setting procedure of 1st Embodiment of this invention. It is an operation | movement flowchart of BMU of 2nd Embodiment of this invention. It is an operation | movement flowchart of CMU of 2nd Embodiment of this invention. It is explanatory drawing of the management number setting procedure of 2nd Embodiment of this invention. It is explanatory drawing of the management number setting procedure of 2nd Embodiment of this invention. It is explanatory drawing of the management number setting procedure of 2nd Embodiment of this invention. It is explanatory drawing of the management number setting procedure of 2nd Embodiment of this invention. It is explanatory drawing of the management number setting procedure of 2nd Embodiment of this invention. It is an operation | movement flowchart of BMU of 3rd Embodiment of this invention. It is an operation | movement flowchart of CMU of 3rd Embodiment of this invention. It is explanatory drawing of the management number setting procedure of 3rd Embodiment of this invention. It is explanatory drawing of the management number setting procedure of 3rd Embodiment of this invention. It is explanatory drawing of the management number setting procedure of 3rd Embodiment of this invention. It is explanatory drawing of the management number setting procedure of 3rd Embodiment of this invention. It is explanatory drawing of the management number setting procedure of 3rd Embodiment of this invention. It is explanatory drawing of the management number setting procedure of 3rd Embodiment of this invention.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the drawings, the same or corresponding parts are denoted by the same reference numerals.

  First, the configuration of the management number setting system 100 of this embodiment will be described with reference to FIG.

  The management number setting system 100 includes a plurality of CMUs (Cell Monitoring Units) 1 to 4 and a single BMU (Battery Management Unit) 6, and sets management numbers from the BMU 6 to the CMUs 1 to 4. . The CMUs 1 to 4 are examples of the “terminal device” of the present invention, and the BMU 6 is an example of the “management device” of the present invention.

  CMU1-4 and BMU6 are mounted in the system which controls assembled batteries, such as an electric vehicle. In the control system, each CMU 1 to 4 manages each cell constituting the assembled battery. The BMU 6 manages the operations and information of the CMUs 1 to 4.

  The BMU 6 includes a control unit 6a, a storage unit 6b, a CAN (Controller Area Network) communication unit 6c, a signal output unit 6o, a signal input unit 6i, and a host communication unit 6e. The control unit 6a is composed of a microcomputer, and controls the operation of each unit of the BMU 6. The storage unit 6b includes a ROM, a RAM, and a nonvolatile memory. The storage unit 6b stores information on the BMU 6 and the CMUs 1 to 4 and various control information.

  The CAN communication unit 6 c is an interface for communicating with the CMUs 1 to 4 via the CAN bus 7. The CAN bus 7 is an example of the “bus” in the present invention. The CAN communication unit 6c is an example of a “bus communication unit” (first bus communication unit) provided in the management apparatus of the present invention.

  The signal output unit 6o (first signal output unit) is a port that outputs a setting signal for setting a management number. The signal input unit 6i (first signal input unit) is a port to which a setting signal is input. The host communication unit 6 e is an interface for communicating with a host ECU (Electronic Control Unit) 9. The BMU 6 is connected to the host ECU 9 via the communication line 10.

  Each of the CMUs 1 to 4 includes a control unit 5a, a storage unit 5b, a CAN communication unit 5c, a signal output unit 5o, and a signal input unit 5i. The control unit 5a is composed of a microcomputer and controls the operation of each unit of the CMUs 1 to 4. The storage unit 5b includes a ROM, a RAM, and a nonvolatile memory. Information related to the BMU 6 and the CMUs 1 to 4 and various control information are stored in the storage unit 5b. Further, the management numbers of the CMUs 1 to 4 are stored in the storage unit 5b by a management number setting procedure described later. In the initial state, the management number is not stored in the storage unit 5b.

  The CAN communication unit 5 c is an interface for communicating with the BMU 6 via the CAN bus 7. The CAN communication unit 5c is an example of a “bus communication unit” (second bus communication unit) provided in the terminal device of the present invention. The signal output unit 5o (second signal output unit) is a port that outputs a setting signal. The signal input unit 5i (second signal input unit) is a port to which a setting signal is input.

  The BMU 6 and the CMUs 1 to 4 are connected to the CAN bus 7. Among the CMUs 1 to 4, the signal input unit 5i of the most upstream CMU 1 at the left end is connected to the signal output unit 6o of the BMU 6 by a signal line 8a (first signal line). The signal output unit 5o of the most downstream CMU 4 at the right end is connected to the signal input unit 6i of the BMU 6 by a signal line 8e (second signal line). The signal output units 5o and the signal input units 5i of the adjacent CMUs 1 to 4 are connected by signal lines 8b, 8c, and 8d (third signal lines), respectively. That is, the BMU 6 and the CMUs 1 to 4 are connected in a ring shape by the signal lines 8a to 8e. Each signal line 8a-8e is comprised from the hard wire.

  Next, the management number setting procedure of the first embodiment will be described with reference to FIGS. FIG. 2 shows an operation procedure of the BMU 6, and FIG. 3 shows an operation procedure of each CMU 1-4. 4A to 4F show the signal flow and the management number setting status.

  When the BMU 6 is powered on, the control unit 6a (FIG. 1) sets the output from the signal output unit 6o to the signal line 8a to “Lo (Low) level” as an initial setting (step S11 in FIG. 2). . That is, the setting signal output from the BMU 6 to the most upstream CMU 1 is stopped. Further, the control unit 6a sets the management number to an initial value “0” as an initial setting (step S12 in FIG. 2). This initial value “0” is a number that is not set in each of the CMUs 1 to 4.

  When power is supplied to each CMU 1 to 4, the control unit 5a (FIG. 1) of each CMU 1 to 4 outputs the output from the signal output unit 5o (FIG. 1) to the signal lines 8b to 8e as “Lo” as an initial setting. Level "(step S21 in FIG. 3). At this time, each of the CMUs 1 to 4 is in an initial state and no management number is set.

  For example, as shown in (1) of FIG. 4A, when the host ECU 9 instructs the BMU 6 to start numbering, the control unit 6a of the BMU 6 receives the instruction by the host communication unit 6e (FIG. 1), It is determined that the numbering start trigger has been detected (step S13 in FIG. 2: YES). Then, the control unit 6a increments the management number by one (+1) to update the initial value from “0” to “1”, and the CAN communication unit 6c (FIG. 1) updates the management number to the CAN bus. 7 to each CMU 1 to 4 (step S14). As a result, the setting management number “1” is transmitted from the BMU 6 to each of the CMUs 1 to 4 ((2) in FIG. 4A). Transmission of the management number from the BMU 6 to the CMUs 1 to 4 via the CAN bus 7 is repeatedly performed at a predetermined cycle.

  At this time, the identification information of the BMU 6 together with the management number may be transmitted to each of the CMUs 1 to 4 via the CAN bus 7 by the CAN communication unit 6c. Or you may memorize | store the identification information of BMU6 previously in the memory | storage part 5b (FIG. 1) of each CMU1-4.

  Further, the control unit 6a of the BMU 6 sets the output from the signal output unit 6o (FIG. 1) to the signal line 8a to “Hi (High) level” (step S15, (3) of FIG. 4A). That is, the setting signal is output from the BMU 6 to the most upstream CMU 1 via the signal line 8a. Then, the control unit 6a checks whether or not the input from the signal line 8e to the signal input unit 6i (FIG. 1) is “Lo level” (step S16). That is, it is confirmed whether or not a setting signal is input from the most downstream CMU 4 to the BMU 6 via the signal line 8e.

  If the input from the signal line 8e to the signal input unit 6i is “Lo level” (step S16: YES), the control unit 6a of the BMU 6 determines that the setting signal is not input. Then, the control unit 6a waits for the CAN communication unit 6c to receive the management number (“1” in this case) transmitted immediately before (step S14) via the CAN bus 7 (step S17). .

  When each of the CMUs 1 to 4 receives a management number (other than 0) by the CAN communication unit 5c (FIG. 1) via the CAN bus 7 in a state where the management number is not set (step S22 in FIG. 3: YES), the signal line It is confirmed whether or not the input from 8a to 8d to the signal input unit 5i (FIG. 1) is “Hi level” (step S23). That is, it is confirmed whether or not a setting signal is input from the upstream CMU 1 to 3 or BMU 6 through the signal lines 8a to 8d.

  At this time, the inputs from the signal lines 8b to 8d to the signal input units 5i of the CMUs 2 to 4 are at the “Lo level” ((3) in FIG. 4A). That is, no setting signal is input from the adjacent CMUs 1 to 3 on the upstream side via the signal lines 8 b to 8 d. Therefore, the control units 5a of the CMUs 2 to 4 detect that the input from the signal lines 8b to 8d to the signal input unit 5i is not “Hi level” (step S23 in FIG. 3: NO), and again the CAN bus 7 And waits for the management number to be received by the CAN communication unit 5c (step S22).

  On the other hand, the input from the signal line 8a to the signal input unit 5i of the most upstream CMU 1 is “Hi level” ((3) in FIG. 4A). That is, the setting signal is input from the BMU 6 to the CMU 1 via the signal line 8a. Therefore, the control unit 5a of the CMU 1 detects that the input from the signal line 8a to the signal input unit 5i is “Hi level” in a state where the management number is not set (step S23 in FIG. 3: YES), It is determined that a setting signal has been input. Then, the control unit 5a of the CMU 1 sets the management number by storing the received management number in the storage unit 5b (step S24). As a result, the management number “1” is set in the CMU 1 ((4) in FIG. 4B).

  Then, the control unit 5a of the CMU 1 sends the set management number “1” to the CAN communication unit 5c via the CAN bus 7 as the specific information (first specific information) for notifying that the setting of the management number has been completed. To BMU 6 (step S25 in FIG. 3, (5) in FIG. 4B). The management number returned from the CMU 1 to the BMU 6 is information for notifying the BMU 6 of the completion of setting of the management number. The BMU 6 is designated as the transmission destination, and the management number for setting transmitted from the BMU 6 to the CMUs 1 to 4 Is different. For this reason, even if the other CMU 2-4 receives the management number returned from the CMU 1 to the BMU 6, the information on the management number is ignored by the other CMU 2-4.

  Further, the control unit 5a of the CMU 1 sets the output from the signal output unit 5o to the signal line 8b to “Hi level” (step S26, FIG. 4B (5)). That is, the setting signal is output to the adjacent CMU 2 on the downstream side of the CMU 1 via the signal line 8b. Then, the control unit 5a of the CMU 1 waits to receive the specific information “0” by the CAN communication unit 5c via the CAN bus 7 (step S27).

  While the BMU 6 repeatedly transmits the management number “1” to the CMUs 1 to 4, the management number “1” returned from the CMU 1 is received by the CAN communication unit 6c of the BMU 6 via the CAN bus 7 (step in FIG. 2). S17: YES). Then, since the control unit 6a of the BMU 6 has received the target management number “1” from the CMU 1, it is determined that the setting of the management number “1” for the CMU 1 has been completed. Then, the control unit 6a updates the management number from “1” to “2” (+1), and transmits it to each of the CMUs 1 to 4 via the CAN bus 7 by the CAN communication unit 6c (step S14). As a result, the management number “1” is not transmitted from the BMU 6 to each of the CMUs 1 to 4, but the next management number “2” is transmitted ((6) in FIG. 4B).

  Further, the control unit 6a of the BMU 6 maintains the “Hi level” output from the signal output unit 6o to the signal line 8a (step S15 in FIG. 2). Furthermore, if the input from the signal line 8e to the signal input unit 6i is “Lo level” (step S16: YES), the control unit 6a assigns the target management number (“2” in this case) to the CAN bus 7 It waits for reception by the CAN communication part 6c via (step S17).

  3 is executed by the control unit 5a of the CMU 2 as described above, the management number “2” is set in the CMU 2 (step S24 in FIG. 3, (7) in FIG. 4C). ). Also, the set management number “2” is returned to the BMU 6 via the CAN bus 7 (step S25 in FIG. 3), and the Hi level setting signal is sent from the signal output unit 5o of the CMU 2 to the CMU 3 via the signal line 8c. This is output (step S26 in FIG. 3, (8) in FIG. 4C). 2 is repeatedly executed by the control unit 6a of the BMU 6 as described above, the management number is updated from “2” to “3” and transmitted to each of the CMUs 1 to 4. (Step S14 in FIG. 2, (9) in FIG. 4C).

  Similarly, the management numbers “3” and “4” are set in the CMUs 3 and 4 respectively, and the management numbers are updated to “4” and “5” in the BMU 6 and transmitted to the CMUs 1 to 4 (FIG. 4D). -FIG. 4E).

  When the output from the signal output unit 5o of the most downstream CMU 4 to the signal line 8e becomes “Hi level” (step S26 in FIG. 3, (16) in FIG. 4F), the control unit 6a of the BMU 6 controls the signal line 8e. 2 is detected to be not at the “Lo level” (step S16 in FIG. 2: NO). That is, it is detected that the setting signal is input from the most downstream CMU 4 to the BMU 6 via the signal line 8e.

  Then, the control unit 6a of the BMU 6 determines that the setting of the management numbers for all the CMUs 1 to 4 has been completed, and notifies the completion of the setting. Therefore, specific information (second specific information) “ 0 "is transmitted to each CMU 1 to 4 by the CAN communication unit 6c via the CAN bus 7 (step S18 in FIG. 2, (17) in FIG. 4F). This specific information is not limited to “0” but may be other information. Further, the control unit 6a sets the output from the signal output unit 6o to the signal line 8a to “Lo level” (step S19, (17) in FIG. 4F). That is, the output of the setting signal from the BMU 6 to the CMU 1 is stopped.

  When the control unit 5a of each of the CMUs 1 to 4 receives the specific information “0” from the CAN communication unit 5c via the CAN bus 7 (step S27 in FIG. 3: YES), the setting of the management numbers for all the CMUs 1 to 4 is completed. Judge that Then, the control unit 5a of each CMU 1 to 4 sets the output from the signal output unit 5o to the signal lines 8b to 8e to “Lo level” (step S28, (18) in FIG. 4F). That is, the output of the setting signal from each CMU 1 to 4 to the adjacent CMU 2 to 4 or BMU 6 on the downstream side is stopped.

  When the input from the signal line 8 e to the signal input unit 6 i becomes “Lo level”, the control unit 6 a of the BMU 6 determines that all the CMUs 1 to 4 have recognized that the management numbers have been set for all the CMUs 1 to 4.

  According to the first embodiment, the BMU 6 and the plurality of CMUs 1 to 4 are connected by the CAN bus 7 and are connected in a ring shape by the signal lines 8a to 8e. First, the BMU 6 transmits the management number “1” to each of the CMUs 1 to 4 via the CAN bus 7 and outputs a Hi level setting signal to the most upstream CMU 1 via the signal line 8a. As a result, the most upstream CMU 1 in the management number unset state receives the setting signal and the management number “1”, and sets the management number “1”. Further, when the management number “1” is set, the CMU 1 returns the set management number “1” to the BMU 6 via the CAN bus 7 as specific information for notifying the completion of the setting, and the downstream adjacent CMU 2 A Hi level setting signal is output via the signal line 8b.

  When the BMU 6 receives the management number “1” returned from the most upstream CMU 1 via the CAN bus 7, the BMU 6 updates the management number to “2” and transmits it to each of the CMUs 1 to 4 via the CAN bus 7. As a result, the CMU 2 adjacent to the most upstream CMU 1 and whose management number is not yet set receives the setting signal from the CMU 1 and the management number “2” from the BMU 6, and sets the management number “2”. Set. When the management number “2” is set, the CMU 2 returns the management number “2” to the BMU 6 via the CAN bus 7 and sets the Hi level to the adjacent downstream CMU 3 via the signal line 8c. Output a signal. Thereafter, the management numbers “3” and “4” are set in the downstream CMUs 3 and 4 in the same procedure.

  Therefore, it is possible to easily set management numbers for a plurality of CMUs 1 to 4 with a simple system configuration.

  Further, since the set management number is returned to the BMU 6 as the specific information for notifying the completion of the setting from the CMUs 1 to 4 in which the management numbers are set, the management numbers for the target CMUs 1 to 4 have been successfully set in the BMU 6 I can confirm that. And since a management number is updated by BMU6, the setting which the management number with respect to several CMU1-4 overlaps can be prevented.

  Further, when the management number is set in the CMU 4 at the most downstream side, the setting signal is input from the CMU 4 to the BMU 6 via the signal line 8e, so that the setting of the management number for all the CMUs 1 to 4 is completed in the BMU 6. I can confirm that. Then, since the specific information “0” is transmitted from the BMU 6 to each of the CMUs 1 to 4 via the CAN bus 7, it is confirmed that the setting of the management numbers for all the CMUs 1 to 4 is completed in each of the CMUs 1 to 4. Can do. In addition, since the output of the setting signals via the signal lines 8a to 8e between the BMU 6 and the CMUs 1 and 4 and between the CMUs 1 to 4 is sequentially stopped, it is confirmed that each CMU 1 to 4 has recognized the completion of the setting of the management number. , BMU6.

  Next, the management number setting procedure of the second embodiment will be described with reference to FIGS. FIG. 5 shows an operation procedure of the BMU 6, and FIG. 6 shows an operation procedure of each CMU 1-4. In FIG. 6, the order of step S22 and step S23 and the order of step S25 and step S26 are interchanged with the case of FIG. 7A to 7E show the signal flow and the setting state of the management number.

  When the control unit 6a of the BMU 6 detects the numbering start trigger after performing the initial setting in steps S11 and S12 in FIG. 5 (step S13: YES), it outputs the output from the signal output unit 6o to the signal line 8a as “Hi. Level "(step S15, (1) in FIG. 7A). That is, a setting signal is output from the BMU 6 to the most upstream CMU 1 via the signal line 8a. Then, the control unit 6a updates (+1) the management number to “1”, and transmits the management number “1” to each CMU 1 to 4 through the CAN bus 7 (ie, only once). (Step S14a, (2) in FIG. 7A).

  When the input from the signal line 8e to the signal input unit 6i is “Lo level” (step S16: YES), the control unit 6a of the BMU 6 sets the target management number “1” via the CAN bus 7. It waits for reception by the CAN communication part 6c (step S17).

  The control unit 5a of each of the CMUs 1 to 4 confirms whether or not the input from the signal lines 8a to 8d to the signal input unit 6i is “Hi level” after performing the initial setting in step S21 of FIG. Step S23). First, only the control unit 5a of the most upstream CMU 1 in which the management number is not set detects that the input from the signal line 8a to the signal input unit 5i is “Hi level” (step in FIG. 6). S23: YES), it is determined that the setting signal has been input.

  When receiving the management number “1” from the CAN communication unit 5c via the CAN bus 7 (step S22: YES), the control unit 5a of the CMU 1 stores the management number “1” in the storage unit 5b (step S22). S24). As a result, the management number “1” is set in the CMU 1 ((3) in FIG. 7A).

  Further, the control unit 5a of the CMU 1 sets the output from the signal output unit 5o to the signal line 8b to “Hi level” (step S26 in FIG. 6). Then, the control unit 5a of the CMU 1 returns the set management number “1” as specific information for notifying the completion of the setting to the BMU 6 via the CAN bus 7 by the CAN communication unit 5c (Step S25, FIG. 7B). (4)). Then, the control unit 5a of the CMU 1 waits until the CAN communication unit 5c receives the specific information “0” via the CAN bus 7 (step S27 in FIG. 6).

  When the control unit 6a of the BMU 6 receives the target management number “1” by the CAN communication unit 6c via the CAN bus 7 (step S17 in FIG. 5: YES), the output from the signal output unit 6o to the signal line 8a is performed. “Hi level” is maintained (step S15). Then, the control unit 6a updates the management number to “2” (+1), and transmits the management number “2” to each of the CMUs 1 to 4 via the CAN bus 7 by the CAN communication unit 6c (step). S14a, (5) of FIG. 7B). Thereafter, the control unit 6a executes steps S16 and S17.

  By repeatedly executing steps S15, S14a, S16, and S17 in this order by the control unit 6a of the BMU 6, the management numbers are sequentially updated to “2”, “3”, “4”, and 4 is transmitted in one shot ((5) in FIG. 7B, (8) in FIG. 7C, (11) in FIG. 7D).

  Then, as described above, steps S23, S22, S24, S26, S25, and S27 of FIG. 6 are executed in this order by the control units 5a of the CMUs 2 to 4, thereby sequentially assigning the management numbers “2” to the CMUs 2 to 4. ”,“ 3 ”, and“ 4 ”are set (step S24 in FIG. 6, (6) in FIG. 7B, (9) in FIG. 7C, and (12) in FIG. 7D). Further, the Hi level setting signal is output from the signal output units 5o of the CMUs 2 to 4 to the adjacent CMUs 3 and 4 or BMU 6 on the downstream side via the signal lines 8c to 8e (step S26 in FIG. 6), and the management number is set. It is returned to the BMU 6 via the CAN bus 7 (step S25 in FIG. 6, (7) in FIG. 7C, (10) in FIG. 7D, (13) in FIG. 7E).

  When the output from the signal output unit 5o of the most downstream CMU 4 to the signal line 8e becomes "Hi level" (step S26 in FIG. 6, (13) in FIG. 7E), the control unit 6a of the BMU 6 transmits a signal from the signal line 8e. It is detected that the input to the input unit 6i is not “Lo level” (step S16 in FIG. 5: NO). Then, the control unit 6a transmits specific information “0” to each of the CMUs 1 to 4 through the CAN bus 7 by the CAN communication unit 6c in order to notify the completion of setting of the management numbers for all the CMUs 1 to 4 (step S1). S18a, (14) of FIG. 7E). Further, the control unit 6a sets the output from the signal output unit 6o to the signal line 8a to “Lo level” (step S19 in FIG. 5).

  When the control unit 5a of each CMU 1 to 4 receives the specific information “0” by the CAN communication unit 5c via the CAN bus 7 (step S27 in FIG. 6: YES), the signal output unit 5o to the signal lines 8b to 8e. Is set to “Lo level” (step S28, (15) in FIG. 7E).

  According to the second embodiment, the BMU 6 first inputs a setting signal to the CMU 1 via the signal line 8a, thereby putting the CMU 1 into a management number reception standby state. Therefore, the management number transmitted from the BMU 6 via the CAN bus 7 can be reliably received by the CMU 1 and stored in the storage unit 5b. Further, since the management number is transmitted from the BMU 6 in a single shot, the processing load on the BMU 6 can be reduced.

  Next, the management number setting procedure of the third embodiment will be described with reference to FIGS. FIG. 8 shows the operation procedure of the BMU 6, and FIG. 9 shows the operation procedure of each CMU 1-4. 10A to 10F show signal flows and management number setting states.

  When the control unit 6a of the BMU 6 detects the numbering start trigger after executing Steps S11 and S12 in FIG. 8 (Step S13: YES), the control number is updated to “1” (+1), and the management number “ 1 "is transmitted to each of the CMUs 1 to 4 through the CAN bus 7 (step S14a, (1) in FIG. 10A). Thereby, the control part 5a of each CMU1-4 receives management number "1" via the CAN bus 7 in the management number non-setting state after step S21 of FIG. 9 (step S22: YES). The management number is held in the internal memory (not shown) of the control unit 5a (step S22a, (2) in FIG. 10A). As another example, the management number may be held in an area different from the management number setting area in the storage unit 5b.

  When the output from the signal output unit 6o of the BMU 6 to the signal line 8a becomes “Hi level” (step S15 in FIG. 8, (3) in FIG. 10A), the input to the signal input unit 5i of the most upstream CMU 1 is performed. It becomes “Hi level” (step S23 in FIG. 9: YES). Then, the control unit 5a of the CMU 1 determines that the setting signal has been input, and stores the held management number “1” in the storage unit 5b (step S24). As a result, the management number “1” is set in the CMU 1 ((3) in FIG. 10A). The control unit 5a of the CMU 1 returns the set management number “1” to the BMU 6 via the CAN bus 7 (step S25 in FIG. 9, (4) in FIG. 10B).

  Then, the control unit 6a of the BMU 6 sets the target management number “1” while the input from the signal line 8e to the signal input unit 6i maintains “Lo level” (step S16 in FIG. 8: YES). Received by the CAN communication unit 6c (step S17: YES). Then, the control unit 6a updates (+1) the management number to “2”, and transmits the management number “2” to each CMU 1 to 4 through the CAN bus 7 (step S14a, FIG. 10B). (5)).

  Then, the control unit 5a of the CMU 1 receives the management number “2” via the CAN bus 7 and detects that the management number “2” has changed from the set management number “1” (FIG. 9). Step S25a: YES). Then, the control unit 5a of the CMU 1 sets the output from the signal output unit 5o to the signal line 8b to “Hi level” (step S26, (6) in FIG. 10B), and specifies the specific information “0” via the CAN bus 7. Is received (step S27).

  The control unit 5a of the other CMUs 2 to 4 receives the setting signal if the input from the signal lines 8b to 8d to the signal input unit 5i is not “Hi level” after step S22a (step S23: NO). Judge that there is no. When the management number is received again via the CAN bus 7 until the Hi level setting signal is input to the signal input unit 5i via the signal lines 8b to 8d (step S22: YES), the management number is retained. The management number is updated (step S22a, (5) in FIG. 10B, (8) in FIG. 10C, (11) in FIG. 10D).

  Thereafter, when the inputs from the signal lines 8b to 8d to the signal input unit 5i become “Hi level” (Step S23 in FIG. 9: YES, (6) in FIG. 10B, FIG. 10C) (9), (12) in FIG. 10D), the stored management number is stored in the storage unit 5b (step S24 in FIG. 9). As a result, the management numbers “2”, “3”, and “4” are set in the CMUs 2 to 4, respectively.

  Further, the control units 5a of the CMUs 2 to 4 sequentially return the set management numbers “2”, “3”, and “4” to the BMU 6 via the CAN bus 7 (step S25 in FIG. 9, ( 7), (10) in FIG. 10D, (13) in FIG. 10E). As a result, the control unit 6a of the BMU 6 receives the target management numbers “2”, “3”, and “4” via the CAN bus 7 (step S17 in FIG. 8: YES), and sets the management number to “3”. ”,“ 4 ”, and“ 5 ”(+1) and sequentially transmit to each CMU 1 to 4 (Step S14a, (8) in FIG. 10C, (11) in FIG. 10D, ( 14)).

  When the control units 5a of the CMUs 2 to 4 receive the management numbers “3”, “4”, and “5” via the CAN bus 7, and detect changes in the management numbers (step S25a in FIG. 9: YES), the output from the signal output unit 5o to the signal lines 8c to 8e is set to "Hi level" (step S26, (9) in FIG. 10C, (12) in FIG. 10D, (15) in FIG. 10E).

  Thereafter, the control unit 6a of the BMU 6 detects that the input to the signal input unit 6i is not “Lo level” (step S16: NO in FIG. 8), and the specific information “0” is sent to each of the CMUs 1 to 4 once. (Step S18a, (16) in FIG. 10F), and the output to the signal line 8a is set to “Lo level” (step S19 in FIG. 8). When the control unit 5a of each of the CMUs 1 to 4 receives the specific information “0” via the CAN bus 7 (step S27 in FIG. 9: YES), the outputs to the signal lines 8b to 8e are set to “Lo level”. (Step S28, (17) in FIG. 10F).

  According to the third embodiment, when each of the CMUs 1 to 4 returns the set management number to the BMU 6 via the CAN bus 7 and receives the management number updated by the BMU 6, the signal lines 8b to A setting signal is output via 8e. For this reason, after confirming that the setting of the management number for the CMU 1 to 4 is recognized by the BMU 6, the setting signal can be output to the adjacent CMU 2 to 4 or the BMU 6 on the downstream side. .

  Each of the CMUs 1 to 4 holds the management number when receiving the management number via the CAN bus 7 in a state where the management number is not set, and updates the held management number when receiving the management number again. To do. When the setting signal is input via the signal lines 8a to 8d, the management number held or updated is stored in the storage unit 5b. For this reason, even if the management number is transmitted from the BMU 6 in a single shot, the management number is held or updated by the CMU 1 to 4 until the setting signal is input, and is held or updated when the setting signal is input. The management number can be set reliably.

  The present invention can employ various embodiments other than those described above. For example, in the above embodiment, after the specific information “0” is transmitted from the BMU 6 to each of the CMUs 1 to 4 (step S18 in FIG. 2, step S18a in FIGS. 5 and 8), the output from the BMU 6 to the signal line 8a is output. Although the example of “Lo level” (step S19 in FIGS. 2, 5, and 8) is shown, the present invention is not limited to this. In addition to this, for example, after the input through the signal line 8e to the BMU 6 becomes “Hi level” (step S16: NO in FIGS. 2, 5, and 8), the signal line 8a is transmitted from the BMU 6 after a predetermined time has elapsed. The output may be “Lo level”.

  In this case, instead of step S27 in FIGS. 3, 6, and 9, when the input from the signal lines 8a to 8d becomes “Lo level” in each of the CMUs 1 to 4, the signal lines 8b to 8e. The output according to may be set to “Lo level”.

  In the above-described embodiment, an example is shown in which the BMU 6 receives a numbering start instruction from the host ECU 9 and is used as a numbering start trigger. However, the present invention is not limited to this. In addition to this, for example, an operation key may be provided in the BMU 6 and the numbering start trigger may be generated when the operation key is operated. Alternatively, a numbering start trigger may be generated when a predetermined time has elapsed since the power was turned on.

  In the above-described embodiment, the CMU 1 to 4 show an example in which the set management number is returned to the BMU 6 as the first specific information for notifying the completion of the setting of the management number. However, the present invention is not limited to this. In addition to this, for example, first specific information such as a number or a code indicating completion of setting a management number set in advance may be returned from the CMUs 1 to 4 to the BMU 6. Moreover, the said specific information may be the same in CMU1-4, and may differ for every CMU1-4.

  Moreover, although the example which provided four CMU1-4 was shown in the said embodiment, this invention is not limited to this, The number of installation of a terminal device is two, three, five or more Good.

  In the above embodiment, an example in which the CAN bus 7 is used to connect the BMU 6 and the CMUs 1 to 4 in parallel has been described. However, the present invention is not limited to this, and a bus other than the CAN bus 7 is used. May be.

  Furthermore, in the said embodiment, although the example which applied this invention to the management number setting system 100 which consists of BMU6 and CMU1-4 for assembled batteries mounted in an electric vehicle was given, it is used for uses other than this. The present invention can also be applied to a management number setting system including a management device and a plurality of terminal devices.

1, 2, 3, 4 CMU (terminal equipment)
5b Storage unit 5c CAN communication unit (second bus communication unit)
5i signal input unit (second signal input unit)
5o signal output unit (second signal output unit)
6 BMU (management device)
6c CAN communication unit (first bus communication unit)
6i signal input unit (first signal input unit)
6o Signal output unit (first signal output unit)
7 CAN bus 8a, signal line (first signal line)
8b, 8c, 8d, signal line (third signal line)
8e Signal line (second signal line)
100 Control number setting system

Claims (12)

A management device including a first signal output unit, a first signal input unit, and a first bus communication unit;
A plurality of terminal devices including a second signal output unit, a second signal input unit, a second bus communication unit, and a storage unit;
The management device and each terminal device are connected via a bus,
Among the plurality of terminal devices,
The second signal input unit of the terminal device at the most upstream is connected to the first signal output unit of the management device via a first signal line,
The second signal output unit of the terminal device located on the most downstream side is connected to the first signal input unit of the management device via a second signal line,
The second signal output unit and the second signal input unit of the adjacent terminal device are connected by a third signal line,
In the management number setting system in which the management device sets the management number of each terminal device for the plurality of terminal devices,
The management device transmits a management number from the first bus communication unit to each terminal device via the bus, and from the first signal output unit to the most upstream terminal device via the first signal line. Output a setting signal to set the control number,
Each terminal device has the management number not set in the storage unit, the setting signal is input to the second signal input unit via the first or third signal line, and When the 2-bus communication unit receives the management number, the management number is set by storing the management number in the storage unit, and first specific information for notifying the completion of the setting is sent to the management device via the bus. Replies and outputs the setting signal from the second signal output unit to the adjacent terminal device or the management device via the third or second signal line,
When the first bus communication unit receives the first specific information from the terminal device, the management device updates a management number, and the updated management number is transmitted to each terminal device via the bus. A management number setting system, characterized by: In the management number setting system according to claim 1,
When the setting signal is input to the first signal input unit, the management device transmits second identification information that is not a management number to each terminal device via the bus, and the first signal output unit Stop the output of the setting signal from
Each terminal device stores the management number in the storage unit, and then stops outputting the setting signal from the second signal output unit when the second specific information is received via the bus. A management number setting system characterized by that. In the management number setting system according to claim 1 or 2,
Each terminal device stores the received management number in the storage unit, returns the management number to the management device, and then receives the management number different from the previous one, the setting is made from the second signal output unit. A management number setting system characterized by outputting a signal. In the management number setting system according to any one of claims 1 to 3,
The management apparatus first outputs the setting signal from a first signal output unit, and then transmits a management number to each terminal apparatus via the bus in a single shot. In the management number setting system according to any one of claims 1 to 3,
When each terminal device receives a management number via the bus in a state where a management number is not set in the storage unit, the terminal device holds the management number. Thereafter, the setting signal is sent to the second signal input unit. When the management number is received again via the bus before being inputted, the held management number is updated, and when the setting signal is inputted to the second signal input unit, the held or updated management number is updated. Is stored in the storage unit. A device that is connected to a plurality of terminal devices via a bus and sets a management number of each terminal device for the plurality of terminal devices,
A signal output unit for outputting a setting signal for setting a management number to the terminal device;
A signal input unit to which a setting signal sent from the terminal device is input;
A bus communication unit that communicates with the terminal device via the bus,
The signal output unit is connected to a terminal device at the most upstream through a first signal line,
In the management device in which the signal input unit is connected to the terminal device located on the most downstream side by the second signal line,
A management number is transmitted from the bus communication unit to each terminal device via the bus, and the setting signal is output from the signal output unit to the most upstream terminal device via a first signal line. ,
The bus communication unit receives first specific information for notifying completion of the setting from the terminal device that has set the management number based on the reception of the management number and the input of the setting signal,
When the bus communication unit receives the first specific information from the terminal device, the management number is updated, and the updated management number is transmitted to the terminal devices via the bus. Management device characterized. The management device according to claim 6,
When the setting signal is input to the signal input unit from the most downstream terminal device via the second signal line, second identification information that is not a management number is transmitted to each terminal device via the bus. And the output of the setting signal from the signal output unit is stopped. In the management device according to claim 6 or 7,
First, the setting signal is output from the signal output unit, and then a management number is transmitted to each terminal device via the bus in a single shot. A plurality of terminal devices connected to a management device via a bus, each of which has a management number set by the management device;
Each terminal device
A signal output unit for outputting a setting signal for setting a management number;
A signal input unit to which the setting signal from the management device or an adjacent terminal device is input;
A bus communication unit that communicates with the management device via the bus;
A storage unit in which a management number is set,
The signal input unit of the terminal device at the most upstream is connected to the management device via a first signal line,
The signal output unit of the terminal device at the most downstream is connected to the management device via a second signal line,
The signal output unit and the signal input unit of the adjacent terminal device are connected by the third signal line,
After the setting signal is output by the management device via the first signal line and the management number is transmitted via the bus,
When the management number is not set in the storage unit, the setting signal is input to the signal input unit via the first or third signal line, and the bus communication unit is assigned a management number via the bus. Is set by storing the management number in the storage unit, the first specific information notifying the completion of the setting is returned to the management device via the bus, and adjacent The terminal device, wherein the setting signal is output from the signal output unit to the terminal device or the management device via the third or second signal line. The terminal device according to claim 9,
After storing the management number in the storage unit, when receiving the second specific information that is not the management number transmitted from the management device, stopping the output of the setting signal from the signal output unit, Characteristic terminal device. In the terminal device according to claim 9 or 10,
Storing the received management number in the storage unit, returning the management number to the management device, and then receiving the management number different from the previous one, outputting the setting signal from the signal output unit; Characteristic terminal device. The terminal device according to any one of claims 9 to 11,
When a management number is received through the bus in a state where a management number has not been set in the storage unit, the management number is retained, and thereafter, again until the setting signal is input to the signal input unit. When the management number is received via the bus, the held management number is updated, and when the setting signal is input to the signal input unit, the held or updated management number is stored in the storage unit. A terminal device characterized by that.

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