JP4253089B2 - Imaging device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an imaging apparatus including two battery power sources. In particular, the present invention relates to an imaging apparatus including a switching unit that supplies electric power from a processing battery to a drive unit when the voltage of the drive battery becomes a predetermined value or less.
[0002]
[Prior art]
The conventional imaging device is weak to the imaging device instead of the driving battery when power is not supplied from the driving battery to the imaging device, such as when the driving battery is exhausted or when the driving battery is replaced. It has a so-called backup battery that supplies power.
[0003]
Japanese Patent Laid-Open No. 11-160772 (publication date: June 18, 1999) discloses an imaging apparatus in which the power supply source is switched from a battery to a capacitor when the battery is replaced. Japanese Patent Laid-Open No. 11-18310 (publication date: January 22, 1999) discloses a system having a battery for an image pickup apparatus and a battery for a printer.
[0004]
[Problems to be solved by the invention]
In the conventional imaging device, when power cannot be supplied from the driving battery to the imaging device, the backup battery supplies only weak power to the imaging device. For this reason, the imaging apparatus cannot perform operations other than the timing operation.
[0005]
SUMMARY An advantage of some aspects of the invention is that it provides an imaging apparatus that can solve the above-described problems. This object is achieved by a combination of features described in the independent claims. The dependent claims define further advantageous specific examples of the present invention.
[0006]
[Means for Solving the Problems]
That is, according to the first aspect of the present invention,An imaging apparatus for processing an image, which is projected by a conventional camera unit, a driving battery for supplying power to the conventional camera unit, a driving battery voltage detecting unit for detecting the voltage of the driving battery, and a conventional camera unit A processing unit that captures and processes the captured image, a processing battery that supplies power to the processing unit, provided independently of the driving battery, a processing battery voltage detection unit that detects the voltage of the processing battery, A determination unit that determines which of the driving battery and the processing battery supplies power to the conventional camera unit based on the voltage information received from the driving battery voltage detection unit and the processing battery voltage detection unit; When the determination unit determines that the voltage of the driving battery is lower than the voltage of the processing battery, the power supply from the processing battery to the conventional camera unit is switched off. And a part. Also, an imaging device that processes images, a conventional camera unit having a strobe unit that emits light at the time of imaging, a driving battery that supplies power to the conventional camera unit, and a driving battery that detects the voltage of the driving battery A battery voltage detection unit, a processing unit that has a mechanism that always requires power, a processing unit that captures and processes an image projected by a conventional camera unit, and a driving battery that supplies power to the processing unit are provided independently. A battery for processing, a battery voltage detecting unit for detecting the voltage of the processing battery, a driving battery voltage detecting unit, and a battery for driving based on voltage information received from the processing battery voltage detecting unit, and A determination unit that determines which of the processing batteries supplies power to the conventional camera unit; and a determination unit that determines whether the voltage of the driving battery is from the driving battery voltage detection unit. When voltage information indicating that the voltage is lower than the quasi-voltage is received and it is determined that power is supplied from the processing battery to the conventional camera unit, power is supplied from the processing battery to the conventional camera unit, and the processing battery voltage detection unit When voltage information indicating that the voltage of the processing battery is lower than the minimum voltage is received, the supply of power from the processing battery to the conventional camera unit is stopped, and the power from the processing battery to the mechanism that always requires power And a switching unit for supplying.
[0007]
The switching unit may include means for supplying power from the processing battery to the conventional camera unit on the condition that the voltage of the driving battery becomes equal to or lower than a predetermined voltage.
[0008]
The switching unit may further include means for supplying power from the processing battery to the conventional camera unit when the driving battery is not attached.
[0009]
The conventional camera unit may include a strobe unit that emits light during the imaging, and a control unit that controls charging of the strobe unit, and the control unit is configured to control the conventional camera unit from the processing battery. There may be provided means for prohibiting charging the flash unit when power is supplied to the flash unit.
[0010]
The conventional camera unit may include a strobe unit that emits light during the imaging, and a control unit that controls charging of the strobe unit, and the control unit is configured such that the voltage of the driving battery is the predetermined value. It may further have a means for prohibiting charging of the flash unit when the value becomes less than the value of.
[0011]
The maximum current of the driving battery may be larger than the maximum current of the processing battery.
[0012]
The imaging battery may be a primary battery that cannot be charged, and the processing battery may be a rechargeable storage battery.
[0013]
The capacity of the driving battery may be larger than the capacity of the processing battery.
[0014]
The above summary of the invention does not enumerate all the necessary features of the present invention, and sub-combinations of these feature groups can also be the invention.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described through embodiments of the invention. However, the following embodiments do not limit the claimed invention, and all combinations of features described in the embodiments are the solution of the invention. It is not always essential to the means.
[0016]
FIG. 1 is a configuration diagram of a digital camera as a first embodiment of an imaging apparatus. The digital camera includes a conventional camera unit 10, a driving battery 70, a driving battery voltage detection unit 74, a processing unit 30, a determination unit 50, a switching unit 60, a processing battery 72, and a processing battery voltage detection unit 76. . The conventional camera unit 10 projects an image of the outside world. The processing unit 30 records the image projected by the conventional camera unit 10. The driving battery 70 supplies power to the conventional camera unit 10. The processing battery 72 supplies power to the processing unit 30. The determination unit 50 controls the conventional camera unit 10 based on the voltages of the driving battery 70 and the processing battery 72 detected by the driving battery voltage detection unit 74 and the processing battery voltage detection unit 76. This digital camera is a single-lens reflex type, and the lens may be exchangeable.
[0017]
The conventional camera unit 10 includes a lens 14, a diaphragm 16, a strobe unit 20, a control unit 22, and a drive unit 24. The lens 14 forms an image of the subject, and the aperture 16 adjusts the aperture amount. The strobe unit 20 emits light to compensate for the amount of light necessary for shooting. The conventional camera unit 10 may further include a mechanical shutter that adjusts the shutter speed.
[0018]
The control unit 22 controls operations by the lens 14 and the diaphragm 16. That is, the control unit 22 controls at least one of the zoom and focus of the lens 14 and the aperture amount of the aperture 16. The control unit 22 also permits or prohibits the operation of the lens 14 and the diaphragm 16 based on the information regarding the shooting mode received from the determination unit 50. The control unit 22 also permits or prohibits charging of the flash unit 20. The driving unit 24 drives the lens 14 and the diaphragm 16. The drive unit 24 includes a motor and the like.
[0019]
The processing unit 30 captures and processes an image formed by the lens 14. The processing unit 30 includes a CCD (Charge Coupled Device) 34, an A / D conversion unit 36, a memory 38, a signal processing unit 40, a recording unit 42, and a display unit 44.
[0020]
The CCD 34 has an electronic shutter function and takes an image. In order to realize the electronic shutter function, the CCD 34 is provided with a shutter drain via a shutter gate. When the shutter gate is driven, accumulated charges are swept out to the shutter drain. By controlling the shutter gate, the time for accumulating charges in each sensor element, that is, the shutter speed can be controlled. The CCD 34 further converts the captured image into an electrical signal. The A / D converter 36 converts the analog signal received from the CCD 34 into a digital signal and outputs it to the memory 38. The memory 38 stores the received subject image. The signal processing unit 40 processes the image stored in the memory 38 and sends it to the recording unit 42 and the display unit 44.
[0021]
The display unit 44 displays the image received from the signal processing unit 40. The display unit 44 may be, for example, a camera built-in type liquid crystal monitor that displays images and characters on the screen.
[0022]
The recording unit 42 records the image received from the signal processing unit 40 on a recording medium. As the recording medium, a removable non-volatile semiconductor memory such as a memory card, a removable magnetic recording medium such as a floppy disk, or the like may be used. As the memory card, a medium capable of electrically reading and writing data, such as a flash ROM (Read-Only Memory), is used. As the recording unit 42, a memory card writer, a floppy disk drive, or the like is used.
[0023]
The driving battery 70 supplies power to the strobe unit 20, the control unit 22, and the driving unit 24 of the conventional camera unit 10 via the switching unit 60. The processing battery 72 supplies power to the processing unit 30. The second battery 72 also supplies power to the control unit 22 and the drive unit 24 via the switching unit 60. The processing unit 30 and the driving unit 24 do not require as much instantaneous current as the strobe unit 20. Therefore, the maximum current of the processing battery 72 may be smaller than the maximum current of the driving battery 70. The driving battery 70 and the second battery 72 are preferably two batteries having a maximum current ratio of 3: 1, for example. Further, the driving battery 70 and the processing battery 72 preferably have a maximum current of about 6 A and about 2 A, respectively. The driving battery 70 is a primary battery that cannot be charged, and the second battery 72 is a rechargeable storage battery.
[0024]
The driving battery voltage detection unit 74 detects the voltage of the driving battery 70 and determines voltage information indicating whether the voltage of the driving battery 70 is higher than a reference voltage sufficient to operate the driving unit 24. Send to 50. The processing battery voltage detection unit 76 detects the voltage of the processing battery 72 and determines voltage information indicating whether or not the voltage of the processing battery 72 is higher than the minimum voltage necessary for operating the processing unit 30. Send to 50.
[0025]
The determination unit 50 controls the operations of the control unit 22 and the switching unit 60. The determination unit 50 may also control the operation of the processing unit 30. The determination unit 50 supplies power to the conventional camera unit 10 from any one of the driving battery 70 and the processing battery 72 based on the voltage information received from the driving battery voltage detection unit 74 and the processing battery voltage detection unit 76. Instruction information indicating such is sent to the switching unit 60. The determination unit 50 also sets the shooting mode based on the voltage information received from the drive battery voltage detection unit 74 and the processing battery voltage detection unit 76 and sends information on the set shooting mode to the control unit 22. The shooting mode includes a flash shooting mode in which both flash photography in which the flash unit 20 is fired and non-flash photography in which the flash unit 20 is not fired can be performed, and only non-flash photography can be performed. There are a flash photography mode and a photography prohibition mode in which photography is not possible, that is, the conventional camera unit 10 does not perform photography.
[0026]
When the determination unit 50 receives voltage information indicating that the voltage of the driving battery 70 is higher than the reference voltage and voltage information indicating that the voltage of the processing battery 72 is higher than the minimum voltage, the determination unit 50 receives the voltage information from the driving battery 70. Instruction information indicating that power is supplied to the conventional camera unit 10 is sent to the switching unit 60. The determination unit 50 also sets the shooting mode to the flash shooting mode and sends information on the flash shooting mode to the control unit 22. In this case, the control unit 22 permits the photographing operation and charging of the flash unit 20.
[0027]
When the determination unit 50 receives voltage information indicating that the voltage of the driving battery 70 is lower than the reference voltage and voltage information indicating that the voltage of the processing battery 72 is higher than the minimum voltage, the determination unit 50 receives the conventional information from the processing battery 72. Instruction information indicating that power is to be supplied to the camera unit 10 is sent to the switching unit 60. The determination unit 50 also sets the shooting mode to the non-flash shooting mode, and sends information on the non-flash shooting mode to the control unit 22. In this case, the control unit 22 permits the photographing operation and prohibits charging of the flash unit 20. Accordingly, even when the voltage of the driving battery 70 becomes equal to or lower than the reference value, power can be supplied from the processing battery 72 to the conventional camera unit 10. In addition, by setting the non-strobe shooting mode, shooting can be performed even when power is supplied from the processing battery 72 having a smaller maximum current than that of the driving battery 70.
[0028]
When the determination unit 50 receives voltage information indicating that the voltage of the processing battery 72 is lower than the minimum voltage, the determination unit 50 sends instruction information indicating that the supply of power to the conventional camera unit 10 is stopped to the switching unit 60. . The determination unit 50 also sets the shooting mode to the shooting prohibition mode, and sends information related to the shooting prohibition mode to the control unit 22. In this case, the control unit 22 prohibits photographing operation and charging of the flash unit 20. As a result, the processing battery 72 can stop supplying power to the conventional camera unit 10 while leaving the capacity of the backup battery. Therefore, the processing battery 72 can continue to supply power to a mechanism that always requires power, such as a clock mechanism of the processing unit 30.
[0029]
The switching unit 60 supplies the power of either the driving battery 70 or the processing battery 72 to the conventional camera unit 10 based on the instruction information received from the determination unit 50. The switching unit 60 may be a switch circuit.
[0030]
FIG. 2 is a flowchart showing the operation of the digital camera shown in FIG. When the operation of the digital camera is started, the processing battery voltage detection unit 76 detects the voltage of the processing battery 72 (S100), and determines whether it is higher than the minimum voltage (S102). When the voltage of the processing battery 72 is lower than the minimum voltage (S102), the determination unit 50 causes the switching unit 60 to stop supplying power to the conventional camera unit 10 (S104). The determination unit 50 also sets the shooting mode to the shooting prohibition mode (S106). In this case, photographing operation and charging of the flash unit 20 are prohibited. When shooting is prohibited, the operation of the digital camera ends.
[0031]
When the voltage of the processing battery 72 is higher than the minimum voltage in S102, the driving battery voltage detection unit 74 detects the voltage of the driving battery 70 (S110) and is a reference voltage sufficient to drive the driving unit 24. It is determined whether it is higher (S112). When the voltage of the driving battery 70 is higher than the reference voltage (S112), the determination unit 50 causes the switching unit 60 to supply power from the driving battery 70 to the conventional camera unit 10 (S114). The determination unit 50 also sets the shooting mode to the strobe shooting mode (S116). In this case, the control unit 22 permits the photographing operation and charging of the flash unit 20. Next, photographing is permitted and the photographer can perform strobe photographing or non-strobe photographing (S118). Further, when photographing continuously (S120), the process returns to the processing battery voltage detection step (S100), and the processing battery voltage detection unit 76 detects the voltage of the processing battery 72 again, It is determined whether the voltage is higher than the minimum voltage. When the shooting is finished (S120), the operation of the digital camera is finished.
[0032]
When the voltage of the driving battery 70 is lower than the reference voltage in S112, the determination unit 50 causes the switching unit 60 to supply power from the processing battery 72 to the conventional camera unit 10 (S140). The determination unit 50 also sets the shooting mode to the non-strobe shooting mode (S142). In this case, the control unit 22 permits the photographing operation and prohibits charging of the flash unit 20. Next, non-flash photography is permitted, and the photographer can perform non-flash photography (S144). When further photographing is performed (S146), the process returns to the processing battery voltage detection stage (S100), and the processing battery voltage detection unit 76 detects the voltage of the processing battery 72 again, and the detected voltage is detected. It is determined whether or not the voltage is higher than the minimum voltage. When the shooting is finished (S146), the operation of the digital camera is finished.
[0033]
FIG. 3 is a configuration diagram of a digital camera as a second embodiment of the imaging apparatus. The switching unit 60 in the present embodiment includes the driving battery voltage detection unit 74 and the processing battery voltage detection unit 76 in the first embodiment, and detects the voltages of the driving battery 70 and the processing battery 72. The switching unit 60 supplies power of either the driving battery 70 or the processing battery 72 to the conventional camera unit 10 based on the detected voltage value. In this respect, the present embodiment is different from the first embodiment in which the determination unit 50 controls the switching of the switching unit 60. When the switching unit 60 detects that the voltage of the driving battery 70 is higher than the reference voltage, the switching unit 60 supplies power from the driving battery 70 to the conventional camera unit 10. When the switching unit 60 detects that the voltage of the driving battery 70 is lower than the reference voltage, the switching unit 60 supplies power from the processing battery 72 to the conventional camera unit 10. When the switching unit 60 detects that the voltage of the processing battery 72 is lower than the minimum voltage, the switching unit 60 stops supplying power to the conventional camera unit 10. The switching unit 60 in the present embodiment may be an IC (Integrated Circuit).
[0034]
The determination unit 50 sets the shooting mode based on the voltage information received from the switching unit 60 and sends information related to the set shooting mode to the control unit 22. The operation performed by the determination unit 50 on the control unit 22 and the signal processing unit 40 is the same as the operation of the determination unit 50 described in FIG.
[0035]
The operations of the conventional camera unit 10 and the processing unit 30 in this embodiment are the same as the operations of the conventional camera unit 10 and the processing unit 30 described in FIG. The operations of the driving battery 70 and the processing battery 72 are the same as the operations of the driving battery 70 and the processing battery 72 described in FIG. The flowchart showing the operation of the camera is the same as the flowchart showing the operation of the camera in the first embodiment described with reference to FIG.
[0036]
FIG. 4 is a configuration diagram of a digital camera as a third embodiment of the imaging apparatus. The switching unit 60 of the present embodiment includes a first diode 90 connected from the driving battery 70 to the conventional camera unit 10 and a second diode 92 connected from the processing battery 72 to the conventional camera unit 10. The switching unit 60 supplies power from the processing battery 72 to the conventional camera unit 10 when the voltage of the driving battery 70 becomes lower than the voltage of the processing battery 72. In this respect, the present embodiment is different from the first and second embodiments in which power is supplied from the processing battery 72 to the conventional camera unit 10 on the condition that the voltage of the driving battery 70 becomes equal to or lower than the reference voltage.
[0037]
When the voltage of the driving battery 70 is higher than the voltage of the processing battery 72, the switching unit 60 supplies power from the driving battery 70 to the conventional camera unit 10 via the first diode 90. When the voltage of the driving battery 70 becomes lower than the voltage of the processing battery 72, the switching unit 60 supplies power from the processing battery 72 to the conventional camera unit 10 via the second diode 92. The voltage drop of the first diode 90 is preferably lower than the voltage drop of the second diode 92. Thereby, even when the output voltages of the driving battery 70 and the processing battery 72 are substantially the same, power can be preferentially supplied from the driving battery 70 to the conventional camera unit 10. Since the operation performed by the determination unit 50 on the control unit 22 and the processing unit 30 is the same as the operation of the determination unit 50 described with reference to FIG. As described above, in the present embodiment, the switching unit 60 can switch the power supply source to the conventional camera unit 10 from the driving battery 70 to the processing battery 72 without receiving instruction information from the determination unit 50.
[0038]
The operations of the conventional camera unit 10, the processing unit 30, the driving battery voltage detection unit 74, and the processing battery voltage detection unit 76 in the present embodiment are the same as those of the conventional camera unit 10, the processing unit 30, and the driving battery described in FIG. Since the operation is the same as that of the voltage detection unit 74 and the processing battery voltage detection unit 76, the description thereof is omitted. The operations of the driving battery 70 and the processing battery 72 are the same as the operations of the driving battery 70 and the processing battery 72 described in FIG. The flowchart showing the operation of the camera is the same as the flowchart showing the operation of the camera in the first embodiment described with reference to FIG.
[0039]
FIG. 5 is a configuration diagram of a camera as a fourth embodiment of the imaging apparatus. Compared to the other embodiments, the camera of this embodiment is not provided with the driving battery voltage detection unit 74 and the processing battery voltage detection unit 76, and further includes a driving battery detection unit 66 instead. . The switching unit 60 of this embodiment supplies power from the processing battery 72 to the conventional camera unit 10 when the driving battery 70 is not present. In this respect, the present embodiment is different from the first to third embodiments.
[0040]
The switching unit 60 supplies power from the driving battery 70 to the conventional camera unit 10 when the driving battery 70 is set at a predetermined position. The switching unit 60 supplies power from the processing battery 72 to the conventional camera unit 10 when the driving battery 70 is not set at a predetermined position, such as when the driving battery 70 is replaced. Therefore, even when the driving battery 70 is not set, power can be supplied from the processing battery 72 to the conventional camera unit 10 via the switching unit 60.
[0041]
The drive battery detection unit 66 detects the presence or absence of the drive battery 70 and sends battery detection information indicating the presence or absence of the drive battery 70 to the determination unit 50. The determination unit 50 sets a shooting mode based on the received battery detection information, and sends information related to the set shooting mode to the control unit 22. When the driving battery 70 is set at a predetermined position, the determination unit 50 sets the shooting mode to the flash shooting mode. When the driving battery 70 is not set at a predetermined position, the determination unit 50 sets the shooting mode to the non-flash shooting mode. Accordingly, even when the driving battery 70 is not set at a predetermined position, it is possible to perform photographing by supplying power from the processing battery 72 having a smaller maximum current than that of the driving battery 70.
[0042]
The configuration and operation of the conventional camera unit 10 and the processing unit 30 in the present embodiment are the same as the configuration and operation of the conventional camera unit 10 and the processing unit 30 in FIG. The operations of the driving battery 70 and the processing battery 72 are the same as the operations of the driving battery 70 and the processing battery 72 in the first embodiment shown in FIG.
[0043]
FIG. 6 is a flowchart showing the operation of the digital camera in this embodiment. When the operation of the digital camera starts, the switching unit 60 detects the presence or absence of the driving battery 70 (S200). When the drive battery detection unit 66 detects that the drive battery 70 is set (S202), the switching unit 60 supplies power from the drive battery 70 to the conventional camera unit 10 (S204). Next, the determination unit 50 determines the shooting mode to the flash shooting mode based on the battery detection information received from the drive battery detection unit 66 (S206). Next, photographing is permitted, and the photographer performs strobe photographing or non-strobe photographing (S208). Further, when shooting is continued (S210), the process returns to the drive battery detection stage (S200), and the drive battery detection unit 66 detects the presence or absence of the drive battery 70 again. When the shooting is finished, the operation of the digital camera is finished here.
[0044]
When the switching unit 60 detects that the driving battery 70 is not present in S202, the switching unit 60 supplies power from the processing battery 72 to the conventional camera unit 10 (S220). Next, the determination unit 50 switches the shooting mode to the non-strobe shooting mode based on the battery detection information received from the drive battery detection unit 66 (S222). Next, photographing is permitted, and the photographer can perform only non-strobe photographing (S224). When further photographing is performed (S226), the process returns to the drive battery detection stage (S200), and the drive battery detection unit 66 detects the presence or absence of the drive battery again. When the shooting is finished, the operation of the digital camera is finished here.
[0045]
As described above, when the voltage of the driving battery 70 is lower than the reference voltage, power can be supplied from the processing battery 72 to the conventional camera unit 10. Further, even when power is supplied from the processing battery 72 having a smaller maximum current than that of the driving battery 70 by prohibiting charging of the flash unit 20 when the voltage of the driving battery 70 is lower than the reference voltage. Shooting can be performed. When the voltage of the processing battery 72 is lower than the minimum voltage, the processing battery 72 can maintain the capacity of the backup battery by prohibiting the photographing operation and charging the flash unit 20. Therefore, the processing battery 72 can continue to supply power to a mechanism that always requires power, such as a clock mechanism of the processing unit 30.
[0046]
Further, according to the embodiment, the switching unit 60 supplies power from the driving battery 70 to the conventional camera unit 10 when the driving battery 70 is set at a predetermined position, and the driving battery 70 is set. If not, power is supplied from the processing battery 72 to the conventional camera unit 10 via the switching unit 60. When the driving battery 70 is not set at the predetermined position, the determination unit 50 prohibits the control unit 22 from charging the strobe unit 20, so that the maximum current is smaller than that of the driving battery 70. Power can be supplied from the battery 72 to perform shooting.
[0047]
As mentioned above, although this invention was demonstrated using embodiment, the technical scope of this invention is not limited to the range as described in the said embodiment. Various changes or improvements can be added to the above embodiment. It is apparent from the description of the scope of claims that embodiments with such changes or improvements can be included in the technical scope of the present invention.
[0048]
【The invention's effect】
As is apparent from the above description, according to the present invention, the drive unit can use electric power supplied from two different battery power sources.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a digital camera.
FIG. 2 is a flowchart showing an operation of the digital camera shown in FIG.
FIG. 3 is a configuration diagram of a digital camera according to a second embodiment.
FIG. 4 is a configuration diagram of a digital camera according to a third embodiment.
FIG. 5 is a configuration diagram of a digital camera according to a fourth embodiment.
6 is a flowchart showing the operation of the digital camera in the fourth embodiment shown in FIG.
[Explanation of symbols]
10 Conventional camera section
14 Lens
16 Aperture
20 Strobe section
22 Control unit
24 Drive unit
30 processor
34 CCD
36 A / D converter
38 memory
40 Signal processor
42 Recording unit
44 Display
50 judgment part
60 switching part
66 Battery detector for driving
70 Battery for driving
72 Battery for treatment
74 Battery voltage detector for driving
76 Battery voltage detector for processing
90 first diode
92 Second diode

Claims (1)

An imaging device for processing an image,
A conventional camera unit having a flash unit that emits light at the time of shooting ;
A driving battery for supplying power to the conventional camera unit;
A driving battery voltage detector for detecting the voltage of the driving battery;
Taking and processing an image projected by the conventional camera unit, a processing unit having a clock mechanism,
A battery for processing that is provided independently of the battery for driving and supplies power to the processing unit;
A processing battery voltage detection unit for detecting the voltage of the processing battery;
Judgment to determine which of the driving battery and the processing battery supplies power to the conventional camera unit based on the voltage information received from the driving battery voltage detection unit and the processing battery voltage detection unit And
When the determination unit receives voltage information indicating that the voltage of the driving battery is lower than a reference voltage from the driving battery voltage detection unit, and determines that power is supplied from the processing battery to the conventional camera unit, When power is supplied from the processing battery to the conventional camera unit, and voltage information indicating that the voltage of the processing battery is lower than a minimum voltage is received from the processing battery voltage detection unit, from the processing battery A switching unit for stopping the supply of power to the conventional camera unit and supplying power from the processing battery to the timepiece mechanism ,
The conventional camera unit further includes a control unit that controls charging to the strobe unit,
The determination unit receives the voltage information indicating that the voltage of the driving battery is lower than a reference voltage and the voltage information indicating that the voltage of the processing battery is higher than the minimum voltage. Sends instruction information indicating that power is supplied to the conventional camera unit from the switching unit, sets the shooting mode to the non-strobe shooting mode, and sends information on the non-strobe shooting mode to the control unit,
The image pickup apparatus , wherein the control unit permits a photographing operation and prohibits charging of the strobe unit when power is supplied from the processing battery to the conventional camera unit .

Images