JP2013169062A - Charge control device, imaging apparatus, and charge control system - Google Patents

Abstract

When a charging device (first device) and a device to be charged (second device) are operated by a battery and the battery (battery) of the device to be charged is charged from the charging device, use of the charging device Prevent the possible time from being shortened.
A charge control device (1) includes a second battery (2) included in a second device (3) by power of a first battery (221) included in the first device (2). 321) is a charge control device, which is provided in the first device (2), and the remaining amount information of the second battery (321) supplied from the second device (3) and the second A control unit (90) for controlling the amount of charge supplied from the first battery (221) to the second device (3) based on the power consumption information of the device (3).
[Selection] Figure 1

Description

  The present invention relates to a charge control device, an imaging device, and a charge control system.

  In recent years, a system for charging a battery (secondary battery) included in an electronic device or the like using an interface such as a USB (Universal Serial Bus) interface is known (for example, see Patent Document 1).

JP 2002-108514 A

However, the system described in Patent Document 1 aims to fully charge the battery. Therefore, there are the following problems when charging between electronic devices such as mobile devices. Here, the case of charging between electronic devices is, for example, a case of charging a battery of a mobile phone from a notebook personal computer (hereinafter referred to as a notebook PC) via a USB interface.
In such a case, when both the notebook PC (first device) that is a charging device and the mobile phone (second device) that is a charged device are operated by a battery, the notebook PC is portable. Since the battery of the telephone is charged until it is fully charged, the battery of the notebook PC may be excessively consumed. In this case, the remaining battery life of the notebook PC may be shortened as a result.
That is, in the charging control device described in Patent Document 1, the charging device (first device) and the device to be charged (second device) are operated by the battery, and the battery ( When charging the battery, there is a problem that the usable time of the charging device is shortened.

  The present invention has been made to solve the above-described problem, and the purpose of the present invention is to charge the battery (battery) of the charged device from the charging device when the charging device and the charged device are operated by the battery. An object of the present invention is to provide a charge control device, an imaging device, and a charge control system that can prevent the usable time of the charge device from being shortened.

  In order to solve the above problem, the present invention is a charge control device that charges a second battery included in a second device with power of a first battery included in the first device, The charge control device is provided in the first device, and based on the remaining amount information of the second battery and the power consumption information of the second device supplied from the second device, A charge control device comprising a control unit that controls the amount of charge electricity supplied from a first battery to the second device.

  In addition, the present invention is an imaging apparatus, wherein the first apparatus is an imaging apparatus.

  Further, the present invention is a charge control system comprising a first device having a first battery and a second device having a second battery charged by the power of the first battery, The second device includes a communication unit that supplies the remaining amount information of the second battery and the power consumption information of the second device to the first device, and the first device includes the second device. A control unit that controls the amount of charge supplied from the first battery to the second device based on the remaining amount information of the second battery and the power consumption information of the second device supplied from the device. It is a charge control system characterized by comprising.

  ADVANTAGE OF THE INVENTION According to this invention, even if it charges the battery (battery) of a to-be-charged device from a charging device when a charging device and a to-be-charged device operate | move with a battery, it can prevent that the usable time of a charging device becomes short. The object is to provide a charge control device, an imaging device, and a charge control system.

It is a schematic block diagram which shows the charge control system by 1st Embodiment. It is a flowchart which shows the charge process of the charge control apparatus in 1st Embodiment. It is a schematic block diagram which shows the charge control system by 2nd Embodiment. It is a flowchart which shows the charge process of the charge control apparatus in 2nd Embodiment. It is a schematic block diagram which shows the charge control system by 3rd Embodiment. It is a schematic block diagram which shows the imaging device by this embodiment.

  Hereinafter, a charge control device and a charge control system according to an embodiment of the present invention will be described with reference to the drawings.

<First Embodiment>
First, a first embodiment of the present invention will be described.
In the present embodiment, an example will be described in which a PC (personal computer) is applied to the charging device (first device) and a mobile phone is applied to the charged device (second device).
FIG. 1 is a schematic block diagram showing a charge control device 1 and a charge control system 100 according to the present embodiment.
In this figure, the charging control system 100 includes a PC 2 (first device) and a mobile phone 3 (second device). The PC 2 and the mobile phone 3 are connected by a communication line L1 that performs data communication between the PC 2 and the mobile phone 3, and a power supply line L2 that supplies power from the PC 2 to the mobile phone 3. In the present embodiment, an example in which a USB (Universal Serial Bus) interface is used as an interface between the PC 2 and the mobile phone 3 will be described. Here, the PC 2 is a host in the USB interface, and the mobile phone 3 is a device. The communication line L1 is a D + signal line and a D− signal line in the USB interface, and the power supply line L2 is a VBAT signal line in the USB interface.

The PC 2 (first device) includes a charge control device 1.
The charging control device 1 charges the secondary battery 321 (second battery) included in the mobile phone 3 (second device) with the power of the secondary battery 221 (first battery) included in the PC 2. Let The charging control device 1 is connected to the mobile phone 3 via a communication line L1 and a power supply line L2.
In addition, the charging control device 1 includes an I / F (interface) unit 20, a power source switching unit 21, a battery unit 22, a switch unit 23, a storage unit 60, and a control unit 90.

  The I / F unit 20 executes data communication with the mobile phone 3. The I / F unit 20 functions as a host that controls communication in the USB interface. Further, the I / F unit 20 supplies power to the mobile phone 3 via the power supply line L2. The I / F unit 20 performs data communication with the mobile phone 3 via the communication line L1.

  The battery unit 22 includes, for example, a secondary battery 221 (first battery) and a voltage detection unit 222 that detects an output voltage of the secondary battery 221. The battery unit 22 supplies power to each unit of the PC 2 via the power supply switching unit 21. In addition, the battery unit 22 supplies the control unit 90 with the output voltage of the secondary battery 221 detected by the voltage detection unit 222.

  The power supply switching unit 21 switches between the power supplied from the battery unit 22 and the power supplied via the external power supply line L3, and supplies power to each part of the charge control device 1 and the PC2. An external power supply (for example, an AC adapter) is connected to the external power supply line L3, and a DC voltage output from the external power supply is supplied. The power supply switching unit 21 determines whether power is supplied to the external power supply line L3. When power is supplied to the external power supply line L3, the power supply switching unit 21 supplies power supplied via the external power supply line L3 to each part of the charge control device 1 and the PC2. Further, the power supply switching unit 21 supplies the power supplied from the battery unit 22 to each unit of the charging control device 1 and the PC 2 when the power is not supplied to the external power supply line L3. The power supply switching unit 21 outputs a determination result (determination signal R) as to whether or not power is supplied to the external power supply line L3 to the control unit 90.

  The switch unit 23 is disposed between the power supply switching unit 21 and the I / F unit 20. Based on the control signal output from the control unit 90, the switch unit 23 switches between a state where the power supplied from the power supply switching unit 21 is supplied to the I / F unit 20 and a state where the supply is stopped. The power supplied to the I / F unit 20 through the switch unit 23 is supplied to the mobile phone 3 through the power supply line L2.

  The storage unit 60 stores various information used for the charge control process. The storage unit 60 stores, for example, remaining amount information of the secondary battery 221, power consumption information of the PC 2, remaining amount information of the secondary battery 321 included in the mobile phone 3, power consumption information of the mobile phone 3, and the like.

The control unit 90 controls the charging of the battery unit 32 of the mobile phone 3 by supplying power from the PC 2 to the mobile phone 3. Specifically, the control unit 90 controls data communication with the mobile phone 3 via the I / F unit 20. The control unit 90 also determines the remaining amount information Q _{1 of the} battery unit 22 (secondary battery 221) based on the output voltage of the battery unit 22 (secondary battery 221) detected by the voltage detection unit 222 of the battery unit 22. Is calculated. Control unit 90 stores the remaining amount information to Q ₁ calculated battery unit 22 in the storage unit 60.

Incidentally, the remaining amount information to Q ₁ battery unit 22 is information indicating the amount of electricity remaining in the battery unit 22. Remaining amount information to Q ₁ battery unit 22, for example, it is calculated by using the table information obtained by previously measuring a relationship between the output voltage and the dischargeable electric quantity of the secondary battery 221.

The control unit 90 calculates the power consumption information _{A 1} of PC2, and stores the power consumption information _{A 1} of the calculated PC2 in the storage unit 60.
Incidentally, the power consumption information A ₁ of PC2 is the average power consumption to be expected that PC2 consumes. Power consumption information A ₁ of PC2 is, for example, may be calculated by the change in the output voltage of the battery unit 22 detected by the voltage detecting unit 222 of the battery unit 22 (secondary battery 221). Further, power consumption information A ₁ of PC2 is, for example, detects the history of each part of the operating state of the PC2 by the control unit 90, based on the power consumption information for each part which is previously detected, may be calculated.
Further, power consumption information A ₁ of the PC, based on the power consumption acquired in a constant cycle interval, is calculated as the average power consumption. That is, power consumption information _{A 1} of PC2 is a value that reflects the latest operating status in PC2.

The control unit 90 includes a remaining amount information to _{Q 1} battery unit 22, the power consumption information _{A 1} of PC2, and remaining amount information _{Q 2} of the battery unit 32, the power consumption information _{A 2} of the mobile phone 3, the Based on this, the charge electricity amount ΔQ is supplied to the mobile phone 3 so that the usable time after charging T1 of the PC 2 becomes equal to the usable time after charging T2 of the mobile phone 3. That is, the control unit 90 based on the power consumption information A ₂ of the remaining amount information Q ₂ and the cellular phone 3 of the battery unit 32 which is supplied from the mobile phone 3, the power supply line L2 from the battery unit 22 to the cellular phone 3 The amount of charge electricity supplied through the control is controlled.

Note that the usable time after charging indicates the estimated usable time after the charging unit ΔQ is supplied and charged from the battery unit 22 of the PC 2 to the battery unit 32 of the mobile phone 3.
Details of the calculation of the usable time T1 after charging of the PC 2, the usable time T2 after charging of the mobile phone 3, and the charge electricity amount ΔQ will be described later.
Moreover, the control part 90 outputs a control signal and controls the switch part 23, when supplying the electric power which charges the battery part 32 (secondary battery 321) to the electric power supply line L2, or stopping. That is, when the charging of the battery unit 32 (secondary battery 321) is stopped, the control unit 90 causes the switch unit 23 to stop supplying power to the power supply line L2 that supplies power to the mobile phone 3. .

  On the other hand, the mobile phone 3 (second device) includes an I / F unit 31, a battery unit 32, a control unit 33, and a storage unit 34.

The I / F unit 31 (communication unit) executes data communication with the PC 2. The I / F unit 31 functions as a device whose communication is controlled in the USB interface. The I / F unit 31 is supplied with power from the PC 2 via the power supply line L2.
Further, I / F unit 31 (communication unit), for example, supplies through the communication line L1 to the power consumption information _{A 2} of the remaining amount information _{Q 2} and the cellular phone 3 of the battery unit 32 to PC2.

The battery unit 32 includes, for example, a secondary battery 321 (second battery) and a voltage detection unit 322 that detects an output voltage of the secondary battery 221. The battery unit 32 supplies power to each unit of the mobile phone 3. In addition, the battery unit 32 supplies the output voltage of the secondary battery 321 detected by the voltage detection unit 322 to the control unit 33.
The storage unit 34 stores various information used for various processes of the mobile phone 3. The storage unit 34 stores, for example, remaining amount information of the secondary battery 321 and power consumption information of the mobile phone 3.

The control unit 33 controls various processes of the mobile phone 3. Specifically, the control unit 33 controls data communication with the mobile phone 3 via the I / F unit 20. The control unit 33 also determines the remaining amount information Q _{2 of the} battery unit 32 (secondary battery 321) based on the output voltage of the battery unit 32 (secondary battery 321) detected by the voltage detection unit 322 of the battery unit 32. Is calculated. Control unit 33 stores the remaining amount information Q ₂ of the calculated battery unit 32 in the storage unit 34.

Incidentally, the remaining amount information Q ₂ of the battery unit 32 is information indicating the amount of electricity remaining in the battery unit 32. Remaining amount information Q ₂ of the battery 32, for example, is calculated by using the table information obtained by previously measuring a relationship between the output voltage and the dischargeable electric quantity of the secondary battery 321.

The control unit 33 calculates the power consumption information A ₂ of the mobile phone 3, and stores the power consumption information A ₂ of calculated mobile phone 3 in the storage unit 34.
Incidentally, the power consumption information A ₂ of the mobile phone 3, the average power consumption by the mobile phone 3 to consumption is predicted. Power consumption information A ₂ of the mobile phone 3, for example, may be calculated by the change in the output voltage of the battery unit 32 detected by the voltage detecting unit 322 of the battery unit 32 (secondary battery 321). Further, power consumption information A ₂ of the mobile phone 3, for example, to detect a history of operation states of the respective parts in the mobile phone 3 by the control unit 33, based on the power consumption information for each part which is previously detected, is calculated Also good.
Further, power consumption information A ₂ of the mobile phone 3, based on the power consumption acquired in a constant cycle interval, is calculated as the average power consumption. That is, power consumption information A ₂ of the mobile phone 3 is a value that reflects the latest operation state of the mobile phone 3.

  The control unit 33 also controls data communication with the PC 2 via the I / F unit 31 and supplies the remaining amount information of the battery unit 32 (secondary battery 321) and the power consumption information of the mobile phone 3 to the PC 2. . That is, the mobile phone 3 supplies the remaining amount information of the battery unit 32 (secondary battery 321) and the power consumption information of the mobile phone 3 to the PC 2 via the communication line L1.

Next, operations of the charging control device 1 and the charging control system 100 in the present embodiment will be described.
FIG. 2 is a flowchart showing a charging process of the charging control device 1 in the present embodiment.
After the mobile phone 3 (second device) is connected to the PC 2 (first device) and communication of the USB interface is established, the charging control device 1 is connected to the battery unit 32 (secondary battery 321) of the mobile phone 3. Start charging.

In FIG. 2, first, the charging control device 1 determines whether or not an external power source is connected (step S101). That is, the control unit 90 of the charging control apparatus 1 is connected to the external power source based on the determination result (determination signal R) as to whether or not power is supplied to the external power supply line L3 output from the power supply switching unit 21. It is determined whether or not. If the control unit 90 determines that an external power supply is connected, the control unit 90 advances the process to step S102.
In addition, when the control unit 90 determines that the external power source is not connected, the control unit 90 advances the processing to step S103.

  In step S102, the charging control device 1 fully charges (full charge) the battery of the mobile phone 3. That is, first, the power supply switching unit 21 supplies power supplied via the external power supply line L3 to each part of the charge control device 1 and the PC2. Further, the control unit 90 outputs a control signal for supplying the power supplied from the power supply switching unit 21 to the I / F unit 20 to the switch unit 23. As a result, the switch unit 23 is in a state of supplying the power supplied from the power supply switching unit 21 to the I / F unit 20. The power supplied to the I / F unit 20 is supplied to the mobile phone 3 through the power supply line L2, and further supplied to the battery unit 32 through the I / F unit 31 of the mobile phone 3. Thereby, the battery unit 32 charges the secondary battery 321. Note that the control unit 90 fully charges the secondary battery 321 of the battery unit 32 with the power supplied via the external power line L3. In addition, the control part 90 complete | finishes a process, when the full charge of the battery part 32 (secondary battery 321) is completed.

In step S < _b > 103, the charging control device 1 acquires battery remaining amount information (remaining amount information Q ₂ of the battery unit 32) of the mobile phone 3 and power consumption information A ₂ of the mobile phone 3. That is, the control unit 90 requests the remaining amount information Q ₂ of the battery unit 32 and the power consumption information A ₂ of the mobile phone 3 from the mobile phone 3 through the I / F unit 20. The control unit 33 of the mobile phone 3 transmits the remaining amount information Q ₂ of the battery unit 32 and the power consumption information A ₂ of the mobile phone 3 to the communication line through the I / F unit 31 in response to a request from the charging control device 1. To L1. The control unit 90 stores the remaining amount information Q ₂ of the battery unit 32 and the power consumption information A ₂ of the mobile phone 3 supplied via the communication line L 1 in the storage unit 60.

Next, the charging control device 1 calculates the amount of charge ΔQ supplied to the mobile phone 3 (step S104). That is, the control unit 90, based on the power consumption information A ₂ of the remaining amount information Q ₂ and the mobile phone 3 of the supplied battery unit 32 from the cellular phone 3, portable telephone from the battery unit 22 (secondary battery 221) 3 is calculated. Specifically, the usable time T1 after charging of the PC 2 is expressed as shown in Expression (1). Here, the usable time T1 after charging the PC 2 indicates a time during which the PC 2 can be used after the battery unit 32 of the mobile phone 3 is charged.

T1 = (Q ₁ −ΔQ) / A ₁ (1)

  Further, the usable time T2 after charging of the mobile phone 3 is expressed as shown in Expression (2). Here, the usable time T2 after charging of the mobile phone 3 indicates a time during which the mobile phone 3 can be used after charging the battery unit 32 of the mobile phone 3.

T2 = (Q ₂ + ΔQ) / A ₂ (2)

  The control unit 90 calculates the charge electricity amount ΔQ so that the usable time after charging T1 of the PC 2 and the usable time after charging T2 of the mobile phone 3 become a predetermined ratio (ratio). For example, when the usable time after charging T1 of the PC 2 and the usable time after charging T2 of the mobile phone 3 are equal (when the ratio is 1: 1), the control unit 90 derives from the relational expression (3). The charge electricity amount ΔQ is calculated according to the obtained equation (4).

T1 (= (Q ₁ −ΔQ) / A ₁ ) = T ₂ (= (Q ₂ + ΔQ) / A ₂ ) (3)
ΔQ = (A ₁ · Q ₁ −A ₂ · Q ₂ ) / (A ₁ −A ₂ ) (4)

That is, the control unit 90 includes the remaining amount information Q _{1 of the} battery unit 22 (secondary battery 221) and the power consumption information A _{1 of the} PC 2 stored in the storage unit 60 and the battery unit 32 supplied from the mobile phone 3. Based on the remaining amount information Q _{2 of the} (secondary battery 321) and the power consumption information A ₂ of the mobile phone 3, the charge electricity amount ΔQ is calculated.

  Next, the charging control apparatus 1 supplies the amount of electricity corresponding to the amount of charge electricity ΔQ to the power supply line L2 (step S105). That is, the control unit 90 first outputs a control signal for supplying the power supplied from the battery unit 22 via the power supply switching unit 21 to the I / F unit 20 to the switch unit 23. Accordingly, the switch unit 23 is in a state of supplying the power supplied from the battery unit 22 to the I / F unit 20. The power supplied to the I / F unit 20 is supplied to the mobile phone 3 through the power supply line L2, and further supplied to the battery unit 32 through the I / F unit 31 of the mobile phone 3. Thereby, the battery part 32 (secondary battery 321) is charged. The control unit 90 maintains the state where this charging is performed while supplying the amount of electricity for the amount of charge ΔQ to the power supply line L2.

Next, the charging control device 1 stops charging the battery unit 32 of the mobile phone 3 (step S106). That is, the control unit 90 outputs, to the switch unit 23, a control signal for stopping the supply of the electric power of the battery unit 22 to the I / F unit 20 when the electric amount for the charging electric amount ΔQ is supplied. As a result, the switch unit 23 does not supply the power supplied from the battery unit 22 to the I / F unit 20. Thus, the control unit 90 stops the charging of the battery unit 32 (secondary battery 321) of the mobile phone 3.
The control unit 90 determines the determination of whether or not to supply electric quantity of charged electricity quantity ΔQ min, for example, based on a change of the remaining amount information to Q ₁ battery portion 22. That is, the control unit 90 makes a determination based on the output voltage of the secondary battery 221 detected by the voltage detection unit 222 of the battery unit 22.
After the process of step S106 is completed, the control unit 90 ends the process.

  As described above, in the charge control device 1 and the charge control system 100 according to the present embodiment, the remaining amount of the battery unit 32 (second battery) supplied from the mobile phone 3 (second device) is controlled by the control unit 90. Information and power consumption information of the mobile phone 3 are acquired. The control unit 90 then supplies the charging electricity supplied from the battery unit 22 (first battery) to the mobile phone 3 based on the remaining amount information of the battery unit 32 (second battery) and the power consumption information of the mobile phone 3. The amount ΔQ is calculated. The control unit 90 causes the battery unit 32 (secondary battery 321) of the mobile phone 3 to supply the amount of electricity corresponding to the amount of charge ΔQ via the power supply line L2 to charge the battery unit 32.

As a result, the battery unit 32 (secondary battery 321) of the mobile phone 3 is not fully charged, but is charged by the amount of charge electricity ΔQ under the control of the control unit 90. That is, the control unit 90 determines the remaining capacity of the battery unit 22 (first battery) so that the usable time after charging T1 of the PC 2 and the usable time after charging T2 of the mobile phone 3 are in an optimal state. Distribute to part 32 (second battery). Therefore, when the PC 2 (charging device) and the mobile phone 3 (charged device) are operated by the batteries (battery units 22 and 32), the usable time of the PC 2 can be extended. For example, the usable time can be extended in an application in which the PC 2 and the mobile phone 3 are connected and used.
That is, in the charging control device 1 and the charging control system 100 according to the present embodiment, the charging device can be used even if the charging device and the charged device are operated by the battery even if the charging device battery is charged from the charging device. Time can be prevented from being shortened.

The control unit 90 includes a remaining amount information _{Q 2} of the battery unit 32 (second cells), and consumption power information _{A 2,} the battery unit 22 (first battery) of the mobile phone 3 (second device) and remaining amount information Q _1, PC2 and based on the power consumption information a ₁ (first device), the ratio of the charge after the available time T1 of the charging after the available time T2 and PC2 of the mobile phone 3 in advance of The charge electricity amount ΔQ is supplied to the mobile phone 3 so as to have a predetermined ratio (for example, 1: 1). That is, the control unit 90 controls the amount of charge ΔQ so that the ratio between the usable time after charging T2 of the mobile phone 3 and the usable time after charging T1 of the PC 2 becomes a predetermined ratio.

  Thereby, the battery unit 32 (secondary battery 321) of the mobile phone 3 is not fully charged, and the usable time after charging T1 of the PC 2 and the usable time after charging T2 of the mobile phone 3 are set to an optimal ratio. (E.g. equal). Therefore, when the PC 2 (charging device) and the mobile phone 3 (charged device) are operated by the batteries (battery units 22 and 32), the usable time of the PC 2 can be extended. When the above-described predetermined ratio is 1: 1, the remaining amount of the battery unit 22 is distributed so that the usable time of the PC 2 and the mobile phone 3 is equal. Therefore, for example, in an application in which the PC 2 and the mobile phone 3 are connected and used, the usable time can be maximized.

  In addition, when the charging of the battery unit 32 (second battery) is stopped, the control unit 90 supplies power to the power supply line L2 that supplies power to the mobile phone 3 (second device) to the switch unit 23. In contrast, power supply is stopped. Thereby, the control unit 90 can control the charge electricity amount ΔQ by a simple means.

Further, the PC 2 and the mobile phone 3 calculate the power consumption information (A ₁ and A ₂ ) as the average power consumption based on the power consumption acquired at a constant cycle interval. That is, the power consumption information (A ₁ and A ₂ ) is a value reflecting the latest operation state. Thereby, the control unit 90 can calculate the charge electricity amount ΔQ more accurately.

<Second Embodiment>
Next, a second embodiment of the present invention will be described.
In this embodiment, as in the first embodiment, an example in which a PC is applied to the charging device (first device) and a mobile phone is applied to the charging device (second device). Will be explained.

FIG. 3 is a schematic block diagram showing the charge control device 1a and the charge control system 100 according to the present embodiment. In this figure, the same components as those in FIG.
In this figure, the PC 2 (first device) includes a charge control device 1a.

The charging control device 1a charges the secondary battery 321 (second battery) provided in the mobile phone 3 (second device) with the power of the secondary battery 221 (first battery) provided in the PC 2. Let The charging control device 1a is connected to the mobile phone 3 via a communication line L1 that performs data communication with the mobile phone 3 and a power supply line L2 that supplies power to the mobile phone 3.
The charging control device 1 a includes an I / F unit 20, a power supply switching unit 21, a battery unit 22, a switch unit 23 a, a storage unit 60, and a control unit 90.
In the present embodiment, the method for controlling the amount of charge by the control unit 90 and the method for stopping the charging of the battery unit 32 (second battery) are different from those in the first embodiment.

The switch unit 23 a is disposed between the power supply switching unit 21 and the I / F unit 20. Based on the control signal output from the control unit 90, the switch unit 23 a reduces the power supplied from the power supply switching unit 21 to the I / F unit 20 and the power supplied to the mobile phone 3. Switch between the two states. Here, the state in which the power for supplying power to the mobile phone 3 is reduced is a state in which the power supplied from the power supply switching unit 21 is supplied to the I / F unit 20 via a resistor, for example.
The power supplied to the I / F unit 20 through the switch unit 23a is supplied to the mobile phone 3 through the power supply line L2. Thereby, when charging of the battery unit 32 (secondary battery 321) is stopped, the switch unit 23a reduces the power supplied to the power supply line L2 that supplies power to the mobile phone 3, and the battery unit 32 ( The charging of the secondary battery 321) is suppressed.

Further, in the present embodiment, the control unit 90 based on the power consumption information _{A 1} of the remaining amount information _{Q 1} and PC2 of the battery unit 22, calculates the available time T3 of PC2. The control unit 90 based on the power consumption information A ₂ of the remaining amount information Q ₂ and the cellular phone 3 of the battery unit 32, calculates the available time T4. Note that the control unit 90 repeatedly calculates the usable time T3 and usable time T4 of the PC 2 while the battery unit 32 is being charged. Then, the control unit 90 continues until the ratio (ratio) between the calculated usable time T3 of the PC 2 and the calculated usable time T4 of the mobile phone 3 reaches a predetermined ratio (ratio). Continue charging. For example, the control unit 90 continues to charge the battery unit 32 until the usable time T3 of the PC 2 is equal to the calculated usable time T4 of the mobile phone 3 (until the ratio becomes 1: 1).

  In addition, the control unit 90 outputs a control signal to the switch unit 23a and supplies it to the power supply line L2 that supplies power to the mobile phone 3 when stopping the charging of the battery unit 32 (secondary battery 321). Electric power is reduced and charging of the battery unit 32 (secondary battery 321) is suppressed.

Next, operations of the charge control device 1a and the charge control system 100 in the present embodiment will be described.
FIG. 4 is a flowchart showing a charging process of the charging control device 1a in the present embodiment.
After the mobile phone 3 (second device) is connected to the PC 2 (first device) and the communication of the USB interface is established, the charging control device 1a includes the battery unit 32 (secondary battery 321) of the mobile phone 3. Start charging.

In FIG. 4, first, the charging control device 1a determines whether or not an external power source is connected (step S201). That is, the control unit 90 of the charging control device 1a is connected to the external power supply based on the determination result (determination signal R) as to whether or not power is supplied to the external power supply line L3 output from the power supply switching unit 21. It is determined whether or not. If the control unit 90 determines that an external power source is connected, the control unit 90 advances the process to step S202.
If the control unit 90 determines that the external power source is not connected, the control unit 90 advances the process to step S203.

  In step S202, the charge control device 1a fully charges (full charge) the battery of the mobile phone 3. That is, first, the power supply switching unit 21 supplies power supplied via the external power supply line L3 to each part of the charge control device 1 and the PC2. Further, the control unit 90 outputs a control signal for supplying the power supplied from the power supply switching unit 21 to the I / F unit 20 to the switch unit 23a. Thereby, the switch unit 23 a is in a state of supplying the power supplied from the power supply switching unit 21 to the I / F unit 20. The power supplied to the I / F unit 20 is supplied to the mobile phone 3 through the power supply line L2, and further supplied to the battery unit 32 through the I / F unit 31 of the mobile phone 3. Thereby, the battery unit 32 charges the secondary battery 321. Note that the control unit 90 fully charges the secondary battery 321 of the battery unit 32 with the power supplied via the external power line L3. In addition, the control part 90 returns a process to step S201, when the full charge of the battery part 32 (secondary battery 321) is completed.

In step S <b> 203, the charging control device 1 a acquires battery remaining amount information (remaining amount information Q ₂ of the battery unit 32) of the mobile phone 3 and power consumption information A ₂ of the mobile phone 3. That is, the control unit 90 requests the remaining amount information Q ₂ of the battery unit 32 and the power consumption information A ₂ of the mobile phone 3 from the mobile phone 3 through the I / F unit 20. Control unit 33 of the mobile phone 3, in response to a request from the charge control device 1a, and a power consumption information A ₂ of the remaining amount information Q ₂ and the mobile phone 3 of the battery unit 32, a communication line through the I / F section 31 To L1. The control unit 90 stores the remaining amount information Q ₂ of the battery unit 32 and the power consumption information A ₂ of the mobile phone 3 supplied via the communication line L 1 in the storage unit 60.

Next, the charging control device 1a calculates the usable time T3 of the PC 2 and the usable time T4 of the mobile phone 3 (step S204). Specifically, the control unit 90 first determines the PC 2 based on the remaining amount information Q _{1 of the} battery unit 22 (secondary battery 221) stored in the storage unit 60 and the power consumption information A ₁ of the PC 2. The usable time T3 is calculated. Note that the usable time T3 of the PC 2 is calculated by, for example, Expression (5).

_{T3 = Q 1 / A 1 ···} (5)

Control unit 90, then, based on the power consumption information A ₂ of the remaining amount information Q ₂ and the mobile phone 3 of the battery unit 32 which is supplied (secondary battery 321) from the mobile phone 3, the use of the mobile phone 3 The possible time T4 is calculated. Note that the usable time T4 of the mobile phone 3 is calculated by, for example, Expression (6).

T4 = Q ₂ / A ₂ (6)

  Next, the charging control device 1a determines whether or not (usable time T4 of the mobile phone 3 / usable time T3 of the PC 2) is equal to or greater than a predetermined value (step S205). That is, the control unit 90 determines whether or not the usable time T3 of the PC 2 and the usable time T4 of the mobile phone 3 have reached a predetermined ratio. Here, for example, it is determined whether (usable time T4 of mobile phone 3 / usable time T3 of PC2) is "1" or more. That is, the predetermined ratio is 1: 1, and the control unit 90 will explain an example of determining whether or not the usable time T3 of the PC 2 and the usable time T4 of the mobile phone 3 are equal. . If control unit 90 determines that (usable time T4 of mobile phone 3 / usable time T3 of PC2) is smaller than a predetermined value (“1”), the process proceeds to step S206. If control unit 90 determines that (usable time T4 of mobile phone 3 / usable time T3 of PC2) is equal to or greater than a predetermined value (“1”), the process proceeds to step S207. .

In step S206, the charging control device 1a supplies power to the power supply line L2. That is, the control unit 90 first outputs a control signal for supplying the power supplied from the battery unit 22 via the power supply switching unit 21 to the I / F unit 20 to the switch unit 23a. Accordingly, the switch unit 23 a is in a state of supplying the power supplied from the battery unit 22 to the I / F unit 20. The power supplied to the I / F unit 20 is supplied to the mobile phone 3 through the power supply line L2, and further supplied to the battery unit 32 through the I / F unit 31 of the mobile phone 3. Thereby, the battery part 32 (secondary battery 321) is charged.
After the process of step S206, the control unit 90 returns the process to step S201, and the ratio between the calculated usable time T3 of the PC 2 and the calculated usable time T4 of the mobile phone 3 is determined in advance. The battery unit 32 is continuously charged until the ratio (1: 1) is reached. That is, the processing of step S201 to step S206 is repeated until the ratio between the usable time T3 of the PC 2 and the usable time T4 of the mobile phone 3 becomes a predetermined ratio (1: 1).

In step S207, the charging control device 1a stops the charging of the battery unit 32. That is, the control unit 90 first outputs a control signal for switching to a state in which the power for supplying power to the mobile phone 3 is reduced to the switch unit 23a. Thereby, the switch part 23a is in the state which supplies the electric power supplied from the battery part 22 to the I / F part 20 via a resistor. The power supplied to the I / F unit 20 through the resistor is supplied to the mobile phone 3 through the power supply line L2, but the current is limited by the resistor, so that charging of the battery unit 32 is suppressed. be able to. Thus, the control unit 90 stops the charging of the battery unit 32 (secondary battery 321) of the mobile phone 3.
In addition, after the process of step S207, the control part 90 returns a process to step S201.

As described above, in the charge control device 1a and the charge control system 100 according to the present embodiment, the remaining amount of the battery unit 32 (second battery) supplied from the mobile phone 3 (second device) is controlled by the control unit 90. Information and power consumption information of the mobile phone 3 are acquired. Then, based on the power consumption information _{A 1} of the remaining amount information _{Q 1} and PC2 of the battery unit 22, calculates the available time T3 of PC1. The control unit 90 based on the power consumption information A ₂ of the remaining amount information Q ₂ and the cellular phone 3 of the battery unit 32, calculates the available time T4. Then, the control unit 90 repeatedly calculates a ratio (ratio) between the usable time T3 of the PC 1 and the usable time T4 of the mobile phone 3 repeatedly calculated during charging of the battery unit 32. Until the battery unit 32 is continuously charged.

As a result, the battery unit 32 (secondary battery 321) of the mobile phone 3 is not fully charged, but under the control of the control unit 90, the PC 2 usable time T3 and the mobile phone 3 usable time T4. Is distributed to the battery unit 32 (second battery) so that the remaining amount of the battery unit 22 (first battery) is in an optimal state (predetermined ratio). Therefore, when the PC 2 (charging device) and the mobile phone 3 (charged device) are operated by the batteries (battery units 22 and 32), the usable time of the PC 2 can be extended. That is, in the charging control device 1a and the charging control system 100 according to the present embodiment, the charging device can be used even when the charging device and the charged device are operated by the battery even if the charging device battery is charged from the charging device. Time can be prevented from being shortened.
When the above-described predetermined ratio is 1: 1, the remaining amount of the battery unit 22 is distributed so that the usable time of the PC 2 and the mobile phone 3 is equal. Therefore, for example, in an application in which the PC 2 and the mobile phone 3 are connected and used, the usable time can be maximized.

Further, the charging control device 1a and the charge control system 100, while performing charging of the battery unit 32, the control unit 90, the power consumption information _{A 1} of the remaining amount information _{Q 1} and PC2 of the battery unit 22, the battery and power consumption information a ₂ of the remaining amount information Q ₂ and the mobile phone 3 parts 32 with the latest value, to control the amount of charge. That is, the control unit 90 performs feedback based on the latest information, and changes the charging completion point of the battery unit 32.
Thereby, even when the usage states of the PC 2 and the mobile phone 3 change and the respective power consumption changes, the usable time T3 of the PC 2 and the usable time T4 of the mobile phone 3 are optimized. Can do. Therefore, the power in the battery unit 22 of the PC 2 can be distributed to the battery unit 32 of the mobile phone 3 more efficiently than in the first embodiment.

  In addition, when the charging of the battery unit 32 (second battery) is stopped, the control unit 90 supplies power to the power supply line L2 that supplies power to the mobile phone 3 (second device) to the switch unit 23a. The power to be supplied is reduced, and charging of the battery unit 32 is suppressed. As a result, even when the battery unit 32 is not charged, even when the battery unit 32 is not charged, charging of the battery unit 32 can be stopped even when it is necessary to always supply power to the power supply line L2. .

<Third Embodiment>
Next, a third embodiment of the present invention will be described.
In the present embodiment, as in the first and second embodiments, an example in which a PC is applied to the charging device (first device) and a mobile phone is applied to the charged device (second device). explain.

FIG. 5 is a schematic block diagram showing the charge control device 1b and the charge control system 100 according to the present embodiment. In this figure, the same components as those in FIG.
In this figure, the PC 2 (first device) includes a charge control device 1b.

The charging control device 1b charges the secondary battery 321 (second battery) provided in the mobile phone 3a (second device) with the power of the secondary battery 221 (first battery) provided in the PC 2. Let The charging control device 1b is connected to the mobile phone 3 via a communication line L1 that performs data communication with the mobile phone 3a and a power supply line L2 that supplies power to the mobile phone 3a.
The charging control device 1 b includes an I / F unit 20, a power supply switching unit 21, a battery unit 22, a storage unit 60, and a control unit 90.
The mobile phone 3a includes an I / F unit 31, a battery unit 32, a control unit 33, a storage unit 34, and a switch unit 35.
In the present embodiment, the mobile phone 3a includes the switch unit 35 instead of the charge control device 1b not including the switch unit 23 (or 23a). In this embodiment, this point is different from the first and second embodiments.

  The switch unit 35 is disposed between the I / F unit 31 and the battery unit 32. Based on the control signal output from the control unit 33, the switch unit 35 switches between a state where the power supplied from the I / F unit 31 is supplied to the battery unit 32 and a state where the supply is stopped. The power supplied to the battery unit 32 through the switch unit 35 is supplied from the PC 2 through the power supply line L2.

Moreover, in this embodiment, the method in the case of starting and stopping charge of the battery part 32 (2nd battery) differs from 2nd Embodiment.
The control unit 90 of the PC 2 starts charging the battery unit 32 (second battery) to the mobile phone 3a via the I / F unit 20 when starting charging of the battery unit 32 (secondary battery 321). Command (control command) to be output. In addition, when the charging of the battery unit 32 (secondary battery 321) is stopped, the control unit 90 causes the mobile phone 3a to stop charging the battery unit 32 (second battery) via the I / F unit 20. A command (control command) is output to the mobile phone 3a. These commands are output to the I / F unit 31 of the mobile phone 3a via the communication line L1.

  On the other hand, the control unit 33 of the mobile phone 3 a receives the command output from the control unit 90 of the PC 2 via the I / F unit 31. When the received command is a command for starting charging of the battery unit 32, the control unit 33 sends a control signal to the switch unit 35 so that the power supplied from the I / F unit 31 is supplied to the battery unit 32. Output. In addition, when the received command is a command for starting charging of the battery unit 32, the control unit 33 outputs a control signal for causing the power supplied from the I / F unit 31 not to be supplied to the battery unit 32. 35.

Next, operations of the charge control device 1b and the charge control system 100 in the present embodiment will be described.
The charging process of the charging control device 1b in the present embodiment is the same as the charging process in the second embodiment shown in FIG. However, in step S206 and step S207, as described above, the processes for starting and stopping charging of the battery unit 32 (second battery) are different.

  In the charging control device 1b according to the present embodiment, in step S206, the control unit 90 first outputs a command for starting charging of the battery unit 32 to the mobile phone 3a via the I / F unit 20. A command for starting charging of the battery unit 32 is output to the mobile phone 3a via the communication line L1, and the control unit 33 of the mobile phone 3a supplies the power supplied from the I / F unit 31 to the battery unit 32. A control signal for setting the state is output to the switch unit 35. As a result, the switch unit 35 enters a state in which the power supplied from the I / F unit 31 is supplied to the battery unit 32. That is, power is supplied from the battery unit 22 of the PC 2 to the battery unit 32 of the mobile phone 3 via the power supply line L2. Thereby, the battery part 32 (secondary battery 321) is charged.

  In step S207, the control unit 90 first outputs a command for stopping charging of the battery unit 32 to the mobile phone 3a via the I / F unit 20 to the mobile phone 3a. A command for stopping charging of the battery unit 32 is output to the mobile phone 3a via the communication line L1, and the control unit 33 of the mobile phone 3a does not supply the power supplied from the I / F unit 31 to the battery unit 32. A control signal for setting the state is output to the switch unit 35. As a result, the switch unit 35 puts the power supplied from the I / F unit 31 into a state where it is not supplied to the battery unit 32. That is, the power supplied to the I / F unit 20 is supplied to the mobile phone 3 through the power supply line L2, but the supply to the battery unit 32 is stopped by the switch unit 35. Thus, the control unit 90 stops the charging of the battery unit 32 (secondary battery 321) of the mobile phone 3.

  As described above, in the charge control device 1b and the charge control system 100 according to the present embodiment, the control unit 90 is changed from the battery unit 22 (first battery) to the mobile phone 3a by the same processing as in the second embodiment. Controls the amount of charge electricity supplied. Therefore, in the charge control device 1b and the charge control system 100 in the present embodiment, the same effect as in the second embodiment can be expected. That is, in the charge control device 1b and the charge control system 100 in the present embodiment, even if the battery of the charged device is charged from the charging device when the charging device and the charged device are operated by the battery, the second embodiment Similarly, it is possible to prevent the usable time of the charging device from being shortened.

Further, in the charge control device 1b and the charge control system 100 in the present embodiment, the mobile phone 3a includes the switch unit 35 instead of the charge control device 1b. Then, when the charging of the battery unit 32 (secondary battery 321) is stopped, the control unit 90 causes the mobile phone 3a to stop charging the battery unit 32 (second battery) via the I / F unit 20. A command (control command) is output to the mobile phone 3a.
As a result, even when the battery unit 32 is not charged, even when the battery unit 32 is not charged, charging of the battery unit 32 can be stopped even when it is necessary to always supply power to the power supply line L2. . Moreover, since the power supplied to the battery unit 32 can be completely stopped by the switch unit 35, the power of the battery unit 22 can be used more efficiently than in the second embodiment.

<Fourth Embodiment>
Next, a fourth embodiment of the present invention will be described.
In this embodiment, an example will be described in which an imaging device is applied to a charging device (first device) and a mobile phone is applied to a charged device (second device).

FIG. 6 is a schematic block diagram showing the charge control device 1b and the charge control system 100a according to the present embodiment. In this figure, the same components as those in FIG.
In this figure, the charging control system 100a includes an imaging device 2a as a charging device (first device) and a mobile phone 3a as a charged device (second device).
The imaging device 2a (first device) includes an imaging unit 10, an I / F unit 20, a power supply switching unit 21, a battery unit 22, a display unit 50, a storage unit 60, a communication unit 70, an operation unit 80, and a control. Part 90 is provided. The imaging device 2 a includes a charge control device 1 b including a part of the I / F unit 20, the power supply switching unit 21, the battery unit 22, the storage unit 60, and the control unit 90.

The imaging unit 10 is controlled by the control unit 90 based on the set imaging conditions (for example, aperture value, exposure value, etc.). The imaging unit 10 forms an optical image via the optical system 11 on the imaging element 12 and generates image data based on the optical image converted by the A / D (analog / digital) conversion unit 13. The image data is used for still images and moving images (video). That is, the imaging unit 10 captures an image.
The display unit 50 is, for example, a liquid crystal display, and displays image data obtained by the imaging unit 10, an operation screen, and the like. The display unit 50 may be a display unit in the finder.
The storage unit 60 stores various information used for processing of the control unit 90, imaging conditions by the imaging unit 10, and the like.

The communication unit 70 is connected to a removable storage medium 200 such as a card memory, and performs writing, reading, or erasing of image data on the storage medium 200.
The storage medium 200 is a storage unit that is detachably connected to the imaging device 2a, and stores, for example, image data generated by the imaging unit 10.
The operation unit 80 includes, for example, a power switch, a shutter button, a cross key, a confirmation button, a delete button, and other operation keys. The operation unit 80 is operated by a user to receive a user's operation input and perform control. To the unit 90.
The bus 400 is connected to the imaging unit 10, the I / F unit 20, the display unit 50, the storage unit 60, the communication unit 70, the operation unit 80, and the control unit 90, and image data output from each unit. And transfer control signals.

  The control unit 90 includes, for example, a CPU (Central processing unit) and the like, and controls each component included in the imaging device 2a. For example, when the control unit 90 receives an imaging instruction via the operation unit 80, the moving image data obtained via the imaging element 12 and the A / D conversion unit 13 is recorded as a captured image as a storage medium. 200. Similarly to the charging control device 1b in the third embodiment, the control unit 90 supplies power from the battery unit 22 to the battery unit 32 of the mobile phone 3a via the power supply line L2, and the battery unit 32 ( Control is performed to charge the secondary battery 321).

Next, operations of the charging control device 1b and the charging control system 100a in the present embodiment will be described.
The charging process of the charging control device 1b in the present embodiment is the same as the charging process in the third embodiment. In other words, the present embodiment is the same as the charging process in the third embodiment, except that the first device is replaced by the imaging device 2a including the charge control device 1b.

  As described above, the imaging device 2a in the present embodiment includes the charge control device 1b similar to that in the third embodiment. Therefore, in the imaging device 2a and the charging control system 100a in the present embodiment, the same effect as in the third embodiment can be expected. That is, the imaging device 2a according to the present embodiment is similar to the second embodiment in that the charging device is charged with the battery of the charged device from the charging device when the charging device and the charged device are operated by the battery. It is possible to prevent the usable time of the battery from being shortened.

The present invention is not limited to the above embodiments, and can be modified without departing from the spirit of the present invention. In each of the above embodiments, the form using the USB interface has been described. However, as long as the interface includes the communication line L1 and the power supply line L2, another form may be used. Further, the interface may be configured to superimpose a communication signal on the power supply line L2 and share the communication line L1 and the power supply line L2.
In each of the above embodiments, the example in which the mobile phone is used as the second device has been described. However, another device may be used as the second device. For example, an imaging device may be used as the second device, or a music player or a recording recorder that can be charged via a USB interface may be used.

Further, in each of the embodiments described above, the charging control device (1, 1a, or 1b) has been described as having the power supply switching unit 21, but without the power supply switching unit 21, the power from the battery unit 22 is used. It may be a form that operates.
Further, in each of the embodiments described above, the mode in which the battery unit 32 is fully charged when power is supplied to the external power supply line L3 has been described. However, for example, a charging priority mode is provided, and the charging priority mode is set. In some cases, the control unit 90 may fully charge the battery unit 32. In this embodiment, it is possible to cope with a case where it is desired to fully charge the second device.
In each of the above embodiments, the first device (PC 2 or imaging device 2a) has been described as including the charge control device (1, 1a, or 1b). However, the first device (PC 2 or imaging device 2a) is provided outside the first device. But you can.

Moreover, in each said embodiment, although the battery part 22 demonstrated the form provided with the secondary battery 221, the form provided with temporary batteries, such as a dry battery, may be sufficient. Further, when the battery unit 22 is the secondary battery 221, the battery unit 22 may be charged by power supplied from the external power supply line L3.
Further, in the above embodiments, PC2 power consumption information A ₁ (first device), based on the power consumption acquired at a constant cycle intervals have been described in the form which is calculated as the average power consumption Other forms are also possible. For example, a form using a fixed value measured in advance may be used. Similarly, power consumption information A ₂ of the mobile phone 3 or 3a (second device), based on the power consumption acquired at a constant cycle intervals have been described in the form which is calculated as the average power consumption Other forms are also possible. For example, a form using a fixed value measured in advance may be used.

Moreover, in said 1st Embodiment, although the predetermined ratio demonstrated the form which is 1: 1, it is not limited to this. For example, the control unit 90 may perform control so that the usable time after charging is increased by the time for performing the termination process of the PC 2.
Moreover, in said 2nd Embodiment, although the predetermined ratio demonstrated the form which is 1: 1, it is not limited to this. For example, the control unit 90 may perform control so that the usable time after charging is increased by the time for performing the termination process of the PC 2.

  Further, control for calculating the charge electricity amount ΔQ in the first embodiment and supplying the charge electricity amount ΔQ to the power supply line L2, and a usable time in the second embodiment are determined in advance. The control to continue charging until the ratio is reached may be used in combination. In this case, the electric power in the battery unit 22 of the PC 2 can be distributed to the battery unit 32 of the mobile phone 3 more efficiently than in the first and second embodiments.

  The control for stopping the charging of the battery unit 32 in the first embodiment may be applied when the charging of the battery unit 32 in the second embodiment is stopped. The control for stopping the charging of the battery unit 32 in the second and third embodiments may be applied when the charging of the battery unit 32 in the first embodiment is stopped.

In the second embodiment, the switch unit 23a has been described with respect to the form in which the current is limited by the pull-up resistor. However, the switch part 23a may have a form in which the current is limited by a constant current circuit. The form which restricts may be sufficient.
In the first and second embodiments, the switch unit 23 (or 23a) may be included in the I / F unit 20.
In each of the above embodiments, the control unit 90 and the control unit 33 may be realized by dedicated hardware. Moreover, the control part 90 and the control part 33 are comprised by memory and CPU, and each function of the control part 90 and the control part 33 may be implement | achieved by the program.

  The above-described charging control device (1, 1a, or 1b) has a computer system inside. The process of the control unit 90 described above is stored in a computer-readable recording medium in the form of a program, and the above process is performed by the computer reading and executing the program. Here, the computer-readable recording medium means a magnetic disk, a magneto-optical disk, a CD-ROM, a DVD-ROM, a semiconductor memory, or the like. Alternatively, the computer program may be distributed to the computer via a communication line, and the computer that has received the distribution may execute the program.

  DESCRIPTION OF SYMBOLS 1, 1a, 1b ... Charge control apparatus, 2 ... PC, 2a ... Imaging device, 3, 3a ... Mobile phone, 22, 32 ... Battery part, 31 ... I / F part, 90 ... Control part, 100, 100a ... Charging Control system

Claims (9)

A charge control device that charges the second battery provided in the second device with the power of the first battery provided in the first device,
The charge control device is provided in the first device,
Based on the remaining amount information of the second battery and the power consumption information of the second device supplied from the second device, the amount of charging electricity supplied from the first battery to the second device is calculated. A charge control device comprising a control unit for controlling. The controller is
Based on the remaining amount information of the second battery, the power consumption information of the second device, the remaining amount information of the first battery, and the power consumption information of the first device, the second The amount of charge electricity is controlled so that a ratio between a usable time after charging of the first device and a usable time after charging of the first device is set to a predetermined ratio. The charging control device described. The controller is
The usable time of the second device calculated based on the remaining amount information of the second battery and the power consumption information of the second device, the remaining amount information of the first battery, and the first device The first device usable time calculated based on the power consumption information is repeatedly calculated during charging of the second battery, and the second device usable time and the first device use are calculated. The charge control device according to claim 1 or 2, wherein the charging of the second battery is continued until the ratio to the possible time becomes a predetermined ratio. The controller is
4. The power supply to the power supply line that supplies power to the second device is stopped when the charging of the second battery is stopped. 5. The charge control device according to item 1. The controller is
When the charging of the second battery is stopped, a control command for stopping the charging of the second battery to the second device is output to the second device. Item 4. The charge control device according to any one of items 3. The controller is
The power supplied to the power supply line that supplies power to the second device is reduced when charging of the second battery is stopped. 4. The charging control device according to 1. The charge control device according to claim 2 or 3, wherein the predetermined ratio is 1: 1.   The imaging device according to claim 1, wherein the imaging device is an imaging device. A charge control system comprising: a first device having a first battery; and a second device having a second battery charged by the power of the first battery,
The second device includes:
A communication unit configured to supply the first battery with the remaining amount information of the second battery and the power consumption information of the second device;
The first device includes:
Based on the remaining amount information of the second battery and the power consumption information of the second device supplied from the second device, the amount of charging electricity supplied from the first battery to the second device is calculated. A charge control system comprising a control unit for controlling.

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