JP2014039445A - Battery device, imaging apparatus, and charger - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a battery device, in a system in which a battery device is charged by being connected to a charger, that limits a charging time period to which the charging is desired to be limited.SOLUTION: The battery device, capable of transmitting/receiving information to and from a charger while being detachably connected to an electronic apparatus or the charger, includes a rechargeable battery that stores power fed through the charger, a clock part that is driven by the power fed by the rechargeable battery and clock the time, and an information holding part that holds information associated with a time period to which power feeding from the charger to the rechargeable battery is limited.

Description

  The present invention relates to a battery device that can be charged and can supply power to an electronic device.

2. Description of the Related Art Conventionally, an electronic device system (for example, a camera system) using a battery device that can be attached to and detached from an electronic device (for example, a battery device for a camera that includes a microcomputer or a secondary battery) is known. . Some of the electronic device systems are configured to perform charging by connecting a battery device removed from the electronic device (camera body) to a charging device. In recent years, in such an electronic device system, a mechanism capable of limiting charging in a desired time zone has been demanded.
On the other hand, a charging system for a mobile phone (a mobile phone having a charge control device) that performs charge control on a battery (secondary battery) in the mobile phone by connecting the mobile phone to a charging device is known. . This mobile phone charging system is configured to prohibit charging when it is connected to a charging device during a time period in which charging is prohibited. (See Patent Document 1).

JP 2002-75463 A

  However, in the charging system described in Patent Document 1, there is no concept of charging by removing the battery from the mobile phone. For this reason, in an electronic device system using a battery device that can be attached to and detached from the electronic device, the charging prohibition control cannot be realized by applying the concept of the charging system of Patent Document 1.

The battery device according to claim 1 is a battery device that is detachably connected to an electronic device and a charger, and is capable of transmitting and receiving information to and from the charger, the electric power supplied via the charger A storage battery, a time counting unit that drives based on the electric power supplied from the storage battery, and an information holding unit that holds time information related to a time for limiting power supply from the charger to the storage battery. It is characterized by providing.
The imaging device according to claim 11 is an imaging device in which a battery device is detachably connected and capable of transmitting / receiving information to / from the battery device, wherein the user can input the time information. And an output unit that outputs the input time information to the battery device.
The charging device according to claim 12 is a charging device in which a battery device is detachably connected and capable of transmitting and receiving information to and from the battery device, and a receiving unit that receives the time information; And a control unit that controls to limit power supply based on the time information.

  According to the battery device of the present invention, when the battery device is connected to the charging device and charging is performed, the charging can be limited to a time when the charging is desired to be limited.

1 is a block diagram illustrating an electrical configuration of a battery device 1 and a charger 10 in the present embodiment. 2 is a block diagram showing an electrical configuration of a camera body 20 in the present embodiment. FIG. 3 is a flowchart illustrating an example of control of the battery device 1 and the charger 10 in the present embodiment. It is the figure which showed an example of control of the battery apparatus 1 and the camera main body 20 in this embodiment. It is the figure which showed the relationship between the electric power supply amount of the battery apparatus 1 in this embodiment, the electrical storage amount, and the charge time. FIG. 6 is a diagram showing a display example on a camera display unit 26. It is the block diagram which showed the other electric structure of the battery apparatus 1 in this embodiment. It is the flowchart which showed an example of control of the battery apparatus 40 in this embodiment.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
In the present embodiment, “time” and “time zone” are described as synonymous terms.
[First embodiment]
In the present embodiment, the battery device 1 will be described by taking a camera battery device used for a camera as an example.
FIG. 1 is a block diagram showing an electrical configuration of the battery device 1 and the charger 10 in the present embodiment.

First, the components of the battery device 1 will be described.
The battery device 1 includes a battery device control unit 2, a memory 3, a real-time clock circuit 4 (hereinafter abbreviated as RTC circuit 4) that measures the current time, a charge / discharge control switch 5, a battery cell 6, and a power supply circuit 7, a battery device contact 8, and a display unit 9.

The battery device control unit 2 is electrically connected to the memory 3, the RTC circuit 4, the charge / discharge control switch 5, the battery device contact 8, and the display unit 9.
The battery device control unit 2 controls the opening / closing of the charge / discharge control switch 5. Further, the battery device control unit 2 can control the power supply amount per unit time by controlling the opening / closing of the charge / discharge control switch 5. Details thereof will be described later in the description of the flowchart of FIG.
The battery device control unit 2 performs various information communication with a later-described charger control unit 11 via the battery device communication contact 8 and the charger contact 13. Various information includes information related to “time for limiting charging” to the battery cell 6, information about the amount of power stored in the battery cell 6, information about charge control, and the like. Details of these various types of information will be described later.
The battery device control unit 2 can read the current time of the RTC circuit 4 by communicating with the RTC circuit 4. When the current time is included in the “time to limit charging”, the battery device control unit 2 controls the opening / closing of the charge / discharge control switch 5 according to the “limitation rate” of charging described later. When the current time is not included in the “time for limiting charging”, the charge / discharge control switch 5 is controlled to be closed (short-circuited).
The battery device control unit 2 calculates the amount of power stored in the battery cell 6 at a constant period. Charging completed based on the calculated amount of stored electricity and the amount of power supplied to the battery cell 6 during charging (the battery cell 6 is fully charged with approximately 100% of its charge capacity) Calculate the scheduled time. Details will be described later.
Similarly to the well-known charge control operation, the battery device control unit 2 monitors overcharge and overcurrent with respect to the power supply from the charger 10 to the battery cell 6, and determines that the charge / discharge control switch 5 Can be controlled so that charging and discharging is prohibited.

The memory 3 holds information on (A) “time to limit charging”, (B) information on the rate of restriction, (C) information on charging control, and the like.
(A) Information on “time to limit charging” includes “information on time to start and end charging limitation” (for example, “start time 11:00 and end time 13:00”), Information on the start time for starting the restriction and the time for controlling the charge "(for example," 2 hours from 11:00 at the start time ").
(B) Information on the rate of restriction is “time for limiting charging” when the supply power supplied from the charger 10 to the battery cell 6 at a time different from “time for limiting charging” is 100%. Is the information of the ratio n (0 ≦ n <100)% of the supplied power supplied to. Here, the numerical value n is a finite value. Further, since charging is limited, the numerical value n as the ratio of supplied power is a value not including 100.
(C) The information regarding the charge control is information for notifying the later-described charger control unit 11 that there is no charge error when connected to the charger 10 during a time period when charging is restricted. . For example, the flag information is “0” when charging is not restricted, and “1” when charging is restricted. Here, the charging error means that when the ratio of the power supplied from the charger 10 to the battery cell 6 is not 100%, the charger control unit 11 determines that some charging trouble has occurred and the power supply circuit 12 This is an error that stops the power supply to the battery cell 6.
As a charging trouble, there is a charging trouble in which the ratio of power supplied from the charger 10 to the battery device 1 is not 100%.
If the charger controller 11 recognizes such a state as a charging error, as a result, charging is prohibited regardless of the time period in which it is desired to limit charging (for example, to set the ratio of supplied power to 50%). (The ratio of supplied power becomes 0%). Therefore, in the present embodiment, in order to prevent such a charging error, the charger control unit 11 receives information from the battery device control unit 2 in advance that information indicating that the charging error is not described above. Even if the control unit 11 determines that a charging trouble has occurred, the control unit 11 does not recognize the charging error but supplies power to the battery device 1.

The RTC circuit 4 includes a crystal oscillator and a register.
The crystal oscillator measures time (count value) by oscillating at a constant period.
The register holds the time (count value) measured by the crystal oscillator as time information of the current time that can be recognized by the user, and continues to be updated at a constant cycle.

The charge / discharge control switch 5 is an FET transistor. It is turned on when there is an energization permission instruction from the battery device control unit 2, and it is turned off when there is an energization prohibition instruction from the battery device control unit 2.
The ratio of the power supply amount is 100% when the charge / discharge control switch 5 is continuously on (short circuit). When the charge / discharge control switch 5 is continuously off (opened), it is 0%. When the battery device control unit 2 controls the charge / discharge control switch 5 to be repeatedly switched on and off, the ratio of the power supply amount is a ratio n% (0%) corresponding to each on / off time per unit time. <Any number satisfying <n <100).

  The battery cell 6 is a storage battery that stores electric power to be supplied to the power supply circuit 7 and a camera body 20 described later. The battery cell 6 may be configured by connecting a plurality of battery cells in series or in parallel. The power supply circuit 7 converts the electric power stored in the battery cell 6 into an operation level of each part and supplies it to each part of the battery device 1.

The battery device contact 8 includes a + (plus) contact 8a, a mounting detection contact 8b, an information communication contact 8c, and a-(minus) contact 8d. When the information communication contact 8c of the battery device contact 8 contacts and is electrically connected to the information communication contact 13c of the charger contact 13, the battery device control unit 2 can perform various communications with the charger control unit 11. it can. For example, it is possible to perform certification data communication for confirming that the battery device 1 is a genuine product, information (A) to (C) communication regarding restriction on charging, and the like.
Further, the battery device control unit 2 communicates with the camera body control unit 21 in various ways by the information communication contact 8c of the battery device contact 8 contacting and electrically connecting to the information communication contact 23c of the camera contact 23 described later. It can be performed. For example, data communication related to time for limiting charging or communication of the amount of electricity stored in the battery cell 6 is performed. The + contact 8a and the −contact 8d are electrical contacts that are energized when power is supplied from the charger 10 to the battery device 1 or power is supplied from the battery device 1 to the camera body 20.
The positive contact 8a and negative contact 8d of the battery device contact 8 and the positive contact 13a and negative contact 13d of the charger contact 13 may be a non-contact type. In that case, the positive contact 8a and negative contact 8d of the battery device contact 8 and the positive contact 13a and negative contact 13d of the charger contact 13 may be replaced with electromagnetic coils or the like.
The attachment detection contact 8 b is an electrical contact for detecting whether or not the battery device 1 is attached to the charger 10 or whether or not the battery device 1 is attached to the camera body 20. The battery device control unit 2 detects whether the battery device 1 is mounted on the charger 10 or whether the battery device 1 is mounted on the camera body 20, and the battery device control unit 2 detects that the voltage of the mounting detection contact 8b is high or low. This is done by determining whether or not the switch has been made.

The display unit 9 is configured by an LED, a liquid crystal display device, or the like, and displays the scheduled time for completion of charging, the ratio of the amount of power supplied from the charger 10 to the battery cell 6, and the like.
The display unit 9 is not particularly necessary as a component from the viewpoint of reducing the size and weight of the battery device 1. Therefore, the battery device 1 may be configured without the display unit 9 in consideration of downsizing of the battery device 1.

Next, components of the charger 10 will be described.
The charger 10 includes a charger control unit 11, a power supply circuit 12, and a charger contact 13. The charger 10 and the power plug 14 are electrically connected.

  The charger control unit 11 communicates with the battery device control unit 2 via the charger contact 13 and the battery device contact 8. Even when a charging trouble occurs, the charger control unit 11 controls the power supply circuit 12 to supply power when information indicating that there is no charging error is notified from the battery device control unit 2. .

  The power supply circuit 12 supplies power to the battery cell 6 via the charger contact 13 and the battery device contact 8 based on an instruction from the charger control unit 11.

  The charger contact 13 includes a positive contact 13a, a mounting detection contact 13b, an information communication contact 13c, and a negative contact 13d. When the battery device contact 8 is brought into contact with the charger contact 13, the + contact 13a of the charger contact 13, the + contact 8a of the battery device contact 8, the mounting detection contact 13b and the mounting detection contact 8b, and the information communication contact 13c The information communication contact 8c, the -contact 13d, and the -contact 8d are electrically connected to each other. The connection between the negative contact 8d of the battery device 1 and the negative contact 13d of the charger 10 is a voltage reference (so-called GND) of all components of the battery device 1 and the charger 10. The information communication contact 13c is a communication contact for transmitting an instruction from the charger control unit 11 to the battery device control unit 2 via the information communication contact 8c.

Next, components of the camera body 20 will be described with reference to FIG.
The camera body 20 includes a camera body control unit 21, a DC / DC converter 22, a camera contact 23, a sequence drive circuit 24, an information input unit 25, a camera display unit 26, and a memory 27.

Based on the input signal from the information input unit 25, the camera body control unit 21 sets “charge time limit information”, “charge rate information”, and the like of the battery device 1. Details will be described later with reference to FIG.
When the camera body control unit 21 determines that a release switch (not shown) included in the information input unit 25 is turned on, the camera body control unit 21 outputs an instruction signal related to the imaging sequence to the sequence driving circuit 24.

The camera contact 23 includes an electrical contact including a + contact 23a, a mounting detection contact 23b, an information communication contact 23c, and a -contact 23d. By contacting the information communication contact 23c of the camera body 20 with the information communication contact 8c of the battery device 1, the camera body control unit 21 can be electrically connected to the battery device control unit 2 to perform various communications. it can. Details will be described later with reference to FIG.
The electric power supplied from the battery device 1 via the + contact 23a and the −contact 23d is supplied as a power source necessary for the photographing sequence in the sequence drive circuit 24, and the components in the camera body 20 in the DC / DC converter 22 are supplied. Is adjusted to a necessary voltage level and supplied to each part in the camera body 20.

When the sequence driving circuit 24 receives the above-described instruction signal from the camera body control unit 21, the sequence driving circuit 24 drives a well-known imaging mechanism such as a shutter and an aperture (not shown) to execute a series of imaging sequences. As a result, one or a plurality of image data is generated.
The camera body control unit 21 records the image data obtained by the above-described series of shooting sequences in the memory 27.

The information input unit 25 is electrically connected to a cross button (not shown), a determination button, and a menu button.
The cross button is a button for the user to operate in the up, down, left, and right directions in order to select an item related to a function that the user wants to execute from items displayed on the camera display unit 26. The enter button is a button that the user presses to operate the cross button to determine the selected item. The menu button is a button that the user presses to display the menu screen on the camera display unit 26.

The camera display unit 26 is composed of a liquid crystal display device, for example, and displays images, menu screens, and the like.
The memory 27 holds image data recorded under the control of the camera body control unit 21.

Next, the control of the battery device control unit 2 and the charger control unit 11 will be described with reference to the flowchart shown in FIG. 3A shows the control of the battery device control unit 2, and FIG. 3B shows the control of the charger control unit 11.
Further, the control of the battery device control unit 2 is executed at a predetermined cycle when the charged amount of the battery cell 6 is larger than zero. The control of the charger control unit 11 is executed at a predetermined cycle when the power plug 14 is connected to a commercial power source.
First, the control of the battery device control unit 2 will be described with reference to FIG.

  In step S <b> 101, the battery device control unit 2 reads from the memory 3 “a time when charging restriction starts” and “a time when charging restriction ends”.

  In step S102, the battery device control unit 2 reads the current time held in the register of the RTC circuit 4 and the corresponding count value.

In step S103, the battery device control unit 2 calculates the amount of power stored in the battery cell 6 by a known method.
In step S104, the battery control unit 2 is electrically connected by the contact between the mounting detection contact 8b of the battery device 1 and the mounting detection contact 13b of the charger contact 13, and the voltage of the mounting detection contact 8b is at a high level. And whether it has switched between low level and low level.
If it is determined that the voltage has been switched between the high level and the low level, the process proceeds to step S105. If it is determined that the voltage has not been switched between the high level and the low level, the process returns to step S101.

In step S <b> 105, the battery device control unit 2 reads from the memory 3 the ratio of power supply used in step S <b> 106 described later.

In step S <b> 106, the battery device control unit 2 plans to complete charging based on the power supply amount in the time zone in which charging is not limited, the power supply amount in the time zone in which charging is limited, and the power storage amount of the battery cell 6. Calculate the time.

Here, a method of calculating the scheduled time for completion of charging will be described with reference to FIG.
In FIG. 5, the vertical axis on the left indicates the ratio of the amount of power supplied from the power supply circuit 12 to the battery cell 6. The vertical axis on the right represents the amount of power stored in the battery cell 6 by the power supply described above. The horizontal axis indicates the time during the charging operation.
As a condition, the charged amount of the battery device 6 before charging is the minimum charged amount (approximately 0%) at which the battery device control unit 2 operates. Moreover, the ratio of the power supply amount in the time zone in which charging is restricted indicates a set value (50%) of the ratio of the power supply amount supplied in the time zone.
Time t1 on the horizontal axis is the time at which charging is started. Specifically, it is the time when the battery device 1 is connected to the charger 10 connected to the commercial power supply via the power plug 14.
Time t2 is a time at which charging restriction starts, and time t3 is a time at which charging restriction ends. These times t2 and t3 are times read from the memory 3 in step S101. Time t4 is a scheduled time for completion of charging when the battery cell 6 is fully charged.
When charging of the battery device 1 is started at the time t1, the battery device control unit 2 determines the amount of power supply from the time t1 to the time t2 (current and time when the power supply ratio is 100% (t2− power supply amount calculated from t1), power supply amount from time t2 to t3 (power supply amount calculated from current and time (t3-t2) when the power supply ratio is 50%), and Based on the power supply amount after time t3 (the power supply amount calculated from the current when the power supply ratio is 100% and the time (t4-t3)), the change in the storage amount of the battery cell 6 is changed. The time t4 at which the battery cell 6 is fully charged is calculated. That is, time t4 is a variable time.

In step S <b> 107, battery device control unit 2 determines whether or not “preset desired time for completion of charging (desired time for completion of charging)” is held in memory 3. If it is determined that it is held, the process proceeds to step S108. If it is determined that it is not held, the process proceeds to step S109.
Here, the desired charging completion time is a “charging completion time (time at which the battery cell 6 is desired to be fully charged)” desired by the user, and is set by using the camera body 20 or the like in advance. Is possible.

In step S108, the battery device control unit 2 sets the “desired time desired to complete charging (hereinafter referred to as“ desired time ”)” and “step S106” held in the memory 3. The charging completion scheduled time (hereinafter referred to as the scheduled time) "calculated in the above is compared. If the scheduled time is earlier than or the same as the desired time, the process proceeds to step S109. If the scheduled time is later than the desired time, the process proceeds to step S110.
Specifically, the count value of the RTC circuit 4 read in step S102 is compared with the count value of the desired time, and if the count value of the desired time is less than or equal to the count value of the schedule time, the process proceeds to step S109. . If the count value of the desired time is larger than the count value of the scheduled time, the process proceeds to step S110.
When it is determined in step S108 that the process proceeds to step S110, the battery device control unit 2 may display on the display unit 9 that charging is not restricted. Specifically, the battery device control unit 2 displays “No charging limitation” on the display unit 9.

In step S109, the start time for starting the restriction on charging read from the memory 3, the end time for ending the restriction on charging, and the current time read from the RTC circuit 4 are compared. Specifically, if it is determined that the above-mentioned current time is not included in the above-mentioned “time to limit charging”, the process proceeds to step S110. If it is determined that the current time is included in the “time to limit charging”, the process proceeds to step S111.

In step S110, the battery device control unit 2 controls the charge / discharge control switch 5 to be turned on. As a result, when power supply from the power supply circuit 12 to the battery cell 6 is started, power supply is performed at a power supply ratio of 100%, and charging is not limited.
When the process proceeds to step S110 via step S108, it is possible to prevent a state where the charging is not completed even when the desired time comes because the “time for limiting charging” exists.

In step S111, it is determined whether the power supply ratio read from the memory 3 is set to 0%. If a value other than 0% is set, the process proceeds to step S112. If it is set to 0%, the process proceeds to step S114.

In step S112, based on the ratio of the power supply read from the memory 3, the timing for repeatedly turning on / off the charge / discharge control switch 5 is calculated. For example, when the ratio of power supply is set to 50%, the timing is calculated such that the time during which the charge / discharge control switch 5 is turned on per unit time is halved. For example, the unit time is 1 second. When the power supply ratio is 50%, the battery device control unit 2 calculates the on / off switching timing such that the charge / discharge control switch 5 is on for 0.5 seconds and off for 0.5 seconds. .

In step S113, the battery device control unit 2 controls the on / off operation of the charge / discharge control switch 5 based on the timing calculated in step S112. As a result, power supply is performed when power supply from the power supply circuit 12 to the battery cell 6 is started, but charging is limited. The amount of electricity supplied per unit time decreases compared to when the charge / discharge control switch 5 is always on. For example, when the power supply ratio is set to 50%, the power supply amount per unit time is half that of the power supply amount when the charge / discharge control switch 5 is always on.

In step S114, the battery device control unit 2 controls the charge / discharge control switch 5 to be turned off. As a result, even when power supply from the electric supply circuit 12 to the battery cell 6 is started, power is not supplied and charging is prohibited.

In step S115, the battery device controller 2 communicates with the charger controller 11 via the information communication contact 8c of the battery device 1 and the information communication contact 13c of the charger 10.
Specifically, “information not charging error” communication, “certification information for confirming that the battery device 2 is a genuine product” communication, power is supplied by controlling the power supply circuit 12 to the charger control unit 11 For example, “power supply request information” communication.
The communication between the battery device control unit 2 and the charger control unit 11 is established when the charger control unit 11 requests communication to the battery device control unit 2 and the battery device control unit 2 responds. To do.

In step S116, the battery device control unit 2 displays the ratio of power supply read from the memory 3 in step S105, the scheduled time for completion of charging calculated by the battery device control unit 2 in step S106, and the like.

In step S117, the battery device control unit 2 uses the power storage amount calculated in step S103 to fully charge the power storage amount in the battery cell 6 (a storage amount substantially the same as the charge capacity of the battery cell 6). ) Is determined. When it is determined that the battery cell 6 is fully charged, the process proceeds to step S118. When it is determined that the battery cell 6 is not fully charged, the process returns to step S102.

In step S118, the battery device control unit 2 notifies the charger control unit 11 that the battery cell 6 is fully charged, and ends the process.

Next, control of the charger control unit 11 will be described with reference to FIG.

In step S <b> 201, the charger control unit 11 stands by until the information communication contact 8 c of the battery device contact 8 contacts the information communication contact 13 c of the charger contact 13. If it is determined that both contacts are in contact and electrically connected, the process proceeds to step S202.

In step S202, the charger controller 11 communicates with the battery device controller 2 via the information communication contact 13c of the charger 10 and the information communication contact 8c of the battery device 1. The charger control unit 11 requests the battery device control unit 2 for the information described above in step S115.
Step S202 and corresponding step S115 perform communication by a known asynchronous process. The battery device control unit 2 transmits information in response to a request from the charger control unit 11.

In step S203, the charger control unit 11 receives “power supply request information”, “certification information for confirming that the battery device 1 is a genuine product”, and “not charging error” from the battery device control unit 2. Based on the reception of “information”, it is determined whether or not power supply to the battery device 1 is possible. When three pieces of information “request information for power supply”, “certification information for confirming that the battery device 1 is a genuine product”, and “information indicating that there is no charging error” are received, the process proceeds to step S204. The power is supplied to the battery device 1. If any one of the above three pieces of information has not been received, it waits until three pieces of information are received.

In step S205, when notified from the battery device control unit 2 that the battery cell 6 has been fully charged, the charger control unit 11 controls the power supply circuit 12 to connect to the battery device 1. Stop power supply.

Next, the control of the battery device control unit 2 and the camera body control unit 21 regarding the setting of the “information regarding charging restriction” in the camera body 20 to the battery device 1 will be described with reference to the flowchart shown in FIG.
FIG. 4A shows the control of the battery device control unit 2. FIG. 4B shows the control of the camera body control unit 21 when the battery device 1 is mounted on the camera body 20.

In step S151, the battery device control unit 2 switches the contact voltage between a high level and a low level when the mounting detection contact 8b of the battery device 1 and the mounting detection contact 23b of the camera body 20 come into contact with each other. When this is detected, power is supplied toward the camera body 20 by controlling the charge / discharge control switch 5 to be turned on.
In step S <b> 301, the camera body control unit 21 waits for power supply from the battery device 1. The camera main body control unit 21 is configured to perform steps when the positive contact 23a and the negative contact 23d of the camera main body 20 are in contact with and electrically connected to the positive contact 8a and the negative contact 8d of the battery device 1 and are supplied with power. The process proceeds to S302.

  In step S302, when the signal for starting the charging time limit setting mode is input from the information input unit 25 in step S302, the camera body control unit 21 proceeds to step S303. If no signal is input, the process proceeds to step S305.

In step S303, the camera body control unit 21 displays the screen shown in FIG. 6A on the camera display unit 26, and proceeds to step S304.
6A is displayed on the camera display unit 26 when the start time of 12:00 and the end time of 15:00 are stored in the memory 3 as initial values of the “charge limit time”. It is an example of a screen.

In step S304, the camera body control unit 21 operates the start time 30 of “time to limit charging” based on a signal sent from the information input unit 25 by operating a cross button or a determination button (not shown). An end time 31 is set. The camera body control unit 21 notifies the battery device control unit 2 of the start time 30 and the end time 31 described above, and proceeds to step S305.
In step S <b> 152, the battery device control unit 2 records the start time 30 and the end time 31 notified from the camera body control unit 21 in the memory 3.

In step S305, when the camera body control unit 21 receives a signal for starting the charge restriction ratio mode from the information input unit 25, the process proceeds to step S306. If no signal is input, the process proceeds to step S308.
In step S306, the camera body control unit 21 displays the screen shown in FIG. 6B on the camera display unit 26, and proceeds to step S307.
FIG. 6B is an example of a screen displayed on the camera display unit 26 when 50% is stored in the memory 3 as an initial value of the “charge limiting ratio”.

In step S307, the camera body control unit 21 sets a rate 32 for limiting charging based on a signal sent from the information input unit 25 when a cross button or a determination button (not shown) is operated. The camera body control unit 21 notifies the battery device control unit 2 of the rate 32 for limiting the charging described above, and proceeds to step S308.
In step S <b> 153, the battery device control unit 2 records in the memory 3 the ratio 32 that limits the above-described charging.

In step S308, when the signal for starting the charging completion desired time setting mode is input from the information input unit 25 in step S308, the camera body control unit 21 proceeds to step S309. If no signal is input, the process ends.
In step S309, the camera body control unit 21 displays the screen shown in FIG. 6C on the camera display unit 26, and proceeds to step S310.
FIG. 6C is an example of a screen displayed on the camera display unit 26 when 15:00 is stored in the memory 3 as an initial value of “charge completion desired time”.

In step S310, the camera body control unit 21 sets a desired charging completion time 33 based on a signal sent from the information input unit 25 by operating a cross button or a determination button (not shown). The camera body control unit 21 notifies the battery device control unit 2 of the desired charging completion time 33 described above, and ends the process.
In step S154, the battery device control unit 2 records the above-described desired time 33 for completion of charging in the memory 3.
The camera body control unit 21 only needs to be able to set at least one of “charge limit time”, “charge limit ratio”, and “charge completion desired time”. In that case, the camera body control unit 21 controls to use the initial values for items that are not set.

[Second Embodiment]
Next, a second embodiment of the present invention will be described.
However, for the components described in the second embodiment of the present invention, the same components as those in the first embodiment are denoted by the same reference numerals, and detailed description thereof is omitted.

FIG. 7 is a block diagram showing an electrical configuration of the battery device 40 in the second embodiment. The difference between the battery device 1 in the first embodiment and the battery device 40 in the second embodiment is that the battery device 40 further includes a wireless communication unit 41.
Note that the battery device 40 in the present embodiment is detachable from the camera body 20.

The wireless communication unit 41 is electrically connected to the battery device control unit 2. The wireless communication unit 41 constitutes an internal unit having a wireless LAN (local area network) function for performing wireless communication with an external device, and is connected to the external device based on the IEEE802.11 series communication standard. Connected.
The external device is, for example, an information terminal that transmits information related to “time suitable for charging limitation”. This information terminal holds information related to “time suitable for charging limitation” such as a time when the electricity bill is higher than the electricity bill at other times in the day.

  Next, the control of the battery device control unit 2 in a state where the battery device 40 is detached from the camera body 20 will be described with reference to the flowchart shown in FIG. However, in the flowchart in FIG. 8, the same steps as those in the flowchart shown in FIG. 4 are denoted by the same step numbers, and the description thereof is omitted here.

  In step S <b> 161, the battery device control unit 2 waits to receive information related to charging control via the wireless communication unit 41. When the information regarding charge control is received, it progresses to step S162.

  In step S <b> 162, battery device control unit 2 determines whether or not “information on time for limiting charging” is included in the received information on charging control. When “information on time to limit charging” is included, the process proceeds to step S152, and when “information about time to limit charging” is not included, the process proceeds to step S163.

  In step S <b> 163, the battery device control unit 2 determines whether or not “information on a rate for restricting charging” is included in the received information on charging control. If “charge limiting information” is included, the process proceeds to step S153. If “charge limiting ratio information” is not included, the process proceeds to step S164.

In step S164, battery device control unit 2 determines whether or not the desired information is included in the received information related to charge control. If the desired time is included, the process proceeds to step S154. If the desired time is not included, the process ends.

Note that the battery device 40 according to the second embodiment may execute the above-described control illustrated in FIG. 8 while being connected to the camera body 20. In that case, charging may be controlled based on at least one of the information from the camera body control unit 21 or the information from the wireless communication unit 41.

  The present invention is not limited to the above-described embodiments, and various modifications can be made.

  In the embodiment of the present invention, the battery device control unit 2 controls the charge / discharge control switch 5 to limit the power supply to the battery cell 6. However, the present invention is not limited to the above-described embodiment. The battery device control unit 2 performs “charger control” on the “information regarding the time to limit charging” recorded in the memory 3 via the information communication contact 8 c of the battery devices 1 and 40 and the information communication contact 13 c of the charger 10. May be configured to limit the charging of the battery devices 1 and 40 by causing the charger control unit 11 to control the power supply circuit 12 based on the notification from the battery device control unit 2. .

  The charge / discharge control switch 5 may be composed of a DC / DC converter and an open / close switch. In that case, the battery device control unit 2 uses the DC / DC converter so that the contact voltage between the + contact 8a and the −contact 8d of the battery devices 1 and 40 becomes a desired charging restriction ratio. Is supplied to the battery cell 6 by limiting the power supply amount.

In addition, the RTC circuit 4 stores the time for limiting charging, and when the start time or end time of the time for limiting charging is reached, the RTC circuit 4 notifies the battery device control unit 2 of the start and end of charging limitation. May be configured to notify each of them.

  Further, the display unit 9 may be configured by an LED, and the LED 1 that indicates a charged state (such as charging) and the LED 2 that indicates that the current time is included in the time for limiting charging may be provided. Good. Furthermore, the battery device control unit 2 may be configured to blink the LED 1 in a time zone in which charging is restricted.

In step S <b> 101, the battery device control unit 2 may read “start time of time to limit charging” and “time from start time” from the memory 3 as “time to limit charging”.
In step S <b> 101, the battery device control unit 2 may read “the end time of the time for limiting charging” and “the time until the end time” from the memory 3 as the “time for limiting charging”.

In addition, the wireless communication unit 41 illustrated in FIG. 7 may be provided in the camera body 20. In that case, the control of the camera main body control unit 21 is the same as in FIG. The operation of the camera body control unit 21 in this case will be described below.
In step S161, the camera body control unit 21 waits for reception of information regarding charging control.
In steps S162 to S164, the camera body control unit 21 determines whether necessary information is included in the received information related to charge control.
If there is necessary information, control may be performed so that necessary information is transmitted to the battery device control unit 2 in steps S152 to S154.

Claims (12)

A battery device that is detachably connected to an electronic device and a charger, and that can send and receive information to and from the charger,
A storage battery for storing electric power supplied via the charger;
Drive based on the electric power supplied from the storage battery, and a time measuring unit that measures time,
A battery device comprising: an information holding unit that holds time information related to a time for limiting power supply from the charger to the storage battery. The battery device according to claim 1, wherein the time information includes information on a time during which power supply from the charger to the storage battery is prohibited. 2. The battery device according to claim 1, wherein the time information supplies power with a second supply amount smaller than a first supply amount supplied to the storage battery when power supply from the charger to the storage battery is not limited. 3. A battery device comprising time information. The battery device according to any one of claims 1 to 3,
When the battery device is connected to the charger, the control for controlling the power supply to the storage battery is limited when the time indicated by the time information includes the time measured by the time measuring unit. The battery device further comprising a section. The battery device according to claim 1, wherein
When a battery device is connected to the charger, when the time indicated by the time information is included in the time indicated in the time information, the power supply to the storage battery is limited to the charger. The battery apparatus characterized by transmitting the information for this. The battery device according to any one of claims 1 to 5,
A battery device, further comprising: a display unit configured to display information related to power supply from the charger to the storage battery. The battery device according to claim 6,
The battery device according to claim 1, wherein the information display is an information display indicating a state where the power supply is restricted. The battery device according to any one of claims 1 to 7,
A detection unit for detecting a storage amount stored in the storage battery;
A setting unit that sets a time at which power supply to the storage battery is to be completed as a first time;
A calculation process for calculating, as a second time, a time at which power supply from the charger to the storage battery is completed based on an amount of power supplied from the charger to the storage battery and a storage amount detected by the detection unit; A control unit that performs a comparison process for comparing the first time and the second time,
The said control part does not restrict | limit the electric power supply from the said charger to the said storage battery, when said 1st time is time before said 2nd time. The battery apparatus characterized by these. The battery device according to any one of claims 1 to 8,
The battery device characterized in that the time information is information set by a user. The battery device according to any one of claims 1 to 9,
A receiving unit capable of receiving the time information wirelessly;
An information holding unit for holding the time information received by the receiving unit;
A battery unit comprising: a control unit that records the time information in the information holding unit. An image pickup apparatus to which the battery device according to any one of claims 1 to 10 is detachably connected and capable of transmitting and receiving information to and from the battery device,
An input unit that allows a user to input the time information;
An image pickup apparatus comprising: an output unit that outputs the input time information to a battery device. A battery device according to any one of claims 1 to 10, wherein the battery device is detachably connected, and is a charging device capable of transmitting and receiving information to and from the battery device,
A receiving unit for receiving the time information;
And a control unit that controls to limit power supply based on the received time information.

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