JP2023003310A - Power control system, information processing module, and information processing method - Google Patents

Abstract

To provide a power control system and the like capable of safely changing or deleting information stored in a storage unit.SOLUTION: A power control system 10 is a power control system that performs at least either one of the conversion of the power supplied from distributed power sources and the distribution of power supplied from a grid power supply 70. The power control system 10 includes: a storage unit 46 that stores specific information relevant to at least one of the distributed power supply, consumers using the power control system 10, and a contracting party of the consumer of the electricity; an acquisition unit 45a that acquires a piece of credential information; and a control unit 45b that is configured to change or delete the specific information stored in the storage unit 46 when the authentication based on the acquired credential information is successful.SELECTED DRAWING: Figure 1

Description

The present invention relates to a power control system, an information processing module, and an information processing method.

Various techniques have been proposed for services necessary for life, such as power supply services. Patent Literature 1 discloses a housing condition confirmation system capable of recording and tabulating the amount of power usage, gas usage, water usage, and the like.

JP 2013-20574 A

The present invention provides a power control system and the like that can safely change or delete information stored in a storage unit.

A power control system according to an aspect of the present invention is a power control system that performs at least one of conversion of power supplied from a distributed power supply and distribution of power supplied from a system power supply, wherein the distributed power supply , a storage unit that stores unique information related to at least one of a consumer using the power control system and a contracting party for power of the consumer, an acquisition unit that acquires credential information, and an acquired and a control unit that changes or deletes the unique information stored in the storage unit when authentication based on the credential information is successful.

An information processing module according to an aspect of the present invention is an information processing module installed in a first device that converts power supplied from a distributed power supply or a second device that distributes power supplied from a system power supply. A memory that stores unique information related to at least one of a consumer using the distributed power source, the first device or the second device, and a contract partner for power of the consumer. an acquisition unit that acquires credential information; and a control unit that changes or deletes the unique information stored in the storage unit when authentication based on the acquired credential information is successful.

An information processing method according to an aspect of the present invention is an information processing method executed by a power control system that performs at least one of conversion of power supplied from a distributed power supply and distribution of power supplied from a system power supply. obtaining credential information, and modifying or deleting unique information stored in a storage unit included in the power control system when authentication based on the obtained credential information is successful, The specific information is information related to at least one of the distributed power source, the consumer who uses the power control system, and the contract partner for the electric power of the consumer.

A program according to an aspect of the present invention is a program for causing a computer to execute the information processing method.

A power control system or the like according to an aspect of the present invention can safely change or delete information stored in a storage unit.

FIG. 1 is a block diagram showing the functional configuration of the power control system according to the embodiment. FIG. 2 is a diagram showing an example of a third party ownership model. FIG. 3 is a sequence diagram of operation example 1 of the power control system according to the embodiment. FIG. 4 is a sequence diagram of Operation Example 2 of the power control system according to the embodiment.

Hereinafter, embodiments will be specifically described with reference to the drawings. It should be noted that the embodiments described below are all comprehensive or specific examples. Numerical values, shapes, materials, components, arrangement positions and connection forms of components, steps, order of steps, and the like shown in the following embodiments are examples and are not intended to limit the present invention. Further, among the constituent elements in the following embodiments, constituent elements not described in independent claims will be described as optional constituent elements.

Each figure is a schematic diagram and is not necessarily strictly illustrated. Moreover, in each figure, the same code|symbol is attached|subjected with respect to substantially the same structure, and the overlapping description may be abbreviate|omitted or simplified.

(Embodiment)
[Constitution]
First, the configuration of the power control system according to the embodiment will be described. FIG. 1 is a block diagram showing the functional configuration of the power control system according to the embodiment.

A power control system 10 shown in FIG. 1 is installed in a house 90 and controls power. The residence 90 is, for example, a detached house, but may also be a collective housing. Note that the power control system 10 may be installed in a facility other than the residence 90, such as an office building or a factory.

As shown in FIG. 1 , power control system 10 includes distribution board 20 and power conditioner 40 . 1 also shows a device group 30, a solar cell module 31, a storage battery system 32, an EV (Electric Vehicle) charging/discharging device 33, an EV 34, a mobile terminal 50, a server device 60, and a system power supply 70. It is A distribution board 20 , a device group 30 , a solar cell module 31 , a storage battery system 32 , an EV charging/discharging device 33 , an EV 34 , and a power conditioner 40 are installed within the premises of a house 90 . Mobile terminal 50 may be positioned inside house 90 or may be positioned outside house 90 .

The distribution board 20 distributes AC power supplied from the system power supply 70 to a plurality of branch circuits. The distribution board 20 is an example of a second device. A device group 30, a power conditioner 40, or the like is connected to the plurality of branch circuits. The equipment group 30 includes lighting equipment, air conditioning equipment, and the like.

The solar cell module 31 is an example of a distributed power source, and is a power generation device that converts sunlight into electrical energy. Solar cell module 31 outputs the generated power to power conditioner 40 . The solar cell module 31 is specifically implemented by a PV (Photovoltaic) panel or the like.

The storage battery system 32 is an example of a distributed power source, and stores power generated by the solar cell modules 31 . That is, the storage battery system 32 is charged with power generated by the solar cell module 31 . Also, the storage battery system 32 discharges the stored power to the power conditioner 40 .

The EV charging/discharging device 33 is a device that charges a storage battery of the EV 34 using electric power provided from the distribution board 20 via the power conditioner 40 . The EV charging/discharging device 33 can also discharge the storage battery of the EV 34 , and can output power obtained by discharging to the power conditioner 40 . In other words, the EV charging/discharging device 33 and the EV 34 also function as distributed power sources.

The power conditioner 40 is a power conversion device that converts power obtained from distributed power sources (the solar cell module 31, the storage battery system 32, the EV charging/discharging device 33, and the EV 34) into power for use in the house 90. is. Power conditioner 40 is an example of a first device. The power conditioner 40 can be rephrased as a PCS (Power Conditioning System). The power conditioner 40 includes a power control device 41 and an information processing module 42 .

The power control device 41 controls power generated by the solar cell module 31, power obtained by discharging the storage battery system 32, and power output by the EV charging/discharging device 33 (power obtained by discharging the storage battery of the EV 34). ) into electric power for use in the house 90 . The power control device 41 also has a function of measuring the amount of power associated with distributed power sources. Specifically, the amount of electric power related to the distributed power supply includes the amount of power generated by the solar cell module 31, the amount of charge of the storage battery system 32, the amount of discharge of the storage battery system 32, the amount of charge of the EV charging/discharging device 33, and the amount of charging of the EV. It is the amount of discharge of the battery charge/discharge device 33 and the like.

Also, the power control device 41 may have a so-called MPPT (Maximum Power Point Tracking) function, a grid interconnection protection function, an autonomous operation function, and the like. The power control device 41 is realized by a processor, a memory, a power conversion circuit (such as an inverter circuit), a measurement circuit, and the like.

The information processing module 42 is a module (device) mounted on the power conditioner 40 and gives the power conditioner 40 a function of managing unique information. As will be described later, the unique information is information related to at least one of the distributed power source, the consumer who uses the power control system 10, and the contract partner for the power of the consumer. The information processing module 42 includes an operation reception section 43 , a display section 44 , an information processing section 45 , a storage section 46 , a first communication section 47 and a second communication section 48 .

The operation reception unit 43 is operated by a user such as a resident of the house 90 or a worker dispatched to the house 90 by a company or the like that manages and maintains the power conditioner 40 (hereinafter simply referred to as a user). accept. The operation reception unit 43 is realized by hardware keys (buttons), for example, but may be realized by a touch panel.

The display unit 44 displays images. The display unit 44 is implemented by a display panel such as a liquid crystal panel or an organic EL (Electro-Luminescence) panel.

The information processing section 45 performs information processing regarding deletion and modification of the unique information. The information processing section 45 is realized by, for example, a microcomputer, but may be realized by a processor or a dedicated circuit. The information processing section 45 has an acquisition section 45a, a control section 45b, and a detection section 45c as functional components. The functions of the acquisition unit 45a, the control unit 45b, and the detection unit 45c are realized, for example, by executing a computer program stored in the storage unit 46 by a microcomputer or the like that constitutes the information processing unit 45. FIG. Details of functions of the acquisition unit 45a, the control unit 45b, and the detection unit 45c will be described later.

The storage unit 46 is a storage device that stores the computer program executed by the information processing unit 45 and the unique information. The storage unit 46 is implemented by, for example, a semiconductor memory.

The first communication unit 47 is a communication circuit (communication module) for the power conditioner 40 (information processing module 42) to communicate with an external device such as the mobile terminal 50 through a local communication network. Specifically, the first communication unit 47 is a wireless communication circuit that performs wireless communication, but may be a wired communication circuit that performs wired communication. A communication standard for communication performed by the first communication unit 47 is exemplified by BLE (Bluetooth (registered trademark) Low Energy), but is not particularly limited.

The second communication unit 48 is a communication circuit (communication module) for the power conditioner 40 (information processing module 42) to communicate with an external device such as the server device 60 through the wide area communication network 100 such as the Internet. The second communication unit 48 is specifically a wireless communication circuit that performs wireless communication, but may be a wired communication circuit that performs wired communication. A communication standard for communication performed by the second communication unit 48 is not particularly limited.

The mobile terminal 50 is a mobile terminal such as a smart phone or a tablet terminal owned by a user. The mobile terminal 50 is used as a user interface for inputting credential information, which will be described later. The mobile terminal 50 includes an operation accepting portion 51 and a display portion 52 .

The operation accepting unit 51 accepts a user's operation. The operation reception unit 51 is realized by, for example, a touch panel.

The display unit 52 displays images. The display unit 52 is implemented by a display panel such as a liquid crystal panel or an organic EL panel.

Next, the server device 60 will be described. The server device 60 is a server device 60 used by a new power company (PPS: Power Producer and Supplier), and is a computer (cloud server) located outside the house 90 . The server device 60 receives the power amount information indicating the power amount related to the distributed power sources measured by the power conditioner 40 (hereinafter also simply referred to as the power amount information related to the distributed power sources), and received Manage power consumption information. Further, the server device 60 may perform information processing related to remote control for controlling the device group 30 inside the house 90 by the resident operating the mobile terminal 50 from outside the house 90 .

[Third-party ownership model]
By the way, a third-party ownership model called PPA (Power Purchase Agreement)/TPO (Third-Party Ownership) is known as a form of power contract for a consumer such as a resident of the house 90 . FIG. 2 is a diagram showing an example of a third party ownership model.

In FIG. 2 , PV means the solar cell module 31 and SB (Storage Battery) means the storage battery system 32 .

In the model shown in FIG. 2, consumers receive distributed power sources such as solar cell modules 31 and storage battery systems 32 from a new electric power company (lease), and use the electric power obtained from these distributed power sources as new power sources. Supply to electric power companies. Although not shown, the consumer may receive the EV charging/discharging device 33 from the new electric power company and supply the electric power obtained from the EV charging/discharging device 33 and the EV 34 to the new electric power company.

The new power company obtains compensation by supplying the supplied power to the power company (IPP: Independent Power Producer). In other words, the distributed power supply is installed in the consumer's house 90, but the power obtained from the distributed power supply is regarded as belonging to the new electric power company, and the new electric power company sells it to the electric power company. will receive compensation from On the other hand, consumers conclude a contract to use relatively inexpensive electricity with the new electric power company and pay electricity charges to the new electric power company.

To implement such a model, in the power control system 10 , the power conditioner 40 provides the server device 60 with the amount of power related to the distributed power sources measured by the power control device 41 . In communication between the power conditioner 40 and the server device 60 when providing electric energy, the power conditioner 40 appropriately transmits the unique information stored in the storage unit 46 to the server device 60 .

The unique information is information unique to the customer, etc., which is necessary for reporting (notifying) the new electric power company (server device 60) of the power amount related to the distributed power supply based on the third-party ownership model. . Specifically, the unique information includes consumer's personal information (contractor's name and address, etc.), consumer's power usage history information, power generation point identification number (information indicating the installation location of the solar cell module 31), distribution information indicating the capacity of the model power supply, connection information for connecting to the server device 60 (secret key for authentication with the server device 60, etc.), and the like. When these unique information are broadly classified, the customer's personal information and the customer's power usage history information are information related to the customer, and the power generation point identification number and information indicating the capacity of the distributed power supply are It can be said that the connection information for connecting to the server apparatus 60, which is information about the distributed power supply, is information about the new electric power company (contract partner for the electric power of the consumer). The information indicating the capacity of the distributed power supply specifically includes information indicating the power generation capacity of the solar cell module 31, information indicating the capacity of the storage battery installed in the storage battery system 32, and information indicating the capacity of the storage battery installed in the EV 34. It is information indicating the capacity of the storage battery in use. Note that the unique information does not need to include all of these pieces of information, and may include at least some of them.

Here, a case can be considered in which the contract content or the like is changed while the distributed power source (hardware) is maintained in the power control system 10 . For example, the house 90 including the power conditioner 40 may be sold, and the customer (the resident of the house 90) may change. Of these, it is necessary to change the personal information of the consumer.

In addition, as a result of the passage of time and the ownership of the distributed power source being transferred to the customer, there may be a case where the new power company is changed. connection information needs to be changed. In a case where the consumer moves (moves) to another house together with the distributed power source and the power conditioner 40, it is necessary to change the power generation point identification number among the unique information. In a case where the distributed power source is changed due to replacement due to failure of the distributed power source, replacement of the EV 34, etc., it is necessary to change the information indicating the capability of the distributed power source among the unique information.

[Operation example 1]
The unique information stored in the storage unit 46 of the power conditioner 40 in this way may be requested to be changed (or deleted). An operation example 1 of the power control system 10 when unique information is changed (or deleted) will be described below. FIG. 3 is a sequence diagram of an operation example 1 of the power control system 10. FIG.

A user such as a resident of the house 90 or a worker dispatched to the house 90 from a company that manages and maintains the power conditioner 40 may contact the new electric power company in advance by telephone or by accessing a website. Request for certification. As a result, the user is notified of the credential information by e-mail or SMS (Short Message Service) from the server device 60 or another system. Credential information is, in other words, account information, and is information necessary to change or delete unique information. Credential information includes, for example, ID information and password information.

On the other hand, the server device 60 of the new electric power company accepts a request for authentication from the user (S11), and transmits authentication information to the power conditioner 40 (S12). The authentication information is information to be collated with the credential information, and is information paired with the credential information.

The second communication unit 48 of the power conditioner 40 receives the authentication information. The acquisition unit 45a acquires the received authentication information and stores the acquired authentication information in the storage unit 46 (S13). Note that the authentication information has an expiration date, and the control unit 45b invalidates the authentication information when a predetermined time has passed since the acquisition unit 45a acquired the authentication information. The predetermined period is, for example, 24 hours, but may be determined empirically or experimentally as appropriate.

After that, the user performs an input operation of the credential information to the operation reception unit 43 of the power conditioner 40, and the operation reception unit 43 receives the input operation (S14). The acquisition unit 45a acquires the credential information input to the power conditioner 40 by the input operation (S15).

The control unit 45b performs authentication based on the credential information acquired in step S15 (S16). Specifically, the control unit 45b collates the authentication information stored in the storage unit 46 in step S13 with the credential information acquired in step S15. Judge that the authentication was successful. When the control unit 45b determines that the authentication has succeeded, it displays a screen for changing the unique information on the display unit 44 (S17).

When the control unit 45b determines that the authentication has failed, the control unit 45b displays on the display unit 44 a screen for notifying the user that the authentication has failed. If it is determined that authentication has failed, for example, correct credential information has not been entered. As described above, the authentication information has an expiration date, and if a predetermined period of time has passed since the authentication information was acquired, it is determined that the authentication has failed even if correct credential information has been entered. be.

While the screen for changing the unique information is displayed, the user performs an operation to instruct the operation accepting unit 43 to change (or delete) the unique information, and the operation accepting unit 43 accepts the operation. Accept (S18). The control unit 45b changes (or deletes) the unique information stored in the storage unit 46 based on the accepted operation (S19).

Note that the control unit 45b may store the hash value in the storage unit 46 in step S18. Accordingly, when the unique information is read from the storage unit 46 and used, the detection unit 45c can detect falsification of the unique information based on the hash value. Note that an existing method other than the hash value may be used to detect falsification of unique information.

As described above, the power control system 10 deletes or changes the unique information stored in the storage unit 46 when the authentication based on the acquired credential information is successful. According to such a power control system 10, unique information related to at least one of the distributed power source, the consumer using the power control system 10, and the new power company (contract partner for power of the consumer) Can be safely modified or deleted.

[Operation example 2]
In the operation example 1 described above, the operation receiving unit 43 included in the power conditioner 40 is used as a user interface for the user to input credential information. In operation example 2, an example in which the mobile terminal 50 is used as a user interface will be described. FIG. 4 is a sequence diagram of Operation Example 2 of the power control system 10 . An application program for operating the mobile terminal 50 as a user interface of the power control system 10 is installed in the mobile terminal 50 .

As in Operation Example 1, the user requests authentication from the new electric power company in advance by telephone, access to a website, or the like. As a result, the user is notified of the credential information by e-mail or SMS from the server device 60 or another system.

On the other hand, the server device 60 of the new electric power company accepts a request for authentication from the user (S21), and transmits authentication information to the power conditioner 40 (S22).

The second communication unit 48 of the power conditioner 40 receives the authentication information. The acquisition unit 45a acquires the received authentication information and stores the acquired authentication information in the storage unit 46 (S23). Note that the authentication information has an expiration date, and the control unit 45b invalidates the authentication information when a predetermined time has passed since the acquisition unit 45a acquired the authentication information. The predetermined period is, for example, 24 hours, but may be determined empirically or experimentally as appropriate.

After that, the user performs an input operation of credential information to the operation reception unit 51 of the portable terminal 50, and the operation reception unit 51 receives the input operation (S24). Based on the accepted input operation, the mobile terminal 50 transmits an authentication request including the input credential information to the power conditioner 40 (S25).

The first communication unit 47 of the power conditioner 40 receives the authentication request. The acquisition unit 45a acquires the credential information included in the received authentication request (S26).

The control unit 45b performs authentication based on the credential information acquired in step S26 (S27). Specifically, the control unit 45b collates the authentication information stored in the storage unit 46 in step S23 with the credential information acquired in step S26. Judge that the authentication was successful. When determining that the authentication has succeeded, the control unit 45b transmits an authentication success notification for notifying the user that the authentication has failed to the mobile terminal 50 (S28). More specifically, the authentication success notification is transmitted to the mobile terminal 50 by the second communication unit 48 .

When the control unit 45b determines that the authentication has failed, the control unit 45b transmits an authentication failure notification to the mobile terminal 50 for notifying the user that the authentication has failed. A case in which it is determined that authentication has failed is, for example, a case in which correct credential information has not been obtained. As described above, the authentication information has an expiration date, and if a predetermined period of time has passed since the authentication information was acquired, it is determined that the authentication has failed even if the correct credential information is acquired. be.

Upon receiving the authentication success notification, the mobile terminal 50 displays a screen for changing the unique information on the display unit 52 (S29). When the mobile terminal 50 receives the authentication failure notification, the mobile terminal 50 displays a screen for notifying the user that the authentication has failed on the display unit 52 .

While the screen for changing the unique information is displayed, the user performs an operation to instruct the operation accepting unit 51 to change (or delete) the unique information, and the operation accepting unit 51 accepts the operation. Accept (S30). The mobile terminal 50 transmits a unique information change request (or deletion request) to the power conditioner 40 (S31). The change request includes information indicating the content of the change (in the case of a deletion request, information indicating the content of deletion).

The first communication unit 47 of the power conditioner 40 receives the change request (or deletion request). The control unit 45b changes (or deletes) the unique information stored in the storage unit 46 based on information indicating the content of change included in the received change request (information indicating the content of deletion in the case of a deletion request) ( S32).

Note that the control unit 45b may store the hash value in the storage unit 46 in step S32. Accordingly, when the unique information is read from the storage unit 46 and used, the detection unit 45c can detect falsification of the unique information based on the hash value. Note that an existing method other than the hash value may be used to detect falsification of unique information.

As described above, in Operation Example 2, the power control system 10 can acquire the credential information received by the first communication unit 47 from the mobile terminal 50 .

In addition, in the operation example 2, the portable terminal 50 and the power conditioner 40 communicate directly via the local communication network, but they may communicate via another server device. In this case, the power control system 10 can acquire credential information received by the second communication unit 48 from another server device.

Note that when the mobile terminal 50 is used as a user interface as in Operation Example 2, it is not essential that the information processing module 42 includes the operation reception unit 43 and the display unit 44 .

[Modification]
In the above embodiment, the authentication information is provided with an expiration date, and the authentication information is invalidated after a predetermined period of time has elapsed. However, the authentication information may be invalidated when the total number of changes or deletions of the fixed information reaches a predetermined number. In other words, the control unit 45b may invalidate the authentication information on the condition that the authentication based on the received authentication information has succeeded a predetermined number of times. Further, the authentication information may be invalidated when the number of input errors in the authentication information reaches a predetermined number. That is, the control unit 45b may invalidate the authentication information on the condition that the authentication based on the received authentication information has failed a predetermined number of times.

Further, in the above-described embodiment, the server device 60 provides the power conditioner 40 with the authentication information. It may be stored in advance. The user in this case is a worker dispatched to the residence 90 by a company or the like that manages and maintains the power conditioner 40, and the worker is notified in advance of the credential information to be input.

Further, in the above-described embodiment, the provision of credential information and the management of power amount information related to distributed power sources are both performed by the server device 60, but different server devices may perform the same. good. For example, management of power amount information indicating the power amount related to distributed power sources measured by the power conditioner 40 is performed by the server device 60 used by the new power company, and credential information is provided by the power conditioner 40 may be performed by a server device used by a business operator different from the new electric power company, such as a business operator that provides

Moreover, in the above embodiment, the power conditioner 40 includes the information processing module 42 , but instead of the power conditioner 40 , the distribution board 20 may include the information processing module 42 . In other words, the information processing module 42 may be mounted on the distribution board 20 , and the unique information may be managed by the distribution board 20 instead of the power conditioner 40 .

[Effects, etc.]
As described above, the power control system 10 is a power control system that performs at least one of conversion of power supplied from distributed power sources and distribution of power supplied from the system power supply 70 . The power control system 10 includes a storage unit 46 that stores unique information related to at least one of the distributed power sources, the consumer using the power control system 10, and the contract partner for the power of the consumer, and credential information. and a control unit 45b that changes or deletes the unique information stored in the storage unit 46 when the authentication based on the acquired credential information is successful.

Such a power control system 10 can safely change or delete the unique information.

Further, for example, a detection unit 45c that detects falsification of unique information stored in the storage unit 46 is further provided.

Such a power control system 10 can detect falsification of unique information.

In addition, for example, the power control system 10 further includes an operation accepting unit 43 that accepts user's operations. The acquiring unit 45a acquires credential information input to the power control system 10 by an operation accepted by the operation accepting unit 43 from the user.

Such a power control system 10 can acquire credential information input to the power control system 10 by a user's operation.

Also, for example, the power control system 10 further includes a communication unit (eg, first communication unit 47) that receives credential information from an external device (eg, mobile terminal 50). The acquisition unit 45a acquires the credential information received by the communication unit.

Such a power control system 10 can obtain credential information from an external device.

Further, for example, in authentication, the power control system 10 includes a communication unit (for example, the second communication unit 48) that receives authentication information to be compared with the acquired credential information from an external device (for example, the server device 60). Prepare more. The acquisition unit 45a acquires authentication information received by the communication unit. The control unit 45b invalidates the information for authentication on the condition that a predetermined time has passed since the information for authentication was acquired by the acquisition unit 45a.

Such a power control system 10 can change or delete unique information more safely by setting an expiration date for authentication information.

Further, for example, in authentication, a communication unit (for example, second communication unit 48) that receives authentication information to be collated with acquired credential information from an external device (for example, server device 60) is further provided. The control unit 45b invalidates the authentication information on the condition that authentication based on the received authentication information has succeeded or failed a predetermined number of times.

Such a power control system 10 can change or delete unique information more safely by setting an upper limit on the number of successful authentications.

Further, for example, the unique information includes consumer's personal information, consumer's power usage history information, information indicating the installation location of the power generation equipment included in the distributed power supply, information indicating the capacity of the distributed power supply, and power control It includes at least one piece of connection information for connecting the system 10 to the server device 60 used by the contractor.

Such a power control system 10 includes consumer's personal information, consumer's power usage history information, information indicating the installation location of power generation equipment included in the distributed power supply, information indicating the capacity of the distributed power supply, and power Connection information and the like for connecting the control system 10 to the server device 60 used by the contractor can be safely changed or deleted.

In addition, the information processing module 42 includes a first device (for example, the power conditioner 40) that converts power supplied from the distributed power supply, or a second device (for example, the power conditioner 40) that distributes power supplied from the system power supply 70. For example, it is an information processing module mounted on the distribution board 20). The information processing module 42 includes a storage unit 46 that stores unique information related to at least one of the consumer using the distributed power source, the first device or the second device, and the contract partner for the power of the consumer. , an acquisition unit 45a that acquires credential information, and a control unit 45b that changes or deletes unique information stored in the storage unit 46 when authentication based on the acquired credential information is successful.

Such an information processing module 42 can safely change or delete unique information.

Further, the information processing method executed by the power control system 10 that performs at least one of conversion of power supplied from the distributed power supply and distribution of power supplied from the grid power supply 70 includes a step of acquiring credential information; and changing or deleting the unique information stored in the storage unit 46 included in the power control system 10 when the authentication based on the acquired credential information is successful. The unique information is information related to at least one of the distributed power source, the consumer using the power control system, and the contract partner for the power of the consumer.

Such an information processing method can safely change or delete unique information.

(Other embodiments)
Although the embodiments have been described above, the present invention is not limited to the above embodiments.

For example, although the power control system is implemented by a plurality of devices in the above embodiments, it may be implemented by a single device. For example, the power control system may be implemented as a single device corresponding to the distribution board of the above embodiments, or may be implemented as a single device corresponding to the power conditioner. When the power control system is realized by multiple devices, the components included in the power control system may be distributed among the multiple devices in any way.

Further, in the above-described embodiments, the processing executed by a specific processing unit may be executed by another processing unit. In addition, the order of multiple processes may be changed, and multiple processes may be executed in parallel.

Also, in the above embodiments, each component may be realized by executing a software program suitable for each component. Each component may be realized by reading and executing a software program recorded in a recording medium such as a hard disk or a semiconductor memory by a program execution unit such as a CPU or processor.

Also, each component may be realized by hardware. For example, each component may be a circuit (or integrated circuit). These circuits may form one circuit as a whole, or may be separate circuits. These circuits may be general-purpose circuits or dedicated circuits.

Also, general or specific aspects of the present invention may be implemented in a system, apparatus, method, integrated circuit, computer program or recording medium such as a computer-readable CD-ROM. Also, any combination of systems, devices, methods, integrated circuits, computer programs and recording media may be implemented.

For example, the present invention may be realized as a distribution board, a power conditioner, or an information processing module according to the above embodiments, or as a power control system corresponding to a distribution board or a power conditioner. good too. Further, the present invention may be implemented as an information processing method executed by a computer such as a power control system (information processing module), or may be implemented as a program for causing a computer to execute such an information processing method. good. The present invention may be implemented as a computer-readable non-temporary recording medium on which such a program is recorded.

In addition, forms obtained by applying various modifications to each embodiment that a person skilled in the art can think of, or realized by arbitrarily combining the constituent elements and functions of each embodiment without departing from the spirit of the present invention. Also included in the present invention.

10 power control system 20 distribution board (second device)
31 Solar cell module (distributed power supply)
32 Storage battery system (distributed power supply)
33 EV charging/discharging equipment (distributed power supply)
34 EV (distributed power supply)
40 power conditioner (first device)
42 information processing module 45a acquisition unit 45b control unit 45c detection unit 46 storage unit 47 first communication unit (communication unit)
48 second communication unit (communication unit)
50 mobile terminal (external device)
60 server device (external device)
70 system power supply

Claims (10)

A power control system that performs at least one of conversion of power supplied from a distributed power supply and distribution of power supplied from a grid power supply,
a storage unit storing unique information related to at least one of the distributed power source, the consumer using the power control system, and a contract partner for the power of the consumer;
an acquisition unit that acquires credential information;
a control unit that changes or deletes the unique information stored in the storage unit when authentication based on the obtained credential information is successful. The power control system according to claim 1, further comprising a detection unit that detects falsification of unique information stored in the storage unit. further comprising an operation reception unit that receives a user's operation,
The power control system according to claim 1 or 2, wherein the acquisition unit acquires the credential information input to the power control system by an operation received from a user by the operation reception unit. further comprising a communication unit that receives the credential information from an external device;
The power control system according to claim 1 or 2, wherein the acquisition unit acquires the credential information received by the communication unit. In the authentication, further comprising a communication unit that receives authentication information to be compared with the acquired credential information from an external device,
The acquisition unit acquires authentication information received by the communication unit,
The power control according to any one of claims 1 to 4, wherein the control unit invalidates the authentication information on condition that a predetermined time has elapsed since the acquisition unit acquired the authentication information. system. In the authentication, further comprising a communication unit that receives authentication information to be compared with the acquired credential information from an external device,
The power control system according to any one of claims 1 to 4, wherein the control unit invalidates the authentication information on the condition that authentication based on the received authentication information has succeeded or failed a predetermined number of times. . The unique information includes personal information of the customer, power usage history information of the customer, information indicating the installation location of power generation equipment included in the distributed power supply, information indicating the capacity of the distributed power supply, and The power control system according to any one of claims 1 to 6, comprising at least one piece of connection information for connecting the power control system to a server device used by said contractor. An information processing module mounted on a first device that converts power supplied from a distributed power supply or a second device that distributes power supplied from a system power supply,
a storage unit storing unique information related to at least one of a consumer who uses the distributed power source, the first device or the second device, and a contract partner for power of the consumer;
an acquisition unit that acquires credential information;
an information processing module, comprising: a control unit that changes or deletes the unique information stored in the storage unit when authentication based on the obtained credential information is successful. An information processing method executed by a power control system that performs at least one of conversion of power supplied from a distributed power supply and distribution of power supplied from a system power supply,
obtaining credential information;
changing or deleting unique information stored in a storage unit provided in the power control system when authentication based on the obtained credential information is successful;
The information processing method, wherein the unique information is information related to at least one of the distributed power source, the consumer who uses the power control system, and a contract partner for the power of the consumer. A program for causing a computer to execute the information processing method according to claim 9 .

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