JP2004096391A - Digital camera - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a digital camera which can be returned to a state that an photographing operation is possible at an early stage, even immediately after a power-off operation. <P>SOLUTION: When an power-off operation is accepted in a step SP10, an entire control section of the digital camera shifts the digital camera to a power-saving state according to the power-off operation, and continues to execute incomplete recording processing (step SP20). After that, when a power-on operation is accepted in a step SP50 by the time processing of recording an unrecorded image into a memory card is completed, the power-saving state is released in a step SP80 and the digital camera is brought into a photographable state to allow the camera to photograph immediately. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a digital camera, and more particularly, to a power supply control technique.
[0002]
[Prior art]
In a digital camera, an image acquired by an image sensor such as a CCD is temporarily stored in an image memory inside the digital camera, and is subjected to predetermined image processing (white balance processing, γ correction processing, color conversion processing, and the like). Recorded on a recording medium such as a memory card.
[0003]
Generally, the writing speed to a recording medium is slower than the writing speed to an image memory in a digital camera. Therefore, the processing speed is increased by using the internal image memory as a memory for temporary storage.
[0004]
Also, when recording a plurality of images shot continuously on a memory card, an image memory having a capacity of several images is provided, and this image memory is used as a temporary storage (buffer) memory. As a result, the processing speed is increased. This allows continuous shooting with a digital camera as long as the capacity of the image memory permits.
[0005]
By the way, in such a digital camera, when a power-off operation is performed, at the time of the power-off operation, the photographing process is completed, but the writing process (recording process) to the memory card is not yet completed. A photographed image may be present.
[0006]
At this time, it is assumed that the digital camera does not accept the power-off operation at all until the writing process for all the images to the memory card is completed (in other words, it is assumed that the digital camera is not formally recognized as the off-operation). The operator waits until the writing process to the memory card is completed, and performs the OFF operation again. In this case, the operator must wait for the writing process to be completed, so that not only the operability is reduced, but also a time lag occurs from the time when the writing process is completed to the time when the off operation is performed again. The power off time will be further delayed.
[0007]
As a power-off processing technology corresponding to such a situation, for example, there is a technology disclosed in Japanese Patent Application Laid-Open No. H11-252422. This publication describes the following technology.
[0008]
Specifically, at the time when the operator turns off the power, even if there is an image for which the writing process to the memory card has not been completed among the images for which the shooting process has been completed, The digital camera accepts a power-off operation. Then, when such a power-off operation is received, the digital camera continuously performs the writing process to the memory card, and actually turns off the power when the writing process is completed.
[0009]
As described above, even when there is an image that has not yet been written to the memory card, the power-off operation is accepted and the process for turning off the power is executed. Therefore, the delay time until the power is turned off can be minimized, and the power can be turned off relatively early. Thus, power consumption can be suppressed.
[0010]
[Problems to be solved by the invention]
However, in the above-described conventional technology, when an operation of turning off the power is performed at a point in time when the writing to the memory card has not been completed, the writing to the memory card is completed and the power is once turned off. Until the power is turned on again, in other words, the power cannot be turned on again. That is, the power cannot be turned on again for a few seconds from when the power is turned off to the digital camera until the power is actually completely turned off. As a result, a shutter chance may be missed due to the time lag. Such a problem exists in the above prior art.
[0011]
Further, such a problem becomes particularly remarkable when the transfer time is long due to a situation such as a large amount of data transferred to the memory card.
[0012]
In view of the above problems, an object of the present invention is to provide a digital camera that can quickly return to a state in which a photographing operation can be performed even immediately after a power-off operation.
[0013]
[Means for Solving the Problems]
In order to achieve the above object, an invention according to claim 1 is a digital camera, comprising: an operation unit having a power supply operation unit for receiving a power off operation; and a predetermined process being completed when the off operation is received. If not, control means for controlling the digital camera so as to wait until the predetermined processing is completed and to shut off the power supply at the time of completion of the predetermined processing, the control means comprising: When a predetermined operation by the operation unit is received before the predetermined process is completed in a case where an off operation is received, the digital camera is set to a photographable state according to the predetermined operation. I do.
[0014]
According to a second aspect of the present invention, in the digital camera according to the first aspect of the present invention, it is preferable that the power operation unit also accepts a power-on operation, and the predetermined operation is the power-on operation using the power operation unit. Features.
[0015]
According to a third aspect of the present invention, in the digital camera according to the first aspect of the present invention, the digital camera is driven by a battery, and the control unit shifts the digital camera to a power saving state in response to the off operation. The predetermined process is performed, and the power saving state is a state in which the predetermined operation can be received using any one of the operation units included in the operation unit.
[0016]
According to a fourth aspect of the present invention, in the digital camera according to the first aspect of the present invention, the digital camera is driven by a battery, and the control unit shifts the digital camera to a power saving state in response to the off operation. And performing the predetermined processing, and canceling the power saving state when the predetermined operation by the operation means is received in the power saving state.
[0017]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0018]
<A. Configuration>
1, 2 and 3 are views showing the external configuration of a digital camera 1 according to an embodiment of the present invention. FIG. 1 is a front view, FIG. 2 is a top view, and FIG. 3 is a rear view. These drawings do not always conform to the triangular projection, and the main purpose is to exemplify the appearance of the digital camera 1.
[0019]
A photographing lens 2 is provided on the front side of the digital camera 1. The photographing lens 2 has a zoom function, and is configured so that the photographing magnification can be changed by manually rotating the zoom ring 2a.
[0020]
Further, a shutter button (release button) 9 is provided above the grip portion 1a of the digital camera 1, and the shutter button 9 is pressed halfway by the user (hereinafter also referred to as state S1) and fully pressed (hereinafter referred to as state S1). , A state S2), which is a two-stage push-in switch that can be detected and distinguished from each other. When the automatic focusing mode is set, the automatic focusing control is started in the half-pressed state S1, and The main photographing operation for photographing the image for recording is started in the pressed state S2.
[0021]
Further, a front dial 10 is provided on the upper portion of the grip portion 1a and is rotatable in two directions, that is, forward and reverse (that is, left and right directions). Even when the user holds the digital camera 1, the front dial 10 rotates. Easy to operate.
[0022]
Further, on the upper surface of the digital camera 1, a mode switching dial 3 for switching and setting between a "photographing mode" and a "reproduction mode" is provided. The shooting mode is a mode in which shooting of a subject is performed to generate image data. The reproduction mode is a mode in which image data recorded on the memory card 90 is reproduced and displayed on a liquid crystal display (hereinafter, referred to as LCD) 5 provided on the back side of the digital camera 1.
[0023]
The dial 3 is also used to receive a power-on operation and a power-off operation. That is, the dial 3 can be referred to as a power operation unit. Specifically, as shown in FIG. 5, the operation of turning off the power (power off) is performed by rotating the portion of the dial 3 where "OFF" is displayed to a predetermined position (triangle in the figure). Operation) is performed. Further, an operation of turning on the power by rotating and moving a portion other than “OFF”, specifically, a portion where “shooting” indicating the shooting mode is displayed, to a predetermined position (triangle mark in the figure). (Power-on operation). As a result, the digital camera is in a photographable state.
[0024]
On the rear surface of the digital camera 1, an LCD 5 for performing live view display and playback display of a recorded image and the like before an actual photographing operation, and an electronic viewfinder (hereinafter, referred to as EVF) 4 are provided. The LCD 5 and the EVF 4 each display a color image. In the following description, a case where the LCD 5 has a display pixel number of 320 × 240 is exemplified.
[0025]
A menu button 6 is provided on the back of the digital camera 1. For example, when the menu button 6 is pressed in the shooting mode, various menu screens for setting various shooting conditions are displayed on the LCD 5. Further, on the back of the digital camera 1, there are provided a control button 7 composed of cross cursor buttons 7a to 7d for moving a display cursor on the LCD 5 in four directions and a decision button 7e provided at the center of the cross cursor button. Provided. Using the menu button 6 and the control button 7, an operation for setting various shooting parameters is performed. The setting states of various shooting parameters are displayed on a data panel 8 arranged on the upper surface side of the digital camera 1. Further, on the back of the digital camera 1, a switching button 13 for switching display contents (especially, display state of shooting information) displayed on the LCD 5 during live view display is provided.
[0026]
Further, on the side surface of the digital camera 1, a function operation unit 11 for performing an operation related to a setting state of the digital camera 1 is provided. The function operation unit 11 includes a function button 11a provided at a central portion and a function dial 11b rotatably provided. Further, a focusing mode switching button 12 for switching the focusing mode between the automatic focusing mode and the manual focusing mode is provided below the function operation unit 11.
[0027]
Further, on the side of the digital camera 1, an insertion mounting portion for a memory card 90 as a removable recording medium is provided, and image data obtained by actual photographing is stored in the memory card 90 set in the insertion mounting portion. Be recorded.
[0028]
Next, the internal configuration of the digital camera 1 will be described. FIG. 4 is a block diagram illustrating internal functions of the digital camera 1.
[0029]
The photographing lens 2 is driven by a lens driving unit 41 and is configured to change the focus state of an image formed on the CCD image sensor 20. At the time of automatic focusing (auto focus) setting, the overall control unit 30 automatically determines the lens driving amount of the photographing lens 2 from the image, and the photographing lens 2 is driven based on this lens driving amount. At the time of focus (manual focus) setting, the lens driving amount is determined according to the operation amount of the control button 7 by the user, and the photographing lens 2 is driven based on this lens driving amount.
[0030]
The CCD imaging device 20 functions as an imaging unit that captures a subject image and generates an electronic image signal. For example, the CCD imaging device 20 has 2560 × 1920 pixels and emits light of the subject formed by the imaging lens 2. The image is photoelectrically converted into an image signal of R (red), G (green), and B (blue) for each pixel (a signal composed of a signal sequence of pixel signals received by each pixel) and output. The timing generator 42 generates various timing pulses for controlling the driving of the CCD imaging device 20.
[0031]
An image signal obtained from the CCD image pickup device 20 is supplied to a signal processing circuit 21, which performs predetermined analog signal processing on the image signal (analog signal). The signal processing circuit 21 has a correlated double sampling circuit (CDS) and an automatic gain control circuit (AGC). The signal processing circuit 21 performs noise reduction processing of the image signal by the correlated double sampling circuit, and controls the gain by the auto gain control circuit. By performing the adjustment, the level of the image signal is adjusted.
[0032]
The A / D converter 22 converts each pixel signal of the image signal into a 12-bit digital signal. The A / D converter 22 converts each pixel signal (analog signal) into a 12-bit digital signal based on an A / D conversion clock input from the overall control unit 30. The converted digital signal is temporarily stored in the image memory 44 as image data. Then, the image data stored in the image memory 44 is subjected to various processes by a WB circuit 23, a γ correction circuit 24, a color correction unit 25, a resolution conversion unit 26, a compression / decompression unit 46, and the like, which will be described below. . Further, the image data after each processing is re-stored in the image memory 44 again or transferred to another processing unit according to the content of each processing.
[0033]
The WB (white balance) circuit 23 performs level conversion of each of the R, G, and B color components. The WB circuit 23 converts the levels of the R, G, and B color components using a level conversion table stored in the overall control unit 30. The parameters (gradients of the characteristics) of the respective color components in the level conversion table are set automatically or manually by the overall control unit 30 for each captured image. The γ correction circuit 24 corrects the gradation of the pixel data.
[0034]
The color correction unit 25 performs color correction on the image data input from the γ correction circuit 24 based on the color correction parameters set by the user, and converts the color information expressed in the RGB color space into the YCrCb color space. Is converted to the color information represented by. By this color system conversion, a luminance component value Y is obtained for all pixels.
[0035]
The resolution converter 26 performs a predetermined resolution conversion on image data obtained from the CCD image sensor 20.
[0036]
For example, at the time of live view display, the resolution conversion unit 16 performs predetermined resolution conversion on the image data obtained from the CCD image pickup device 20, and image data (320 × 240 pixels) having an image size suitable for the number of display pixels of the LCD 5. That is, a live view image is generated. Also, at the time of automatic focusing, an image component corresponding to the AF evaluation area is extracted, unlike during live view display. At the time of actual photographing, the resolution conversion unit 26 outputs the image data obtained from the color correction unit 25 to the overall control unit 30 without performing the resolution conversion process. Then, the image data obtained at the time of the main shooting is stored in the image memory 44 via the overall control unit 30.
[0037]
At the time of live view display, the image data that has been subjected to predetermined resolution conversion by the resolution conversion unit 26 is provided to the image synthesis unit 43 via the overall control unit 30, and the live view image is displayed on the LCD 5 and the EVF 4. At the same time, it is also provided to the photometric calculation unit 28, and an evaluation value for automatic exposure (AE) control is calculated. On the other hand, at the time of automatic focusing control, an image component corresponding to the AF evaluation area specified by the overall control unit 30 is extracted, and image data of the image component is provided to the AF evaluation value calculation unit 27, and the automatic focusing control is performed. An evaluation value for (AF) control is calculated.
[0038]
The AF evaluation value calculation unit 27 functions when the shutter button 9 is half-pressed by the user, and performs an evaluation value calculation operation for performing automatic focusing control of the contrast method. Here, the sum of absolute differences between two pixels adjacent in the horizontal direction for the image component corresponding to the AF evaluation area is calculated as the AF evaluation value. Then, the AF evaluation value calculated by the AF evaluation value calculation unit 27 is output to the overall control unit 30, and automatic focusing control is realized.
[0039]
The photometric calculation unit 28 divides the image data output from the resolution conversion unit 26 into a plurality of blocks, and calculates an AE evaluation value based on the representative luminance value of each block. Then, the AE evaluation value calculated in the photometry calculation unit 28 is output to the overall control unit 30 and used for automatic exposure control in the overall control unit 30.
[0040]
The image memory 44 is a memory for temporarily storing image data obtained by the CCD image pickup device 20 at the time of the main photographing and subjected to the above-described image processing. The image memory 44 has a storage capacity for several frames, for example. Then, when after-viewing of the image is performed after the main shooting, image data is provided from the image memory 44 to the image synthesizing unit 43, and image display for confirming the shot image is performed. In addition, if there is no erasing instruction from the user after shooting, the image data is transferred from the image memory 44 to the memory card 90, and the image data is recorded and stored. As will be described later, even when a power-off operation is performed during the transfer recording operation, the transfer recording operation is continued until it is completed. As a result, loss of captured image data can be prevented.
[0041]
The card interface (card I / F) 47 is an interface for writing and reading image data to and from the memory card 90 mounted on the insertion mounting portion on the side of the digital camera 1. When reading / writing image data from / to the memory card 90, the compression / expansion unit 46 performs a compression process or an expansion process on the image data by, for example, the JPEG method. An external connection interface (external connection I / F) 48 is an interface for enabling communication with an external computer 91 via a communication cable or the like, and is realized by, for example, a communication interface or the like compliant with the USB standard. Via the card I / F 47 and the external connection I / F 48, a control program recorded on a recording medium such as a CD-ROM set in the memory card 90 or the external computer 91 is stored in the RAM 30a or the ROM 30b of the overall control unit 30. Can be captured. Then, by executing the program in the overall control unit 30, various functions described later are realized.
[0042]
The operation unit 45 is an operation unit including the dial 3, the menu button 6, the control button 7, the shutter button 9, the function operation unit 11, the focusing mode switching button 12, the switching button 13, and the like. It is used when changing the setting state of the camera or when performing a shooting operation.
[0043]
The real-time clock 49 is a so-called clock unit. The digital camera 1 can recognize the current time by the timing function of the real-time clock 49.
[0044]
Further, the digital camera 1 uses a battery 51 as a drive source. As the battery 51, for example, four AA batteries connected in series can be used. The power supply from the battery 51 to each processing unit in the digital camera 1 is controlled by the power control unit 52.
[0045]
The overall control unit 30 is configured by a microcomputer having a RAM 30a and a ROM 30b therein. The microcomputer executes a predetermined program, and functions as a control unit that controls the above units in an integrated manner. Note that the ROM 30b is a nonvolatile memory in which data can be electrically rewritten.
[0046]
In the photographing mode, the overall control unit 30 instructs the timing generator on a driving method for driving the CCD image sensor 20. In particular, when the user does not operate the shutter button 9, the overall control unit 30 instructs the timing generator to repeat the photographing operation by the CCD imaging device 20 to obtain a live view image. As a result, a captured image (live view image) for live view display is acquired by the CCD imaging device 20.
[0047]
The overall control unit 30 is configured to display shooting information desired by the user to assist shooting together with a live view image when the user prepares for shooting such as framing operation.
[0048]
The overall control unit 30 controls the power supply operation of the digital camera 1 via the power control unit 52. Then, the power supply state of the digital camera 1 is shifted to one of a plurality of states including a power on state, a power off state, and a power saving state. As will be described later, when a power-off operation by the dial 3 or the like is received, the overall control unit 30 controls the power-off process via the power control unit 52 according to the situation at that time. Here, the power cutoff process is a process of turning off the power supply from the battery 51 and shifting the digital camera 1 to the power off state. However, in this embodiment, in order to realize a clock function, power supply is continued only to the real-time clock (clock section) 49 even in a power-off state (power-off state).
[0049]
Further, the overall control unit 30 performs overall control in the digital camera, and also controls processes other than the power supply control, for example, the above-described live view display process, recording process on a memory card, and the like.
[0050]
The recording process on the memory card is a process of writing image data of a captured image to a recording medium such as the memory card 90 (hereinafter, also simply referred to as “writing process” or “recording process”). Then, when the power-off operation by the dial 3 is accepted, if the recording process has not been completed yet, the overall control unit 30 continues the recording process until the recording process is completed. Then, the power supply is cut off after the completion of the recording process. Note that this recording process is a process to be performed before the transition to the power-off state, and can also be expressed as a “preparation process” for the interruption process.
[0051]
Further, when a power-off operation by dial 3 is received and a predetermined operation such as a power-on operation is received before the writing process is completed, overall control unit 30 responds to the operation by a digital camera. 1 is again controlled to be in a photographable state.
[0052]
<B. Operation>
Next, the operation of the digital camera 1 at the time of a power-off operation will be described with reference to FIG. FIG. 6 is a flowchart showing this operation in the overall control unit 30 and the like.
[0053]
First, in step SP10, the overall control unit 30 determines whether a power-off operation has been performed. Specifically, it is determined whether or not the “OFF” portion of dial 3 has been set to a predetermined position. If it is determined that the power-off operation has not been performed, the process proceeds to step SP11. If it is determined that the power-off operation has been performed, the process proceeds to step SP20.
[0054]
In steps SP11 to SP15, a normal photographing operation is performed. Here, it is assumed that continuous image capturing is permitted as long as a predetermined amount of free space exists in the image memory 44. The predetermined free space is, for example, a memory capacity necessary for recording one image.
[0055]
More specifically, if it is determined in step SP11 that a predetermined amount of free space exists in the image memory 44, the process proceeds to step SP12. On the other hand, when it is determined that the predetermined amount of free area does not exist in the image memory 44, the process returns to step SP10 without proceeding to step SP12.
[0056]
In step SP12, it is determined whether or not the shutter button 9 has been pressed down to the fully pressed state S2. If it is determined that the button has been pressed down to the full-pressed state S2, the process proceeds to step SP13; otherwise, the process returns to step SP10.
[0057]
In step SP13, a photographing process is performed. Specifically, in response to the pressing of the shutter button 9, the digital camera 1 acquires an image signal of the subject from the CCD image sensor 20 and various analog signals by the signal processing circuit 21 with respect to the acquired image signal. After performing the processing, the data is converted into image data as digital data by the A / D converter 22. In the next step SP14, the captured image data is further subjected to various types of image processing by the WB circuit 23, the γ correction circuit 24, the color correction unit 25, and the like. In the next step SP15, the recording process of the image data is started.
[0058]
Here, the recording process is a process including a compression process of compressing the image data stored in the image memory 44 into a predetermined compression format and a transfer process of transferring the image data from the image memory 44 to the memory card 90 (see FIG. 7). is there. However, this recording process is substantially performed by the compression / expansion unit 46 or the like after the overall control unit 30 gives a recording process start command. In other words, this recording process is executed in parallel with the process of the overall control unit 30 in the flowchart of FIG. When the transfer process of each image to the memory card 90 is completed, the image data in the image memory 44 is deleted for each image, and the memory capacity corresponding to the image data of the image in the image memory 44 is released.
[0059]
Thereafter, the flow returns to step SP10 again, and the same operation as described above is repeated.
[0060]
While the power-off operation is not performed, the processing of steps SP11, SP12, SP13, SP14, and SP15 is repeatedly performed according to the situation. Then, as long as it is determined that a predetermined amount of free space exists in the image memory 44, the process proceeds to step SP12 and thereafter, in response to the depression of the shutter button 9, various processes for the next image, specifically, the photographing process , Image processing and recording processing are performed. In other words, even if there is an image (hereinafter, also referred to as an unrecorded image) in which the photographing process by the CCD imaging device 20 or the like has been completed but the recording process (writing process) to the memory card 90 has not been completed, If it is determined that there is a predetermined amount of free space in the image memory 44, the next image shooting processing or the like is performed.
[0061]
On the other hand, if the image memory 44 does not have a predetermined amount of free space because the image memory 44 stores many unrecorded images, the process does not proceed from step SP11 to step SP12. That is, the photographing processing of the next image is not performed. When a part of the image memory 44 is released with the completion of the recording process, and the image memory 44 has a free space of a predetermined capacity again, the process proceeds from step SP11 to step SP12. Can be taken.
[0062]
Next, a case where a power-off operation is performed will be described. If it is determined in step SP10 that the power-off operation using the dial 3 has been accepted, the process proceeds to step SP20. More specifically, when a power-off operation signal is generated based on the power-off operation, overall control unit 30 proceeds to step SP20 in response to the power-off operation signal.
[0063]
In step SP20, the overall control unit 30 immediately shifts the digital camera 1 to the power saving state in response to the power-off operation in step SP10. As a result, even when there is an image that has not yet been written to the memory card, the operation of reducing the power consumption is started from the time of the power-off operation, so that unnecessary battery consumption is suppressed.
[0064]
The “power saving state” is a state in which the power consumption of the digital camera is smaller than the power-on state (more specifically, the photographing enabled state) and the power consumption is larger than the power-off state. Here, in the power saving state, the power control unit 52 reduces the power supply to the CCD imaging device 20 (more specifically, shuts off) and reduces the power supply to the display units (the LCD 5 and the EVF 4) (more details). To cut off). On the other hand, an image memory 44, an image processing unit including the A / D converter 22 and the WB circuit 23, a compression / expansion unit 46 for performing recording processing, and an operation unit 45 including the dial 3, the shutter button 9, and the like. And the entire control unit 30 is continuously energized. As a result, even in the power saving state, it is possible to execute a writing operation to a recording medium such as a memory card, and also to accept a power-on operation or the like. Note that the power saving state is not limited to such a state. For example, a state where only energization to the CCD imaging device 20 may be reduced or an energization to the display unit (LCD5, EVF4, or the like) may be performed. It may be in a state where only the number is reduced.
[0065]
In step SP30, the overall control unit 30 determines whether or not unrecorded images remain in the image memory 44, in other words, whether or not recording of all images on the memory card 90 has been completed. Then, the overall control unit 30 controls each processing unit of the digital camera 1 so as to shut off the power only when the recording processing of all images is completed. On the other hand, when the recording process is not completed, the process waits until the recording process is completed, and when the recording process is completed, the power is turned off (the power is cut off). As a result, even when the power-off operation is performed at the time when the recording process is not completed, the process for turning off the power is performed such that the recording process is continuously performed according to the power-off operation. You. Therefore, the operator can perform the power-off operation without waiting for the completion of the recording process, and start the process for turning off the power.
[0066]
Specifically, when no unrecorded image remains in the image memory 44 (in other words, when the recording process is completed), the process proceeds to step SP70. In step SP70, the overall control unit 30 executes a process of immediately turning off the power, and shifts the digital camera 1 to a power-off state (in other words, a power-off state). In this power-off state, power supply to each processing unit except the real-time clock (clock unit) 49 is stopped.
[0067]
On the other hand, when the unrecorded image remains in the image memory 44 (in other words, when the recording process is not completed), the process proceeds to step SP40. In step SP40, the overall control unit 30 starts a recording process from the image memory 44 to the memory card 90. However, as described above, the recording process itself is executed by the compression / decompression unit 46 and the like, and is executed in parallel with the process of the overall control unit 30 in the flowchart of FIG.
[0068]
Now, in step SP50, the overall control unit 30 determines whether or not a power-on operation has been performed.
[0069]
While the power-on operation is not performed, the process proceeds to step SP60. In step SP60, it is determined whether or not the recording process has been completed. If the recording process has not been completed, the process returns to step SP50 again. Then, when the recording process ends, the process proceeds from step SP60 to step SP70. In step SP70, as described above, the overall control unit 30 immediately executes the process of shutting off the power, and shifts the digital camera 1 to the power shutoff state.
[0070]
On the other hand, if it is determined in step SP50 that the power-on operation has been performed, the process proceeds to step SP80. In step SP80, the overall control unit 30 performs processing for canceling the power saving state. More specifically, a power-on operation signal is generated based on the power-on operation, and the overall control unit 30 releases the power saving state in response to the power-on operation signal.
[0071]
Thereby, the digital camera 1 returns to the normal power-on state. That is, the state returns to the photographable state. Thereafter, the process returns to step SP10, and the operation of each step as described above is repeated.
[0072]
As described above, when the power-off operation by the dial 3 is received in step SP10, the overall control unit 30 performs the power-on operation by the dial 3 until the recording process of the unrecorded image on the memory card 90 is completed. When accepted in step SP50, the power-saving state is released in response to the power-on operation, and the digital camera 1 is again brought into the photographing enabled state. Therefore, even when the recording process of the unrecorded image on the memory card 90 is not completed at the time of the power-off operation, the photographing can be immediately performed.
[0073]
As described above, according to the digital camera 1, even immediately after the power-off operation, it is possible to relatively early return to a state in which the photographing operation is possible.
[0074]
Further, in this embodiment, in response to a power-on operation using the dial 3, the power-saving state is returned to the photographable state again. Since the power-on operation can also be performed using the dial 3, which is a power operation unit for performing both the power-on operation and the power-off operation, the operability is high. In particular, immediately after the power-off operation, the operator's finger is likely to be near the dial 3 in many cases, so that the digital camera can be quickly photographed by performing the power-on operation using the same dial 3. It is possible to return to.
[0075]
Furthermore, in this embodiment, the digital camera shifts to the power saving state between the time when the power is turned off and the time when the power is actually turned off, so that the power consumption can be reduced. Therefore, the life of the battery 51 can be extended.
[0076]
Further, even in the power saving state, since power is continuously supplied to the dial 3 and the like, it is possible to receive a power-on operation using the dial 3. Then, when the power-on operation is received, the digital camera is brought into a photographable state. In other words, when the power-on operation by the dial 3 is accepted, the power saving state is canceled and the camera enters a photographable state. Therefore, the digital camera can be brought into a photographable state again without waiting for completion of the writing process (recording process), so that photographing can be performed immediately.
[0077]
<C. Others>
In the above-described embodiment, the digital camera 1 returns to the photographable state only when the dial 3 as the power supply operation unit is operated, but is not limited to this. For example, the digital camera 1 may return to the photographing enabled state in response to an operation of a predetermined operation unit other than the dial 3 (for example, pressing of the shutter button 9).
[0078]
Further, in the above embodiment, the recording process is exemplified as the process including the compression process and the transfer process, but the recording process is not limited to this. For example, the recording process may be a process that does not involve a compression process (in other words, only a transfer process). In this case, after the recording control start command is given by the overall control unit 30 in step SP15, this recording processing may be performed substantially by a transfer controller (not shown) or the like. Thus, the main processing in the overall control unit 30 is processed in parallel. Alternatively, the above-described parallel processing may be realized by software by multitask processing in the overall control unit 30.
[0079]
【The invention's effect】
As described above, according to the first aspect of the present invention, when a predetermined operation is received before a predetermined process is completed in a case where a power-off operation is received, the power-off operation is performed in accordance with the predetermined operation. Since the digital camera is set to be in a photographable state, the digital camera can be returned to a photographable state relatively early even immediately after the power-off operation.
[0080]
According to the second aspect of the present invention, the power-on operation is also performed using the power operation unit which is also the operation unit for performing the power-off operation, and the digital camera is brought into a photographable state according to the on-operation. Therefore, operability is high.
[0081]
According to the third aspect of the present invention, the digital camera shifts to the power saving state between the time the power is turned off and the time the power is actually turned off, so that the power consumption can be reduced. it can. Therefore, the battery life can be extended. Further, in this power saving state, a predetermined operation can be received using any one of the operation units included in the operation unit, and thus the digital camera is set to a photographing enabled state without waiting for completion of predetermined processing. be able to.
[0082]
According to the fourth aspect of the present invention, since the digital camera is in the power saving state after the power-off operation is performed and before the power is actually turned off, the power consumption can be reduced. . Therefore, the battery life can be extended. Further, when a predetermined operation is received, the power saving state is released, so that the photographing can be performed immediately.
[Brief description of the drawings]
FIG. 1 is a front view showing an external configuration of a digital camera.
FIG. 2 is a top view illustrating an external configuration of the digital camera.
FIG. 3 is a rear view illustrating an external configuration of the digital camera.
FIG. 4 is a block diagram showing internal functions of the digital camera.
FIG. 5 is an enlarged view showing the dial 3.
FIG. 6 is a flowchart illustrating an operation during a power-off operation.
FIG. 7 is a conceptual diagram illustrating a process of transferring image data.
[Explanation of symbols]
1 Digital camera
3 dial
4 EVF
5 LCD
9 Shutter button
30 Overall control unit
44 Image memory
90 memory card

Claims (4)

A digital camera,
Operating means having a power supply operation unit for receiving a power-off operation;
If the predetermined process is not completed at the time when the off operation is received, the digital camera is waited until the predetermined process is completed, and the digital camera is turned off at the time when the predetermined process is completed. Control means for controlling;
With
When the predetermined operation by the operation unit is received by the time the predetermined process is completed when the off operation is received, the control unit sets the digital camera in a photographable state according to the predetermined operation. A digital camera characterized in that: The digital camera according to claim 1,
The power supply operation unit also receives a power on operation,
The digital camera according to claim 1, wherein the predetermined operation is the on operation using the power operation unit. The digital camera according to claim 1,
The digital camera is powered by a battery,
The control means performs the predetermined process after shifting the digital camera to a power saving state in response to the off operation,
The digital camera according to claim 1, wherein the power saving state is a state in which the predetermined operation can be received using any one of the operation units included in the operation unit. The digital camera according to claim 1,
The digital camera is powered by a battery,
The control unit performs the predetermined process after shifting the digital camera to a power saving state in response to the off operation, and the predetermined operation by the operation unit is received in the power saving state. A digital camera, wherein the power saving state is sometimes released.

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