JP6963060B2 - Power receiving device, program and contactless power supply system - Google Patents

Description

Embodiments of the present invention relate to power receiving devices, programs and contactless power supply systems.

Conventionally, as a power supply method for operating an electronic device, a method of supplying power from the outside by wire and a method of supplying power from a built-in battery are mainly adopted. In recent years, non-contact power feeding technology that applies physical phenomena such as electromagnetic induction and magnetic resonance has appeared. By equipping the electronic device with a power receiving device compatible with this non-contact power feeding technology, it is possible to supply power without a cable. Further, in recent years, electronic devices equipped with wireless communication functions such as wireless LAN and Bluetooth (registered trademark) have become widespread, and the number of cases where the above power receiving device is installed in order to realize complete cableless operation is increasing. There is.

By the way, a cableless electronic device has an advantage that it can be used in a relatively free position because there is no cable. However, because of its advantages, it can be easily taken away, and there is a concern that it may be stolen by a third party. Therefore, even if an electronic device is taken away by a third party, a technology capable of preventing the electronic device from being used illegally is desired.

An object to be solved by the present invention is to provide a power receiving device, a program, and a contactless power supply system capable of preventing unauthorized use of an electronic device.

The power receiving device of the embodiment is a power receiving device mounted on an electronic device, and includes a power receiving means, a supply means, an acquisition means, a determination means, a notification means, and a power control means . The power receiving means receives power supplied from the power feeding device in a non-contact manner. The supply means supplies the electric power received by the power receiving means to the power load unit of the electronic device or the secondary battery mounted on the electronic device. The acquisition means acquires identification information that identifies the power supply device from the power supply device. When the identification information acquired by the acquisition means matches the preset identification information, the determination means determines that the power supply device is a regular power supply device, and the identification information acquired by the acquisition means is preset. If it does not match the identified identification information, it is determined that the power feeding device is a non-genuine power feeding device. The notification means notifies when the determination means determines that the power feeding device is non-regular. When the determination means determines that the power supply device is a non-regular power supply device, the power control means drives the notification means by using the power received by the power receiving means from the non-regular power supply device. Further, when the determination means determines that the power supply device is a non-regular power supply device, the power control means transmits a command for starting power supply to the power receiving means to the power supply device, and the command is used to transmit the command. The electric power received by the power receiving means is supplied to the notification means.

FIG. 1 is a diagram showing an example of a configuration of a non-contact power supply system according to an embodiment. FIG. 2 is a diagram showing an example of the functional configuration of the power receiving controller according to the embodiment. FIG. 3 is a flowchart showing an example of the power receiving control process executed by the power receiving device of the embodiment. FIG. 4 is a flowchart showing another example of the power receiving control process executed by the power receiving device of the embodiment.

Hereinafter, embodiments of the power receiving device and the program will be described in detail with reference to the accompanying drawings. It should be noted that the embodiment described below is an embodiment of the power receiving device and the program, and does not limit the configuration, specifications, and the like.

FIG. 1 is a diagram showing an example of a configuration of a non-contact power supply system according to an embodiment. As shown in FIG. 1, the non-contact power feeding system 1 includes a power feeding device 10 and an electronic device 20.

The power feeding device 10 is a non-contact power feeding device capable of performing power feeding (power transmission) in a non-contact manner. The electronic device 20 is, for example, an electronic device such as a printer, a code scanner, or a display device used in a store. Further, the electronic device 20 is equipped with a power receiving device 30, which will be described later, capable of receiving electric power supplied from the power feeding device 10. The electronic device 20 operates by the electric power received by the power receiving device 30. The non-contact power feeding method of the power feeding device 10 is not particularly limited, and for example, an electromagnetic induction method, an electromagnetic field resonance method, a radio wave method, or the like may be used.

As shown in FIG. 1, the power feeding device 10 includes a power feeding device 11, a power feeding controller 12, an antenna 13, a wireless controller 14, and a storage unit 15.

The power feeding device 11 has a device for supplying power in a non-contact manner. The power feeding device 11 and the power feeding controller 12 are assumed to have devices (coils, resonators, etc.) conforming to the non-contact power feeding method to be adopted. The power supply controller 12 is a controller for controlling power supply by the power supply device 11.

The antenna 13 is a wireless antenna for performing wireless communication. The wireless controller 14 is a controller that controls wireless communication by the antenna 13. In FIG. 1, the antenna 13 and the wireless controller 14 are individually provided, but the present invention is not limited to this. For example, the coil included in the power feeding device 11 may function as the antenna 13, or the power feeding controller 12 may have the function of the wireless controller 14.

The storage unit 15 is a non-volatile storage medium and stores various types of information. In the present embodiment, the storage unit 15 stores the identification information of the own device. Here, the identification information is information for identifying an individual or a product of the power feeding device 10. As the identification information, for example, the serial number of the power feeding device 10, the product code, or the like can be used. Further, the storage unit 15 may store specifications and the like related to power supply as setting information.

In the power supply device 10 having the above configuration, the operation when starting power supply is, for example, as follows. First, when the electronic device 20 exists in the power supply available area of the power feeding device 11, the wireless controller 14 transmits the identification information stored in the storage unit 15 to the electronic device 20 via the antenna 13. When the power supply request command is received from the power supply device 10 after the identification information is transmitted, the power supply controller 12 starts power supply (main power supply) to the electronic device 20 by controlling the power supply device 11. Before starting the main power supply to the electronic device 20, the power supply controller 12 supplies a small amount of electric power capable of operating the power receiving device 30 described later to the electronic device 20 (test power supply). This test power supply causes the power receiving device 30 to operate.

On the other hand, as shown in FIG. 1, the electronic device 20 includes a power load unit 21 and a power receiving device 30.

The power load unit 21 is a functional unit for realizing the main function of the electronic device 20, and operates by the electric power supplied from the power receiving device 30. For example, when the electronic device 20 is a printer, the power load unit 21 corresponds to a printer engine, a printer controller, or the like for realizing the printer function.

The power receiving device 30 includes a power receiving device 31, a power receiving controller 32, an antenna 33, a wireless controller 34, a storage unit 35, and a notification unit 36.

The power receiving device 31 has a device for receiving electric power supplied from the power feeding device 10. Further, the power receiving device 31 has a device for supplying the received power to the power load unit 21. The power receiving device 31 is assumed to have a device (coil, rectifier, etc.) conforming to the non-contact power feeding method to be adopted.

The power receiving controller 32 is a controller that controls power receiving and power supply by the power receiving device 31. Specifically, the power receiving controller 32 starts the power supply of the power feeding device 10 by transmitting a power supply request command to the power feeding device 10 via the wireless controller 34. It is assumed that the supply line for supplying electric power from the power receiving device 31 to the electric power load unit 21 is provided with a switch element or the like (not shown) for turning on or off the electric power supply.

The antenna 33 is a wireless antenna for performing wireless communication. The wireless controller 34 is a controller that controls wireless communication by the antenna 33. In FIG. 1, the antenna 33 and the wireless controller 34 are individually provided, but the configuration is not limited to this. For example, the coil included in the power receiving device 31 may function as the antenna 33, or the power receiving controller 32 may have the function of the wireless controller 34.

The storage unit 35 is a non-volatile storage medium and stores various types of information. In the present embodiment, the storage unit 35 stores the identification information of the power feeding device 10 (hereinafter, referred to as a regular power feeding device 10) that is permitted to receive power. Here, it is assumed that the regular power supply device 10 can be arbitrarily determined, but for example, the power supply device 10 installed in the same store as the power receiving device 30 is the same as the power supply device 10 that is normally used. It is preferable to do so. In this case, the power supply device 10 outside the store is a non-regular power supply device 10. The number of identification information (regular power feeding device 10) stored in the storage unit 35 is not particularly limited and may be a plurality.

The notification unit 36 is a notification device for performing notification. For example, the notification unit 36 may be an audio output device such as a speaker or a buzzer, a light emitting device such as an indicator lamp, or a display device such as a liquid crystal display. Further, the notification unit 36 may be a communication device that transmits notification information to a predetermined external device.

Further, the power receiving controller 32 described above has each functional unit shown in FIG. Here, FIG. 2 is a diagram showing an example of the functional configuration of the power receiving controller 32.

As shown in FIG. 2, the power receiving controller 32 includes an identification information acquisition unit 321, a power supply side identification unit 322, a power control unit 323, and a notification control unit 324 as functional units. These functional units may have a hardware configuration realized by a dedicated circuit or the like, or a software configuration realized by collaboration between a processor and a predetermined program.

The identification information acquisition unit 321 acquires the identification information transmitted from the power feeding device 10. The power feeding side identification unit 322 compares the identification information acquired by the identification information acquisition unit 321 with the identification information stored in the storage unit 35, and determines whether or not the matching identification information exists in the storage unit 35. .. When the power feeding side identification unit 322 determines that it exists, the power feeding device 10 of the power feeding source is identified as a regular power feeding device 10. Further, when it is determined that the power feeding side identification unit 322 does not exist, the power feeding device 10 of the power feeding source is identified as the non-regular power feeding device 10.

The power control unit 323 is a functional unit that controls power reception by the power receiving device 31 and power supply to each unit. Specifically, when the power supply side identification unit 322 identifies the power supply side identification unit 322 as a regular power supply device 10, the power control unit 323 controls the wireless controller 34 to cause the power supply device 10 to transmit a power supply request command. As a result, the power supply device 10 starts power supply, so that the power control unit 323 supplies the power received by the power receiving device 31 to the power load unit 21.

Further, the power control unit 323 controls so that the power (driving power) is not supplied to the power load unit 21 when the power supply side identification unit 322 identifies the non-regular power supply device 10. Here, the power control unit 323 executes one of the following two control methods as control when the power supply device 10 is non-regular.

The first control method is to suppress the power feeding operation of the power feeding device 10 (or the power receiving operation of the own device). In the case of the present embodiment, the power control unit 323 controls the power supply device 10 so as not to perform the power supply operation by suppressing the transmission of the power supply request command. As a result, the power is not supplied to the power load unit 21, so that the operation of the power load unit 21 can be suppressed.

The second control method is to suppress the electric power supplied from the power supply device 10 from being supplied to the power load unit 21. In this case, the power control unit 323 controls the power supply unit 21 so that the power is not supplied to the power load unit 21 after the power supply from the power supply device 10 is started by transmitting the power supply request command. For example, the power control unit 323 suppresses the power supply to the power load unit 21 by switching off the switch element provided in the supply line to the power load unit 21. As a result, the power is not supplied to the power load unit 21, so that the operation of the power load unit 21 can be suppressed. In the case of this control method, the power control unit 323 may control the power supplied from the power supply device 10 to be used as the drive power of the notification unit 36. This makes it possible to perform notification using the notification unit 36 having a larger power load.

The notification control unit 324 is a functional unit that controls the operation of the notification unit 36. Specifically, when the power feeding side identification unit 322 identifies the power feeding device 10 as a regular power feeding device 10, the notification control unit 324 puts the notification unit 36 in a non-operating state. Further, the notification control unit 324 controls the notification unit 36 to perform notification when the power supply side identification unit 322 identifies the non-regular power supply device 10. It is assumed that the notification content to be notified to the notification unit 36 can be arbitrarily set. For example, when the notification unit 36 is a voice output device or a display device, a warning message accusing theft or unauthorized use may be output. Further, when the notification unit 36 is a communication device, notification information may be transmitted to inform that there is a possibility of theft.

Hereinafter, the operation of the electronic device 20 (power receiving device 30) having the above-described configuration will be described with reference to FIGS. 3 and 4.

First, an operation example based on the above-described first control method will be described with reference to FIG. Here, FIG. 3 is a flowchart showing an example of the power receiving control process executed by the power receiving device 30.

When the electronic device 20 is arranged in the power supply enable area of the power supply device 10 and the power reception device 30 is activated, the identification information acquisition unit 321 acquires the identification information transmitted from the power supply device 10 via the wireless controller 34 (step). S11). Next, the power feeding side identification unit 322 identifies whether or not the power feeding source is the regular power feeding device 10 by comparing the identification information acquired in step S11 with the identification information stored in the storage unit 35 ( Step S12).

When the power supply device 10 is identified as a regular power supply device 10 in step S12 (step S12; Yes), the power control unit 323 causes the power supply device 10 to transmit a power supply request command by controlling the wireless controller 34 (step S13). Next, the power control unit 323 controls to supply the power supplied from the power supply device 10 to the power load unit 21 (step S14), and ends this process.

On the other hand, when the non-regular power supply device 10 is identified in step S12 (step S12; No), the power control unit 323 suppresses the transmission of the power supply request command (step S15). Further, the notification control unit 324 uses the notification unit 36 to perform notification (step S16), and ends this process.

Next, an operation example based on the above-described second control method will be described with reference to FIG. Here, FIG. 4 is a flowchart showing another example of the power receiving control process executed by the power receiving device 30. Since steps S21 to S24 are the same as steps S11 to S14 described above, the description thereof will be omitted.

When it is identified as a non-genuine power supply device 10 in step S22 (step S22; No), the power control unit 323 causes the power supply device 10 to transmit a power supply request command by controlling the wireless controller 34 (step S25). .. Next, the power control unit 323 turns off the power supply to the power load unit 21 (step S26). Subsequently, the notification control unit 324 performs notification using the notification unit 36 that operates with the electric power supplied from the power feeding device 10 (step S27), and ends this process.

As described above, according to the electronic device 20 (power receiving device 30) of the present embodiment, when power is supplied by the non-regular power feeding device 10, the first control method or the second control method described above is used. The power supply to the power load unit 21 is suppressed. As a result, even if the electronic device 20 is taken away by a third party, the power load unit 21 does not operate except for the regular power supply device 10, so that unauthorized use can be prevented. Further, according to the electronic device 20 (power receiving device 30) of the present embodiment, it is possible to notify when power is received by the non-regular power feeding device 10, so that, for example, a warning or the like is given to a person who has stolen. Can be done.

Although the embodiments of the present invention have been described above, the above-described embodiments are presented as examples and are not intended to limit the scope of the invention. This embodiment can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the gist of the invention. This embodiment and its modifications are included in the scope and gist of the invention, and are also included in the scope of the invention described in the claims and the equivalent scope thereof.

For example, the electronic device 20 may be configured to include a secondary battery for storing the electric power supplied from the power receiving device 30. In this case, the power control unit 323 is configured to supply the power supplied from the power supply device 10 to the power load unit 21 and the secondary battery when the power supply side identification unit 322 identifies the power supply side identification unit 322 as a regular power supply device 10. On the other hand, in the case of the non-regular power supply device 10, the power control unit 323 performs the first control method or the second control method described above, and controls so that the power supply to the secondary battery is turned off. For example, by turning off the switch element provided in the supply line to the secondary battery, the power control unit 323 suppresses the power supply to the secondary battery. As a result, since the secondary battery cannot be charged by the non-genuine power supply device 10, unauthorized use of the electronic device 20 can be prevented.

The program executed by the power receiving device 30 of the above embodiment is provided by being incorporated in the storage medium (storage unit 35) included in the power receiving device 30 in advance, but is not limited to this, and is in an installable format or can be executed. The format file may be configured to be recorded and provided on a computer-readable recording medium such as a CD-ROM, a flexible disk (FD), a CD-R, or a DVD (Digital Versatile Disk). Further, the storage medium is not limited to a medium independent of a computer or an embedded system, but also includes a storage medium in which a program transmitted by a LAN, the Internet, or the like is downloaded and stored or temporarily stored.

Further, the program executed by each device of the above embodiment may be stored on a computer connected to the network and provided by downloading via the network, or may be provided via a network such as the Internet. It may be configured to be distributed.

10 Power supply device 20 Electronic equipment 21 Power load unit 30 Power receiving device 31 Power receiving device 32 Power receiving controller 33 Antenna 34 Wireless controller 35 Storage unit 36 Notification unit 321 Identification information acquisition unit 322 Power supply side identification unit 323 Power control unit 324 Notification control unit

Japanese Unexamined Patent Publication No. 2012-75302

Claims (5)

A power receiving device installed in electronic devices
A power receiving means that receives power that is non-contactly supplied from the power supply device, and
A supply means for supplying the electric power received by the power receiving means to the power load unit of the electronic device or the secondary battery mounted on the electronic device.
An acquisition means for acquiring identification information for identifying the power supply device from the power supply device, and
When the identification information acquired by the acquisition means matches the preset identification information, it is determined that the power supply device is a legitimate power supply device, and the identification information acquired by the acquisition means is preset identification information. When the information is inconsistent with, the determination means for determining that the power supply device is a non-genuine power supply device, and
A notification means that notifies when the determination means determines that the power supply device is non-regular, and
When the determination means determines that the power supply device is non-regular, the power control means for driving the notification means by using the power received by the power receiving means from the non-regular power supply device.
With
When the determination means determines that the power supply device is a non-regular power supply device, the power control means transmits a command for starting power supply to the power receiving means to the power supply device, and the power reception means receives the power by the command. A power receiving device that supplies the electric power received by the means to the notification means. The power receiving device according to claim 1, wherein the power control means controls the power supply means so that power is not supplied to the power load unit or the secondary battery when the determination means determines that the power supply device is a non-regular power supply device. .. Said power control means, when said determination means determines that the non-regular power supply device, so that the power the power receiving means is powered by the previous SL command is not supplied to the power load portion or said secondary battery, said supply The power receiving device according to claim 1 or 2 , which controls the means. A power receiving means mounted on an electronic device and receiving power non-contactly supplied from a power feeding device, and a power receiving means received by the power receiving means are applied to a power load unit of the electronic device or a secondary battery mounted on the electronic device. A computer of a power receiving device equipped with a supply means for supplying,
An acquisition means for acquiring identification information for identifying the power supply device from the power supply device, and
When the identification information acquired by the acquisition means matches the preset identification information, it is determined that the power supply device is a legitimate power supply device, and the identification information acquired by the acquisition means is preset identification information. When the information is inconsistent with, the determination means for determining that the power supply device is a non-genuine power supply device, and
A notification means that notifies when the determination means determines that the power supply device is non-regular, and
When the determination means determines that the power supply device is non-regular, the power control means for driving the notification means by using the power received by the power receiving means from the non-regular power supply device.
To make it work
When the determination means determines that the power supply device is a non-regular power supply device, the power control means transmits a command for starting power supply to the power receiving means to the power supply device, and the power reception means receives the power by the command. A program that supplies the electric power received by the means to the notification means. A non-contact power supply system including a power receiving device mounted on an electronic device and a power feeding device.
The power receiving device is
A power receiving means for receiving power supplied from the power feeding device in a non-contact manner, and
A supply means for supplying the electric power received by the power receiving means to the power load unit of the electronic device or the secondary battery mounted on the electronic device.
An acquisition means for acquiring identification information for identifying the power supply device from the power supply device, and
When the identification information acquired by the acquisition means matches the preset identification information, it is determined that the power supply device is a legitimate power supply device, and the identification information acquired by the acquisition means is preset identification information. When there is a discrepancy with, the determination means for determining that the power supply device is a non-genuine power supply device, and
A notification means that notifies when the determination means determines that the power supply device is non-regular, and
When the determination means determines that the power supply device is non-regular, the power control means for driving the notification means by using the power received by the power receiving means from the non-regular power supply device.
With
When the determination means determines that the power supply device is a non-regular power supply device, the power control means transmits a command for starting power supply to the power receiving means to the power supply device, and the power reception means receives the power by the command. A non-contact power supply system that supplies the electric power received by the means to the notification means.

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