JP2013009559A - Outlet unit and information obtaining method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an outlet unit capable of obtaining associated information without requiring setting work of identification information of electrical apparatuses.SOLUTION: A outlet unit 100 for supplying the power to electrical apparatuses includes: a power consumption measuring section 110 that monitors the power consumption of the electrical apparatuses; a command receiving section 120 that receives a command signal representing at lest a piece of identification information of a target of the command; and a communication control section 130 that, when the power consumption is changed at a reception timing of the command signal, obtains the identification information represented by the command signal as the identification information of the electrical apparatus.

Description

  The present invention relates to an outlet device that supplies electric power to an electrical device and an information acquisition method in the outlet device.

  2. Description of the Related Art In recent years, attention has been focused on systems that support energy management of various electric devices (hereinafter, collectively referred to as “electric devices”) such as home appliances, housing facilities, and building facilities in homes and offices. In such a system (hereinafter referred to as “energy management system”), IT technologies such as HEMS (Home Energy Management System) and smart grid are being utilized. As a result, the energy management system can perform optimal operation and on / off control of the electrical equipment on behalf of the person. Furthermore, the energy management system can also display energy usage status in real time.

  In order to realize such an energy management system, a server device that manages the system obtains information indicating what kind of electrical equipment is connected to which power supply system (hereinafter referred to as “linking information”). Need to be held. The association information is information indicating which electrical device is connected to the outlet device in which room, for example.

  Thus, for example, Patent Document 1 describes a technique for attaching a communication adapter to which identification information is assigned to each electrical device. According to such conventional technology, the position of each electrical device on the communication network is identified from the correspondence between the identification information of each electrical device and the identification information of the communication adapter, and the position of the communication adapter on the communication network. Date information can be acquired.

JP 2008-172570 A

  However, the conventional technology has a problem that the identification information of the electric device corresponding to the identification information of the communication adapter must be manually set. When the number of electrical devices under the management of the energy management system is large and the change is frequent, manual setting is very troublesome. Therefore, for example, in the energy management system, a technique is desired that can acquire the association information between the identification information of the outlet device and the identification information of the electric device without performing a setting operation regarding the identification information of the electric device. .

  An object of the present invention is to provide an outlet device and an information acquisition method capable of acquiring association information without performing a setting operation related to identification information of an electric device.

  An outlet device of the present invention is an outlet device that supplies electric power to an electric device, and includes a power consumption measuring unit that monitors power consumption of the electric device, and a command that receives at least a command signal indicating identification information of a target of the command And a notification control unit that acquires the identification information indicated by the command signal as the identification information of the electrical device when the power consumption changes at the reception timing of the command signal.

  An information acquisition method according to the present invention is an information acquisition method in an outlet device that supplies electric power to an electric device, the step of monitoring the power consumption of the electric device, and an instruction signal indicating at least identification information of a target of the instruction And when the power consumption changes at the reception timing of the command signal, acquiring the identification information indicated by the command signal as the identification information of the electric device.

  According to the present invention, it is possible to acquire the association information without performing the setting work relating to the identification information of the electric device.

The block diagram which shows the structure of the outlet apparatus which concerns on Embodiment 1 of this invention. The block diagram which shows an example of a structure of the outlet apparatus which concerns on Embodiment 2 of this invention. The figure which shows an example of outlet UID in Embodiment 2 of this invention The flowchart which shows an example of operation | movement of the outlet apparatus which concerns on Embodiment 2 of this invention. The figure which shows an example of the content of the remote control signal in Embodiment 2 of this invention The figure which shows an example of the content of the tied information in Embodiment 2 of this invention The figure which shows an example of the flow of a process of the socket apparatus and electrical equipment in Embodiment 2 of this invention The figure for demonstrating an example of operation | movement of the server apparatus in Embodiment 2 of this invention. The figure which shows an example of the transition of the display screen in Embodiment 2 of this invention The block diagram which shows the structure of the outlet apparatus which concerns on Embodiment 3 of this invention. The flowchart which shows an example of operation | movement of the outlet apparatus which concerns on Embodiment 3 of this invention. The figure which shows an example of the flow of a process of the socket apparatus and electrical equipment in Embodiment 3 of this invention The figure which shows the example of the content of the tied information in Embodiment 3 of this invention The figure for demonstrating an example of operation | movement of the server apparatus in Embodiment 3 of this invention. The figure which shows an example of the transition of the display screen in Embodiment 3 of this invention The figure which shows the other example of the display screen after the transition in Embodiment 3 of this invention The block diagram which shows the structure of the outlet apparatus which concerns on Embodiment 4 of this invention. The figure which shows an example of the content of the setting table in Embodiment 4 of this invention The flowchart which shows an example of operation | movement of the outlet apparatus which concerns on Embodiment 4 of this invention. The figure which shows an example of the flow of a process of the socket apparatus and electrical equipment in Embodiment 4 of this invention

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

(Embodiment 1)
Embodiment 1 of the present invention is an example of a basic aspect of the present invention.

  FIG. 1 is a block diagram showing the configuration of the outlet device according to the present embodiment.

  In FIG. 1, the outlet device 100 is a device that supplies electric power to an electrical device, and includes a power consumption measuring unit 110, a command receiving unit 120, and a notification control unit 130.

  The power consumption measuring unit 110 monitors the power consumption of the electrical equipment to which the outlet device 100 supplies power.

  The command receiving unit 120 receives a command signal indicating at least identification information of a target of the command.

  When the power consumption changes at the reception timing of the command signal, the notification control unit 130 uses the identification information (identification information of the target of the command) indicated by the command signal as the identification information of the electrical device to which the outlet device 100 supplies power. get.

  The outlet device 100 includes, for example, a processor, a storage medium such as a RAM (random access memory), a communication circuit, and the like. In this case, each functional unit described above is realized by the processor executing the control program.

  Such an outlet device 100 is configured such that when the electrical device to which the outlet device 100 supplies power performs a response operation corresponding to the command signal, the identification information of the target of the command indicated by the command signal is the identification information of the electrical device. Can be obtained as In other words, the outlet device 100 can link the identification information of the outlet device 100 and the identification information of the electric device that is the power supply destination using a change in power consumption corresponding to the command signal as a trigger.

  Thereby, the outlet device 100 can acquire the association information between the identification information of the outlet device 100 and the identification information of the electric device that is the power supply destination without performing the setting operation regarding the identification information of the electric device. it can.

(Embodiment 2)
Embodiment 2 of the present invention is an example in which the present invention is applied to a HEMS outlet device.

  First, the configuration of the outlet device according to the present embodiment will be described.

  FIG. 2 is a block diagram showing an example of the configuration of the outlet device according to the present embodiment. In FIG. 2, for convenience of explanation, the configuration of the energy management system including peripheral devices is also illustrated.

  First, the configuration of the energy management system will be described.

  In FIG. 2, an energy management system 200 is a HEMS constructed in a certain house (not shown). The energy management system 200 includes a distribution board 300, an outlet device 100, a remote control device 400, an electric device 500, and a server device 600. The energy management system 200 includes a plurality of outlet devices 100 and a plurality of electrical devices 500, but here, the description will be limited to one each.

  The distribution board 300 distributes electric power from a system power supply (not shown) to each outlet device 100 connected to the distribution board 300.

  The outlet device 100 is connected to the distribution board 300 by the power line 310, and supplies the electric power from the distribution board 300 to the electric device 500 connected to the outlet device 100. In addition, the outlet device 100 acquires identification information of the electric device 500. Then, the outlet device 100 acquires linking information obtained by linking the identification information of the electrical device 500 and the identification information of the outlet device 100 and transmits the acquired linking information to the server device 600.

  In response to a user operation, remote control device 400 transmits a command signal indicating at least identification information of a target of the command. Remote control device 400 transmits a remote control signal (hereinafter referred to as a “power-on command”) having a command to turn on power as a command signal when the target of a command such as power-on is electrical device 500. The power-on command stores a command code that includes a command ID indicating power-on and a home appliance ID that is identification information of the electric device 500 (hereinafter, referred to as “home appliance ID of the electric device 500” as appropriate).

  In this embodiment, the remote control signal is a wireless signal such as an infrared signal or an RF signal. In addition, the remote control signal includes, for example, an instruction code in a home appliance association format (household cooperative format), and the instruction code includes the above-described instruction ID and home appliance ID.

  Note that in this embodiment, electric device 500 is a home appliance such as a television set. The electric device 500 is connected to the outlet device 100 via the plug 510, receives power supplied from the outlet device 100, and operates. The electric device 500 includes a command receiving unit 520 and a processing unit 530.

  When the received remote control signal is a remote control signal including the home appliance ID of electric device 500 as the target of the command, command receiving unit 520 outputs the command ID included in the remote control signal to processing unit 530.

  The processing unit 530 starts processing with power consumption when at least the command ID input from the processing unit 530 corresponds to a power-on command.

  Note that the home appliance ID of the electric device 500 is “custom code α”. The instruction ID corresponding to the power-on instruction is “function code γ”.

  The server device 600 is connected to the outlet device 100 via a network 610 such as a home local area network (LAN) and receives the association information acquired by the outlet device 100. Then, the server device 600 performs predetermined energy management processing such as optimal operation and on / off control of the electric device 500 and real-time display of energy usage based on the received association information. The network 610 may be a wired communication network or a wireless communication network.

  Next, the configuration of the outlet device 100 will be described.

  2, the outlet device 100 includes a power supply connection unit 140, a device connection unit 150, a server connection unit 160, a power consumption measurement unit 110, a command reception unit 120, a notification control unit 130, an ID storage unit 170, and a server notification unit 180. Have

  The power supply connection unit 140 is connected to the power supply by connecting to the distribution board 300 via the power line 310.

  The device connection unit 150 is connected to the electric device 500 by fitting with the plug 510, and supplies power from the power source connected to the power supply connection unit 140 to the electric device 500. Note that the outlet device 100 includes, for example, a plurality of device connection units 150, but only one will be described here.

  The server connection unit 160 connects to the server device 600 via the network 610 so as to be communicable by connecting to the network 610.

  The power consumption measurement unit 110 is disposed between the power supply connection unit 140 and the device connection unit 150 and monitors the power consumption of the electric device 500. Then, the power consumption measuring unit 110 sequentially outputs the monitoring results to the notification control unit 130. When the outlet device 100 includes a plurality of device connection units 150, the power consumption measurement unit 110 monitors power consumption for each device connection unit 150.

  Command receiving unit 120 receives the power-on command transmitted from remote control device 400. Then, the command receiving unit 120 outputs the command code included in the received power-on command to the notification control unit 130.

  When the command code is input, the notification control unit 130 determines whether or not the power consumption has changed at the reception timing of the power-on command based on the input power consumption monitoring result. Then, when the power consumption changes at the reception timing of the power-on command, the notification control unit 130 uses the home appliance ID included in the command code of the power-on command as identification information of the electrical device to which the outlet device 100 supplies power. get.

  In the present embodiment, immediately after the power-on command including the home appliance ID of the electrical device 500 and the command ID corresponding to the power-on command is received, the power consumption measuring unit 110 increases the power consumption of the electrical device 500. Will be detected. In this case, the notification control unit 130 acquires the home appliance ID included in the power-on command as the home appliance ID of the electrical device (here, the electrical device 500) connected to the outlet device 100. . Hereinafter, the home appliance ID of the electrical device that the outlet device 100 recognizes as being connected to the outlet device 100 is appropriately referred to as “the home appliance ID of the connected device”.

  The ID storage unit 170 stores in advance the outlet UID of the outlet apparatus 100 (hereinafter, appropriately referred to as “the outlet UID of the own apparatus”) among the outlet UIDs that are identification information assigned to each outlet apparatus.

  FIG. 3 is a diagram illustrating an example of the outlet UID (the outlet UID of the own apparatus) stored in the ID storage unit 170. As shown in FIG. 3, the outlet UID 710 of the device itself has a numerical value “128”, for example.

  The server notification unit 180 in FIG. 2 notifies the server device 600 of the identification information acquired by the notification control unit 130 in association with the identification information of the outlet device 100. Further, the server notification unit 180 notifies the server device 600 of the power consumption monitoring result by the power consumption measurement unit 110. Specifically, the server notification unit 180 sends the association information including the acquired home appliance ID and the held outlet UID and the power consumption data of the electric device 500 to the server device 600 via the server connection unit 160. Send.

  In the present embodiment, server notification unit 180 transmits linking information including home appliance ID of electric device 500 and outlet UID of its own device to server device 600.

  The outlet device 100 includes, for example, a processor, a storage medium such as a RAM, and a communication circuit. In this case, each functional unit described above is realized by the processor executing the control program.

  Such an outlet device 100 acquires the home appliance ID of the electrical device 500 included in the power-on command as the home appliance ID of the connected device when the power consumption of the electrical device 500 increases in response to the power-on command. Can do. That is, the outlet device 100 associates the association information between the outlet UID of its own device and the household appliance ID of the connected device of the electric device 500 based on the household appliance ID indicated by the power-on command and the variation in power consumption accompanying the response operation. Can be acquired. Thereby, the outlet device 100 can acquire the association information between the outlet UID of the own device and the home appliance ID of the connected device without performing a setting operation regarding the home appliance ID of the connected device.

  In addition, since the outlet device 100 transmits the obtained association information and the power consumption measurement result to the server device 600, the server device 600 can perform a predetermined energy management process.

  This is the end of the description of the configuration of the outlet device 100.

  Next, the operation of the outlet device 100 will be described.

  FIG. 4 is a flowchart illustrating an example of the operation of the outlet device 100.

  First, in step S1010, the command receiving unit 120 determines whether a power-on command has been received. Specifically, the notification control unit 130 extracts an instruction ID from the instruction code of the received remote control signal, and determines whether or not it indicates a power-on instruction. If the command receiving unit 120 has not received the power-on command (S1010: NO), the command receiving unit 120 proceeds to step S1020 described later. In addition, when the command receiving unit 120 receives a power-on command (S1010: YES), the command receiving unit 120 outputs the command code to the notification control unit 130, and proceeds to step S1030.

  FIG. 5 is a diagram showing an example of the contents of the remote control signal. FIG. 5 illustrates an example of a remote control signal transmitted in response to an operation of turning on the power of the electric device 500.

  As shown in FIG. 5, the remote control signal 720 includes at least an instruction code 721. The instruction code 721 includes at least a home appliance ID 722 and an instruction ID 723. The home appliance ID 722 is a home appliance ID of a target home appliance. In FIG. 5, the home appliance ID 722 is “custom code α” which is the home appliance ID of the electric device 500, and the command ID is “function code γ” which is a power-on command ID.

  In step S1020 of FIG. 4, notification control section 130 determines whether or not the timing for transmitting the power consumption measurement result (hereinafter referred to as “transmission timing”) has arrived. The transmission timing is, for example, a predetermined periodic timing such as every minute in a state where a home appliance ID described later is held. If the transmission timing has arrived (S1020: YES), the notification control unit 130 proceeds to step S1070. Moreover, the notification control part 130 progresses to step S1040, when the transmission timing has not come (S1020: NO).

  In step S1030, the notification control unit 130 holds the received power-on command code (home appliance ID).

  In step S1050, the notification control unit 130 determines whether or not the power consumption has increased within a predetermined time based on the power consumption measurement result. Here, the increase in power consumption refers to, for example, an increase from power consumption during standby of the electric device 500 to power consumption during operation of the electric device 500. For example, an increase in power consumption exceeding a set width is indicated. Say. Further, the predetermined time is longer than the time from when the electric device 500 receives the power-on command to the operation state, and is relatively short. If there is an increase in power consumption within a predetermined time (S1050: YES), the notification control unit 130 proceeds to step S1020. Moreover, the notification control part 130 progresses to below-mentioned step S1060, when there is no increase in power consumption within a predetermined time (S1050: NO).

  In step S1060, the notification control unit 130 discards (initializes) the held instruction code (home appliance ID), and proceeds to step S1020.

  That is, when the process proceeds to S1020, the notification control unit 130 is included in the power-on command when the power consumption increases within a predetermined time after the power-on command is received (S1050: YES). The home appliance ID is held. Or the notification control part 130 will be in the state holding the said household appliance ID, when the power-on command is not received, but the household appliance ID once hold | maintained is not discarded.

  Note that, when the outlet device 100 includes a plurality of device connection units 150, the notification control unit 130 determines the increase in power consumption for each device connection unit 150 and holds a command code (home appliance ID).

  In step S1070, the notification control unit 130 stores the stored home appliance ID (initialized home appliance ID indicating “no connection” when discarded in step S1060) and the power consumption measurement result that has not been transmitted to the server device 600. Output to the server notification unit 180. In response to this, the server notification unit 180 transmits, to the server device 600, the association information in which the input home appliance ID and the outlet UID of the own device are associated with each other, and the power consumption measurement result. Then, the notification control unit 130 proceeds to step S1040.

  In step S1040, the notification control unit 130 determines whether an end of processing has been instructed by a user operation or the like. If the end of the process is not instructed (S1040: NO), the notification control unit 130 returns to step S1010. Moreover, the notification control part 130 complete | finishes a series of processes, when the completion | finish of a process is instruct | indicated (S1040: YES).

  FIG. 6 is a diagram illustrating an example of the contents of the association information.

  As shown in FIG. 6, the association information 730 includes at least an outlet UID 731 and a home appliance ID 732. In the present embodiment, the outlet UID 731 is “128”, and the home appliance ID 732 is “custom code α”.

  When the outlet device 100 includes a plurality of device connection units 150, the server notification unit 180 generates and transmits the association information 730 for each device connection unit 150.

  Through such an operation, the outlet device 100 acquires the home appliance ID of the electric device 500, and, together with the measurement result of the power consumption, the linking information including the home appliance ID of the electric device 500 and the outlet UID of the own device is used as the server device. 600 can be transmitted.

  This is the end of the description of the operation of the outlet device 100.

  Next, the overall operation of the outlet device 100 and the electric device 500 will be described.

  FIG. 7 is a diagram illustrating an example of a processing flow of the outlet device 100 and the electric device 500. Here, it is assumed that the electric device 500 is in a “standby state” in which the processing unit 530 is not operating and the command receiving unit 520 is operating in the initial state.

  First, remote control device 400 transmits a power-on command by a user's operation of a power-on button. Then, the command receiving unit 120 of the outlet device 100 and the command receiving unit 520 of the electric device 500 each receive this power-on command (S2010, S2110). The notification control unit 130 of the outlet device 100 holds the command code of the power-on command (S2020).

  On the other hand, the command receiving unit 520 of the electric device 500 determines whether or not the electric device 500 corresponds to the target of the received power-on command (S2120). That is, the command receiving unit 520 determines whether or not the home appliance ID included in the received power-on command is the home appliance ID of the electric device 500. When the electric device 500 corresponds to the target of the power-on command (S2120: YES), the command receiving unit 520 shifts the processing unit 530 of the electric device 500 from the standby state to the operating state (S2130). As a result, the above-described increase in power consumption occurs. In addition, when the electric device 500 does not correspond to the target of the power-on command (S2120: NO), the command receiving unit 520 ignores the power-on command (S2140). As a result, power consumption does not increase.

  Therefore, the notification control unit 130 of the outlet device 100 determines whether or not there is an increase in power consumption (S2030), and when there is an increase in power consumption (S2030: YES), the home appliance ID is held as it is. As a result, the server notification unit 180 of the outlet device 100 notifies the server device 600 of the association information (see FIG. 6) (S2040). Further, when there is no increase in power consumption (S2030: NO), the notification control unit 130 discards, that is, initializes the instruction code including the held home appliance ID (S2050). As a result, the server notification unit 180 does not notify the association information.

  As described above, the outlet device 100 acquires the association information between the outlet UID of the own device and the home appliance ID of the electric device 500 using the operation of the electric device 500 by the remote control signal, and transmits the information to the server device 600. Can do.

  Above, description about the whole operation | movement of the outlet apparatus 100 and the electric equipment 500 is finished.

  Next, the operation of the server device 600 will be described.

  FIG. 8 is a diagram for explaining an example of the operation of the server apparatus 600.

  The server apparatus 600 is assumed to store an outlet database (DB) 620 and a home appliance management database (DB) 630 in advance.

  The outlet database 620 is a database that describes the outlet name and outlet UID of each outlet device 100 in association with each other. The outlet name includes, for example, the name of a house room in which the energy management system 200 is built.

  The home appliance management database 630 is a database that manages, for each outlet name, home appliance information (such as manufacturer name and home appliance type) of the electric device 500 connected to the outlet device 100 indicated by the outlet name.

  For example, when receiving the association information shown in FIG. 6 (S4010), the server device 600 extracts the outlet UID “128” from the association information. Then, the server device 600 searches the outlet DB 620 for the extracted outlet UID, and acquires the corresponding outlet name (S4020).

  Here, as shown in FIG. 8, in the outlet DB 620, the outlet name “bedroom: C” and the outlet UID “128” are associated with each other. In this case, the server apparatus 600 acquires an outlet name “bedroom: C”.

  Further, the server device 600 extracts the home appliance ID “custom code α” from the association information, and extracts the vendor name and device type as home appliance information from the home appliance ID (S4030). The server device 600 stores, for example, a code table that uniquely describes a home appliance ID, a vendor name, and a device type in association with each other, and extracts a vendor name and a device type based on the code table. Here, it is assumed that a vendor name “Company P” and a device type “TV” are extracted.

  Then, the server device 600 registers the set of the acquired outlet name and the extracted home appliance information in the home appliance management DB 630 (S4040).

  Here, as shown in FIG. 8, the home appliance information “P company TV” is registered in the home appliance management DB 630 in association with the outlet name “bedroom: C”.

  And the server apparatus 600 produces | generates the display screen which displays the list of the power consumption of each electric equipment 500 for every room based on the state of the newest household appliance management DB630, for example, and shows it to a user. When a new home appliance ID is acquired by any of the outlet devices 100, the home appliance management DB 630 is updated, and the contents of the display screen are also updated.

  FIG. 9 is a diagram illustrating an example of display screen transition in the server apparatus 600.

  As illustrated in FIG. 9, the display screen 740 includes a room name 741 “Bedroom”, home appliance information 742 of the electric device 500 connected to the outlet device 100 of “Bedroom”, a power consumption measurement result 743, and a power-off operation button. 744 is displayed. The display screen 740 is, for example, a liquid crystal touch panel.

  Assume that the display screen 740-1 in the initial state displays only “air conditioner” and “light” information as shown in FIG. 9.

  In this state, the display screen 740-2 after the operation described in FIG. 8 is performed is in a state in which information of “P company TV” is further added, as shown in FIG.

  As described above, the energy management system 200 can present the information in which each room name and the information related to the electric device 500 are associated with each other without performing the setting work regarding the identification information of the electric device 500. Thereby, the user can easily confirm the power consumption of the newly connected electric device 500.

  Note that the server device 600 stops power supply to the corresponding electric device 500 when the power-off operation button 744 is operated. For stopping power supply to the electric device 500, for example, the server device 600 and the distribution board 300 are linked, and the distribution board 300 and each outlet device 100 are connected to each outlet device 100 by one power line 310. This is possible.

  This is the end of the description of the operation of the server device 600.

  As described above, the electrical outlet device 100 according to the present embodiment connects the household appliance ID of the electrical device 500 included in the power-on command when the electrical device 500 has increased power consumption in response to the power-on command. It can be acquired as the home appliance ID of the device. Thereby, the outlet device 100 can acquire the association information between the outlet UID of the own device and the home appliance ID of the connected device without performing a setting operation regarding the home appliance ID of the connected device.

  In addition, since the outlet device 100 transmits the obtained association information and the power consumption measurement result to the server device 600, the server device 600 can perform a predetermined energy management process. For example, the outlet device 100 can automate identification of home appliances connected to the outlet device 100 in each room.

  Moreover, in the energy management system 200 in which such an outlet device 100 is arranged, the server device 600 can update the home appliance management database based on the association information, and perform screen display based on this. Thereby, the energy management system 200 can support energy management without imposing a burden of setting work regarding the home appliance ID such as manual input of the home appliance type by an information terminal or the like.

  It should be noted that the server notification unit 180 of the outlet device 100 does not provide the association information every time it is detected for the first time (at the time of initial energization), not every time when the power-on command detects that the power consumption has increased. Alternatively, it may be transmitted to the server device 600. In this case, for example, the server notification unit 180 may manage a flag indicating whether or not the association information has been transmitted for each home appliance ID.

  In addition, when the notification control unit 130 of the outlet device 100 detects that the power consumption is zero at the timing of the power-on command, the server device 600 indicates that the corresponding electric device 500 has been removed from the outlet device 100. May be notified.

(Embodiment 3)
The third embodiment of the present invention is an example in consideration of a case where the power consumption of an electrical device other than the target of the power-on command can be increased, such as interlocking between a plurality of electrical devices.

  FIG. 10 is a block diagram showing a configuration of the outlet device according to the present embodiment, and corresponds to FIG. 2 of the second embodiment. The same parts as those in FIG. 2 are denoted by the same reference numerals, and description thereof will be omitted.

  As shown in FIG. 10, energy management system 200a in the present embodiment includes first and second outlet devices 100a-1 and 100a-2. And the 1st electrical equipment 500a-1 which is a television is connected to the 1st outlet apparatus 100a-1. In addition, a second electrical device 500a-2, which is a DVD player, is connected to the second outlet device 100a-2.

  Since the first and second outlet devices 100a-1 and 100a-2 have the same configuration, illustration and description of the detailed configuration of the second outlet device 100a-2 are omitted. Hereinafter, the first and second outlet devices 100a-1 and 100a-2 will be collectively described as “outlet device 100a” as appropriate.

  However, an outlet UID different from the outlet UID of the first outlet device 100a-1 is assigned to the second outlet device 100a-1. Here, the outlet UID of the first outlet device 100a-1 (hereinafter referred to as “first outlet UID” as appropriate) is “128”. The outlet UID of the second outlet device 100a-2 (hereinafter referred to as “second outlet UID” as appropriate) is “129”.

  In addition, it is assumed that the first and second electric devices 500a-1 and 500a-2 have the same configuration for convenience of explanation. Note that illustration and description of the detailed configuration of the second electric device 500a-2 are omitted.

  However, the home appliance ID different from the home appliance ID of the first electrical device 500a-1 is assigned to the second electrical device 500a-2. Here, the home appliance ID of the first electric device 500a-1 (hereinafter, referred to as “first home appliance ID” as appropriate) is “custom code α”. The home appliance ID of the second electric device 500a-2 (hereinafter, referred to as “second home appliance ID” as appropriate) is “custom code β”.

  The remote control device 400 is a device for the first electric device 500a-1. Therefore, when a power-on command is transmitted from remote control device 400, first electric device 500a-1 that is a television receives the power-on command. However, the second electric device 500a-2 which is a DVD player does not accept the power-on command. Here, accepting the command means that the command receiving unit 520a outputs the command ID included in the received power-on command to the processing unit 530.

  The first electric device 500a-1 and the second electric device 500a-2 are connected to each other by a cable 540a, and bidirectional communication is possible. Then, the second electric device 500a-2 that is a DVD player is linked to the operation state (when the first electric device 500a-1 that is a television is in an operation state by communication via the cable 540a). (Power-on state).

  Therefore, in the present embodiment, in the second electric device 500a-2, the power consumption may increase even though the home appliance ID of the instruction code included in the power-on instruction is not that of the own device. is there.

  Therefore, outlet device 100a according to the present embodiment has a notification control unit 130a different from that of the second embodiment.

  The notification control unit 130a performs the same processing as the notification control unit 130 of the second embodiment. However, basically, the association information transmitted once to the server apparatus 600a is not transmitted to the server apparatus 600a. The notification control unit 130a receives a request for resending the association information from the server device 600a via the server connection unit 160. In this case, the notification control unit 130a retransmits the association information to the server device 600a when an increase in power consumption corresponding to reception of the power-on command occurs thereafter.

  In addition, server device 600a in the embodiment receives association information including the same home appliance ID from a plurality of electric devices 500a (here, first electric device 500a-1 and second electric device 500a-2). To do. At this time, the server apparatus 600a transmits the above-described retransmission request to those electric devices 500a.

  That is, the energy management system 200a improves the accuracy of the linking information by continuing the transmission of the linking information when the linking information acquired between the plurality of outlet devices 100a overlaps.

  FIG. 11 is a flowchart showing an example of the operation of the outlet device 100a, and corresponds to FIG. 4 of the second embodiment. The same parts as those in FIG. 4 are denoted by the same step numbers, and description thereof will be omitted.

  In the present embodiment, when the transmission timing has not arrived (S1020: NO), notification control unit 130a proceeds to step S1061a. Moreover, the notification control part 130a progresses to step S1062a, when transmission timing comes (S1020: YES).

  In step S1062a, the notification control unit 130a determines whether or not the retained home appliance ID has been transmitted to the server device 600a. If the home appliance ID has not been transmitted (S1062a: NO), the notification control unit 130a proceeds to step S1070. Moreover, the notification control part 130a progresses to step S1063a, when household appliance ID has been transmitted (S1062a: YES).

  In step S1063a, the notification control unit 130a determines whether there is a retransmission request record. This recording will be described later. If there is a resending request record (S1063a: YES), the notification control unit 130a proceeds to step S1064a. Further, when there is no retransmission request recording (S1063a: NO), the notification control unit 130a proceeds to step S1071a.

  In step S1064a, the notification control unit 130a discards the record of the retransmission request and proceeds to step S1070.

  In step S1071a, the notification control unit 130a outputs the power consumption measurement result that has not been transmitted to the server device 600 to the server notification unit 180. In response to this, the server notification unit 180 transmits the outlet UID of its own device and the power consumption measurement result to the server device 600. Then, the notification control unit 130a proceeds to step S1061a.

  In step S1061a, the notification control unit 130a determines whether a retransmission request is received from the server device 600a. If the notification control unit 130a has not received a retransmission request (1061a: NO), the notification control unit 130a proceeds to step S1040. If the notification control unit 130a receives a retransmission request (1061a: YES), the notification control unit 130a proceeds to step S1073a.

  In step S1073a, the notification control unit 130a internally records that a retransmission request has been received from the server device 600a. Recording of whether or not a retransmission request has been received is a determination target in step S1063a described above.

  By such an operation, the outlet device 100a does not perform duplicate transmission of the association information when there is no retransmission request, and retransmits the association information when there is a retransmission request.

  FIG. 12 is a diagram illustrating an example of a processing flow of the first and second outlet devices 100a-1 and 100a-2 and the first and second electric devices 500a-1 and 500a-2. This corresponds to FIG. The same parts as those in FIG. 7 are denoted by the same reference numerals, and description thereof will be omitted.

  The command receiving unit 520a of the first electric device 500a-1 that is a television, when the first electric device 500a-1 corresponds to the target of the power-on command (S2120: YES) It is determined whether there is an electrical device (S2121a). Then, the command receiving unit 520a of the first electric device 500a-1 instructs the corresponding electric device to turn on the interlocking power supply via the cable 540a when the corresponding electric device exists (S2121a: YES). This is performed (S2122a). Here, an instruction to turn on the interlocking power supply is given to the second electric device 500a-2.

  On the other hand, if the second electric device 500a-2 does not correspond to the target of the received power-on command, the command receiving unit 520a of the second electric device 500a-2 that is a DVD player proceeds to step S2123a. move on. Then, the command receiving unit 520a determines whether or not an instruction to turn on the interlocking power has been received from another electrical device (S2123a). Here, it is determined whether or not an instruction to turn on the interlocking power source has been received from first electrical apparatus 500a-1. When the command receiving unit 520a of the second electric device 500a-2 receives an instruction to turn on the interlocking power (S2123a: YES), the command receiving unit 520a shifts from the standby state to the operating state (S2130).

  That is, the second electric device 500a-2 ignores the power-on command that is not addressed to itself, but shifts to the operating state in conjunction with the first electric device 500a-1. In this case, the server device 600a receives the home appliance ID “custom code α” of the first electric device 500a-1 from each of the first and second outlet devices 100a-1 and 100a-2. That is, as shown in FIG. 13, the server device 600a includes first association information 730-1 including “128” and “custom code α”, and “129” and “custom code α”. 2 linking information 730-2 is received.

  FIG. 14 is a diagram for explaining an example of the operation of server device 600a, and corresponds to FIG. 8 of the second embodiment. The same parts as those in FIG. 8 are denoted by the same reference numerals and the same step numbers, and description thereof will be omitted.

  Upon receiving the first and second association information 730-1 and 730-2 (see FIG. 13), the server device 600a searches the outlet DB 620 for the outlet UIDs “128” and “129”. Then, as shown in FIG. 14, the server apparatus 600a acquires the outlet names “bedroom: C” and “bedroom: D” (S4020a). As a result, the server device 600a registers the home appliance information “P company TV” in the home appliance management DB 630 in association with both the outlet name “bedroom: C” and the outlet name “bedroom: D”. Become.

  When such overlapping registration is made, the server device 600a transmits a request for retransmission of the association information to both the first and second outlet devices 100a-1 and 100a-2 (S4050a).

  For example, it is assumed that the second electric device 500a-2 is in an operating state by a power-on operation of the remote control device of the second electric device 500a-2. In this case, the second outlet device 100a-2 transmits the association information including the outlet UID “129” and the home appliance ID “custom code β”. Therefore, as shown in FIG. 14, the server apparatus 600a corrects the home appliance information corresponding to the outlet name “bedroom: D” in the home appliance management database 630a from “P company TV” to “P company DVD player”, for example. (S4060a).

  FIG. 15 is a diagram illustrating an example of display screen transition in the server device 600a, and corresponds to FIG. 9 of the second embodiment. The same parts as those in FIG. 9 are denoted by the same reference numerals, and description thereof will be omitted.

  In the operation described with reference to FIG. 14, the display screen 740 a-2 before the association information for the retransmission request is received is “60 W” corresponding to “P company TV” as shown in FIG. 15. Two power consumption measurement results 743 “32 W” are displayed.

  Then, the display screen 740a-3 after the association information is received in response to the retransmission request is referred to as "P company DVD player" in association with the power consumption measurement result 743 of "32W" as shown in FIG. The home appliance information 742 is displayed. The display screen 740a-3 displays a power-off operation button 744 for each of "P company TV" and "P company DVD player". As shown in FIG. 16, the display screen 740a-3 after receiving the retransmission request displays “P company television” and “P company DVD player” together with a common power-off operation button 744. Also good. In addition, the display screen 740a-3 after receiving the retransmission request displays the operation buttons 744 separately as shown in FIG. 15 when “P company TV” and “P company DVD player” are not linked. May be.

  As described above, when there is no retransmission request from the server device 600a, the outlet device 100a according to the third embodiment does not perform redundant transmission of the association information, and when there is a retransmission request from the server device 600a, Information can be retransmitted. Thereby, this embodiment can reduce the power consumption accompanying communication in the outlet apparatus 100a, the apparatus which relays a radio command, etc.

(Embodiment 4)
Embodiment 4 of the present invention is an example in which the outlet device switches on / off of power supply to an electric device and receives a power-on command on behalf of the power supply when no power is supplied.

  FIG. 17 is a block diagram showing a configuration of the outlet device according to the present embodiment, and corresponds to FIG. 2 of the second embodiment. The same parts as those in FIG. 2 are denoted by the same reference numerals, and description thereof will be omitted.

  As shown in FIG. 17, the energy management system 200b in the present embodiment includes an outlet device 100b and a server device 600b that are different from those in the second embodiment.

  For example, the server apparatus 600b uses, as a trigger, an operation of the power-off operation button 744 (see FIG. 9) on the display screen 740, and a signal indicating a power-off command to the connected device (hereinafter referred to as a “power-off command”). It transmits to the outlet device 100b. As another trigger, there may be a case where the electric device 500 is found in another outlet device 100b and the electric device 500 is excluded from the search target.

  As shown in FIG. 17, the outlet device 100b includes a power supply off receiving unit 185b, a power supply opening / closing unit 190b, and a command transmission unit 195b in addition to the configuration of FIG. In addition, it has a command receiving unit 120b and a notification control unit 130b different from those in the second embodiment.

  The power consumption measurement unit 110, the notification control unit 130b, the server notification unit 180, the command transmission unit 195b, and the power supply off reception unit 185b are connected to a power line downstream from a power supply opening / closing unit 190b described later. It shall be operated by feeding.

  The power supply off receiving unit 185b receives the power supply off command sent from the server device 600b and notifies the power supply opening / closing unit 190b to that effect.

  In addition to the processing similar to the command receiving unit 120 of FIG. 2, the command receiving unit 120b performs a process of notifying the power supply opening / closing unit 190b when receiving a power-on command.

  The power supply opening / closing unit 190b stops power supply to the electric device 500 when a power supply off command is received, that is, when a notification is received from the power supply off reception unit 185b. That is, the power supply opening / closing unit 190b cuts off the connection between the power supply connection unit 140 and the device connection unit 150 when a power supply off command is received.

  In addition, when a power-on command is received, that is, when a notification is received from the command receiving unit 120b, the power supply opening / closing unit 190b cancels the stop of power supply to the electric device 500. That is, the power supply opening / closing unit 190b connects between the power supply connection unit 140 and the device connection unit 150 when a power-on command is received.

  The command transmission unit 195b transmits a remote control signal (power-on command) including a command code included in the power-on command received by the command receiving unit 120 after the start of power supply to itself. The transmission timing and the instruction code are controlled by the notification control unit 130b at the subsequent stage that is activated after the start of power supply to itself.

  The notification control unit 130b is activated when the power supply opening / closing unit 190b connects between the power supply connection unit 140 and the device connection unit 150 and receives power supply. Then, the notification control unit 130b first determines whether or not the increase in power consumption of the electric device 500 exceeds the first increase in electric power amount within the first measurement time. The first amount of increased electric power is, for example, the maximum value of standby power of a general electric device. Then, after the start of power supply to the notification control unit 130b, the power consumption applied to the electric device 500 is increased by 0.1 W in the standby power stored in the setting table shown in FIG. It is determined whether the measurement time exceeds 1 second. When the determination condition is satisfied, the notification control unit 130b acquires an instruction code from the instruction receiving unit 120b and transfers the instruction code to the instruction transmitting unit 195b. Then, the notification control unit 130b causes the command receiving unit 520 of the electric device 500 to transmit a remote control signal (power-on command) including the command code.

  Furthermore, immediately after the command transmission unit 195b transmits the power-on command, the notification control unit 130b determines that the power consumption of the electrical device 500 increases within the second measurement time, and the power consumption of the electrical device 500 increases by the second time. It is determined whether or not the amount of rising electric power has been exceeded. The second power increase amount is, for example, a value obtained by subtracting the maximum value of standby power from the minimum value of operating power of a general electric device. When there is such power consumption, the notification control unit 130b acquires the home appliance ID included in the power-on command as identification information of the electric device 500.

  The notification control unit 130b stores in advance the first measurement time and the first power increase amount as a standby power level determination criterion. Then, the notification control unit 130b stores in advance a setting table in which the second measurement time and the second power increase amount are described as criteria for determining the operating power level.

  FIG. 18 is a diagram illustrating an example of the contents of the setting table.

  As illustrated in FIG. 18, the setting table 750 describes “1 second” and “0.1 W” as the standby power level measurement time 751 and the increased power amount 752, respectively. The setting table 750 describes “2 seconds” and “10 W” as the measurement time 751 of the operating power level and the increased power amount 752, respectively.

  Such an outlet device 100b can stop power supply to the electric device 500 in accordance with an instruction from the server device 600b, and reduce power consumption due to the standby power. In addition, the outlet device 100b can act as a proxy for receiving a power-on command for the electric device 500 while power supply is turned off.

  When receiving the power-on command, the outlet device 100b can cancel the power supply stop and supply standby power, and then transmit the remote control device having the same content. Then, when an increase in power consumption occurs immediately after transmission from the remote control device, the outlet device 100b acquires the home appliance ID included in the received power-on command as the home appliance ID of the electric device 500.

  Thereby, especially when there are a plurality of electrical devices, the electrical outlet device 100b can stop power feeding again for an electrical device that is not the electrical device 500, thereby reducing standby power.

  In addition, the outlet device 100b can prevent device units such as the power consumption measuring unit 110 from operating when not required, and can reduce the power consumption of the outlet device 100b itself.

  FIG. 19 is a flowchart showing an example of the operation of the outlet device 100b, and corresponds to FIG. 4 of the second embodiment. The same parts as those in FIG. 4 are denoted by the same step numbers, and description thereof will be omitted.

  In step S1030b of the present embodiment, the instruction code (home appliance ID) of the power-on instruction is held by the instruction receiving unit 120b.

  In step S1031b, the power supply opening / closing unit 190b turns on the power supply. Thereby, the power consumption measurement unit 110, the notification control unit 130b, the server notification unit 180, the command transmission unit 195b, and the power supply off reception unit 185b start operation. Then, the electric device 500 shifts to a standby state and is in a state where it can receive a power-on command.

  In step S1032b, the notification control unit 130b determines whether the power consumption has reached the standby power level. That is, the notification control unit 130b determines whether or not the increase in power consumption of the electric device 500 exceeds the first increase in electric power amount within the first measurement time. When the power consumption reaches the standby power level (S1032b: YES), the notification control unit 130b proceeds to step S1033b. If the power consumption is not at the standby power level (S1032b: NO), the notification control unit 130b proceeds to step S1060.

  In step S1033b, the notification control unit 130b transmits the received power-on command from the command transmission unit 195b.

  In step S1050b, the notification control unit 130b determines whether the power consumption has reached the operating power level. That is, the notification control unit 130b determines whether or not the increase in power consumption of the electric device 500 exceeds the second power increase amount within the second measurement time. When the power consumption reaches the operating power level (S1050b: YES), the notification control unit 130b proceeds to step S1020. In addition, when the power consumption is not at the operating power level (S1050b: NO), the notification control unit 130b proceeds to step S1060.

  In step S1071b, the power supply off receiving unit 185b determines whether a power supply off command is received from the server device 600b. When the power supply off receiving unit 185b has not received the power supply off command (S1071b: NO), the process proceeds to step S1040. In addition, when the power-off receiving unit 185b receives a power-off instruction (S1071b: YES), the process proceeds to step S1072b.

  In step S1072b, the power supply opening / closing unit 190b discards (initializes) the command code (home appliance ID) held by the command receiving unit 120b, turns off the power supply, and proceeds to step S1040. Thereby, the power consumption measurement unit 110, the notification control unit 130b, the server notification unit 180, the command transmission unit 195b, and the power supply off reception unit 185b stop operating. Then, the electric device 500 shifts to a non-powered state and becomes unable to receive a power-on command.

  Note that the outlet device 100b may repeat only the processes of steps S1020, S1070, S1071b, S1072b, and S1040 while the power supply is turned on. In step S1070, outlet device 100b may not transmit the association information after the second time, and may perform a retransmission process in response to the retransmission request as in the third embodiment.

  FIG. 20 is a diagram illustrating an example of a processing flow of the outlet device 100b and the electric device 500, and corresponds to FIG. 7 of the second embodiment. The same parts as those in FIG. 7 are denoted by the same reference numerals, and description thereof will be omitted.

  When receiving the power-on command (S2010), the outlet device 100b cancels the power supply stop (S2011b). As a result, the electric device 500 is activated and enters a standby state (S2101b), and an increase in power consumption at the standby power level occurs. It should be noted that the increase in power consumption does not occur when electrical device 500 is not connected to outlet device 100b.

  When an increase in power consumption at the standby power level occurs (S2021b: YES), the outlet device 100b transmits a power-on command (S2022b). As a result, the outlet device 100b shifts to an operating state, and an increase in power consumption at the operating power level occurs.

  When an increase in power consumption at the operating power level occurs (S2030b: YES), the outlet device 100b notifies the server device 600b of the association information. On the other hand, when the power consumption increase at the standby power level does not occur (S2021b: NO), the outlet device 100b initializes the held association information (home appliance ID) (S2050) and stops power supply (S2051b). Moreover, when the power consumption increase of the operating power level does not occur (S2030b: NO), the outlet device 100b initializes the held association information (home appliance ID) (S2050), and stops power feeding (S2051b).

  As described above, the outlet device 100b according to the present embodiment stops power supply to each part of the device itself and the electric device 500 when unnecessary, and waits for a power-on command on behalf of the electric device 500. When receiving the power-on command, the outlet device 100b cancels the power supply stop, and transmits a power-on command when there is an increase in power consumption at the standby power level. On the other hand, when there is no increase in power consumption at the standby power level, and when there is no increase in power consumption at the operating power level even though the power-on command is transmitted, the outlet device 100b stops power feeding. This is because the electric device 500 targeted by the received power-on command is not connected.

  Thereby, the outlet device 100b can achieve power saving and safety improvement while enabling the association information to be acquired without performing the setting operation regarding the identification information of the electric device.

  Note that the notification control unit 130b may instruct the power supply opening and closing unit 190b to stop power supply when the power consumption is continuously 0 W for a preset time.

  In addition, the notification control unit 130b may receive the control command from the server device 600b and control the electrical device 500 via the command transmission unit 195b. In this case, the notification control unit 130b needs to be communicably connected to the server device 600b via the server connection unit 160.

  In addition, when the instruction code is input, the notification control unit 130b may transmit the home appliance ID to the server device 600b or the like and acquire a corresponding setting table (see FIG. 18).

  Also, the outlet device 100b is similarly connected when the power consumption decreases immediately after the power-off command or when the predetermined power consumption change occurs immediately after the command signal causing the predetermined power consumption change. The attached information may be acquired.

  Each functional unit of the outlet device according to each embodiment described above may be configured by an integrated circuit, for example. Each functional unit of the outlet device may be individually made into one chip, or a plurality of parts may be made into one chip. The integrated circuit can be a large scale integration (LSI), an integrated circuit (IC), a system LSI, a super LSI, an ultra LSI, or the like depending on the degree of integration. The integrated circuit may be realized by a dedicated circuit or a general-purpose processor. Further, the integrated circuit may be a field programmable gate array (FPGA) that can be programmed after its manufacture, or a configurable processor that can reconfigure internal circuit cell connections and settings. Furthermore, each functional unit of the outlet device may be realized by being integrated by another integrated circuit technology (for example, biotechnology) replacing LSI in accordance with the progress of semiconductor technology or other derived technology. Good.

  Further, the present invention is not limited to the form of the outlet device, but can be applied to various types of plug-in connectors for wiring such as taps and adapters.

  INDUSTRIAL APPLICABILITY The outlet device and the information acquisition method according to the present invention are useful as an outlet device and an information acquisition method that can acquire association information without performing setting work related to identification information of electrical equipment.

100, 100a, 100b Outlet device 110 Power consumption measuring unit 120, 120b, 520, 520a Command receiving unit 130, 130a, 130b Notification control unit 140 Power supply connection unit 150 Device connection unit 160 Server connection unit 170 ID storage unit 180 Server notification unit 185b Power supply off receiving unit 190b Power supply opening / closing unit 195b Command transmission unit 200, 200a, 200b Energy management system 300 Distribution board 310 Power line 400 Remote control device 500, 500a Electric equipment 510 Plug 530 Processing unit 600, 600a, 600b Server device 610 Network

Claims (10)

An outlet device for supplying electric power to an electric device,
A power consumption measuring unit for monitoring the power consumption of the electrical device;
A command receiving unit for receiving a command signal indicating at least identification information of a target of the command;
A notification control unit that acquires the identification information indicated by the command signal as the identification information of the electrical device when the power consumption changes at the reception timing of the command signal;
Outlet device. A server notification unit that associates the acquired identification information with the identification information of the outlet device, and notifies the server device;
The outlet device according to claim 1. The server notification unit
Notifying the server notification unit of the power consumption monitoring result;
The outlet device according to claim 2. The command signal indicates the content of the command,
The notification control unit
When the command signal indicating a power-on command is received and the power consumption increases immediately after the reception, the identification information indicated by the command signal is acquired as the identification information of the electrical device.
The outlet device according to claim 3. When the command signal indicating a command to turn on the power is received, a power supply opening / closing unit that cancels the stop of power supply to the electrical device,
A command transmission unit that transmits the received command signal immediately after the cancellation of the stop of the power supply,
The notification control unit
When the power consumption changes immediately after the command signal is transmitted by the command transmitter, the identification information indicated by the command signal is acquired as the identification information of the electric device, and power supply to the electric device is started. Immediately after being performed, the command transmission unit is caused to transmit the received command signal.
The outlet device according to claim 4. A power-off receiving unit that receives an instruction to stop power supply to the electrical device;
The power supply opening / closing part is
When the power supply stop command is received, the power supply to the electrical device is stopped;
The outlet device according to claim 5. The notification control unit
Receiving a retransmission instruction of the identification information designating the identification information;
The server notification unit
At least when a command to retransmit the identification information is received and the command signal indicating the identification information specified by the command is received again, the server associates the identification information with the identification information of the outlet device. Notify the device again,
The outlet device according to claim 6. A power connection to connect to the power source;
A plurality of device connection units, each connected to the electrical device, and each supplying power from the power source connected to the power supply connection unit to the electrical device;
The power consumption measurement unit monitors the power consumption for each device connection unit.
The outlet device according to claim 1. The server device is a device that displays power consumption of a plurality of the electric devices connected to the plurality of outlet devices in association with identification information of the electric devices.
The outlet device according to claim 1. An information acquisition method in an outlet device for supplying electric power to an electric device,
Monitoring power consumption of the electrical equipment;
Receiving at least a command signal indicating identification information of a target of the command;
Obtaining the identification information indicated by the command signal as the identification information of the electric device when the power consumption changes at the reception timing of the command signal,
Information acquisition method.

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