JP5376895B2 - Charging apparatus, charging method and program - Google Patents

Description

The present invention relates to a charging device and the like .

  In recent years, contactless charging technology for charging a battery using a technology such as electromagnetic induction has advanced. In non-contact charging, charging is possible without going through a cable or a connection terminal. Therefore, a charging system between portable devices such as a mobile phone, a digital camera, a digital video camera, and a laptop personal computer has been proposed. When charging is performed between such portable devices, there is a limit to the amount of power that can be supplied by the supply device. Therefore, charging is not always performed until the battery of the charging device is fully charged.

  Therefore, a technique has been proposed in which, before starting charging, a power amount to be charged is determined based on the remaining battery level and the power amount desired by the user, and the supply device supplies the determined power amount to the charging device. (For example, refer to Patent Document 1).

JP 2006-287555 A

  In the power transfer system described in Patent Document 1, the amount of charge is determined by comparing the remaining battery level of the power transmission side device and the remaining battery level of the power receiving side device. However, as described in Patent Document 1, if the power amount level to be charged is determined only by the remaining amount, there is a problem that both the power transmission side device and the power reception side device cannot be charged with the optimum charge amount.

An object of the present invention is to supply an optimal amount of power to a charging device.

Charging apparatus according to the present invention is a charging device, a power receiving means for receiving the power transmitted in a non-contact from the power transmission device, charge you charge the first battery using power supplied from said power receiving means and conducting means, the power transmission device and a communication means for communicating, the power transmission device in accordance with the information about the amount of power that can be supplied to the charging device is received by the communication means, power transmission to the power transmitting device Control means for performing processing for requesting, wherein the control means is connected to the power transmission device and a commercial power source according to the information received by the communication means, or the power transmission device detecting whether it is connected to the second battery not connected to the commercial power supply, the control means, the power transmission device contact is continued with the commercial power source and connected to SL before no second battery It detects that you are If the previous SL power transmitting device based on the remaining amount of electric energy and the first battery can be supplied to the charging device, and set the first amount of power required to the power transmission device, the first The communication means is controlled to transmit to the power transmission apparatus first information for requesting the power transmission apparatus to transmit the amount of power, and the control means is connected to the commercial power source. When detecting that, the second information for requesting the power transmission device to transmit the second amount of electric power used to fully charge the first battery is transmitted to the power transmission device. The communication means is controlled .
Moreover, the charging device according to the present invention is a charging device, and receives a power received from a power transmission device in a contactless manner, and charges the first battery using the power supplied from the power receiving means. Charging means, communication means for communicating with the power transmission apparatus, and requesting power transmission to the power transmission apparatus in response to reception of information on the amount of power that the power transmission apparatus can supply to the charging apparatus by the communication means Control means for performing a process for the power transmission, the control means is connected to a commercial power source or the power transmission device is connected to the commercial power source according to the information received by the communication means It is detected whether it is not connected and connected to the second battery, and the control means detects that the power transmission device is not connected to the commercial power source and connected to the second battery. In this case, the power transmission device performs a first process for setting the amount of power that the power transmission device can supply to the charging device and the amount of power required for the power transmission device based on the remaining amount of the first battery. Setting the first power amount to be requested to the first power amount, controlling the communication means to transmit to the power transmission device first information for requesting the power transmission device to transmit the first power amount, When the control unit detects that the power transmission device is connected to the commercial power supply, the control unit sets a second power amount to be requested to the power transmission device by a second process different from the first process, The communication means is controlled to transmit second information for requesting the power transmission device to transmit the second amount of power to the power transmission device.

According to the present invention, an optimal amount of power can be supplied to the charging device.

(First embodiment)
The present embodiment will be described below with reference to the drawings.
FIG. 1 is a block diagram illustrating a configuration example of a charging system according to the present embodiment. As shown in FIG. 1, the charging system according to the present embodiment includes a power transmission device 200 that transmits power and a charging device 300 that receives power supplied from the power transmission device 200 and charges a battery.

  The power transmission device 200 can receive power from the commercial power supply 100 and the battery 205. The commercial power source 100 is supplied with power to the power control unit 204 through the commercial power adapter 101.

  The power supply control unit 204 detects whether the current power supply method in the power transmission device 200 is the commercial power supply 100 or the battery 205. When power is received from the commercial power supply 100, the power from the commercial power adapter 101 is controlled to be a driving power supply for the entire power transmission apparatus 200. When power is not received from the commercial power supply 100, the battery 205 is controlled to be a driving power supply for the entire power transmission device 200. Furthermore, in this embodiment, the battery 205 is charged using the power from the commercial power source 100.

  The transmission / reception unit 201 communicates with the transmission / reception unit 301. That is, the information transmitted from the charging control unit 203 is transmitted to the transmission / reception unit 301, and the information received from the transmission / reception unit 301 is transmitted to the charging control unit 203. In the present embodiment, the transmission / reception unit 201 receives the required power amount information transmitted from the charging device 300. In addition, according to the required power amount information transmitted from the charging device 300, the supplyable power amount information calculated by the charging control unit 203 is transmitted to the charging device 300.

The power transmission unit 202 transmits the power transmitted from the power control unit 204 through the charging control unit 203 to the power transmission unit 302 by a known technique such as an electromagnetic induction method. Specifically, the power transmission unit 202 includes a coil, a circuit that supplies current to the coil, a circuit that detects current flowing through the coil, and the like. Then, electric power is supplied to the charging device 300 in a non-contact manner by periodically changing the current supplied to the coil.
The charging control unit 203 transmits / receives information to / from the transmission / reception unit 201 and controls power supply by the power transmission unit 202. Further, the proximity of the charging device 300 is detected or the amount of power transmitted through the power transmission unit 202 is controlled based on information from the transmission / reception unit 201 or a change in the current flowing through the coil in the power transmission unit 202. Furthermore, the power supply method information from the power supply control unit 204 is acquired, or the suppliable power amount is calculated based on the remaining battery level and the power supply method information detected by the power supply control unit 204. In the present embodiment, the amount of power that can be supplied to the charging device 300 is calculated based on the power supply capability of the power transmission device 200.

  A power supply control unit 304 of the charging device 300 controls charging of the battery 305. Here, the battery 305 is a secondary battery that can be charged by electric power supplied from an external power transmission device. Similarly to the power control unit 204, the power control unit 304 detects the remaining amount and capacity of the battery 305 and charges the battery 305. Note that the charging device 300 can also be configured to receive power from a commercial power source, as with the power transmission device 200.

  The transmission / reception unit 301 communicates with the transmission / reception unit 201, transmits information transmitted from the charging control unit 303 to the transmission / reception unit 201, and transmits information received from the transmission / reception unit 201 to the charging control unit 303.

  The power transmission unit 302 receives the power transmitted from the power transmission unit 202 and sends it to the charge control unit 303. The charging control unit 303 performs transmission / reception of information with the transmission / reception unit 301. In addition, the power transmitted from the power transmission unit 302 is transmitted to the power supply control unit 304, or proximity detection is performed using information from the transmission / reception unit 301 and power from the power transmission unit 302. Further, the charge request amount is calculated based on information from the transmission / reception unit 301 and remaining amount information detected from the power supply control unit 304.

The charging operation performed in the charging system of the present embodiment configured as described above will be described with reference to FIGS. 2, 3, and 4.
In FIG. 2, when the power transmission device 200 and the charging device 300 come close to each other, the process of step S <b> 401 is performed, and the charging control unit 203 and the charging control unit 303 detect the proximity. When the charging device 300 detects the proximity of the power transmission device 200, the charging device 300 performs the process of step S <b> 403, and requests the power transmission device 200 through the information on the suppliable power amount from the charging control unit 303 and the transmission / reception unit 301.

  On the other hand, when the power transmission device 200 detects the proximity of the charging device 300, the power transmission device 200 performs the process of step S <b> 402, and the charging control unit 203 detects the power feeding method of the power control unit 204. Next, in step S404, a suppliable power amount calculation process is performed, and the suppliable power amount is calculated according to the power supply method information and the remaining battery level. Next, as the processing in step S405, the calculated information on the amount of power that can be supplied is returned to the charging apparatus 300 through the transmission / reception unit 201.

  The charging device 300 that has acquired the suppliable power amount information transmitted from the power transmission device 200 performs the process of step S406, and the charge control unit 303 calculates the required charging amount according to the acquired suppliable power amount information. Next, the process of step S <b> 407 is performed, and the charge control unit 303 transmits a charge amount request to the power transmission device 200 through the transmission / reception unit 301.

  When receiving the charge amount request transmitted from the power transmission device 200, the power transmission device 200 performs the process of step S <b> 408, starts power transmission according to the requested charge amount, and charges the charging device 300.

Here, in the process of step S404 in FIG. 2, the suppliable power amount is calculated according to the power feeding method, and the calculation procedure of the suppliable power amount will be described with reference to FIG.
When the calculation process is started, first, the process of step S501 is performed to detect the type of power feeding method. If the power supply method is a commercial power supply, the process proceeds to step S502. If the power supply method is a battery, the process proceeds to step S503.

  In step S502, since the power supply method is a commercial power supply, the suppliable power amount information is calculated to be infinite. In this case, the charging control unit 203 supplies the charging device 300 with information of a predetermined value indicating that the amount of power that can be supplied is infinite, that is, the amount of power that can be supplied is unlimited and is unlimited. The transmission / reception unit 201 is controlled to transmit.

  On the other hand, in step S <b> 503, the amount of power that can be supplied is calculated according to the remaining battery level obtained by the power control unit 204. Specifically, information indicating the remaining amount of the battery 205 itself may be used as the amount of power that can be supplied, or a value obtained by subtracting the power that the battery 205 wants to hold from the remaining amount of the battery 205 can be supplied. It is good also as electric energy. Then, the transmission / reception unit 201 is controlled so as to transmit information on the calculated power supply that can be supplied to the charging device 300.

In the process of step S406 in FIG. 2, the required charge amount is calculated according to the amount of information that can be supplied from the power transmission apparatus 200. The required charge amount calculation procedure will be described with reference to the flowchart in FIG.
First, in step S601, the amount of power that can be supplied by the power transmission device 200 is determined. As a result, if the amount of power that can be supplied by the power transmission device 200 is infinite, the process proceeds to step 602, and if not, the process proceeds to step S603.

  In step S602, since the amount of power that can be supplied by the power transmission device 200 is infinite, the power required to make the battery 305 fully charged is calculated as the required power amount. Specifically, the difference between the capacity of the battery 305 detected by the power control unit 304 and the current remaining battery level is calculated as the required power amount.

  On the other hand, in step S <b> 603, the required power amount is calculated according to the received power amount that can be supplied, the current remaining amount of the battery 305, and the capacity of the battery 305. Specifically, when the sum of the remaining battery amount detected by the charge control unit 303 and the amount of power that can be supplied is equal to or less than the battery capacity detected by the charge control unit 303, the amount of power that can be supplied is directly used as the required power amount. calculate.

  On the other hand, if the sum of the remaining amount of battery 305 and the amount of power that can be supplied is equal to or greater than the capacity of battery 305, it is determined that battery 305 can be fully charged, and the capacity of battery 305 and the remaining amount of battery 305 are determined. The difference from the amount is calculated as the required power amount.

  Although not illustrated in the above-described embodiment, the power transmission device 200 is provided with a proximity detection unit that detects that the charging device 300 approaches in a non-contact state, and the charging device 300 includes the power transmission device 200. Proximity detectors that detect proximity in a non-contact state are provided. In addition, when the proximity detection unit detects the proximity of the power transmission device 200, the charging device 300 determines the amount of power required for the power transmission device 200, and transmits requested power amount information indicating the determined required power amount to the power transmission device 200. Is further provided with a transmitting unit for transmitting to

  The proximity detection by the proximity detector is performed by, for example, a radio wave output circuit in which the transmission / reception unit 201 of the power transmission device 200 and the transmission / reception unit 301 of the charging device 300 periodically output weak radio waves, and radio waves for detecting radio wave input This can be realized by providing a detection circuit. With this configuration, when the transmission / reception units (201, 301) are brought close to each other, the proximity can be detected by detecting the weak radio waves of each other.

(Other embodiments according to the present invention)
Each means which comprises the power transmission apparatus 200 in this embodiment mentioned above and the charging device 300 is realizable when the program memorize | stored in RAM, ROM, etc. of computer operate | moves. This program and a computer-readable recording medium recording the program are included in the present invention.

  In addition, the present invention can be implemented as, for example, a system, apparatus, method, program, storage medium, or the like. Specifically, the present invention may be applied to a system including a plurality of devices. The present invention may be applied to an apparatus composed of a single device.

  In the present invention, a software program (in the embodiment, a program corresponding to the flowcharts shown in FIGS. 3 and 4) for executing each step in the power transmission method and the charging method described above is directly or remotely transmitted to the system or apparatus. Supply. And the case where it is achieved also by reading and executing the supplied program code by the computer of the system or apparatus is included.

  Therefore, since the functions of the present invention are implemented by computer, the program code installed in the computer also implements the present invention. In other words, the present invention includes a computer program itself for realizing the functional processing of the present invention.

  In that case, as long as it has the function of a program, it may be in the form of object code, a program executed by an interpreter, script data supplied to the OS, and the like.

  Various recording media can be used as a recording medium for supplying the program. For example, floppy (registered trademark) disk, hard disk, optical disk, magneto-optical disk, MO, CD-ROM, CD-R, CD-RW, magnetic tape, nonvolatile memory card, ROM, DVD (DVD-ROM, DVD- R).

  As another program supply method, a browser on a client computer is used to connect to an Internet home page. It can also be supplied by downloading the computer program itself of the present invention or a compressed file including an automatic installation function from a homepage to a recording medium such as a hard disk.

  It can also be realized by dividing the program code constituting the program of the present invention into a plurality of files and downloading each file from a different homepage. That is, a WWW server that allows a plurality of users to download a program file for realizing the functional processing of the present invention on a computer is also included in the present invention.

  In addition, the program of the present invention is encrypted, stored in a storage medium such as a CD-ROM, distributed to users, and key information for decryption is downloaded from a homepage via the Internet to users who have cleared predetermined conditions. Let me. It is also possible to execute the encrypted program by using the key information and install the program on a computer.

  In addition to the functions of the above-described embodiments being realized by the computer executing the read program, the OS running on the computer may perform part or all of the actual processing. The functions of the above-described embodiments can be realized.

  Further, the program read from the recording medium is written in a memory provided in a function expansion board inserted into the computer or a function expansion unit connected to the computer. Thereafter, the CPU of the function expansion board or function expansion unit performs part or all of the actual processing based on the instructions of the program, and the functions of the above-described embodiments are realized by the processing.

1 is a block diagram illustrating a schematic configuration of a system that performs an embodiment of the present invention and performs power transmission and charging between a power transmission device and a charging device. It is a figure which shows embodiment of this invention and shows an example of the sequence which performs power transmission and charge between a power transmission apparatus and a charging device. It is a flowchart which shows embodiment of this invention and demonstrates the procedure which calculates the electric energy which a power transmission apparatus can supply. 5 is a flowchart illustrating an embodiment of the present invention and illustrating a procedure for a charging device to calculate a required charge amount.

Explanation of symbols

DESCRIPTION OF SYMBOLS 100 Commercial power supply 101 Commercial power adapter 200 Power transmission apparatus 201 Transmission / reception part 202 Power transmission part 203 Charging control part 204 Power supply control part 205 Battery 300 Charging apparatus 301 Transmission / reception part 302 Power transmission part 303 Charging control part 304 Power supply control part 305 Battery

Claims (14)

A charging device,
Power receiving means for receiving power transmitted from the power transmission device in a contactless manner;
A charging unit that charge the first battery using power supplied from said power receiving means,
It communicates means for communicating with the transmitting device,
Control means for performing processing for requesting power transmission to the power transmission device in response to reception of information on the amount of power that the power transmission device can supply to the charging device by the communication means;
Have
In accordance with the information received by the communication means, the control means is connected to the power transmission device and a commercial power supply, or the power transmission device is not connected to the commercial power supply and connected to a second battery. Is detected,
Wherein, when said power transmitting device detects that it is connected to the commercial power source and the second battery before Symbol not connected, can be supplied before Symbol power transmitting device the charging device power First information for setting a first power amount requested to the power transmission device based on the amount and the remaining amount of the first battery, and requesting the power transmission device to transmit the first power amount Controlling the communication means to transmit to the power transmission device,
When the control unit detects that the power transmission device is connected to the commercial power supply, the control unit transmits power to the power transmission device with a second amount of power used to fully charge the first battery. The charging device , wherein the communication unit is controlled to transmit second information for requesting to the power transmission device. 2. The charging device according to claim 1, wherein the power reception unit receives power transmitted from the power transmission device according to any one of the first information and the second information. When the control means detects that the power transmission device is not connected to the commercial power supply and is connected to the second battery, the power amount that the power transmission device can supply to the charging device; 3. The charging device according to claim 1, wherein the first power amount is set according to whether or not a sum of the remaining amount of the first battery is a predetermined value or more. 4. The control means detects the first power when the sum of the amount of power that the power transmission device can supply to the charging device and the remaining amount of the first battery is equal to or greater than the predetermined value. The charging device according to claim 3, wherein an amount of electric power used to fully charge the battery is set as the first electric energy. When the control means detects that the sum of the amount of power that the power transmission device can supply to the charging device and the remaining amount of the first battery is not equal to or greater than the predetermined value, the power transmission device The charging device according to claim 3 or 4, wherein an amount of electric power that can be supplied to the charging device is set as the first electric energy. Receiving power transmitted from the power transmission device in a contactless manner;
Charging the first battery using power transmitted from the power transmission device;
Communicating with the power transmission device;
Performing a process for requesting power transmission to the power transmission device in response to reception of information on the amount of power that can be supplied by the power transmission device from the power transmission device;
Based on the information received from the power transmission device, it detects whether the power transmission device is connected to a commercial power source or whether the power transmission device is not connected to the commercial power source and is connected to a second battery. Steps,
When it is detected that the power transmission device is not connected to the commercial power source and connected to the second battery, the amount of power that can be supplied by the power transmission device and the remaining amount of the first battery A step of setting a first power amount to be requested to the power transmission device,
A first request for transmitting power of the first amount of power to the power transmission device when it is detected that the power transmission device is not connected to the commercial power source and connected to the second battery. Transmitting the information to the power transmission device;
When it is detected that the power transmission device is connected to the commercial power supply, the power transmission device is requested to transmit power of a second amount of power used to fully charge the first battery. Transmitting second information to the power transmission device;
A charging method. Receiving power transmitted from the power transmission device in a contactless manner;
Charging the first battery using power transmitted from the power transmission device;
Communicating with the power transmission device;
Performing a process for requesting power transmission to the power transmission device in response to reception of information on the amount of power that can be supplied by the power transmission device from the power transmission device;
Based on the information received from the power transmission device, it detects whether the power transmission device is connected to a commercial power source or whether the power transmission device is not connected to the commercial power source and is connected to a second battery. Steps,
When it is detected that the power transmission device is not connected to the commercial power source and connected to the second battery, the amount of power that can be supplied by the power transmission device and the remaining amount of the first battery A step of setting a first power amount to be requested to the power transmission device,
A first request for transmitting power of the first amount of power to the power transmission device when it is detected that the power transmission device is not connected to the commercial power source and connected to the second battery. Transmitting the information to the power transmission device;
When it is detected that the power transmission device is connected to the commercial power supply, the power transmission device is requested to transmit power of a second amount of power used to fully charge the first battery. Transmitting second information to the power transmission device;
A program that causes a computer to execute. A charging device,
Power receiving means for receiving power transmitted from the power transmission device in a contactless manner;
Charging means for charging the first battery using electric power supplied from the power receiving means;
Communication means for communicating with the power transmission device;
Control means for performing processing for requesting power transmission to the power transmission device in response to reception of information on the amount of power that the power transmission device can supply to the charging device by the communication means;
Have
In accordance with the information received by the communication unit, the control unit is connected to a commercial power source, or the power transmission device is not connected to the commercial power source and connected to a second battery. Detect whether
When the control unit detects that the power transmission device is not connected to the commercial power source and is connected to the second battery, the power amount that the power transmission device can supply to the charging device and A first power amount required for the power transmission device is set by a first process for setting a power amount required for the power transmission device based on a remaining amount of the first battery, and the first power amount Controlling the communication means to transmit to the power transmission device first information for requesting the power transmission device to transmit power;
When the control unit detects that the power transmission device is connected to the commercial power supply, the control unit sets a second power amount to be requested to the power transmission device by a second process different from the first process. The charging device controls the communication means to transmit second information for requesting the power transmission device to transmit the second amount of power to the power transmission device. The charging device according to claim 8, wherein the power receiving unit receives power transmitted from the power transmission device according to any one of the first information and the second information. The control means determines whether the first power amount depends on whether the sum of the power amount that the power transmission device can supply to the charging device and the remaining amount of the first battery is equal to or greater than a predetermined value. The charging device according to claim 8 or 9, wherein the setting is performed. The control means detects the first power when the sum of the amount of power that the power transmission device can supply to the charging device and the remaining amount of the first battery is equal to or greater than the predetermined value. The charging device according to claim 10, wherein an amount of electric power used to fully charge a battery is set as the first electric energy. When the control means detects that the sum of the amount of power that the power transmission device can supply to the charging device and the remaining amount of the first battery is not equal to or greater than the predetermined value, the power transmission device The charging device according to claim 10 or 11, wherein an amount of electric power that can be supplied to the charging device is set as the first electric energy. Receiving power transmitted from the power transmission device in a contactless manner;
Charging the first battery using power supplied from the power transmission device;
Communicating with the power transmission device;
Performing a process for requesting power transmission to the power transmission device in response to reception of information on the amount of power that can be supplied by the power transmission device from the power transmission device;
Based on the information received from the power transmission device, it detects whether the power transmission device is connected to a commercial power source or whether the power transmission device is not connected to the commercial power source and is connected to a second battery. Steps,
When it is detected that the power transmission device is not connected to the commercial power source and connected to the second battery, the amount of power that can be supplied by the power transmission device and the remaining amount of the first battery Setting a first power amount to be requested to the power transmission device by a first process for setting the power amount to be requested to the power transmission device based on;
A first request for transmitting power of the first amount of power to the power transmission device when it is detected that the power transmission device is not connected to the commercial power source and connected to the second battery. Transmitting the information to the power transmission device;
When it is detected that the power transmission device is connected to the commercial power supply, a step of setting a second power amount to be requested to the power transmission device by a second process different from the first process;
Transmitting to the power transmission device second information for requesting the power transmission device to transmit the second amount of power when it is detected that the power transmission device is connected to the commercial power source;
A charging method characterized by comprising: Receiving power transmitted from the power transmission device in a contactless manner;
Charging the first battery using power supplied from the power transmission device;
Communicating with the power transmission device;
Performing a process for requesting power transmission to the power transmission device in response to reception of information on the amount of power that can be supplied by the power transmission device from the power transmission device;
Based on the information received from the power transmission device, it detects whether the power transmission device is connected to a commercial power source or whether the power transmission device is not connected to the commercial power source and is connected to a second battery. Steps,
When it is detected that the power transmission device is not connected to the commercial power source and connected to the second battery, the amount of power that can be supplied by the power transmission device and the remaining amount of the first battery Setting a first power amount to be requested to the power transmission device by a first process for setting the power amount to be requested to the power transmission device based on;
A first request for transmitting power of the first amount of power to the power transmission device when it is detected that the power transmission device is not connected to the commercial power source and connected to the second battery. Transmitting the information to the power transmission device;
When it is detected that the power transmission device is connected to the commercial power supply, a step of setting a second power amount to be requested to the power transmission device by a second process different from the first process;
Transmitting to the power transmission device second information for requesting the power transmission device to transmit the second amount of power when it is detected that the power transmission device is connected to the commercial power source;
A program that causes a computer to execute.

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