JP5800687B2 - Charger for portable terminal - Google Patents

Description

  The present invention relates to a portable terminal charging device, and more particularly to a portable terminal charging device that is connected to a household power source and charges the portable terminal.

  An example of a cradle device that charges a portable terminal is disclosed in Patent Document 1. The cradle device of Patent Document 1 has a power supply control unit that supplies power to a mounted mobile phone and charges it, a USB interface for transmitting and receiving data to and from the mobile phone, and a clock unit that measures the current time. . When the mobile phone is placed on the cradle device, charging of the mobile phone is started, and the time information of the clock unit is corrected based on the time information sent from the mobile phone.

Further, the automatic power meter reading device of Patent Document 2 includes a power meter including a power meter and a non-contact type IC card reading / writing device. For example, when a user brings a non-contact type IC card provided in a portable terminal device close to a non-contact type IC card reading / writing device of an automatic electric energy metering device, the power metering of the automatic electric energy metering device measures the power. The used power amount data indicating the amount of power is transmitted to the mobile terminal device by non-contact data transmission. Then, the mobile terminal device transmits power consumption data and the like to the meter reading center.
JP 2006-33392 A [H04M 1/00, H04B 7/26] JP 2009-32012 [G08C 15/00, G08C 19/00, G08C 17/00, H04M 11/00, G01R 11/00]

  However, when the portable terminal device of Patent Document 2 repeatedly performs an operation of acquiring power consumption data and transmitting it to the meter-reading center, the remaining battery level of the portable terminal device is quickly lost. As one of countermeasures against this problem, a method of acquiring power consumption data from the automatic energy meter reading device in a state where the mobile terminal device is charged by the cradle device of Patent Document 2 can be considered. However, in this state, since the movement range of the mobile terminal device is limited to the range that the power cable can reach, the non-contact type IC card of the mobile terminal device is replaced with the non-contact type IC card reading / writing device of the automatic energy metering device There is a possibility that it will not be possible to approach.

  Therefore, a main object of the present invention is to provide a novel charging device for a portable terminal.

  Another object of the present invention is to provide a mobile terminal charging device that allows the amount of power used to be grasped.

  The present invention employs the following configuration in order to solve the above problems. The reference numerals in parentheses, supplementary explanations, and the like indicate the corresponding relationship with the embodiments described in order to help understanding of the present invention, and do not limit the present invention.

1st invention acquires the electric energy data which shows the electric energy which a supply part supplies from the measurement system containing the supply part which supplies electric power in a house for every predetermined time, the predetermined acquired by the acquisition part storage unit for storing the power amount data of each time, when the mobile terminal is connected, a predetermined electric power amount data stored in the storage unit, stored transmission unit that transmits to the portable terminal, and the storage unit A calculation unit that calculates a first integrated power amount of the power data acquired every predetermined time based on the hourly power amount data, and the weighing system includes a second integrated power amount of power supplied by the supply unit; A measurement unit that measures the power, and when the first integrated power amount calculated by the calculation unit and the second integrated power amount measured by the measurement unit are different, the frequency at which the acquisition unit acquires the power amount data is changed. To the prescribed During the Ru is set, a portable terminal charger.

A second invention is according to the first invention, supply unit supplies power to a plurality of systems of the house, acquisition unit, a system power amount data indicating the amount of power supplied to each system Acquire every predetermined time .

A third invention is dependent on the second invention and further includes a communication unit that establishes data communication with the supply unit, and the acquisition unit obtains the grid power amount data at predetermined intervals by data communication with the supply unit. get.

A fourth invention is dependent on any one of the first to third inventions, and the storage unit further stores unique information of the specific mobile terminal, and when the mobile terminal is connected, from the mobile terminal A unique information acquisition unit that acquires the unique information; and an authentication unit that authenticates whether the unique information acquired by the unique information acquisition unit matches the unique information stored in the storage unit; When the authentication by is successful, the power amount data stored in the storage unit is transmitted to the connected portable terminal.

A fifth invention is dependent on any one of the first to fourth inventions, and when a time counting unit that counts time and a portable terminal is connected, based on the time information that the portable terminal has, A correction unit that corrects the time counted by the time counting unit is further provided, and the acquisition unit acquires the electric energy data at predetermined time intervals based on the time counted by the time counting unit.
6th invention acquires the electric energy data which show the electric energy which the supply part supplies from the measuring system containing the supply part which supplies electric power in a house for every predetermined time for the processor of the charging device for portable terminals The portable terminal charging device includes a storage unit that stores power amount data for each predetermined time acquired by the acquisition unit, and the processor is stored in the storage unit when the mobile terminal is connected. The first integrated power amount of the power data obtained every predetermined time is calculated based on the power amount data for every predetermined time stored in the storage unit and the storage unit that transmits the power amount data to the portable terminal further functions as a calculation unit for, metering system further includes a measuring unit for measuring a second cumulative power amount of the power supplied by the supply unit, a first cumulative power amount calculated by the calculation section measures When the second cumulative power amount measured by different, so that the frequency of acquisition unit acquires the amount of power the data changes, the predetermined time is Ru is set, a communication program.
7th invention is a communication method in the charging device for portable terminals, Comprising: The electric power which a supply part supplies from the measuring system in which the processor of the charging device for portable terminals includes the supply part which supplies electric power in a house The acquisition step of acquiring the electric energy data shown every predetermined time is executed, and the charging device for portable terminal includes a storage unit that stores the electric energy data of predetermined time acquired by the acquisition step, and the processor includes the portable terminal When the is connected, the power amount data stored in the storage unit is acquired every predetermined time based on the transmission step for transmitting to the mobile terminal and the power amount data for every predetermined time stored in the storage unit It has been further executes a calculating step of calculating a first cumulative power amount of power data, the metering system, a measuring unit for measuring a second cumulative power amount of the power supplied by the supply unit In addition, when the first integrated power amount calculated by the calculation step and the second integrated power amount measured by the measurement unit are different, the predetermined time is set so that the frequency at which the acquisition step acquires the power amount data is changed. Ru is set to a communication method.

  According to this invention, the user can grasp | ascertain the electric energy currently used by the predetermined | prescribed system | strain by installing a portable terminal in the charging device for portable terminals.

  The above object, other objects, features, and advantages of the present invention will become more apparent from the following detailed description of embodiments with reference to the drawings.

FIG. 1 is an illustrative view showing an example of a configuration of a weighing system to which a portable terminal charging device according to an embodiment of the present invention is connected. FIG. 2 is an illustrative view showing an electrical configuration of the portable terminal charging device shown in FIG. 1. FIG. 3 is an illustrative view showing one example of a configuration of an electric energy table stored in the RAM shown in FIG. FIG. 4 is an illustrative view showing one example of a memory map of the RAM shown in FIG. FIG. 5 is a flowchart showing an example of the power amount acquisition process of the processor shown in FIG. FIG. 6 is a flowchart showing an example of terminal communication processing of the processor shown in FIG. FIG. 7 is an illustrative view showing one example of a configuration of a weighing system to which the portable terminal charging device of the second embodiment of the present invention is connected. FIG. 8 is an illustrative view showing an electrical configuration of the portable terminal charging device shown in FIG. 7.

<First embodiment>
Referring to FIG. 1, when mobile phone 12 is installed in mobile terminal charging apparatus 10 of one embodiment of the present invention, charging of mobile phone 12 is started. The portable terminal charging device 10 is connected to a weighing system 100 including a distribution board 14 and a smart meter 16. The metering system 100 can transmit fee data indicating the amount of power used in a fee calculation period (for example, one month) to an electric power company by wireless / wired. Therefore, in the weighing system 100 of the present embodiment, costs such as labor costs for meter reading can be suppressed.

  The mobile phone 12 is a smart phone as an example, and includes a vertically long flat rectangular housing. However, it should be pointed out in advance that other embodiments can be applied to any portable terminal such as a feature phone, a tablet terminal, and a PDA.

  The distribution board 14 is also called a supply unit, and supplies power to the first system to the fifth system in the house. For example, electrical appliances such as lighting are connected to an outlet of the first system, an air conditioner is connected to an outlet of the second system, an electrical appliance such as a television is connected to an outlet of the third system, and the fourth system. Electrical appliances for kitchens such as refrigerators are connected to the outlet. And the charging device 10 for portable terminals is connected to the outlet of the fifth system. The smart meter 16 is also called a measurement unit, and measures the integrated power amount of power supplied to each system by the distribution board 14. The smart meter 16 is connected to a power lead-in line connected to the power transmission network, and supplies power from the power transmission network to the distribution board 14.

  Moreover, the charging device 10 for mobile terminals, the distribution board 14 and the smart meter 16 have a built-in PLC (Power Line Communication) interface (hereinafter referred to as PLC I / F) and use the power line as a communication line. By doing so, data communication can be performed. For example, in FIG. 1, data communication is performed between the distribution board 14 and the smart meter 16, and data communication is performed between the mobile terminal charging device 10 and the distribution board 14.

  In addition, not only the mobile phone 12 but various mobile terminals can be installed in the mobile terminal charging device 10. And if those portable terminals are also installed, charging is started.

  The distribution board 14 is provided in the house. The smart meter 16 is provided, for example, in an MB (Meter Box) considered as a part of a house if it is a condominium, or on a wall or the like if it is a detached house.

  Referring to FIG. 2, portable terminal charging apparatus 10 of the embodiment shown in FIG. 1 includes a processor 20 called a computer or a CPU. The processor 20 is connected to a RAM 22, a PLC I / F 24, an I / F 26, a connector 30, and the like. Although not connected to the processor 20, the mobile terminal charging device 10 includes an AC / DC converter 28 and the like.

  The processor 20 governs overall control of the mobile terminal charging device 10. The RAM 22 is a non-volatile memory and functions as a storage unit. The RAM 22 stores a program, a power amount table described later, and the like, and the processor 20 operates according to the program on the RAM 22. The RAM 22 is further used as a working area or a buffer area of the processor 20.

  The PLC I / F 24 is also called a communication unit, and is an interface for using a power line as a communication line. The PLC I / F 24 is connected to the PLC I / F 18 of the distribution board 14, transmits data output from the processor 20 to the PLC I / F 18 of the distribution board 14, and from the PLC I / F 18 of the distribution board 14. The received data is output to the processor 20. Then, the PLC I / F 24 outputs the power supplied from the distribution board 14 to the AC / DC converter 28.

  The I / F 26 is an interface for performing data communication with the mobile phone 12, and is connected to the mobile phone 12 via a communication line provided in the connector 30. Therefore, the I / F 26 transmits the data output from the processor 20 to the mobile phone 12 and outputs the data received from the mobile phone 12 to the processor 20. The AC / DC converter 28 converts the AC voltage output from the PLC I / F 24 into a DC voltage, and supplies the DC voltage to the mobile phone 12 via a power line provided in the connector 30.

  The connector 30 is a male connector, and is provided with a communication line and a power line as described above. When the mobile phone 12 is installed in the mobile terminal charging device 10, the connector 30 is connected to the female connector on the mobile phone 12 side. As a result, charging of the mobile phone 12 is started, and data communication between the mobile terminal charging device 10 and the mobile phone 12 is started.

  The connector 30 has a built-in switch that is turned on when the connector of the mobile phone 12 is connected, and a switch signal SW indicating the state of the switch is output to the processor 20. Therefore, the processor 20 uses the switch signal SW output from the connector 30 to detect that the connector 30 is connected to the connector of the mobile phone 12.

  Here, the mobile terminal charging device 10 according to the present embodiment acquires power amount data indicating the amount of power supplied by the distribution board 14 and records it in the RAM 22. When the mobile phone 12 is installed, the recorded power amount data is transmitted to the mobile phone 12.

  In the first embodiment, the mobile terminal charging device 10 establishes data communication with the distribution board 14 every predetermined time (for example, 30 minutes) by using the PLC I / F 24. In addition, when the data communication is established, the mobile terminal charging device 10 acquires system power amount data indicating the amount of power that the supply unit 14 supplies for each system, and records it in the RAM 22.

  Referring to FIG. 3, the acquired grid power amount data is recorded in a power amount table stored in RAM 22. The power amount table is composed of columns of “time”, “system”, and “power amount”, and power amount data is recorded in the “power amount” column for each system corresponding to “time”. The For example, when the power amount data (system power amount data) of each system is acquired from the distribution board 14 at 13:00, “0.3 kW” is recorded in the “power amount” column of the first system. Similarly, “1.0 kW”, “1.4 kW”, “0.8 kW”, and “0” are entered in the “power amount” columns of the second system, the third system, the fourth system, and the fifth system. .1 KW "is recorded. In addition, when 30 minutes (predetermined time) has elapsed since the acquisition of the grid power amount data and when 13:30 is reached, the grid power amount data is similarly acquired and recorded in the power amount table.

  Next, various portable terminals may be installed in the portable terminal charging apparatus 10. Therefore, it is necessary to prevent the power amount table data from being transmitted to other than the specific mobile terminal (user's mobile phone 12). Therefore, in this embodiment, when the mobile phone 12 is installed in the mobile terminal charging device 10, an authentication process is executed to confirm whether the mobile phone 12 is the user's mobile phone 12. Thereby, the electric energy used by the user can be prevented from flowing out to a third party.

  Specifically, unique information (such as a serial number and a telephone number) for identifying a specific mobile phone is registered in advance in the mobile terminal charging device 10. Then, when the mobile terminal is installed in the mobile terminal charging device 10, the unique information of the mobile terminal is acquired, and it is determined whether or not it matches the registered unique information. As a result, if they match, the power amount table data stored in the RAM 22 is transmitted to the mobile phone 12. On the other hand, if they do not match, the power amount table is not transmitted.

  In this way, the user can grasp the amount of power being used by installing the mobile phone 12 in the mobile terminal charging device 10. In particular, in the first embodiment, since the amount of power is recorded for each system, the user can perform a detailed analysis on the amount of power used. For example, if it is known that the amount of power in the third system is large, it is possible to save power by refraining from using an electrical appliance connected to the third system. Moreover, the system which connects the newly purchased electric appliance can also be examined by comparing the electric energy of each system | strain.

  Here, the mobile terminal charging device 10 according to the present embodiment acquires the electric energy at predetermined time intervals based on the output of a time counter (time counting unit) that measures time. When the mobile phone 12 is installed, the time information of the mobile phone 12 is acquired, and the current time counted by the time counter is corrected. Thereby, since it is not necessary to provide a highly accurate timepiece circuit in the mobile terminal charging device 10, the cost of the mobile terminal charging device 10 can be suppressed. However, when the power amount data is acquired from the distribution board 14, if the time information can also be acquired, the time counter is corrected based on the time information acquired from the distribution board 14.

  Note that the mobile terminal charging device 10 performs data communication with the smart meter 16 via the distribution board 14 and acquires integrated power amount data indicating the integrated power amount of power supplied by the distribution board 14. Also good. In this case, the first integrated electric energy based on the electric energy table and the second integrated electric energy based on the measurement by the smart meter 16 are compared. As a result of the comparison, it can be seen that if the first integrated power amount is smaller than the second integrated power amount, the amount of power data acquired every predetermined time is small. Therefore, the accuracy of the first integrated power amount can be improved by increasing the frequency of acquiring the power amount data (shortening the predetermined time).

  In this embodiment, the mobile terminal charging device 10 and the mobile phone 12 are connected by wire, but in other embodiments, they may be connected by short-range wireless communication such as Bluetooth (registered trademark).

  Although the features of the embodiment have been outlined above, the following is a memory map of the RAM 22 of the mobile terminal charging device 10 shown in FIG. 4, and a flow chart by the processor 20 of the mobile terminal charging device 10 shown in FIGS. Will be described in detail.

  Referring to FIG. 4, program storage area 302 and data storage area 304 are formed in RAM 22 shown in FIG. The program storage area 302 is an area for storing program data.

  The program storage area 302 includes a power amount acquisition program 310 for acquiring a power amount from the distribution board 14 every predetermined time, a terminal communication program 312 for communicating with an installed mobile terminal, and the like.

  Subsequently, in the data storage area 304 of the RAM 22, the power amount table data 330 and the unique information data 332 are stored, and a time counter 334 is provided. As shown in FIG. 3, the power amount table data 330 is data in which the power amount data of each system is stored in association with the time. The unique information data 332 is data indicating the telephone number of the user's mobile phone 12, for example.

  The time counter 334 is a counter for counting time. For example, the time counter 334 is counted up to indicate the time based on the operating frequency of the processor 20 or the like. As described above, when the mobile phone 12 is installed, the count value is corrected based on the time information of the mobile phone 12.

  Note that the data storage area 304 includes counters and flags necessary for the operation of the mobile terminal charging device 10.

  The processor 20 of the mobile terminal charging device 10 processes a plurality of tasks in parallel under the control of an embedded OS such as μITRON, including processing according to the flowcharts shown in FIGS. 5 and 6.

  FIG. 5 is a flowchart of the electric energy acquisition process. For example, when the power amount acquisition process is executed, the processor 20 determines whether or not a predetermined time has elapsed in step S1. That is, based on the output of the time counter 334, the processor 20 determines whether a predetermined time (for example, 30 minutes) has elapsed since the power amount acquisition process was executed. If “NO” in the step S1, that is, if the predetermined time has not elapsed, the processor 20 repeats the process of the step S1. On the other hand, if “YES” in the step S1, for example, when a predetermined time elapses after the electric energy use process is executed, the processor 20 acquires the electric energy data in a step S3. That is, in the first embodiment, data communication with the distribution board 14 is established, and system power amount data indicating the power amount of each system is acquired from the distribution board 14. Subsequently, in step S5, the processor 20 records the acquired power amount data in the power amount table, and returns to step S1. For example, as shown in FIG. 3, grid power amount data is recorded in the power amount table. The processor 20 that executes the process of step S3 functions as an acquisition unit.

  FIG. 6 is a flowchart of terminal communication processing. For example, when the mobile phone 12 is installed and the switch signal SW is turned on, the processor 20 corrects the time in step S11. That is, data communication with the mobile phone 12 is performed, time information is acquired from the mobile phone 12, and the numerical value (time) of the time counter 334 is corrected. The processor 20 that executes the process of step S11 functions as a correction unit.

  Subsequently, in step S13, the processor 20 acquires the unique information of the mobile terminal. For example, specific information indicating a telephone number is acquired from the mobile phone 12. Subsequently, in step S15, the processor 20 executes an authentication process. For example, when the authentication process is executed, it is determined whether the unique information acquired from the mobile terminal matches the unique information data 332. The processor 20 that executes the process of step S13 functions as a unique information acquisition unit. Further, the processor 20 that executes the process of step S15 functions as an authentication unit.

  Subsequently, in step S17, the processor 20 determines whether or not the authentication is successful. For example, it is determined whether an authentication result that “the unique information acquired from the mobile terminal matches the unique information data 332” is obtained. If “NO” in the step S17, that is, if the unique information acquired from the portable terminal is different from the unique information data 332, the processor 20 ends the terminal communication process. On the other hand, if “YES” in the step S17, that is, if the unique information acquired from the portable terminal matches the unique information data 332, the processor 20 transmits the power amount table data 334 to the portable terminal in a step S19. The terminal communication process is terminated. For example, the power amount table data 334 shown in FIG. 3 is transmitted to the mobile phone 12. At this time, when the power amount table data 334 is transmitted next, the contents of the power amount table data 334 may be initialized so that the transmission contents do not overlap. The processor 20 that executes the process of step S19 functions as a transmission unit.

<Second embodiment>
In 2nd Example, the charging device 10 for portable terminals has PLC I / F24, and the data communication with the distribution board 14 is not established. However, the integrated power amount data measured by the smart meter 16 is stored in the server 206 of the power company, and the mobile terminal charging device 10 acquires the integrated power amount data from the server 206 of the power company. Hereinafter, the second embodiment will be described. Since the second embodiment is the same as the first embodiment except for the above, a duplicate description will be omitted.

  Referring to FIG. 7, smart meter 16 can establish data communication with electric power company server 206 via network 200 by wireless communication. Therefore, the smart meter 16 transmits integrated power amount data indicating the amount of power supplied by the distribution board 14 to the server 206 of the power company. However, the smart meter 16 according to another embodiment may establish data communication with the server 206 by wired communication.

  Referring to FIG. 8, a short-range wireless communication circuit 32 and an antenna 34 are connected to the mobile terminal charging device 10 processor 20 of the second embodiment.

  The short-range wireless communication circuit 32 performs Wi-Fi short-range wireless communication. Wi-Fi (Wireless Fidelity) is certified by a predetermined certification authority for the interoperability between wireless devices using the IEEE 802.11 series (IEEE 802.11a / b / g / n, etc.) communication standard. It is a name indicating that That is, Wi-Fi is a method of short-range wireless communication, and the mobile terminal charging device 10 of the second embodiment uses a Wi-Fi short-range wireless communication circuit 32. In short-distance wireless communication using the Wi-Fi method, short-distance wireless communication with the router 202 functioning as an access point can be established.

  Referring again to FIG. 7, the router 202 is connected to a line terminating device 204 connected to the network 200 by wire. Therefore, the mobile terminal charging device 10 can access the power company server 206 via the network 200 and acquire the accumulated power amount data for each predetermined time.

  The integrated power amount data acquired in this way is transmitted to the mobile phone 12 when the mobile phone 12 is connected to the mobile terminal charging apparatus 10 and the authentication is successful. As described above, in the second embodiment, even when data communication by the PLC I / F cannot be performed, the integrated power amount measured by the measurement unit can be acquired via the network.

  Here, in step S3 of the electric energy acquisition process of the second embodiment, the following process is performed. In step S3, the processor 20 of the second embodiment first establishes data communication with the server 206. Next, a request for acquiring integrated power amount data corresponding to the user is transmitted to the server 206 together with information for identifying the user (login ID and password). Then, in response to the acquisition request, the integrated power amount data transmitted from the server 206 is received (acquired).

  In another embodiment, the supply unit may include a table tap including a PLC I / F. In this case, the mobile terminal charging device 10 can acquire and record the power amount data of the electrical appliance connected to the table tap.

  When the mobile phone 12 is connected to the mobile terminal charging apparatus 10, a GUI indicating the received power amount data is displayed on the display of the mobile phone 12. Then, when the connection between the mobile terminal charging device 10 and the mobile phone 12 is released, the GUI display is switched to a normal display such as a standby screen.

  The specific numerical values given in this specification are merely examples, and can be appropriately changed according to a change in product specifications.

DESCRIPTION OF SYMBOLS 10 ... Charge device for portable terminals 12 ... Mobile phone 14 ... Distribution board 16 ... Smart meter 18 ... PLC I / F
20 ... Processor 22 ... RAM
24 ... PLC I / F
DESCRIPTION OF SYMBOLS 30 ... Connector 32 ... Near field communication circuit 34 ... Antenna 100 ... Weighing system 200 ... Network 202 ... Router 206 ... Server

Claims (7)

An acquisition unit that acquires, every predetermined time, power amount data indicating the amount of power supplied by the supply unit, from a weighing system that includes a supply unit that supplies power to the house.
A storage unit for storing power amount data for each predetermined time acquired by the acquisition unit ;
When mobile terminal is connected, the transmission unit that transmits the power amount data stored in the storage unit, to said portable terminal, and
A calculation unit that calculates a first integrated power amount of the power data acquired every predetermined time based on the power amount data stored every time in the storage unit ;
The metering system further includes a measurement unit that measures a second integrated power amount of power supplied by the supply unit,
When the first integrated power amount calculated by the calculation unit is different from the second integrated power amount measured by the measurement unit, the predetermined time is changed so that the frequency at which the acquisition unit acquires power amount data is changed. set Ru, charging device for a portable terminal. The supply unit supplies power to a plurality of systems in a house,
The charging device for a portable terminal according to claim 1, wherein the acquisition unit acquires system power amount data indicating the amount of power supplied to each system at each predetermined time. A communication unit for establishing data communication with the supply unit;
The charging device for portable terminals according to claim 2, wherein the acquisition unit acquires the grid power amount data at the predetermined time by data communication with the supply unit. The storage unit further stores unique information of a specific mobile terminal,
When a portable terminal is connected, a unique information acquisition unit that acquires unique information from the portable terminal, and whether the unique information acquired by the unique information acquisition unit matches the unique information stored in the storage unit It further includes an authentication unit for authenticating,
The portable terminal according to any one of claims 1 to 3 , wherein when the authentication by the authentication unit is successful, the transmission unit transmits power amount data stored in the storage unit to a connected portable terminal. Charging device. A time counting unit that counts time, and a correction unit that corrects the time counted by the time counting unit based on time information of the portable terminal when the portable terminal is connected;
The acquisition unit, based on the counted time by the time counting unit, acquires the power amount data for each of the predetermined time, the portable terminal charging device according to any one of claims 1 to 4. The processor of the charging device for portable terminals,
From a metering system including a supply unit that supplies power to a house, function as an acquisition unit that acquires power amount data indicating the amount of power supplied by the supply unit every predetermined time,
The charging device for portable terminal includes a storage unit that stores power amount data for each predetermined time acquired by the acquisition unit,
A transmission unit that transmits power amount data stored in the storage unit to the portable terminal when the portable terminal is connected to the processor ; and
Based on the power amount data for each predetermined time stored in the storage unit, further function as a calculation unit for calculating the first integrated power amount of the power data acquired for each predetermined time ,
The metering system further includes a measurement unit that measures a second integrated power amount of power supplied by the supply unit,
When the first integrated power amount calculated by the calculation unit is different from the second integrated power amount measured by the measurement unit, the predetermined time is changed so that the frequency at which the acquisition unit acquires power amount data is changed. set Ru, communication program. A communication method in a mobile terminal charging device, wherein the processor of the mobile terminal charging device comprises:
From the measuring system including a supply unit that supplies power to the house, an acquisition step of acquiring power amount data indicating the amount of power supplied by the supply unit every predetermined time is executed.
The charging device for portable terminal includes a storage unit that stores power amount data for each predetermined time acquired by the acquiring step,
A transmission step of transmitting, to the portable terminal, power amount data stored in the storage unit when the portable terminal is connected to the processor ; and
Based on the power amount data for each predetermined time stored in the storage unit, further executing a calculation step of calculating a first integrated power amount of the power data acquired for each predetermined time ,
The metering system further includes a measurement unit that measures a second integrated power amount of power supplied by the supply unit,
When the first integrated power amount calculated by the calculation step is different from the second integrated power amount measured by the measurement unit, the predetermined time is changed so that the frequency at which the acquisition step acquires power amount data changes. set Ru, communication method.

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