JP2021072674A - Imaging apparatus and accessory device - Google Patents

Abstract

To provide an imaging apparatus and an accessory device capable of effectively utilizing power of a battery pack of the imaging apparatus by charging a battery pack of the external accessory device with power remaining in the battery pack of the imaging apparatus after using the imaging apparatus.SOLUTION: An imaging apparatus 100 has connection means (connectors) 110, 111 connectable to external accessory devices 200, 300 having batteries, power supply means for supplying power to the external accessory devices connected to the connection means, and control means for controlling the power supply means so as to supply power to the external accessory devices connected to the connection means from a battery of the imaging apparatus. The control means controls the power supply means to supply power to external accessory devices connected to the connection means and selected by a user.SELECTED DRAWING: Figure 2

Description

The present invention relates to an accessory device having a battery and an imaging device to which the accessory device can be connected.

An imaging device such as a digital camera can be used by connecting a charged battery pack. The battery pack consumes power due to a minute current flowing through the circuit even when the image pickup device is not used. Therefore, if the image pickup device is used without using up all the power of the battery pack, the power remaining in the battery pack will be lost.

On the other hand, strobe devices, battery grips, and the like are known as external accessory devices used by connecting to an image pickup device. As this type of external accessory device, a so-called general-purpose accessory device that can be used with a plurality of types of imaging devices is known. The general-purpose accessory device can be used by connecting it to one image pickup device, removing it, and connecting it to the other image pickup device. In that case, the electric power remaining in the battery pack of the image pickup device that has been used up may be transferred to the external accessory device and used as the electric power for driving the external accessory device, so that the electric power can be effectively used. It will be possible.

Patent Document 1 describes a method of supplying power to a device connected to an interface capable of supplying power even when a power-off instruction is given when the device has a rechargeable battery. Is described.

Japanese Unexamined Patent Publication No. 2006-53748

However, the method described in Patent Document 1 supplies power to the device when the device connected to the power-supplyable interface is a device having a rechargeable battery. Therefore, when the method described in Patent Document 1 is applied to the image pickup apparatus, electric power may be supplied to an external accessory device that the user does not want, and the electric power may not be effectively used. Further, when the method described in Patent Document 1 is applied to the image pickup apparatus, the electric power is supplied not to the general-purpose accessory apparatus but to the dedicated accessory apparatus, and the electric power may not be effectively used.

Therefore, the present invention makes it possible to effectively use the power of the battery pack of the image pickup device by charging the battery pack of the external accessory device with the power remaining in the battery pack of the image pickup device after the use of the image pickup device. The purpose.

One of the imaging devices according to the present invention is an imaging device, which is a connecting means capable of connecting to an external accessory device having a battery, and a power feeding means for supplying electric power to the external accessory device connected to the connecting means. The control means is provided with a control means for controlling the power supply means so as to supply electric power from the battery of the image pickup device to the external accessory device connected to the connection means, and the control means is connected to the connection means. The power supply means is controlled so as to supply power to the external accessory device selected by the user.

One of the imaging devices according to the present invention is an imaging device, which is a connecting means capable of connecting to an external accessory device having a battery and a communication means for receiving device information of the external accessory device connected to the connecting means. And the power supply means for supplying power to the external accessory device connected to the connection means, and the power supply means for supplying power from the battery of the image pickup device to the external accessory device connected to the connection means. The control means has a control means for controlling, and the control means supplies power so as to supply electric power to an external accessory device connected to the connection means and determined to be a predetermined accessory device. Control the means.

The accessory device according to the present invention is an accessory device, which is a connecting means that can be connected to an imaging device having a battery, and a communication means that transmits device information of the accessory device to the imaging device connected to the connecting means. It has a charging means for charging the battery of the accessory device with electric power from the battery of the image pickup device connected to the connecting means.

According to the present invention, the power of the battery pack of the image pickup apparatus can be effectively used by charging the battery pack of the external accessory device with the electric power remaining in the battery pack of the image pickup apparatus after the use of the image pickup apparatus.

It is a figure which shows the example of the appearance of the image pickup apparatus 100, the strobe apparatus 200, and the battery grip 300. It is a block diagram for demonstrating the components of the image pickup apparatus 100, the strobe apparatus 200, and the battery grip 300. It is a flowchart for demonstrating an example of the process performed when the image pickup apparatus 100 is an external accessory apparatus charge mode. It is a figure which shows the example of the display prompting the selection of the external accessory device to be charged. It is a flowchart for demonstrating another example of the process performed when the image pickup apparatus 100 is an external accessory apparatus charge mode. It is a figure which shows the example of the display prompting the selection of whether or not to charge an external accessory device.

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

[Embodiment 1]
FIG. 1 is a diagram showing an example of the appearance of the image pickup device 100, the strobe device 200, and the battery grip 300. FIG. 1A is a rear perspective view, and FIG. 1B is a front perspective view. The image pickup device 100 is a device that operates as a digital camera. Both the strobe device 200 and the battery grip 300 are devices that operate as external accessory devices.

In FIG. 1, the display unit 128 is a display unit provided on the back surface of the image pickup apparatus 100 for displaying images and various information. The shutter button 161 provided on the upper surface of the image pickup apparatus 100 is an operation unit for giving a shooting instruction. The mode changeover switch 160 is an operation unit for switching various modes. The power switch 172 is an operating member that switches the image pickup apparatus 100 to a power ON state or a power OFF state. The operation unit 170 is an operation unit including operation members such as various switches, buttons, dials, and a touch panel that receive various operations from the user. The first connector 110 provided on the upper surface of the image pickup apparatus 100 and the second connector 111 provided on the lower surface of the image pickup apparatus 100 are for connecting to an external accessory device such as a strobe device 200 or a battery grip 300. It is a connector.

The connector 210 of the strobe device 200 is a connector for connecting to the connector 110 of the image pickup device 100. The light emitting unit 220 is a light emitting unit that emits light based on a light emitting instruction signal transmitted from the image pickup apparatus 100 via the connector 210.

The shutter button 361 of the battery grip 300 is an operation unit for giving a shooting instruction. The operation unit 370 is an operation unit composed of operation members such as various switches, buttons, and dials that receive various operations from the user. The connector 310 is a connector for connecting to the connector 111 of the image pickup apparatus 100. The operation signals of the shutter button 361 and the operation unit 370 of the battery grip 300 are transmitted to the image pickup apparatus 100 via the connector 310.

Next, the components of the image pickup apparatus 100 will be described with reference to FIG.

In FIG. 2, the image pickup unit 122 is composed of an image pickup element such as a CCD or a CMOS element that converts an optical image introduced through a photographing lens into an electric signal.

The image processing unit 124 performs a predetermined arithmetic process using the captured image data. The system control unit 150 performs exposure control and distance measurement control based on the calculation result obtained by the image processing unit 124. As a result, TTL (through-the-lens) AF (autofocus) processing, AE (autoexposure) processing, and EF (flash pre-flash) processing are performed. Further, the image processing unit 124 performs a predetermined calculation process using the captured image data, and performs a TTL method AWB (auto white balance) process based on the obtained calculation result.

The memory 132 stores the image data obtained by the imaging unit 122 and the image data to be displayed on the display unit 128. The memory 132 has a storage capacity sufficient to store a predetermined number of still images, moving images for a predetermined time, and audio.

The display unit 128 displays an image, a GUI screen constituting a GUI (Graphical User Interface), or the like on a display device such as an LCD.

The non-volatile memory 156 is a memory that can be electrically erased and recorded, and for example, EEPROM or the like is used. The non-volatile memory 156 stores constants, programs, and the like for the operation of the system control unit 150. The program referred to here is a program for executing various flowcharts described later in the first embodiment.

The system control unit 150 is a control unit including at least one processor or circuit, and controls the entire image pickup apparatus 100. By executing the program recorded in the non-volatile memory 156 described above, each process of the first embodiment described later is realized.

For example, a RAM is used in the system memory 152, and constants and variables for operation of the system control unit 150, a program read from the non-volatile memory 156, and the like are developed. The system control unit 150 also controls the display by controlling the memory 132, the display unit 128, and the like.

The mode changeover switch 160 and the operation unit 170 are operation means for inputting various operation instructions to the system control unit 150. The mode changeover switch 160 switches the operation mode of the system control unit 150 to either a shooting mode, a playback mode, or the like. The shooting mode includes a still image shooting mode, a moving image shooting mode, and the like.

The operation unit 170 is various operation members as an input unit that receives an operation from the user. The operation unit 170 includes a push button, a rotary dial, a touch sensor, and the like. Each operation member of the operation unit 170 is assigned a function as appropriate for each scene by selecting and operating various function icons displayed on the display unit 128, and acts as various function buttons. The function buttons include, for example, an end button, a back button, an image feed button, a jump button, a narrowing button, and an attribute change button. For example, when the menu button is pressed, various settable menu screens are displayed on the display unit 128. The user can intuitively make various settings by using the menu screen displayed on the display unit 128 and various buttons. The power switch 172 is an operating means for switching the power ON state or OFF state of the image pickup apparatus 100.

The power supply control unit 180 includes a battery detection circuit, a DC-DC converter, a switch circuit for switching a block to be energized, and the like, and detects whether or not a battery is connected, the remaining battery level, and the like. Further, the power supply control unit 180 controls the DC-DC converter based on the detection result and the instruction of the system control unit 150, and supplies a necessary voltage to each part of the image pickup apparatus 100 for a necessary period. Further, the power supply control unit 180 exchanges power with the external accessory device via the connector 110 and the connector 111 based on the instruction of the system control unit 150.

The battery 130 is, for example, a lithium ion battery. The power supply control unit 180 charges the battery 130 based on the instruction of the system control unit 150. The connector 110 and the connector 111 are connectors that can be electrically connected to an external accessory device. The communication unit 154 communicates with the external accessory device connected to the connector 110 and the connector 111 based on the instruction of the system control unit 150.

Next, the components of the strobe device 200 will be described with reference to FIG.

In FIG. 2, the system control unit 250 is a control unit including at least one processor or circuit, and controls the entire strobe device 200.

The non-volatile memory 256 is a memory that can be electrically erased and recorded, and for example, EEPROM or the like is used. The non-volatile memory 256 stores constants, programs, and the like for the operation of the system control unit 250. The program referred to here is a program for executing various flowcharts described later in the first embodiment. Further, the non-volatile memory 256 stores device information of the strobe device 200 transmitted to the image pickup device 100. The device information of the strobe device 200 includes, for example, information (device name, device ID, etc.) regarding the strobe device 200.

For example, a RAM is used in the system memory 252, and constants and variables for operation of the system control unit 250, a program read from the non-volatile memory 256, and the like are developed.

The power supply control unit 280 is composed of a battery detection circuit, a DC-DC converter, a switch circuit for switching a block to be energized, and the like, and detects whether or not a battery is connected and the remaining battery level. Further, the power supply control unit 280 controls the DC-DC converter based on the detection result and the instruction of the system control unit 250, and supplies a necessary voltage to each part of the strobe device 200 for a necessary period. Further, the power supply control unit 280 exchanges power with the image pickup device 100 connected via the connector 210, and charges the battery 230.

The battery 230 is, for example, a lithium ion battery. The communication unit 254 communicates with the image pickup apparatus 100 connected to the connector 210 based on the instruction of the system control unit 250. The connector 210 is a connector that can be electrically connected to the image pickup apparatus 100, and is an accessory shoe having a plurality of terminals.

Next, the components of the battery grip 300 will be described with reference to FIG.

In FIG. 2, the system control unit 350 is a control unit including at least one processor or circuit, and controls the entire battery grip 300.

The non-volatile memory 356 is a memory that can be electrically erased and recorded, and for example, EEPROM or the like is used. The non-volatile memory 356 stores constants, programs, and the like for the operation of the system control unit 350. The program referred to here is a program for executing various flowcharts described later in the first embodiment. Further, the non-volatile memory 356 stores device information of the battery grip 300 transmitted to the image pickup apparatus 100. The device information of the battery grip 300 includes, for example, information (device name, device ID, etc.) regarding the battery grip 300.

For example, RAM is used in the system memory 352, and constants and variables for operation of the system control unit 350, a program read from the non-volatile memory 356, and the like are developed.

The power supply control unit 380 is composed of a battery detection circuit, a DC-DC converter, a switch circuit for switching a block to be energized, and the like, and detects whether or not a battery is connected and the remaining battery level. Further, the power supply control unit 380 controls the DC-DC converter based on the detection result and the instruction of the system control unit 350, and supplies a necessary voltage to each part of the battery grip 300 for a necessary period. Further, the power supply control unit 380 exchanges power with the image pickup device 100 connected via the connector 310, and charges the battery 330.

The battery 330 is, for example, a lithium ion battery. The communication unit 354 communicates with the image pickup apparatus 100 connected to the connector 310 based on the instruction of the system control unit 350. The connector 310 is a connector that can be electrically connected to the image pickup apparatus 100.

Next, an example of the processing performed when the imaging device 100 is in the external accessory device charging mode will be described with reference to the flowchart of FIG.

The imaging device 100 has an external accessory device charging mode. The external accessory device charging mode is a charging mode in which the battery of the external accessory device connected to the connector 110 or the connector 111 is charged by the electric power of the battery 130 of the imaging device 100. The user can switch the ON state or OFF state of the external accessory device charging mode of the imaging device 100 from the external accessory device charging mode selection menu. Hereinafter, the processing when the external accessory device charging mode is in the ON state will be described.

In step S301, the system control unit 150 of the image pickup apparatus 100 detects the power OFF operation. If it is determined that the power OFF operation has been performed, the process proceeds to step S302.

In step S302, the system control unit 150 determines whether or not the external accessory device charging mode is in the ON state. If the external accessory device charging mode is in the ON state, the process proceeds to step S303, and if the external accessory device charging mode is in the OFF state, the process ends.

In step S303, the system control unit 150 determines whether or not an external accessory device is connected. For example, the system control unit 150 detects whether or not an external accessory device is connected to the connector 110 and the connector 111 by the communication unit 154. If it is determined that the external accessory device is connected, the process proceeds to step S304, and if it is determined that the external accessory device is not connected, the process ends.

In step S304, the system control unit 150 receives the device information of the connected external accessory device. For example, the system control unit 150 controls the communication unit 154 so as to communicate with the external accessory device and receive the device information of the external accessory device. Here, the device information includes, for example, a device name or a device ID of an external accessory device. Upon receiving the device information of the external accessory device, the process proceeds to step S305.

In step S305, the system control unit 150 outputs display data to the display unit 128 prompting the user to select an external accessory device for charging the electric power of the battery 130 of the image pickup device 100, and proceeds to step S306. FIG. 4 is a diagram showing an example of a display prompting the selection of an external accessory device to be charged. As shown in FIG. 4, the display unit 128 displays a selection icon 411, a cancel icon 412, and information prompting the user to select an external accessory device to be charged. When the strobe device 200 and the battery grip 300 are connected as a plurality of external accessory devices, the information as shown in FIG. 4 is displayed on the display unit 128 based on the device information received in step S304. ..

In step S306, the system control unit 150 determines whether or not charging of the external accessory device has been selected. If charging of the external accessory device is selected, that is, if any of the selection icons 411 displayed on the display unit 128 is selected in step S305, the process proceeds to step S307. When charging of the external accessory device is not selected, that is, when the cancel icon 412 displayed on the display unit 128 is selected in step S305, the process ends.

In step S307, the system control unit 150 charges the battery of the external accessory device with the electric power of the battery 130 of the image pickup device 100. For example, the system control unit 150 controls the power supply control unit 180 so as to charge the battery of the external accessory device selected in step S306 with the electric power of the battery 130. When the battery of the external accessory device is charged with the electric power of the battery 130, the process ends.

[Embodiment 2]
Next, the second embodiment will be described with reference to the drawings. The difference from the first embodiment is that the external accessory device has general-purpose accessory device information as one of the device information. In the second embodiment, the system control unit 150 of the imaging device 100 performs a process of determining an external accessory device to charge the electric power of the battery 130 based on the general-purpose accessory device information of the connected external accessory device.

In the second embodiment, the appearance and the block diagram of the image pickup device 100, the strobe device 200, and the battery grip 300 are as shown in FIGS. 1 and 2, as in the first embodiment, and thus the description thereof will be omitted.

In the second embodiment, in the non-volatile memory 156 of the imaging device 100, the priority information of the external accessory device to be charged in the processing of the external accessory device charging mode described later is stored in the non-volatile memory 156 as a charging priority information table. It is remembered. Here, the priority information may be a predetermined order such that the first priority is the strobe device 200, the second priority is the battery grip 300, and the third priority is another external accessory device. It may be set by the user from the setting menu.

The non-volatile memory 256 of the strobe device 200 stores device information transmitted to the image pickup device 100. The device information of the strobe device 200 includes, for example, information about the strobe device 200 (device name, device ID, etc.) and general-purpose accessory device information.

The non-volatile memory 356 of the battery grip 300 stores device information transmitted to the image pickup apparatus 100. The device information of the battery grip 300 includes, for example, information about the battery grip 300 (device name, device ID, etc.) and general-purpose accessory device information.

Here, general-purpose accessory device information will be described. The general-purpose accessory device information is information indicating whether it is an external accessory device that can be used for a plurality of types of image pickup devices, or an external accessory device that can be used exclusively for a specific image pickup device. For example, if the strobe device 200 can be connected to and used by a plurality of types of imaging devices, the non-volatile memory 256 of the strobe device 200 stores information indicating "general purpose" as general-purpose accessory device information. Further, for example, if the battery grip 300 can be used exclusively for a specific imaging device, the non-volatile memory 356 of the battery grip 300 stores information indicating "dedicated" as general-purpose accessory device information.

Next, another example of the processing performed when the imaging device 100 is in the external accessory device charging mode will be described with reference to the flowchart of FIG.

In step S501, the system control unit 150 of the image pickup apparatus 100 detects the power-off operation. If it is determined that the power OFF operation has been performed, the process proceeds to step S502.

In step S502, the system control unit 150 determines whether or not the external accessory device charging mode is in the ON state. If the external accessory device charging mode is in the ON state, the process proceeds to step S503, and if the external accessory device charging mode is in the OFF state, the process ends.

In step S503, the system control unit 150 determines whether or not an external accessory device is connected. For example, the system control unit 150 detects whether or not an external accessory device is connected to the connector 110 and the connector 111 by the communication unit 154. If it is determined that the external accessory device is connected, the process proceeds to step S504, and if it is determined that the external accessory device is not connected, the process ends.

In step S504, the system control unit 150 receives the device information of the connected external accessory device. For example, the system control unit 150 controls the communication unit 154 so as to communicate with the external accessory device and receive the device information of the external accessory device. Here, the device information includes, for example, the device name of the external accessory device. At this time, general-purpose accessory device information is received as one of the device information. Upon receiving the device information of the external accessory device, the process proceeds to step S505.

In step S505, the system control unit 150 determines whether or not the connected external accessory device is a general-purpose accessory device. For example, the system control unit 150 receives in step S504, refers to the general-purpose accessory device information, and determines whether or not at least one of the connected external accessory devices is a general-purpose accessory device. If it is determined that the connected external accessory device is a general-purpose accessory device, the process proceeds to step S506, and if it is determined that the external accessory device is not a general-purpose accessory device, the process ends.

In step S506, the system control unit 150 determines an external accessory device to be charged. When one external accessory device is connected, it is determined as the external accessory device for charging the connected external accessory device. When a plurality of external accessory devices are connected, the system control unit 150 refers to the general-purpose accessory device information of the connected external accessory device. Then, when the general-purpose accessory device and the dedicated accessory device are connected, it is determined as the external accessory device for charging the general-purpose accessory device. When a plurality of general-purpose accessory devices are connected, the charging priority information table stored in the non-volatile memory 156 is referred to, and an external accessory device to be charged is determined based on the priority information. When the external accessory device to be charged is determined, the process proceeds to step S507.

In step S507, the system control unit 150 outputs display data to the display unit 128 that prompts the user to select whether or not to charge the external accessory device with the electric power of the battery 130 of the image pickup device 100, and proceeds to step S508. FIG. 6 is a diagram showing an example of a display prompting the selection of whether or not to charge the external accessory device. As shown in FIG. 6, the display unit 128 displays a selection icon 611, a cancel icon 612, and information prompting the user to select whether or not to charge the external accessory device. When the external accessory device determined in step S506 is the strobe device 200, the information as shown in FIG. 6 is displayed on the display unit 128.

In step S508, the system control unit 150 determines whether or not charging of the external accessory device has been selected. If charging of the external accessory device is selected, that is, if the selection icon 611 displayed on the display unit 128 is selected in step S507, the process proceeds to step S509. When charging of the external accessory device is not selected, that is, when the cancel icon 612 displayed on the display unit 128 is selected in step S507, the process ends.

In step S509, the system control unit 150 charges the battery of the external accessory device with the electric power of the battery 130 of the image pickup device 100. For example, the system control unit 150 controls the power supply control unit 180 so that the battery of the external accessory device determined in step S507 is charged with the electric power of the battery 130. When the battery of the external accessory device is charged with the electric power of the battery 130, the process ends.

[Embodiment 3]
The various functions, processes or methods described in embodiments 1 and 2 can also be implemented programmatically by a personal computer, microcomputer, CPU (Central Processing Unit) or microprocessor. Hereinafter, in the third embodiment, a personal computer, a microcomputer, a CPU (Central Processing Unit) or a microprocessor will be referred to as a "computer X". Further, in the third embodiment, a program for controlling the computer X and for realizing various functions, processes, or methods described in the first and second embodiments is referred to as a "program Y".

The various functions, processes or methods described in embodiments 1 and 2 are realized by computer X executing 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 third embodiment includes at least one such as a hard disk device, a magnetic storage device, an optical storage device, a photomagnetic storage device, a memory card, a volatile memory, and a non-volatile memory. The computer-readable storage medium according to the third embodiment is a non-transitory storage medium.

100 Imaging device 200 Strobe device 300 Battery grip

Claims (8)

It is an image pickup device
A connection means that can be connected to an external accessory device that has a battery,
A power supply means for supplying electric power to an external accessory device connected to the connection means, and
It has a control means for controlling the power supply means so as to supply power from the battery of the image pickup device to the external accessory device connected to the connection means.
The control means is an image pickup device that is an external accessory device connected to the connection means and controls the power supply means so as to supply electric power to the external accessory device selected by the user. It is an image pickup device
A connection means that can be connected to an external accessory device that has a battery,
A communication means for receiving device information of an external accessory device connected to the connection means, and a communication means.
A power supply means for supplying electric power to an external accessory device connected to the connection means, and
It has a control means for controlling the power supply means so as to supply power from the battery of the image pickup device to the external accessory device connected to the connection means.
The control means is characterized in that the power supply means is controlled so as to supply electric power to an external accessory device connected to the connection means and determined to be a predetermined accessory device. Imaging device. When supplying power to a plurality of external accessory devices connected to the connection means, the control means controls the power supply means so as to supply power to the plurality of external accessory devices based on a predetermined priority. The imaging device according to claim 2, wherein the image pickup apparatus is used. A claim, wherein the control means controls the power supply means so as to supply electric power to an external accessory device connected to the connection means when it is detected that a predetermined operation has been performed. The imaging apparatus according to any one of 1 to 3. The control means powers the external accessory device connected to the connecting means so that when the user chooses to power the external accessory device connected to the connecting means, the control means supplies power to the external accessory device connected to the connecting means. The imaging device according to any one of claims 1 to 4, wherein the means is controlled. The imaging device according to any one of claims 2 to 5, wherein the device information includes information relating to a general-purpose accessory device. It ’s an accessory device,
A connection means that can be connected to an image pickup device that has a battery,
A communication means for transmitting device information of the accessory device to an image pickup device connected to the connection means, and a communication means.
An accessory device comprising a charging means for charging the battery of the accessory device with electric power from the battery of the image pickup device connected to the connecting means. The accessory device according to claim 7, wherein the device information includes information about a general-purpose accessory device.

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