JP3873430B2 - Electronic device apparatus, electronic device system, and charging method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a charge amount display device and a charge amount display method for displaying a charge amount when charging by a charger with respect to a charge amount display device having a storage battery mounted and incorporated therein.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, a camera-integrated video tape recorder (hereinafter referred to as a “camera-integrated VTR”) includes a camera unit and a VTR unit, and an image of a subject imaged by the camera unit is converted into an electrical signal. Thus, magnetic recording is performed on the magnetic tape after predetermined signal processing.
[0003]
Then, the video signal recorded on the magnetic tape by the VTR unit is reproduced and supplied to the monitor to display an image of the video signal.
[0004]
In such a camera-integrated VTR, a storage battery is mounted and incorporated, and the storage battery is charged by a charger, and the camera-integrated VTR is operated using the voltage of the charged storage battery. It was.
[0005]
[Problems to be solved by the invention]
However, the conventional camera-integrated VTR described above has a disadvantage that there is no means of knowing how much remaining time is available when the camera-integrated VTR is operated in the current charging state during charging. .
[0006]
In addition, when calculating the remaining usable time of the storage battery being charged while charging with the charger, the power consumption information of the camera-integrated VTR is necessary, so that the camera-integrated VTR is actually operated ( There is an inconvenience that it can be calculated only in the discharge state.
[0007]
The present invention has been made in view of the above points, and proposes a charge amount display device and a charge amount display method in which a charge amount is displayed by a display means when a storage battery is charged by a charger. It is what.
[0008]
[Means for Solving the Problems]
In order to solve such a problem, an electronic device device according to the present invention includes a control unit that controls the electronic device device and an actual power of the electronic device device in an electronic device device in which a rechargeable power storage unit is incorporated or mounted. Displays power consumption storage means for storing power consumption information calculated from consumption, remaining amount storage means for storing remaining power information of the power storage means, and operable time of the electronic device by the power storage means Display means, wherein the control means is based on the power consumption information and the remaining power information during charging in a state where the power of the electronic device is turned off . The operable time of the electronic device is calculated, and the remaining operable time is displayed on the display means.
[0009]
Further, the electronic device system of the present invention is an electronic device system including an electronic device device in which a rechargeable power storage unit is built in or attached, and a charging device that charges the power storage unit. A control means for controlling the electronic device, a power consumption storage means for storing power consumption information calculated from an actual power consumption of the electronic equipment apparatus, and a remaining power capacity information for storing the power storage means. A power storage unit for displaying the power consumption information when the electronic device is turned off. Based on the remaining power information and the current remaining power amount of the power storage means is calculated, and the remaining operable time is calculated in the display unit. It is intended to be displayed in.
Further, the charging method of the present invention includes a control step of controlling the electronic device device and an actual power consumption amount of the electronic device device in a charging method in an electronic device device in which chargeable power storage means is built in or attached . A power consumption storage step for storing power consumption information calculated from the above, a remaining amount storage step for storing power remaining amount information of the power storage means, and a display step for displaying an operable time of the electronic device by the power storage means And the control step includes the step of charging the electronic device with the electronic device apparatus turned off , based on the power consumption information and the remaining power information. The operable time of the device is calculated, and the remaining operable time is displayed in the display step.
The charging method of the present invention is the charging method in an electronic device system including an electronic device device in which a chargeable power storage means is built in or attached, and a charging device that charges the power storage means. The device stores a control step for controlling the electronic device device, a power consumption storage step for storing power consumption information calculated from an actual power consumption of the electronic device device, and a remaining power information of the power storage means A remaining amount storing step and a display step for displaying an operable time of the electronic device by the power storage means, wherein the control step is performed when the electronic device is charged in a state where the power is turned off. Based on the power information and the remaining power information, the operation time of the electronic device at the current remaining power of the power storage means is calculated. The remaining operable time is intended to be displayed in the display step.
[0010]
According to the charge amount display device of the present invention, the following operation is performed.
The display means acts to display the charge amount. The drive means acts to operate the control target unit based on the charge amount. The power storage means acts to supply the accumulated voltage to the driving means. The charging means acts to charge the power storage means. The display means acts to display a charge amount when the power storage means is charged by the charging means.
[0011]
According to the charge amount display method of the present invention, the following operations are performed.
The charging step acts to charge the power storage unit after the power storage unit is mounted on the mounting unit. The power storage step acts to store the voltage charged by the charging step. The display step acts to display the amount of charge accumulated by the power storage step. The drive step acts to operate the control target unit based on the voltage accumulated in the power storage step. The display step acts to display the charge amount when the power storage step is charged by the charging step.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings as appropriate. The charge amount display device according to the present embodiment is a camera-integrated VTR (hereinafter referred to as a video camera device) that displays a charge amount by a display means when charging a storage battery mounted and incorporated in the camera-integrated VTR with a charger. This applies to
[0013]
FIG. 1 is a diagram showing a video camera device with a charge amount display according to an embodiment of the present invention. In FIG. 1, the connection state will be described first. An info lithium battery (a lithium battery capable of displaying information) is attached as a storage battery B to a mounting portion of the video camera apparatus A. Next, the AC adapter cord of the charger C is connected to the DC input terminal of the video camera apparatus A. And after connecting a power cord to the charger C, it plugs into the household power outlet of AC100V. This completes the connection.
[0014]
In the connection state described above, the power switch 20 of the video camera apparatus A is switched to “OFF”. Then, charging is started from the charger C for the info lithium battery as the storage battery B. When charging is started, the remaining battery time is displayed on the display unit 21 of the video camera apparatus A. This remaining battery time is time information indicating how much usable remaining time is available when the camera unit and / or the VTR unit of the video camera apparatus A are operated in the current charging state during charging.
[0015]
Here, as described above, when calculating the remaining usable time of the storage battery being charged while being charged by the charger, the power consumption information of the camera unit or the VTR unit or both of the video camera device A in the charged state is obtained. Although necessary, it is calculated through communication with the storage battery B by a microprocessor of the video camera apparatus A described later.
[0016]
As a result, it is possible to know how much remaining time the camera unit and / or VTR unit of the video camera apparatus A can operate at present. For example, in FIG. 1, while the remaining operable time is 100 minutes at the start of charging, the current remaining operable time is increased to 120 minutes due to charging for a predetermined time by numerical display on the display unit 21. You can know specifically.
[0017]
Next, the connection state between the video camera device A and the storage battery B to which the charge amount display device of the present embodiment is applied and the configuration thereof will be described with reference to FIG. In FIG. 2, A is a video camera device to which a power supply voltage is supplied from a storage battery B, and B is a storage battery for supplying a power supply voltage stored in the video camera device A.
[0018]
1 of the video camera apparatus A is a voltage regulator that supplies power to the circuit inside the apparatus, 2 is a microprocessor that communicates with the microprocessor 8 in the storage battery B, and stores the remaining power information stored in the memory 9 in the storage battery B. 8 is a microprocessor that can receive and calculate the remaining usable time from 8 and 3 can communicate with the microprocessor 2, information on power consumption (power consumption per unit time) of the video camera device A itself, and storage battery B 4 is an interface circuit that mediates communication, and 21 is a display unit that displays the remaining usable time calculated by the microprocessor 2.
[0019]
In addition, 5 and 6 of the storage battery B are storage battery cells, 7 is a voltage regulator that supplies power to the circuits inside the storage battery B, and 8 is a microprocessor that can communicate with the microprocessor 2 in the video camera device A. is there. The microprocessor 8 has an input A / D converter. A memory 9 is communicable with the microprocessor 8 and receives and stores power consumption information and the like from the video camera device A, and also stores the remaining battery charge calculation of the storage battery B. An interface circuit 10 and a charge / discharge current detection circuit 11 detect the charge / discharge current of the storage battery B, and this value is input to the microprocessor 8 via an input A / D converter. In the charger C, reference numeral 12 denotes a charge control circuit that converts the AC input power source into DC and controls the voltage and current to control the charging of the storage battery B.
[0020]
The operation of the storage battery B will be described with reference to these drawings.
First, in the video camera apparatus A, power consumption information is stored in the memory 3. This power consumption information may be a preset value set in advance or a value calculated by the microprocessor 2 from the actual power consumption.
[0021]
When the video camera apparatus A is used with the storage battery B attached, the microprocessor 2 in the video camera apparatus A communicates with the microprocessor 8 in the storage battery B via the interface circuit 4 and the interface circuit 10. At this time, the power consumption information stored in the memory 3 in the video camera apparatus A is sent to the storage battery B and stored in the memory 9 in the storage battery B. Further, the remaining power information stored in the memory 9 in the storage battery B is sent to the video camera device A and stored in the memory 3 in the video camera device A.
[0022]
Further, the actual power consumption is taken into the microprocessor 8 from the charge / discharge current detection circuit 11 via the A / D converter. The microprocessor 8 always accumulates this power consumption. The remaining power information calculated based on the integrated value is stored in the memory 9.
[0023]
There is no particular limitation on the memory 9 used here. Various types of memory types such as a built-in memory of the microprocessor 8, a RAM, and a nonvolatile memory can be used.
[0024]
On the other hand, the microprocessor 2 in the video camera apparatus A receives the power consumption information and the remaining power information stored in the memory 9 in the storage battery B from the microprocessor 8 and calculates the remaining usable time. The calculated remaining usable time is sent to the display unit 21 and displayed. An example of a calculation formula for the remaining amount information (the unit is represented by Ah) is shown in Formula 1.
[0025]
[Expression 1]
Remaining amount information = reference remaining amount information + charged power integrated value−used power integrated value [0026]
In other words, in this equation, the remaining amount information is represented by adding the subsequent charging power history information to the reference remaining amount information (rated capacity) at the time of shipment of the storage battery, and subtracting the used power history information.
[0027]
An example of a calculation formula for the remaining usable time (unit is represented by h) is shown in Formula 2.
[0028]
[Expression 2]
Usable remaining time = (remaining amount information−a) × b / power consumption information
Here, the power consumption information is the power consumption per unit time of the device to be used (in this embodiment, a video camera device), and a is a value determined by the device to be used and related to temperature, power consumption, and the like. Yes, and b is a constant (storage battery specific value) determined by the storage battery.
[0030]
That is, in this equation, the remaining usable time is obtained by subtracting the value a related to the power usage of the target device from the remaining amount information of the storage battery and multiplying the value by the storage battery specific value b by the power consumption of the target device per unit time. And the remaining usable time.
[0031]
As described above, in this embodiment, each of the video camera device A and the storage battery B, which are target devices, is provided with a microprocessor, data is transferred between the microprocessors, and arithmetic processing is performed using the transferred data. The remaining time that the video camera apparatus A can be used by the storage battery B attached to the video camera apparatus A in the current charging state of the storage battery B while charging the storage battery B by the charger C is determined by the video camera apparatus A. Is displayed on the display unit 21.
[0032]
That is, in a state where the video camera device A, the storage battery B, and the charger C are connected to each other and the power is turned off by the power switch 20 of the video camera device A.
First, power consumption information of the video camera device A is stored in a memory inside the video camera device A and a memory inside the storage battery B by communication between the video camera device A and the storage battery B.
[0033]
Secondly, the power consumption information of the video camera apparatus A communicating with the storage battery B is stored in the memory 3 in the video camera apparatus A and the memory 9 in the storage battery B.
[0034]
Third, the communication between the video camera device A and the storage battery B allows the video camera device A to know two types of information: power consumption information of the video camera device A and remaining power time information of the storage battery B.
[0035]
Fourth, the video camera device A confirms the remaining power information of the storage battery B in more detail by combining the voltage of the storage battery B and the charging current of the storage battery B with the remaining power information calculated in the storage battery B that can be known by communication. it can.
[0036]
Fifth, the video camera apparatus A calculates the remaining usable time of the storage battery B in the video camera apparatus A from the remaining power information of the storage battery B and the power consumption information of the video camera apparatus A.
[0037]
Sixth, the video camera apparatus A displays this remaining usable time.
As a result, the remaining usable time when the video camera device A is turned off (charged state) with the storage battery B being charged attached to the video camera device A is displayed on the video camera device A side. Because you can know, it is convenient and convenient.
[0038]
Further, since the remaining usable time is displayed in this way, the video camera apparatus A determines whether or not the storage battery can be used for the video camera apparatus A at the present time without waiting for the complete charging to end. Can be done on the side. That is, since it can be understood how much shooting is possible even with a short charging time, for example, it can be understood that charging for 15 minutes can be performed for 1 hour, which is suitable for actual use.
[0039]
In particular, when an info lithium battery is used as the storage battery B, the charging speed becomes slow in the second half of charging. Therefore, the storage battery can be charged efficiently by repeatedly charging it at a stage where it can be charged relatively quickly in the first half of charging. Is possible.
[0040]
In the above-described embodiment, the case where the target device is applied to the video camera apparatus A has been described. However, the electronic device using a storage battery is not limited to this, and other electronic devices such as a laptop personal computer. You may apply to a computer, a portable telephone, a PHS (personal handy phone), a POS (point of sales) terminal, a remote control device, etc.
[0041]
The charge amount display device of the present embodiment has a display unit 21 as a display unit that displays a charge amount, a video camera device A as a drive unit that operates a control target unit based on the charge amount, and a drive unit. A storage battery B as a power storage means for supplying the stored voltage and a charger C as a charging means for charging the power storage means, and when the power storage means is charged by the charging means, the amount of charge by the display means Since the storage battery being charged is attached to the apparatus, it can be displayed on the apparatus side to know.
[0042]
Further, in the charge amount display device according to the present embodiment, since the charge amount is a time during which the drive unit can operate the control target unit according to the charge amount, the remaining usable time is displayed. Therefore, it is possible to determine on the device side whether or not the storage battery can be used for the device at the current time point without having to complete charging.
[0043]
Further, in the charge amount display device according to the present embodiment, the charge amount is displayed by the display means even when the supply of power to the control target unit of the drive means is stopped in the above description. It is possible to know the remaining usable time when the power is turned off (charged state).
[0044]
The charge amount display method of the present embodiment includes a charging step for charging the power storage unit after the power storage unit is mounted on the mounting unit, a power storage step for storing the voltage charged in the charging step, and a power storage step A display step for displaying the amount of charge accumulated by the charging step and a driving step for operating the control target unit based on the voltage accumulated by the power storage step, and the display step when the power storage step is charged by the charging step. Thus, the amount of charge is displayed, so that the storage battery being charged is attached to the attachment portion, and can be immediately displayed to know.
[0045]
Further, in the charge amount display method of the present embodiment, in the above description, since the charge amount is a time during which the drive step can operate the control target unit according to the charge amount, the remaining usable time is displayed. Therefore, it is possible to immediately determine whether or not the storage battery can be used at the current time without having to complete charging.
[0046]
In the charge amount display method of the present embodiment, the charge amount is displayed in the display step even when the supply of power to the control target unit in the drive step is stopped in the above. It is possible to know the remaining usable time when the power is turned off (charged state).
[0047]
【The invention's effect】
The charge amount display device of the present invention includes a display means for displaying a charge amount, a drive means for operating a control target unit based on the charge amount, and a power storage means for supplying a voltage accumulated to the drive means. Charging means for charging the power storage means, and when the power storage means is charged by the charging means, the amount of charge is displayed by the display means, so that the storage battery being charged is attached to the device. In this state, there is an effect that it can be displayed on the device side to know.
[0048]
In the above-described charge amount display device according to the present invention, since the charge amount is a time during which the drive unit can operate the control target unit according to the charge amount, the remaining usable time is displayed. Therefore, there is an effect that it is possible to determine whether or not the storage battery can be used in the apparatus at the current time without having to complete the charging.
[0049]
Further, in the above-described charging amount display device of the present invention, the charging amount is displayed by the display unit even when the supply of power to the control target unit of the driving unit is stopped. There is an effect that it is possible to know the remaining usable time when the power is turned off (charged state).
[0050]
The charge amount display method of the present invention includes a charging step for charging the power storage unit after the power storage unit is mounted on the mounting unit, a power storage step for storing the voltage charged by the charging step, and the power storage A display step for displaying the amount of charge accumulated in the step, and a drive step for operating the control target unit based on the voltage accumulated in the power storage step, wherein the power storage step is charged by the charge step. In some cases, the amount of charge is displayed in the display step, so that it is possible to immediately display and know the charged storage battery mounted on the mounting portion.
[0051]
Further, in the charge amount display method of the present invention, in the above, the charge amount is a time during which the drive step can operate the control target unit according to the charge amount. Therefore, there is an effect that it is possible to immediately determine whether or not the storage battery can be used at the current time without having to complete charging.
[0052]
Further, in the charge amount display method of the present invention, the charge amount is displayed in the display step even when the supply of power to the control target unit in the drive step is stopped. There is an effect that it is possible to know the remaining usable time when the power is turned off (charged state).
[Brief description of the drawings]
FIG. 1 is a diagram showing a video camera device with a charge amount display according to an embodiment of the present invention.
FIG. 2 is a diagram illustrating a connection state between a video camera device, a storage battery, and a charger to which a charge amount display device according to an embodiment of the present invention is applied, and a configuration thereof.
[Explanation of symbols]
A ... Video camera device, B ... Storage battery, C ... Charger, 1 ... Voltage regulator, 2 ... Microprocessor, 3 ... Memory, 4 ... Interface circuit, 5 ... Storage battery cell, 6 ... Battery cell, 7 ... Voltage regulator, 8 ... Microprocessor, 9 ... Memory, 10 ... Interface circuit, 11 ... Charge / discharge current detection circuit, 12 ... Charge control circuit, 20 ... Power switch, 21 ... ... Display section

Claims (7)

In an electronic device in which a chargeable power storage means is built in or attached,
Control means for controlling the electronic device apparatus;
Power consumption storage means for storing power consumption information calculated from the actual power consumption of the electronic device,
Remaining power storage means for storing remaining power information of the power storage means;
Display means for displaying the operable time of the electronic device by the power storage means;
The control means operates the electronic device at the current remaining power level of the power storage unit based on the power consumption information and the remaining power information during charging in a state where the power of the electronic device is turned off. An electronic device apparatus characterized by calculating a possible time and displaying the operable remaining time on the display means. The electronic device apparatus according to claim 1, wherein the power consumption information is power consumption information in a state where the electronic device apparatus is operated. Power storage means for storing power consumption information of the previous SL electronic equipment devices, even when the power source of the electronic apparatus is turned off, according to claim 1, characterized in that by storing the power consumption information Electronic device equipment. The electronic device apparatus according to claim 1, wherein the electronic apparatus device is a mobile phone device. In an electronic device system including an electronic device device in which a rechargeable power storage unit is built in or attached, and a charging device that charges the power storage unit,
The electronic device is
Control means for controlling the electronic device apparatus;
Power consumption storage means for storing power consumption information calculated from the actual power consumption of the electronic device,
Remaining power storage means for storing remaining power information of the power storage means;
Display means for displaying the operable time of the electronic device by the power storage means;
The control means operates the electronic device at the current remaining power level of the power storage unit based on the power consumption information and the remaining power information during charging in a state where the power of the electronic device is turned off. An electronic device system characterized in that an available time is calculated and the remaining operable time is displayed on the display means. In a charging method in an electronic device in which a chargeable power storage means is built in or attached,
A control step of controlling the electronic device device;
A power consumption storage step of storing power consumption information calculated from the actual power consumption of the electronic device device;
A remaining amount storing step for storing remaining power information of the power storage means;
A display step of displaying the operable time of the electronic device by the power storage means,
The control step includes the operation of the electronic device at the current power remaining amount of the power storage unit based on the power consumption information and the remaining power information during charging in a state where the power of the electronic device is turned off. A charging method characterized by calculating a possible time and displaying the operable remaining time in the display step. In a charging method in an electronic device system including an electronic device device in which a rechargeable power storage unit is incorporated or mounted, and a charging device that charges the power storage unit
The electronic device is
A control step of controlling the electronic device device;
A power consumption storage step of storing power consumption information calculated from the actual power consumption of the electronic device device;
A remaining amount storing step for storing remaining power information of the power storage means;
A display step of displaying the operable time of the electronic device by the power storage means,
The control step is based on the power consumption information and the remaining power information when charging in a state where the power of the electronic device is turned off, and the operation of the electronic device at the current remaining power of the power storage unit A charging method characterized by calculating a possible time and displaying the operable remaining time in the display step.

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