JP2020089029A - Electronic apparatus and control method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To request an appropriate electric power from a power supply device even when the electric power required by the electronic device from the power supply device changes depending on the result of a battery authentication process. An electronic device includes a power supply control means for controlling power supplied from a power supply device, a charging means for charging a battery with the power supplied from the power supply device, and whether or not the battery is a predetermined battery. If the power supply control means has a battery authentication means for performing an authentication process for determining whether or not the power supply device starts supplying power before the authentication process is completed, the power supply control means does not charge the battery. When the power supply device is controlled to request the electric power required for driving the load unit of the electronic device and the authentication process is completed, the power supply control means determines the result of the authentication process. Control is performed to request the corresponding power from the power feeding device. [Selection diagram] Fig. 1

Description

The present invention relates to an electronic device capable of charging a battery, a control method thereof, and the like.

Electronic devices such as digital cameras have an interface compliant with the USB (Universal Serial Bus) standard as an interface with external devices. Such an electronic device performs data communication with an external device via the USB, operates the electronic device using electric power supplied from the external device via the USB, or is supplied from the external device via the USB. The power can be used to charge the battery. At present, there is a USB PD (Power Delivery) standard as a standard for power supply by USB. According to the USB PD standard, the power receiving device can specify a power of up to 100 W and the power required for the power feeding device.

On the other hand, a portable electronic device such as a digital camera usually operates with electric power from a rechargeable battery. Patent Document 1 describes using a battery authentication function to safely charge a battery.

JP, 2017-73951, A

In an electronic device having a battery authentication function, battery authentication of a connection battery is performed, charging is performed if the connection battery is an authentication battery, and charging is not performed for safety if the connection battery is a non-authentication battery. Therefore, when the electronic device is powered and charged via the USB, the power required by the electronic device for the power device changes depending on the result of the battery authentication process. However, if the battery authentication of the connected battery takes time, there is a possibility that the power required by the power feeding device cannot be determined early.

Therefore, an object of the present invention is to make it possible to request an appropriate amount of power to a power feeding device even when the power required by the electronic device for the power feeding device changes depending on the result of the battery authentication process.

An electronic device according to the present invention includes a power supply control unit that controls power supplied from a power supply device, a charging unit that charges a battery with the power supplied from the power supply device, and whether or not the battery is a predetermined battery. If the power supply from the power supply device starts before the authentication processing is completed, the power supply control means does not charge the battery. The control for requesting the power supply device to supply the power required when the load unit of the electronic device is driven, and when the authentication process is completed, the power supply control unit displays the result of the authentication process. The control for requesting the corresponding power from the power feeding device is performed.

A control method according to the present invention includes a power supply control unit that controls power supplied from a power supply device, a charging unit that charges a battery with the power supplied from the power supply device, and whether or not the battery is a predetermined battery. A method of controlling an electronic device having a battery authentication means for performing an authentication process for determining whether the battery is charged when power supply from the power supply device starts before the authentication process is completed. The control for requesting the power supply device to supply the power required to drive the load section of the electronic device without performing the control is performed, and when the authentication process is completed, the power according to the result of the authentication process. Is requested to the power supply device.

The program according to the present invention causes a computer to control power supplied from a power supply device, power supply control means, charging means for charging a battery with the power supplied from the power supply device, and the battery is a predetermined battery. It is a program for functioning as a battery authentication means for performing an authentication process for determining whether or not the power supply device starts power supply before the authentication process is completed. Without performing the control for requesting the power supply device the power required when driving the load section of the electronic device, when the authentication process is completed, the power according to the result of the authentication process. The computer is caused to perform control for requesting the power supply device.

According to the present invention, appropriate power can be requested to the power supply device even when the power required by the electronic device for the power supply device changes depending on the result of the battery authentication process.

3 is a block diagram for explaining an example of components of the electronic device 100 according to the first embodiment. FIG. 6 is a flowchart for explaining an example of control processing performed by electronic device 100. It is an example of a combination of voltage and current that can be supplied from the power feeding apparatus 200.

Embodiments of the present invention will be described below with reference to the drawings. However, the present invention is not limited to the following embodiments.

[Embodiment 1]
FIG. 1 is a block diagram for explaining an example of components of the electronic device 100.

The electronic device 100 is, for example, an imaging device that can operate as a digital camera. However, the electronic device 100 is not limited to the imaging device, and may be a mobile device that operates as a mobile phone.

The USB connector 101 is a USB Type-C connector that complies with the USB PD standard, and is connected to the power supply device 200 by a USB Type-C cable. Further, a CC terminal used for communication between devices conforming to the USB PD standard is provided, and PD communication can be performed. Further, data communication can be performed by the SSTX, SSRX, and D terminals, and power can be received by the Vbus terminal.

The power supply control unit 102 supplies power to the power supply control unit 103 and the charge control unit 106 according to an instruction from the system control unit 107.

The power supply control unit 103 controls power supply to the load unit 104 according to an instruction from the system control unit 107.

The load unit 104 has a circuit group for providing the user with various functions of the electronic device 100. For example, in the case of a digital camera, the load unit 104 includes an image sensor, an image processing circuit, a display, and the like. Further, the load unit 104 may include a data communication unit for transmitting or receiving image data via USB.

The PD communication unit 105 is a communication unit that communicates with the power supply apparatus 200, detects the connection of the USB Type-C cable, and performs communication regarding the supplied power.

The charge control unit 106 charges the battery 300 according to an instruction from the system control unit 107.

The system control unit 107 is a control unit that controls each component of the electronic device 100, and includes, for example, a CPU (Central Processing Unit) and a flash memory that stores a program.

The battery authentication unit 108 communicates with the battery 300 and performs a battery authentication process for determining whether the battery 300 is a regular battery (corresponding to a predetermined battery). Further, the battery authentication unit 108 has a memory for storing authentication result information indicating the result of the battery authentication process.

The power feeding device 200 is, for example, a personal computer, and performs various communications and power supply with the electronic device 100 via a USB Type-C cable.

The battery 300 is a battery that can be removed from the electronic device 100, and has an authentication IC (Integrated Circuit) for battery authentication.

FIG. 2 is a flowchart for explaining an example of the control process performed by electronic device 100.

In step S201, the system control unit 107 detects that the power supply device 200 is connected via the USB connector 101 and the PD communication unit 105. When the connection with the power feeding device 200 is detected, the process proceeds to step S202.

In step S202, the PD communication unit 105 receives list information including a plurality of combinations of voltages and currents that can be supplied from the power supply apparatus 200. FIG. 3 shows an example of combinations of voltage and current that can be supplied from the power supply equipment 200. The numbers shown in FIG. 3 are numbers for designating one of the combinations of voltage and current when the electronic device 100 requests the power supply device 200 to supply power.

Returning to FIG. 2, in step S203, the system control unit 107 instructs the battery authentication unit 108 to start the battery authentication process for determining whether or not the battery 300 is an authorized battery.

In step S204, the system control unit 107 determines whether the battery authentication process of the battery authentication unit 108 is completed. If the battery authentication process is completed, the process proceeds to step S208, and if the battery authentication process is not completed, the process proceeds to step S205.

In step S205, the system control unit 107 determines the combination of voltage and current required to drive the load unit 104 without charging the battery 300. Next, the system control unit 107 selects a combination of voltage and current that can supply the determined voltage and current, from the combinations of voltage and current included in the list information received in step S202. For example, when it is determined that the combination of voltage and current required to drive the load unit 104 without charging the battery 300 is 9 V and 3 A, the system control unit 107 selects No. 2. No. 2 is notified to the power supply device 200 via the PD communication unit 105.

In step S<b>206, the system control unit 107 controls the power supply device 200 to supply the electric power whose power supply is started to the load unit 104 via the power supply control unit 102 and the power supply control unit 103. By supplying power to the load unit 104, various functions of the electronic device 100 can be used.

In step S207, the system control unit 107 determines whether the battery authentication processing of the battery authentication unit 108 is completed. If the battery authentication process is completed, the process proceeds to step S208, and if the battery authentication process is not completed, the process returns to step S207.

In step S208, the system control unit 107 acquires the result of the battery authentication processing from the battery authentication unit 108. The system control unit 107 determines whether the battery 300 is an authorized battery based on the result acquired from the battery authentication unit 108. When the result obtained from the battery authentication unit 108 indicates that the battery authentication process is successful, the system control unit 107 determines that the battery 300 is an authorized battery. When the result obtained from the battery authentication unit 108 indicates that the battery authentication process has failed, the system control unit 107 determines that the battery 300 is not a regular battery. When it is determined that the battery 300 is an authorized battery, the system control unit 107 permits charging of the battery 300 and proceeds to step S209. When it is determined that the battery 300 is not an authorized battery, the system control unit 107 prohibits charging of the battery 300 and proceeds to step S211.

In step S209, the system control unit 107 determines a combination of voltage and current required to drive the load unit 104 and charge the battery 300. However, charging of the battery 300 is not started until step S210 is performed. Next, the system control unit 107 selects a combination of voltage and current that can supply the determined voltage and current, from the combinations of voltage and current included in the list information received in step S202. For example, when it is determined that the combination of voltage and current required to drive the load unit 104 and charge the battery 300 is 15V and 3A, the system control unit 107 selects No. 3 and selects it. The notified No. 3 is notified to the power supply device 200 via the PD communication unit 105. The power calculated from the combination of the voltage and the current selected in step S209 (for example, 15V×3A=45W) is the power calculated from the combination of the voltage and the current selected in step S205 or S211 (for example, 9V× 3A=27W).

In step S210, the system control unit 107 controls the power supply control unit 102 and the charge control unit 106 so that the battery 300 is charged.

In step S211, the system control unit 107 determines the combination of voltage and current required to drive the load unit 104 without charging the battery 300. Next, the system control unit 107 selects a combination of voltage and current that can supply the determined voltage and current, from the combinations of voltage and current included in the list information received in step S202. For example, when it is determined that the combination of voltage and current required to drive the load unit 104 without charging the battery 300 is 9 V and 3 A, the system control unit 107 selects No. 2. No. 2 is notified to the power supply device 200 via the PD communication unit 105.

In step S212, the system control unit 107 supplies power to the load unit 104 and determines whether or not the entire electronic device 100 has started operating. When it is determined that the entire electronic device 100 has started operation, the flowchart of FIG. 2 ends. If the entire electronic device 100 has not started operation yet, the process proceeds to step S213.

In step S<b>213, the system control unit 107 controls the power supply device 200 to supply the electric power whose power supply is started to the load unit 104 via the power supply control unit 102 and the power supply control unit 103.

As described above, according to the electronic device 100 of the first embodiment, before the battery authentication is completed, the minimum level of power required to drive the load unit 104 without charging the battery 300 ( For example, 9 V×3 A=27 W) can be requested to the power feeding device 200. As a result, the electronic device 100 can quickly secure the power required to operate the entire electronic device 100 regardless of the result of the battery authentication process. Furthermore, the electronic device 100 can bring the electronic device 100 into the usable state immediately after the power supply from the power supply device 200 is started without waiting for the result of the battery authentication process. After the battery authentication process is performed, the power required to charge the battery 300 can be received, and thus the power consumption until the result of the battery authentication process can be reduced.

The embodiment of the present invention is not limited to the above-described first embodiment. Embodiment 1 changed or modified without departing from the scope of the invention is also included in the embodiment of the present invention.

[Embodiment 2]
The various functions, processes, or methods described in the first embodiment can be realized by a personal computer, a microcomputer, a CPU (central processing unit), a processor, or the like using a program. Hereinafter, in the second embodiment, a personal computer, a microcomputer, a CPU (central processing unit), a processor and the like will be referred to as “computer X”. Further, in the second embodiment, a program for controlling the computer X, which is a program for realizing the various functions, processes, or methods described in the first embodiment, is called a “program Y”.

The various functions, processes, or methods described in the first embodiment are realized by the computer X executing the program Y. In this case, the program Y is supplied to the computer X via a computer-readable storage medium. The computer-readable storage medium according to the second embodiment includes at least one of a hard disk device, a magnetic storage device, an optical storage device, a magneto-optical storage device, a memory card, a volatile memory, a non-volatile memory, and the like. The computer-readable storage medium according to the second embodiment is a non-transitory storage medium.

100 Electronic Equipment 101 USB Connector 102 Power Supply Control Section 106 Charging Control Section 107 System Control Section 108 Battery Authentication Section 200 Power Supply Equipment 300 Battery

Claims (6)

Power supply control means for controlling the power supplied from the power supply device,
Charging means for charging the battery with the electric power supplied from the power supply device,
A battery authenticating means for performing an authentication process for determining whether or not the battery is a predetermined battery,
When the power supply from the power supply device starts before the authentication process is completed, the power supply control unit supplies the power required to drive the load unit of the electronic device without charging the battery. Performs control for requesting the power supply device,
The electronic device, wherein when the authentication process is completed, the power supply control means performs control for requesting the power supply device to supply power according to the result of the authentication process. The power supply control unit requests the power supply device via a USB (Universal Serial Bus) for power required to drive a load section of the electronic device without charging the battery. The electronic device according to claim 1. When it is determined by the authentication processing that the battery is the predetermined battery, the power feeding control unit supplies the power required for charging the battery and driving the load section of the electronic device. The electronic device according to claim 1, wherein the electronic device performs control for requesting the power feeding device. When it is not determined that the battery is the predetermined battery by the authentication process, the power supply control unit is necessary when driving the load unit of the electronic device without charging the battery. The electronic device according to any one of claims 1 to 3, wherein control is performed to request electric power from the power supply device. Power supply control means for controlling the power supplied from the power supply device,
Charging means for charging the battery with the electric power supplied from the power supply device,
A control method for an electronic device, comprising: a battery authentication unit that performs an authentication process for determining whether or not the battery is a predetermined battery,
When the power supply from the power supply device starts before the authentication process is completed, the power supply device is requested to supply the power required to drive the load unit of the electronic device without charging the battery. Control to
When the authentication process is completed, control for requesting the power supply device to supply power according to the result of the authentication process is performed. Computer,
Power supply control means for controlling the power supplied from the power supply device,
Charging means for charging the battery with the electric power supplied from the power supply device,
A program for functioning as a battery authentication means for performing an authentication process for determining whether or not the battery is a predetermined battery,
When the power supply from the power supply device starts before the authentication process is completed, the power supply device is requested to supply the power required to drive the load unit of the electronic device without charging the battery. Control to
A program for causing the computer to perform control for requesting the power supply device to supply power according to the result of the authentication process when the authentication process is completed.

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