JP2012182526A - Imaging apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To solve such a problem of a conventional camera that power has been wasted because a transition is made unconditionally and equally to a standby state except during the imaging operation.SOLUTION: In steps S1 and S9, a prediction unit predicts the power consumed during interval photography, and an operation mode determination unit determines the operation mode for minimizing power consumption of a digital camera based on the results from the prediction unit. In steps S12 and S21, an operation mode control unit switches the operation mode of the digital camera among a plurality of operation modes of different power consumption based on the results from the operation mode determination unit. Consequently, during the steps S4, S13, and S22 where imaging of a subject by an imaging unit 4 is waited, the digital camera operates in the operation mode for minimizing power consumption thereof out of the plurality of operation modes.

Description

  The present invention relates to a photographing apparatus that causes photographing means to perform photographing according to a set photographing schedule.

  Conventionally, as this type of photographing apparatus, for example, there is a camera disclosed in Patent Document 1. The camera described in Patent Document 1 includes an image recording / reproducing apparatus having an interval photographing function for photographing at a set time interval. During the interval shooting, the power consumption is reduced by setting the standby state close to power-off for at least a part of the predetermined time other than the shooting operation of the image recording / reproducing apparatus. For example, when the first frame of the interval shooting is executed, the camera then shifts to a standby state. After that, each time shooting is performed, the power is turned on several tens of seconds before the shooting operation.

JP 7-184103 A

  However, for example, when the shooting interval of the interval shooting is short, there is a case where the camera consumes less power if the camera is continuously started without being put into the standby state after the shooting is executed. In this case, the conventional camera is unconditionally shifted to the standby state except during the photographing operation, and wasteful power consumption occurs.

The present invention has been made to solve such problems,
In a photographing apparatus having a plurality of operation modes with different power consumption,
A shooting schedule setting means for setting a shooting schedule;
Photographing means for photographing based on a photographing schedule;
A prediction means for predicting the power consumed in the shooting schedule;
Based on the result of the prediction means, an operation mode determination means for determining an operation mode in which the power consumption of the photographing apparatus is minimized;
An operation mode control means for operating the photographing apparatus in any one of a plurality of operation modes,
The operation mode control means switches the operation mode of the photographing apparatus based on the result of the operation mode determination means.

  According to this configuration, the power consumed in the photographing schedule is predicted by the prediction unit, and the operation mode in which the power consumption of the photographing apparatus is minimized is determined by the operation mode determination unit based on the result of the prediction unit. Then, the operation mode control means switches the operation mode of the photographing apparatus based on the result of the operation mode determination means from a plurality of operation modes with different power consumption. Therefore, while waiting for the subject to be photographed by the photographing means in the photographing schedule, the photographing device operates in an operation mode in which the power consumed by the photographing device is the smallest among a plurality of operation modes. Therefore, as in the past, the operation mode is selected finely according to the shooting schedule without transitioning to the standby state unconditionally without considering the power consumption generated between interval shootings. The power of the photographing device is consumed efficiently.

  According to the present invention, it is possible to provide an imaging apparatus capable of performing imaging while minimizing power consumption with a set imaging schedule.

It is a block diagram which shows the outline of the electric circuit structure of the digital camera by one embodiment of this invention. It is a flowchart which shows the outline of the interval imaging | photography process by the arithmetic processing part of the digital camera shown in FIG. It is a flowchart which shows the outline of the time setting automatic imaging | photography process by the arithmetic processing part of the digital camera shown in FIG.

  Next, an embodiment of the present invention when the photographing apparatus according to the present invention is applied to a digital camera will be described.

  FIG. 1 is a block diagram showing an outline of an electric circuit configuration of a digital camera according to this embodiment.

  The digital camera includes an arithmetic processing unit 1 including a CPU (Central Processing Unit), a buffer memory 2 including a RAM (Random Access Memory), and a non-volatile memory 3 capable of electrical erasing and writing. ing. The nonvolatile memory 3 stores a control program that is referred to when the arithmetic processing unit 1 performs various controls. The arithmetic processing unit 1 controls each part of the circuit using the buffer memory 2 as a temporary storage work area according to a control program stored in the nonvolatile memory 3.

  The digital camera performs interval shooting at a set predetermined time interval. When interval shooting is performed, a predetermined time interval serving as an interval is stored in the buffer memory 2 as shooting schedule setting information. The digital camera performs automatic shooting at the set time. When automatic shooting is performed, the scheduled shooting time is stored in the buffer memory 2 as shooting schedule setting information. These interval photographing time intervals and automatic photographing scheduled times are set by the user via the camera operation unit 5 or programmed in advance.

  The subject light captured in the digital camera projects a subject image on the imaging surface of the photographing unit 4. The imaging unit 4 includes a CCD (Charge Coupled Device), a CMOS (Complementary Metal Oxide Semiconductor), and the like. The arithmetic processing unit 1 is connected to a camera operation unit 5 such as a release button or a power button. When the release button is pressed halfway, the autofocus function is activated, and when the release button is fully pressed, the shutter is opened at a preset shutter speed, and the subject image is exposed on the imaging surface of the photographing unit 4 for a predetermined time. Let's shoot. The subject image formed on the imaging surface of the photographing unit 4 is output as a photographing signal to the image processing unit in the arithmetic processing unit 1. The imaging unit 4 constitutes an imaging unit that performs imaging based on the imaging schedule stored in the buffer memory 2. The image processing unit performs image processing such as white balance processing and gamma correction on the acquired captured signal, and generates image data of the captured image. The image data generated by the image processing unit is subjected to compression processing, temporarily stored in the buffer memory 2, displayed on the display unit 6 including an LCD (Liquid Crystal Display) and the like, and a card which is attached to and detached from the card slot. Recorded on a storage medium.

  A clock oscillation unit 7 is connected to the arithmetic processing unit 1. The clock oscillating unit 7 constitutes time measuring means for measuring time. The time measured by the clock oscillator 7 is used for each process in the digital camera, such as time measurement in interval shooting and time setting in automatic time setting shooting.

  In addition, a power supply switching circuit 8 is connected to the arithmetic processing unit 1, and a main battery 9, an auxiliary battery 10, and a USB connector 11 are connected to the power supply switching circuit 8. The main battery 9 constitutes first power supply means for supplying power to the digital camera. The auxiliary battery 10 is a power source such as a button battery built in the digital camera. When power is not supplied from the main battery 9 to the digital camera, the auxiliary battery 10 supplies power to the buffer memory 2 and the clock oscillation unit 7. A second power supply means is configured. When the power button of the digital camera is turned on and the digital camera is operating normally, the power supplied from the main battery 9 starts from the arithmetic processing unit 1 by the switching connection of the power switching circuit 8 by the arithmetic processing unit 1. Supplied to all circuits. Further, the main battery 9 is connected to a USB (Universal Serial Bus) connector 11 by the switching connection of the power supply switching circuit 8 by the arithmetic processing unit 1 and is charged via the USB connector 11. When power is not supplied from the main battery 9 and shifts to a non-standby state, for example, when the main battery 9 is removed from the digital camera or the main battery 9 is charged via the USB connector 11, Power is supplied from the auxiliary battery 10 to the buffer memory 2 and the clock oscillation unit 7 by the switching connection of the power source switching circuit 8 by the arithmetic processing unit 1.

  Digital cameras have a plurality of operation modes with different power consumption. This operation mode includes a normal operation mode that constitutes the first operation mode, a sleep mode that constitutes the second operation mode, and a standby mode that constitutes the third operation mode. When the power button is turned on, a normal operation mode for performing a photographing operation or the like is set. In the normal operation mode, as described above, power is supplied from the main battery 9 to all the circuits, and the power consumption is the highest among the three operation modes. In addition, when the digital camera is not operated for a certain period of time in the normal operation mode, the sleep mode that consumes less power than the normal operation mode is entered. In the sleep mode, power supply to a portion where constant operation is not necessary, for example, the display unit 6 that consumes a large amount of power, is stopped. Further, when the digital camera is not operated for a certain period of time after entering the sleep mode or the power button is turned off, the standby mode with the least power consumption among the three operation modes is set. In the standby mode, as described above, power is supplied from the auxiliary battery 10 to the buffer memory 2, the clock oscillation unit 7, and the like. In the standby mode, the minimum power necessary for performing the process of automatically turning on the power from the power-off is supplied to the arithmetic processing unit 1 before shooting from the time set in the buffer memory 2. The arithmetic processing unit 1 receives this power supply in the standby mode, compares the current time measured by the clock oscillating unit 7 with the set time of the shooting schedule stored in the buffer memory 2, and the current time becomes the set time. When it is determined that they match, a pseudo shutter signal is generated to cause the photographing unit 4 to perform photographing.

  When the time interval from the first shooting operation to the second shooting operation in the interval shooting and the time interval from the current time to the set time in the time setting automatic shooting are less than the first predetermined time, the arithmetic processing unit 1 In this case, the photographing operation is continued with the operation mode as the normal operation mode, and when the operation mode is the first predetermined time or more and less than the second predetermined time, the operation mode is set to the sleep mode, and when the operation mode is the second predetermined time or more. Sets the operation mode to standby mode. In the present embodiment, the first predetermined time is set to 1 minute and the second predetermined time is set to 5 minutes. However, the present invention is not limited to this. For example, if the power is completely turned off for each predetermined time, shooting will not be in time for the start-up process, or the process of turning the power on / off consumes more power, but there is enough time until the next shooting The setting can be made. The arithmetic processing unit 1 constitutes a prediction unit that predicts the power consumed in the set shooting schedule based on the time interval in the interval shooting or the time setting automatic shooting, and based on the result of the prediction unit, the digital camera An operation mode determination unit that determines an operation mode in which power consumption is minimized is configured. The arithmetic processing unit 1 constitutes an operation mode control unit that operates the digital camera in any one of a plurality of operation modes, and switches the power supply switching circuit 8 based on the determination result of the operation mode determination unit. Control the connection and switch the operation mode of the digital camera.

The arithmetic processing unit 1 and the display unit 6 constitute a first notification unit that displays on the screen the type of operation mode switched by the operation mode control unit and notifies the user, and
When the camera operation unit 5 of the digital camera is operated during shooting in interval shooting or time setting automatic shooting, a second notification unit that notifies the user that the interval shooting or time setting automatic shooting is being performed is displayed on the screen. Configure. In the present embodiment, notification is performed by displaying predetermined characters or the like on the display unit 6, but the notification may be made by light such as a lamp, sound, or the like. The notification by the display unit 6 with high power consumption may be performed by operating the display unit 6 only when the user touches the digital camera. In addition, the notification by an LED (light emitting diode) with low power consumption may be always turned on in each operation mode.

  FIG. 2 is a flowchart showing an outline of interval shooting processing performed by the CPU of the arithmetic processing unit 1 shown in FIG.

  When performing interval shooting, the user selects interval shooting on the menu screen displayed on the display unit 6 and sets a time interval between the shootings in the interval shooting. In step (hereinafter referred to as S) 1, the CPU of the arithmetic processing unit 1 determines whether or not the set time interval is less than 1 minute.

  When the determination in S1 is “YES”, the CPU determines that it is more efficient to continue the normal operation mode while keeping the power supply from the main battery 9 to each circuit. In S2, the fact that the digital camera is left in the normal operation mode is displayed on the screen of the display unit 6 to notify the user of the operation mode. Next, when the release button is pressed by the user, the CPU causes the photographing unit 4 to take the first frame of interval photographing in S3. Next, in S <b> 4, the CPU determines whether or not the interval shooting set time interval stored in the buffer memory 2 has elapsed. If the determination in S4 is “NO”, the CPU repeats the process in S4 until the set time has elapsed. On the other hand, if the determination in S4 is “YES”, the CPU performs a shooting operation for the next frame of the interval shooting in S5. Here, in the second and subsequent shootings, a pseudo shutter signal is generated by the pseudo shutter switch control of the arithmetic processing unit 1, and shooting is automatically performed. Next, in S6, the CPU determines whether or not the camera operation unit 5 of the digital camera is operated during interval shooting. For example, if the user touches the release button and the determination in S6 is “YES”, the CPU notifies the user by displaying on the screen of the display unit 6 that the interval shooting is currently being performed in S7. On the other hand, if the determination in S6 is “NO”, or after the processing in S7, the CPU determines in S8 whether or not the set number of frames has been shot and the interval shooting has ended. If the determination in S8 is “NO”, the CPU returns to the process of S4 and repeats the processes of S4 to S8 described above.

  If the determination in S1 is “NO”, the CPU determines in S9 whether or not the set time interval is 5 minutes or more. If the determination in S9 is “NO”, the CPU determines that it is more power efficient to cut off the power supply from the main battery 9 to a circuit that does not always require operation and set the operation mode to the sleep mode. In S10, the transition of the operation mode is notified to the user by displaying on the screen of the display unit 6 that the digital camera shifts to the sleep mode. Next, when the release button is pressed by the user, the CPU causes the photographing unit 4 to take the first frame of interval photographing in S11. After shooting the first frame, the CPU shifts the operation mode of the digital camera to the sleep mode in S12. Next, in S <b> 13, the CPU determines whether or not the interval shooting set time interval stored in the buffer memory 2 has elapsed. If the determination in S13 is “NO”, the CPU repeats the process in S13 until the set time has elapsed. On the other hand, if the determination in S13 is “YES”, the CPU interrupts the sleep mode and shifts to the normal operation mode in S14. Next, in S15, the CPU performs a shooting operation for shooting the second frame of interval shooting. Next, in S <b> 16, the CPU determines whether or not the camera operation unit 5 of the digital camera has been operated during interval shooting. If the determination in S16 is “YES”, the CPU notifies the user by displaying on the screen of the display unit 6 that the interval shooting is being performed in S17. On the other hand, if the determination in S16 is “NO”, or after the processing in S17, the CPU determines in S18 whether or not the set number of frames has been shot and the interval shooting has ended. When the determination in S18 is “NO”, the CPU returns to the process of S12, shifts to the sleep mode, and repeats the processes of S12 to S18 described above.

  If the determination in S9 is “YES”, the CPU determines that the power efficiency is better when the digital camera is turned off and the operation mode of the digital camera is set to the standby mode. In the standby mode, the power supply switching circuit 8 is controlled to cut off the power supply from the main battery 9 and the power is supplied from the auxiliary battery 10. In S <b> 19, the shift of the operation mode is notified to the user by displaying on the screen of the display unit 6 that the digital camera shifts to the standby mode. Next, when the release button is pressed by the user, the CPU causes the shooting unit 4 to take the first frame of interval shooting in S20. After shooting the first frame, in S21, the CPU automatically turns off the power of the digital camera and shifts the operation mode of the digital camera to the standby mode. Next, in S22, the CPU determines whether or not the interval shooting set time interval stored in the buffer memory 2 has elapsed. If the determination in S22 is “NO”, the CPU repeats the process in S22 until the set time has elapsed. On the other hand, if the determination in S22 is “YES”, the CPU automatically turns on the power of the digital camera to interrupt the standby mode in S23, and shifts the operation mode to the normal operation mode in S24. Next, in S25, the CPU performs a shooting operation for shooting the second frame of interval shooting. Next, in S26, the CPU determines whether or not the digital camera has been operated during interval shooting. If the determination in S26 is "YES", the CPU notifies the user in S27 by displaying on the screen of the display unit 6 that interval shooting is being performed. On the other hand, if the determination in S26 is “NO”, or after the processing in S27, the CPU determines in S28 whether or not interval shooting has been completed by shooting the set number of frames. If the determination in S28 is “NO”, the CPU returns to the process of S21, shifts to the standby mode, and repeats the processes of S21 to S28 described above.

  When the interval shooting is finished and the determination in S8, S18, or S28 is “YES”, the CPU automatically turns off the power in S29. A configuration in which the user manually ends the interval shooting may be adopted.

  According to such a digital camera according to the present embodiment, the power consumed in the interval shooting is predicted by the prediction unit in S1 and S9 of FIG. 2, and the operation mode determination unit digitally calculates the power consumed in the interval shooting. An operation mode in which the power consumption of the camera is minimized is determined. That is, the operation mode determination unit continues the imaging operation in the normal operation mode when the time interval from the first imaging operation to the second imaging operation in the interval imaging is less than 1 minute in S1. In S1 and S9, if it is 1 minute or more and less than 5 minutes, the operation mode is determined as the sleep mode, and if it is 5 minutes or more in S9, the operation mode is determined as the standby mode. Accordingly, an operation mode with less power consumption is appropriately selected by the operation mode control unit in accordance with the set time interval for interval shooting.

  Then, in S12 and S21, the operation mode control unit switches the operation mode of the digital camera from a plurality of operation modes having different power consumption based on the determination result of the operation mode determination unit. Therefore, in S4, S13, and S22 that are waiting for subject shooting in interval shooting, the digital camera operates in an operation mode in which the power consumed by the digital camera is the lowest among the plurality of operation modes. To do. For this reason, unlike the conventional case, the operation mode is selected finely according to the set shooting schedule without transitioning to the standby state unconditionally without considering the power consumption generated between interval shootings. Is done. Therefore, the power of the digital camera is consumed efficiently. As a result, a digital camera is provided that can perform interval shooting while minimizing power consumption with the set shooting schedule.

  FIG. 3 is a flowchart showing an outline of time setting automatic photographing processing performed by the CPU of the arithmetic processing unit 1 shown in FIG.

  When performing time-setting automatic shooting for automatic shooting at a desired arbitrary time, the user selects time-setting automatic shooting on the menu screen displayed on the display unit 6 and sets the time for executing automatic shooting. In S31, the CPU of the arithmetic processing unit 1 determines whether or not the set time is less than one minute from the current time.

  When the determination in S31 is “YES”, the CPU determines that it is more efficient to continue the normal operation mode while keeping the power supply from the main battery 9 to each circuit. In S32, the fact that the digital camera is left in the normal operation mode is displayed on the screen of the display unit 6 to notify the user of the operation mode. Next, in S <b> 33, the CPU determines whether or not the current time has reached the set time for time-setting automatic shooting stored in the buffer memory 2. If the determination in S33 is “NO”, the CPU repeats the process in S33 until the current time reaches the set time. On the other hand, if the determination in S33 is “YES”, the CPU performs a shooting operation for automatically shooting the subject in S34.

  If the determination in S31 is “NO”, the CPU determines in S35 whether or not the set time is 5 minutes or more from the current time. When the determination in S35 is “NO”, the CPU determines that it is more power efficient to cut off the power supply from the main battery 9 to a circuit that does not always require operation and set the operation mode to the sleep mode. Then, in S36, the transition of the operation mode is notified to the user by displaying on the screen of the display unit 6 that the digital camera shifts to the sleep mode. Next, in S37, the CPU shifts the operation mode of the digital camera to the sleep mode. Next, in S <b> 38, the CPU determines whether or not the time setting automatic shooting setting time stored in the buffer memory 2 has been reached. If the determination in S38 is “NO”, the CPU repeats the process in S38 until the current time reaches the set time. On the other hand, if the determination in S38 is “YES”, the CPU interrupts the sleep mode and shifts to the normal operation mode in S39. Next, in S40, the CPU performs a photographing operation for automatically photographing the subject.

  If the determination in S35 is “YES”, the CPU determines that the power efficiency is better when the digital camera is turned off and the operation mode of the digital camera is set to the standby mode. In the standby mode, the power supply switching circuit 8 is controlled to cut off the power supply from the main battery 9 and the power is supplied from the auxiliary battery 10. In S <b> 41, the shift of the operation mode is notified to the user by displaying on the screen of the display unit 6 that the digital camera shifts to the standby mode. Next, in S42, the CPU automatically turns off the power of the digital camera and shifts the operation mode of the digital camera to the standby mode. Next, in S <b> 43, the CPU determines whether or not the time setting automatic shooting setting time stored in the buffer memory 2 has been reached. If the determination in S43 is “NO”, the CPU repeats the process in S43 until the current time reaches the set time. On the other hand, if the determination in S43 is “YES”, the CPU automatically turns on the power of the digital camera to interrupt the standby mode in S44, and shifts the operation mode to the normal operation mode in S45. Next, in S46, the CPU performs a photographing operation for automatically photographing the subject.

  When the time-setting automatic photographing in S34, S40, or S46 is completed, the CPU automatically turns off the power in S47.

  According to such a digital camera according to the present embodiment, in S31 and S35 of FIG. 3, the power consumed in the time setting automatic photographing is predicted by the prediction unit, and the operation mode determination unit is based on the prediction result of the prediction unit. Thus, the operation mode in which the power consumption of the digital camera is minimized is determined. That is, the operation mode determination unit continues the shooting operation in the normal operation mode when the time until the set time of the time setting automatic shooting is less than 1 minute in S31. In S31 and S35, if it is 1 minute or more and less than 5 minutes, the operation mode is determined as the sleep mode, and if it is 5 minutes or more in S35, the operation mode is determined as the standby mode. Accordingly, an operation mode with less power consumption is appropriately selected by the operation mode control unit in accordance with the set time of time setting automatic photographing.

  Then, in S37 and S42, the operation mode control unit switches the operation mode of the digital camera from a plurality of operation modes with different power consumption based on the determination result of the operation mode determination unit. Therefore, in S33, S38, and S43 waiting for subject shooting in automatic time setting shooting, the digital camera is the operation mode in which the power consumed by the digital camera is the lowest among the plurality of operation modes. Works. For this reason, also in time setting automatic photography, like interval photography, an operation mode is selected finely according to a photography schedule, and the power of a digital camera is consumed efficiently. As a result, there is provided a digital camera capable of performing time-set automatic shooting while minimizing power consumption with the set shooting schedule.

  Further, according to the digital camera according to the present embodiment, when power is not supplied from the main battery 9 in interval shooting and time setting automatic shooting, the buffer memory 2 and time are set from the auxiliary battery 10 built in the digital camera. Electric power is supplied to the clock oscillation unit 7 and the like for timing. For this reason, for example, during interval shooting, even if the main battery 9 as the main power source is removed from the digital camera, power is supplied from the auxiliary battery 10 as the auxiliary power source to the buffer memory 2 and the clock oscillation unit 7 that measures time. Supplied. Accordingly, the setting of the shooting schedule and the storage of shooting information by the buffer memory 2 are maintained without being erased, and the time measurement by the clock oscillator 7 is performed without stopping. As a result, even if the main battery 9 is mistakenly removed, the memory of the shooting schedule setting is not erased, and the labor for re-inputting the shooting schedule setting does not occur, and the convenience is improved.

  Further, according to the digital camera of the present embodiment, the first notification unit performs the interval shooting in S2, S10, and S19 in FIG. 2, and the time setting automatic shooting in S32, S36, and S41 in FIG. The operation mode switched by the operation mode control unit is notified to the user. For this reason, for example, even if the digital camera shifts to a standby state during interval shooting, the user does not mistakenly think that the digital camera has failed, and a user-friendly digital camera is provided.

  Further, according to the digital camera according to the present embodiment, when the camera operation unit 5 of the digital camera is operated during interval shooting, the second notification unit performs interval shooting in S7, S17, and S27 of FIG. It is notified that there is. For this reason, for example, when the digital camera is in the standby mode during interval shooting, it is possible to prevent a user who does not know that interval shooting is in progress from operating the digital camera. Further, the above-described notification by the second notification unit may be performed during shooting standby of the subject in the time setting automatic shooting of FIG. 3 to notify that the digital camera is in the time setting automatic shooting.

  In this embodiment, the processing of S2, S10, and S19 for notifying the user of the operation mode is performed before the processing of S3, S11, and S20 in FIG. 2 in which the first frame of interval shooting is performed. However, the processing of S2, S10, and S19 for notifying the user of the operation mode may be performed after the processing of S3, S11, and S20 for performing the first frame of interval shooting.

  In the present embodiment, when the camera operation unit 5 of the digital camera is operated, the notifications in S7, S17, and S27 for displaying on the screen of the display unit 6 that the interval shooting is currently being performed perform a shooting operation. The configuration is performed after the processing of S5, S15, and S25. However, when the camera operation unit 5 of the digital camera is operated, a notification for displaying on the screen of the display unit 6 that the interval shooting is currently being performed is a process of S4, S13, and S22 waiting for shooting of the subject. You may make it the structure performed inside.

  In the present embodiment, when power is not supplied from the main battery 9, power is supplied from the auxiliary battery 10 to the buffer memory 2, the clock oscillation unit 7, and the like. The power may be supplied from the external power supply to the buffer memory 2 and the clock oscillation unit 7 and the like.

  In the present embodiment, the power is automatically turned off in S29 of FIG. 2 and S47 of FIG. 3 after the end of interval shooting and time setting automatic shooting. However, interval shooting and time setting automatic shooting are employed. The configuration may be such that after the operation is completed, the operation mode returns to the normal operation mode.

  Further, when each operation mode of the sleep mode or the standby mode is executed, the operation of the digital camera may be locked instead of notifying the user of the operation mode. Further, when the operation of the digital camera is locked, a predetermined password may be input to release the lock.

  In the present embodiment, the buffer memory 2 is composed of a RAM. However, the buffer memory 2 is composed of a non-volatile memory such as an MRAM (Magnetoresistive Random Access Memory) that retains the previous recording even when the power supply is stopped. May be.

  In the present embodiment, the case where the automatic shooting is set only once at an arbitrary time in the time setting automatic shooting processing of FIG. 3 has been described. However, the automatic shooting is set at a plurality of arbitrary times. May be. When automatic shooting is set a plurality of times and the time intervals of the set automatic shooting times are different, different operation modes are selected by the same processing as S31 and S35 in FIG. 3 according to each time interval. .

  In the present embodiment, the photographing apparatus is configured to be applied to a digital camera. However, the photographing apparatus is not limited to a digital camera, and may be another electronic device such as a silver salt camera or a mobile phone having a photographing function. Good.

DESCRIPTION OF SYMBOLS 1 ... Arithmetic processing part 2 ... Buffer memory 4 ... Imaging | photography part 6 ... Display part 7 ... Clock oscillation part 8 ... Power supply switching circuit 9 ... Main battery 10 ... Auxiliary battery

Claims (7)

In a photographing apparatus having a plurality of operation modes with different power consumption,
A shooting schedule setting means for setting a shooting schedule;
Photographing means for photographing based on the photographing schedule;
Predicting means for predicting power consumed in the shooting schedule;
Based on the result of the prediction means, an operation mode determination means for determining an operation mode in which the power consumption of the photographing apparatus is minimized;
An operation mode control means for operating the photographing apparatus in any one of the plurality of operation modes,
The photographing apparatus characterized in that the operation mode control means switches an operation mode of the photographing apparatus based on a result of the operation mode determination means. The imaging device according to claim 1,
When the time interval from the first shooting operation to the second shooting operation is less than the first predetermined time, the operation mode determination unit sets the operation mode as the first operation mode for performing the shooting operation.
When the time interval is not less than the first predetermined time and less than the second predetermined time, the operation mode is set to a second operation mode that consumes less power than the first operation mode, and
When the time interval is equal to or longer than a second predetermined time, the photographing apparatus is characterized in that the operation mode is a third operation mode that consumes less power than the second operation mode. In the imaging device according to claim 1 or 2,
A first power supply means and a second power supply means for supplying power;
And a time measuring means for measuring time,
An imaging apparatus, wherein power is supplied from the second power supply means to the imaging schedule setting means and the timing means when power is no longer supplied from the first power supply means. In the imaging device according to claim 3,
The photographing apparatus, wherein the second power supply means is a power source built in the photographing apparatus or an external power source. In the imaging device according to any one of claims 1 to 4,
An imaging apparatus, further comprising first notification means for notifying a user of an operation mode switched by the operation mode control means. In the imaging device according to any one of claims 1 to 5,
The photographing apparatus is characterized in that the photographing schedule is interval photographing for photographing at a predetermined time interval or automatic photographing for photographing at an arbitrary time. The photographing apparatus according to any one of claims 1 to 6,
An imaging apparatus, comprising: a second notification means for notifying that imaging is being performed when the imaging apparatus is operated during imaging in the imaging schedule.

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