JP2004096392A - Digital camera - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a digital camera capable of easily confirming a state of photographing an object, in performing a manual shifting operation. <P>SOLUTION: In the digital camera, exposure control parameters (aperture, shutter speed, gain) for main photographing are set by the manual shifting operation of the photographer (step SP20). Exposure control parameters for live view image photographing are determined according to the details of the above setting (step SP30). Specifically, the same value as that of main photographing is used for an aperture value. Also, the combination of shutter speed and gain are changed into a combination having the same exposure state as that in the main photographing, depending on conditions. After that, an image acquired by the exposure control parameters for live view image photographing are displayed as a live view image on a liquid crystal display (LCD) on the back of the digital camera (steps SP40, SP50). <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a digital camera, and more particularly, to an exposure control technique thereof.
[0002]
[Prior art]
Conventionally, some silver halide cameras have various exposure modes in order to control the exposure state. For example, there are various exposure modes such as a program mode (P mode), an aperture priority mode (A mode), a shutter speed priority mode (S mode), and a manual mode (M mode). In each of these modes, an aperture value and a shutter speed are determined by a unique method, and shooting is performed.
[0003]
The program mode (P mode) is a mode in which an aperture value and a shutter speed are automatically determined by a camera according to a shooting scene. The aperture priority mode (A mode) is a mode in which, when a photographer sets a desired aperture value, the camera automatically determines a shutter speed so that an exposure state is optimized. The shutter speed priority mode (S mode) is a mode in which, when a photographer sets a desired shutter speed, the camera automatically determines an aperture value so that an exposure state is optimized. The manual mode is a mode in which the photographer manually sets both the aperture value and the shutter speed by manual operation.
[0004]
Further, in the manual mode, an operation called “manual shift” is performed. "Manual shift" is an operation of changing the combination of the aperture value and the shutter speed while maintaining the exposure state determined by the photographer.
[0005]
[Problems to be solved by the invention]
However, none of the cameras that set the exposure control value by such a manual shift operation has a preview function of previously viewing an image according to the setting after the change by the manual shift operation before photographing. Therefore, there is a problem that it is difficult for the photographer to confirm what kind of photographic expression the subject is photographed by setting the exposure control value.
[0006]
At the present time, there is no digital camera having such a manual shift function. However, when the above-described manual shift operation is performed in a digital camera, the same problem as described above occurs.
[0007]
In view of the above problems, an object of the present invention is to provide a digital camera capable of easily confirming a shooting state of a subject when performing a manual shift operation.
[0008]
[Means for Solving the Problems]
To achieve the above object, an invention according to claim 1 is a digital camera, comprising: a first operation for setting an exposure state; and a shutter speed and an aperture value corresponding to the exposure state set by the first operation. Setting means for setting an exposure control parameter for actual photographing in response to an operation including a second operation for setting a combination of the exposure state in an actual photographed image in accordance with the exposure control parameter for actual photographing; Determining means for determining an exposure control parameter for realizing the same exposure state as an exposure control parameter for preview image shooting; image obtaining means for obtaining a preview image using the exposure control parameter for preview image shooting; Display means for displaying the preview image acquired by the image acquisition means, wherein the determination means Aperture value, and wherein the digital camera be characterized by determining a second same value as the aperture value for the photographic set by the operator.
[0009]
According to a second aspect of the present invention, in the digital camera according to the first aspect of the present invention, when the shutter speed for the main photographing set by the second operation is lower than a predetermined value, A shutter speed higher than the shutter speed for main shooting and a gain for sensitivity adjustment larger than the gain for sensitivity adjustment for main shooting set by the setting means are determined as exposure control parameters for the preview image shooting. It is characterized by doing.
[0010]
According to a third aspect of the present invention, in the digital camera according to the second aspect of the present invention, the image acquisition unit uses the shutter speed, the aperture value, and the gain for sensitivity adjustment set by the setting unit during actual shooting. A main photographed image related to the subject is obtained.
[0011]
According to a fourth aspect of the present invention, in the digital camera according to the first aspect of the present invention, the setting means includes: a first operation member used for both the first operation and the second operation; A second operation member for switching which of the first operation and the second operation is used by the operation member.
[0012]
According to a fifth aspect of the present invention, in the digital camera according to the first aspect of the present invention, the display unit displays a histogram indicating a frequency distribution of luminance in the preview image so as to be superimposed on the preview image.
[0013]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0014]
<A. Configuration>
<A1. Outline>
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.
[0015]
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.
[0016]
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 in two steps that can be detected by the user by distinguishing between a half-pressed state and a fully-pressed state. When the auto focus mode is set, the auto focus control is started when the switch is half-pressed, and the actual shooting operation for shooting images for recording is performed when the switch is fully pressed. Start.
[0017]
Further, a front dial 10 is provided on the upper portion of the grip portion 1a, the front dial 10 being rotatable in two forward and reverse directions (that is, left and right directions). Since the front dial 10 is provided on the grip portion 1a, the turning operation of the front dial 10 is relatively easy even when the user holds the digital camera 1.
[0018]
On the upper surface of the digital camera 1, there is provided a mode switching dial 3 for switching between a "photographing mode" and a "playback mode". 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.
[0019]
On the back of the digital camera 1, an LCD 5 and an electronic view finder (hereinafter, referred to as EVF) 4 for performing live view display and playback display of a recorded image before the actual shooting operation are provided. The LCD 5 and the EVF 4 each display a color image.
[0020]
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.
[0021]
An AE lock button (hereinafter, also simply referred to as a lock button) 12 is provided on the back of the digital camera 1. When the lock button 12 is pressed, the automatic adjustment function of the exposure state can be temporarily stopped (ie, AE lock) during the automatic exposure (AE) control. As will be described later, in the manual mode, by using the lock button 12 in combination with the front dial 10, it is possible to perform "manual shift" instead of AE lock.
[0022]
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.
[0023]
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.
[0024]
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.
[0025]
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.
[0026]
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.
[0027]
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 auto gain control circuit (AGC), performs noise reduction processing of the image signal by the correlated double sampling circuit, and adjusts the sensitivity by the auto gain control circuit. The level of the image signal is adjusted by adjusting the gain for the image signal. Further, the signal processing circuit 21 can adjust the image signal using a gain that realizes a predetermined sensitivity characteristic, instead of the gain automatically adjusted by the AGC circuit. According to this, for example, it is possible to realize sensitivity characteristics having predetermined values such as ISO100, ISO200, ISO400, and ISO800. In a manual mode, which will be described later, any of such a plurality of step values can realize any of the sensitivity characteristics based on the settings of the operator.
[0028]
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.
[0029]
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.
[0030]
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.
[0031]
The resolution converter 26 performs a predetermined resolution conversion on image data obtained from the CCD image sensor 20.
[0032]
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.
[0033]
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.
[0034]
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.
[0035]
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 by the photometry calculation unit 28 is output to the overall control unit 30 and used for exposure control in the overall control unit 30. In a manual mode, which will be described later, the photometric calculation unit 28 performs a process of obtaining a luminance distribution in an image.
[0036]
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 of at least one frame. 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. When a recording instruction is given by the user, the image data is transferred from the image memory 44 to the memory card 90, and the image data is recorded and stored.
[0037]
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.
[0038]
The operation unit 45 is an operation unit including the above-described menu button 6, control button 7, shutter button 9, front dial 10, function operation unit 11, and the like. It is used when performing operations. As will be described later, the photographer (operator) can set exposure control parameters for main photographing using the operation unit 45.
[0039]
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.
[0040]
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 image pickup 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.
[0041]
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.
[0042]
The overall control unit 30 has a parameter determination unit 31. The parameter determining unit 31 is a functional unit that is functionally implemented by executing the above-described processing program or the like using a microcomputer or the like. As will be described later, the parameter determination unit 31 has a function of determining exposure control parameters for live view image (preview image) shooting in accordance with exposure control parameters for main shooting set by various operations. I have.
[0043]
<A2. Setting operation of exposure control parameters for actual shooting>
Next, the setting operation of the exposure control parameters for the main photographing will be described. Exposure control in the digital camera 1 is performed by adjusting three exposure control parameters, specifically, a shutter speed, an aperture value, and a gain for sensitivity adjustment.
[0044]
Among the exposure control parameters for the main photographing, the gain for sensitivity adjustment is set in advance to a predetermined value by an operation or the like by an operator. Specifically, after the operator turns the function dial 11b to select “ISO” (see FIG. 10) as an option to be set, the image pickup sensitivity can be adjusted by turning the front dial 10. By such an operation, the imaging sensitivity of the digital camera 1 is set to any one of a plurality of predetermined values such as ISO100, ISO200, ISO400, and ISO800. Note that the imaging sensitivity of a digital camera is represented by a value converted into the film sensitivity of a silver halide camera, such as “ISO400”.
[0045]
The digital camera 1 has various exposure modes for controlling an exposure state. Specifically, it has various exposure modes such as a program mode (P mode), an aperture priority mode (A mode), a shutter speed priority mode (S mode), and a manual mode (M mode). In each of these modes, the remaining two exposure control parameters, ie, the aperture value and the shutter speed, are determined in a unique manner.
[0046]
The program mode (P mode) is a mode in which an aperture value and a shutter speed are automatically determined by a camera according to a shooting scene. The aperture priority mode (A mode) is a mode in which, when a photographer sets a desired aperture value, the camera automatically determines a shutter speed so that an exposure state is optimized. The shutter speed priority mode (S mode) is a mode in which, when a photographer sets a desired shutter speed, the camera automatically determines an aperture value so that an exposure state is optimized. The manual mode (M mode) is a mode in which the photographer manually sets both the aperture value and the shutter speed by manual operation.
[0047]
These modes can be changed using the function operation unit 11 and the front dial 10. Specifically, after turning the function dial 11b to set it to the position "PASM" (see FIG. 10) for selecting an exposure mode, each mode is turned by turning the front dial 10 while pressing the function button 11a. It is possible to choose.
[0048]
Here, it is assumed that the exposure mode is set to the manual mode by such an operation.
[0049]
In the manual mode, the shutter speed can be changed by rotating the front dial 10. The aperture value in the manual mode can be changed from the plurality of candidate values to the “aperture priority mode (A mode)” by operating the function operation unit 11 and then rotating the front dial 10. This is done by selecting the aperture value of Then, after changing the aperture value in the “aperture priority mode (A mode)”, the photographer may perform a setting operation of returning the exposure mode to the manual mode again by operating the function operation unit 11. This makes it possible to further perform the operation of changing the shutter speed.
[0050]
Now, in this manual mode, an operation called "manual shift" is performed. "Manual shift" is an operation of changing the combination of the aperture value and the shutter speed while maintaining the exposure state determined by the photographer.
[0051]
More specifically, this manual shift operation is performed using the front dial 10 and the lock button 12 of the digital camera 1.
[0052]
First, the photographer performs an operation for determining the exposure state (hereinafter, also referred to as operation P1). The exposure state is adjusted by changing the shutter speed while keeping the aperture value fixed.
[0053]
Specifically, the photographer changes the shutter speed by turning the front dial 10 left or right alone. Specifically, when the front dial 10 is turned one step to the right, the shutter speed is changed to one step lower speed, and when the front dial 10 is turned one step to the left, the shutter speed is changed one step higher. . Thus, the photographer can change the shutter speed over a predetermined range (for example, in a range of 4 seconds to 1/2000 seconds).
[0054]
At the time of this change, the aperture value remains fixed at a predetermined value (for example, a value immediately before the operation of the front dial 10). Therefore, when the shutter speed changes due to the turning operation of the front dial 10, the exposure amount changes accordingly. Specifically, when the shutter speed is changed to a higher value, the exposure decreases, and when the shutter speed is changed to a lower value, the exposure increases. Therefore, by turning the front dial 10 independently, it becomes possible to set the exposure level (exposure state) desired by the photographer.
[0055]
Next, the photographer performs an operation of changing the combination of the aperture value and the shutter speed, that is, a so-called "manual shift" operation (hereinafter, also referred to as operation P2) while maintaining the exposure state determined by the operation P1. . The combination of the shutter speed and the aperture value after the change by the manual shift operation P2 realizes the same exposure state as the exposure state set by the above operation P1 (that is, the exposure state before the change).
[0056]
FIG. 5 is a diagram illustrating a change in the combination of the aperture value and the shutter speed in the manual shift. In FIG. 5, a plurality of obliquely extending straight lines (represented by solid lines) are shown, but the combination of both indicated by points on the same straight line corresponds to the same exposure state. By the operation P1, which straight line to follow is already selected.
[0057]
Specifically, as the operation P2, the photographer rotates the front dial 10 to the left or right while pressing the lock button 12, thereby performing both (aperture value and shutter speed) along one of the straight lines in FIG. Perform the operation to change the combination of.
[0058]
For example, as shown in FIG. 5, when the current combination of the aperture value and the shutter speed is (4.0, 1/60), the operator moves the front dial 10 rightward by one step while pressing the lock button 12. When turned, the combination of the aperture value and the shutter speed is changed to (5.6, 1/30). Conversely, when the front dial 10 is turned one step to the left while pressing the lock button 12, the combination of the aperture value and the shutter speed is changed to (2.8, 1/125).
[0059]
Here, the aperture value is represented by a so-called f-number, and as the numerical value increases, the aperture value becomes smaller (darker). The shutter speed is represented by the length of the exposure time (second), and the shutter speed becomes lower as the numerical value becomes larger. Note that the shutter speed of the CCD imaging device 20 is changed by controlling an electronic shutter and / or a mechanical shutter.
[0060]
As described above, the operator sets the three exposure control parameters for the main photographing, specifically, the aperture value, the shutter speed, and the gain for sensitivity adjustment. Further, in particular, according to the manual shift operation P2, it is possible to set the combination of the shutter speed and the aperture value at the time of the main photographing to a desired combination corresponding to the exposure state predetermined by the operation P1 or the like.
[0061]
<A3. Preview display>
Next, preview display during such a manual shift operation will be described. Here, a live view display is exemplified as the preview display.
[0062]
In this preview display, the exposure control parameters for preview image shooting are determined according to the exposure control parameters for main shooting determined by the above setting operation, and the exposure control parameters for preview image shooting are obtained using the exposure control parameters for preview image shooting. The image is displayed as a preview image.
[0063]
Further, at the time of capturing the preview image, an exposure control parameter for realizing the same exposure state as the exposure state in the main captured image is used as an exposure control parameter for preview image capturing.
[0064]
Specifically, in the live view display, in principle, an image shot based on the same exposure control parameter as the exposure control parameter set for the main shooting such as the manual shift operation is used as a live view image. Can be More specifically, a plurality of images captured using the three exposure control parameters (ie, the aperture value, shutter speed, and gain for sensitivity adjustment) set for the actual shooting are continuously displayed on the LCD 5 ( And / or EVF 4). As a result, a live view image, which is a preview moving image, is displayed on the LCD 5 or the like.
[0065]
For example, when the aperture value and the shutter speed at the time of actual shooting are set to (4.0, 1/60) and the gain for sensitivity adjustment at the time of actual shooting is set to be equivalent to ISO200, live view An image of a subject is acquired as a live view image with the three parameters (aperture value, shutter speed, and gain) at the same time as the parameters at the time of the main shooting, and the live view image is displayed on the LCD 5 or the like. Is done.
[0066]
By the way, in live view display for displaying an image of a subject before main shooting, a moving image display is realized by displaying a plurality of images at predetermined minute time intervals (for example, at 1/15 second intervals).
[0067]
On the other hand, when performing live view display using an image captured at a slower shutter speed such that exposure is performed for a time longer than this time interval, the update time interval in the display becomes longer, and the subject becomes longer. Will be awkward.
[0068]
In this embodiment, such a situation is prevented by the following measures.
[0069]
Specifically, the shutter speed at the time of the main shooting set by the manual shift operation is lower than a predetermined value (for example, a value corresponding to a display time interval (1/15 second or the like) in live view display). In such a case, the live view image is captured using a shutter speed higher than the shutter speed at the time of the main shooting, except for the above principle. Further, in capturing the live view image, a gain larger than a preset gain at the time of actual shooting is used. At this time, a gain is used so that the exposure state of the subject in the live view image becomes the same before and after the shutter speed is changed.
[0070]
Also, as the aperture value for live view image shooting, the aperture value for main shooting set by the manual shift operation P2 described above is used as it is. If an image photographed by changing the aperture value is used as a live view image, the depth of field will be changed. Therefore, the background is blurred between the actual photographed image (the photographed image at the time of the actual photographing) and the live view image. This is because problems such as different conditions may occur. On the other hand, by using the aperture value at the time of actual shooting set by the manual shift as the aperture value at the time of live view image shooting, the subject depth at the time of actual shooting and the object field at the time of live view image shooting are determined. The depth can be the same. Therefore, it is possible to avoid a problem that the degree of background blur differs between the live view image and the main photographed image.
[0071]
FIG. 6 is a diagram showing how the shutter speed and the gain are changed. In the left column, the shutter speeds for the main shooting set by the photographer are arranged in the vertical direction, and in the upper column, the gains for the main shooting set by the photographer are arranged in the horizontal direction. . In the center, a combination of both parameters (shutter speed and gain) set by the photographer after being changed for live view image shooting is shown. Although the “aperture value” is not shown in FIG. 6, as described above, the aperture value at the time of shooting a live view image is determined as the same value as the aperture value at the time of main shooting.
[0072]
For example, if the photographer has set the shutter speed to 1/4 second and the main shooting at a sensitivity equivalent to ISO 400, the combination of the shutter speed and the gain is changed to (1 / 8,800). To capture a live view image. That is, a live view image having a shutter speed of 1/8 second and a sensitivity equivalent to ISO 800 is obtained. As described above, while the shutter speed is doubled (in other words, the exposure time is halved), the sensitivity is doubled, so that the exposure state of the subject in the live view image is the same as that of the actual shooting. State.
[0073]
In this way, the exposure control parameter for preview image shooting is determined as the exposure control parameter for realizing the same exposure state as the exposure state in the main shot image.
[0074]
If a gain higher than the preset gain cannot be used, it is necessary to increase the shutter speed even if the shutter speed after manual shift setting is lower than a predetermined value. do not do. Rather, in this case, it is preferable to keep the shutter speed low, giving priority to the same exposure state between the live view image and the main photographed image. For example, as shown in the rightmost column of FIG. 6, when the shooting sensitivity at the time of actual shooting is set to the maximum sensitivity (sensitivity of ISO 800) in advance, the shutter speed, aperture value, and sensitivity at the time of actual shooting are kept as they are. Live view display may be performed using the image captured using the image as a live view image. In this case, smoothness in the moving image is sacrificed, but the same exposure state is maintained between the live view image and the main captured image, so that more accurate live view display is performed on the LCD 5 or the like.
[0075]
As described above, when the shutter speed at the time of the main shooting set by the manual shift operation P2 is lower than the predetermined value, the shutter speed and the gain are changed according to the relationship shown in FIG.
[0076]
As described above, at the time of shooting an image used for live view display, the exposure control parameter that realizes the same exposure state as the exposure state in the main shot image is determined as the exposure control parameter for preview image shooting.
[0077]
Then, a live view image is captured using the exposure control parameters for preview image capturing thus determined, and the captured live view image is displayed on the LCD 5 or the like. As a result, a live view image photographed so that the exposure state of the subject becomes the same as that of the actual photographing is displayed on the LCD 5 or the like.
[0078]
<B. Operation>
Next, the operation in the manual mode will be described with reference to FIG. FIG. 7 is a flowchart showing the operation in this embodiment.
[0079]
First, as shown in step SP10, when the exposure mode is set to the "manual mode" in the shooting mode, a live view image is displayed on the LCD 5.
[0080]
FIG. 8 is a diagram showing the live view image at this time. On the LCD 5, a live view image based on the initial setting is displayed, and values of three types of exposure control parameters of an aperture value, a shutter speed, and a gain are displayed so as to be superimposed on the live view image.
[0081]
In FIG. 8, "M" on the lower left side of the screen indicates that the exposure mode is set to the manual mode. Further, “F4” indicates that the aperture value at the time of the main shooting is set to 4.0, and “1/60” indicates that the shutter speed at the time of the main shooting is set to 1/60 second. . Further, “ISO200” indicates that the gain at the time of the main shooting is set to be equivalent to ISO200.
[0082]
In addition, as shown in FIG. 8, in the live view image, a histogram HG indicating the luminance distribution of the image is also displayed. This histogram HG indicates a luminance distribution obtained for the live view image. The histogram HG does not need to be generated for all live view images, and may be obtained for some live view images thinned out at a predetermined timing. Alternatively, the display may be changed only when the luminance distribution greatly changes.
[0083]
The photographer can more easily determine whether the exposure state of the subject is in an appropriate state by looking at the histogram HG. Then, according to the result of this determination, the photographer can change the exposure state in the manual mode.
[0084]
In the next step SP20, it is determined whether or not an event has occurred, specifically, whether or not an operation has been performed by the photographer. If the digital camera 1 determines that an operation has been performed by the photographer, the digital camera 1 performs a process corresponding to the operation in step SP30, and then proceeds to step SP40. On the other hand, if it is determined that no operation has been performed by the photographer, the process directly proceeds to step SP40 without performing the processing in step SP30.
[0085]
In step SP30, the exposure control parameter at the time of live view image shooting is set according to the setting change of the exposure control parameter at the time of the main shooting by the photographer. In other words, the exposure control parameters in the digital camera 1 are reset for live view image capturing.
[0086]
As described above, in principle, the exposure control parameters during live view image capturing are the same as the exposure control parameters during actual capturing. However, when the shutter speed at the time of the main shooting is set to be lower than the predetermined value, the shutter speed and the gain at the time of live view image shooting are different from those at the time of the main shooting according to the relationship shown in FIG. Is changed to the value. At this time, the movement of the subject is prevented from becoming awkward by increasing the shutter speed. Also, by increasing the gain, it is possible to prevent the exposure state of the subject from lowering (so-called underexposure).
[0087]
After that, in step SP40, a live view image is photographed with the exposure control parameters reset in step SP30, and the photographing result is displayed on the LCD 5 in step SP50.
[0088]
FIG. 9 is a view showing the live view image in step SP40 after the exposure control parameter during the main shooting is changed in step SP20. Here, a case is shown in which the aperture value at the time of actual shooting is changed to 5.6 and the shutter speed is changed to 1/30 by the manual shift operation. At this time, the live view image is shot with the same exposure control parameters (aperture, shutter speed, gain) as during the main shooting.
[0089]
In FIG. 9, the exposure control parameters at the time of actual shooting, not the exposure control parameters at the time of live view, are displayed so as to be superimposed on the live view image. Therefore, when the exposure control parameter of the live view image has a value different from the exposure control parameter for the main shooting by the process of step SP30, a value different from the exposure control parameter used for the live view image is displayed. Will be. However, since the live view image itself displayed on the LCD 5 or the like has the same exposure state as that at the time of the main shooting, the shooting situation at the time of the main shooting can be confirmed in advance. Further, by setting the aperture value for photographing the live view image to the same value as in the actual photographing, it is possible to more accurately predict the photographing situation in the actual photographing.
[0090]
In step SP20, the state of the shutter button 9 is also determined, and in SP30, processing according to the result of the state determination of the shutter button 9 is also performed. Specifically, when it is determined that the shutter button 9 has been pressed down to the half-pressed state S1, autofocus control is performed according to the determination result. When it is determined that the shutter button 9 has been pressed down to the fully pressed state S2, the main shooting is performed according to the determination result. Then, at the time of the main shooting, shooting is performed using the exposure control parameters for the main shooting instead of the exposure control parameters at the time of shooting the live view image. As described above, the exposure control parameters for the actual shooting are the values set by the manual shift operation P2 described above, and do not always match the values at the time of live view image shooting.
[0091]
As described above, according to the digital camera of this embodiment, the exposure control parameter for preview image shooting is determined according to the exposure control parameter for main shooting set by a so-called manual shift operation, and the preview image shooting The preview image acquired by using the exposure control parameters for display is displayed on the display means. Therefore, when performing a manual shift operation, it is possible to easily confirm the shooting situation of the subject by using the preview image. Further, since the exposure control parameters for preview image photographing realize the same exposure state as the main photographed image, more accurate preview display can be performed. Further, the aperture value for the preview image shooting is determined as the same value as the aperture value for the main shooting set by the manual shift operation, so that the depth of field between the main shooting image and the preview image is made the same. be able to.
[0092]
Further, when the shutter speed for the main shooting is lower than a predetermined value, an image shot at a shutter speed higher than the shutter speed for the main shooting is used as a live view image. Awkwardness can be suppressed. Further, in this case, an image photographed with a gain larger than the gain for the main photographing is used as a preview image, so that underexposure can be prevented. Furthermore, the combination of the aperture value, shutter speed, and gain for preview image shooting achieves the same exposure state as the combination of the aperture value, shutter speed, and gain for main shooting, so that a more accurate preview display (live view display) ) Becomes possible. In addition, while the shutter speed is adjusted in the live view display, the photographing is performed with the set values set by the photographer during the actual photographing, so that the expression intended by the photographer can be achieved.
[0093]
Further, the lock button 12 functions as an operating member for switching between using the front dial 10 for the two operations P1 and P2, and the front dial 10 functions as an operating member for both the two operations P1 and P2. In other words, the front dial 10 can be shared by two operations by switching with the lock button 12, so that high operability can be obtained. Here, the two operations P1 and P2 are, as described above, two operations in the manual shift operation, more specifically, an operation P1 for changing the exposure state by changing the shutter speed, and two corresponding to the exposure state. This is a change operation P2 of a combination of two parameters (specifically, an aperture value and a shutter speed).
[0094]
Further, the LCD 5 displays a histogram indicating the frequency distribution of the luminance in the live view image so as to be superimposed on the live view image, so that the operator can determine whether the exposure state set by the operation using the front dial 10 is appropriate. It is possible to more easily evaluate.
[0095]
<C. Others>
In the above embodiment, the exposure control parameter for realizing the same exposure state as the exposure state in the main photographed image is changed according to the exposure control parameter for main photographing set by the manual shift operation P2. It is determined as a control parameter. Here, the degree of identity of the exposure state is not required to be strict, but it is sufficient if the photographer can recognize the exposure state of both images as the same.
[0096]
Further, in the above embodiment, the case where the operation P1 is performed by turning the front dial 10 alone and the operation P2 is performed by turning the front dial 10 while pressing the lock button 12 has been described, but the present invention is not limited to this. For example, each time the lock button 12 is pressed once, switching between using the front dial 10 for the operation P1 or for the operation P2 may be performed. According to this, once the lock button 12 is depressed, the finger of the photographer is once released from the lock button 12, and then the front dial 10 is operated to perform the operation P2 (specifically, the aperture value and the shutter speed). Operation to determine the combination with.
[0097]
【The invention's effect】
As described above, according to the first to fifth aspects of the present invention, preview image shooting is performed in accordance with exposure control parameters for main shooting set by operations including the first operation and the second operation. Is determined, and the preview image acquired using the exposure control parameter for photographing the preview image is displayed on the display means. Therefore, even when a so-called manual shift operation is performed, the photographing state of the subject can be easily confirmed by the preview image. Further, since the exposure control parameters for preview image photographing realize the same exposure state as the exposure state in the main photographed image, more accurate preview display can be performed. Furthermore, the aperture value for preview image shooting is determined as the same value as the aperture value for main shooting set by the second operation, so that the depth of field between the main shooting image and the preview image is the same. can do. Therefore, it is possible to avoid the problem that the degree of background blur is different between the actual shooting and the preview.
[0098]
In particular, according to the second aspect of the present invention, when the shutter speed for the main shooting is lower than a predetermined value, the image shot at the shutter speed higher than the shutter speed for the main shooting is displayed as a preview. Since it is used as an image, it is possible to suppress awkward movement of a subject even when a moving image display is used as a preview display. In addition, since an image photographed with a gain larger than the gain for the main photographing is used as a preview image, insufficient exposure can be prevented.
[0099]
According to the third aspect of the present invention, while the shutter speed is adjusted in the preview display, the photographing is performed with the set value set by the photographer during the actual photographing, so that the photographer's intention The expression of the street becomes possible.
[0100]
Further, according to the fourth aspect of the present invention, the first operation member is switched between the first operation and the second operation by the second operation member, whereby the first operation member is switched. Since the operation member can be shared by both operations, high operability can be obtained.
[0101]
According to the fifth aspect of the present invention, the display unit displays the histogram indicating the frequency distribution of the luminance in the preview image so as to be superimposed on the preview image, so that the operator can set the exposure set by the first operation. It is possible to more easily evaluate whether the state is appropriate.
[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 a diagram illustrating a change in a combination of an aperture value and a shutter speed in a manual shift.
FIG. 6 is a diagram showing how a shutter speed and a gain for live view image capturing are changed.
FIG. 7 is a flowchart showing an operation in a manual mode.
FIG. 8 is a diagram showing a live view image.
FIG. 9 is a diagram showing a live view image after changing parameters.
FIG. 10 is a diagram showing details of a function operation unit 11;
[Explanation of symbols]
1 Digital camera
4 EVF
5 LCD
9 Shutter button
10 Front dial
11 Function operation section
11a Function button
11b Function dial
12 Lock button
HG histogram

Claims (5)

A digital camera,
In accordance with an operation including a first operation for setting an exposure state and a second operation for setting a combination of a shutter speed and an aperture value corresponding to the exposure state set by the first operation, the actual shooting operation is performed. Setting means for setting the exposure control parameters of
Determining means for determining, as the exposure control parameter for preview image shooting, an exposure control parameter for realizing the same exposure state as the exposure state in the main shot image, according to the exposure control parameter for main shooting;
Image acquisition means for acquiring a preview image using the exposure control parameters for preview image shooting,
Display means for displaying the preview image acquired by the image acquisition means,
With
The digital camera according to claim 1, wherein said determining means determines an aperture value for photographing a preview image as the same value as an aperture value for main photographing set by said second operation. The digital camera according to claim 1,
The determining means, when the shutter speed for the main shooting set by the second operation is lower than a predetermined value, a shutter speed higher than the shutter speed for the main shooting and the setting means A digital camera, wherein a sensitivity adjustment gain larger than the set sensitivity adjustment gain for main shooting is determined as an exposure control parameter for preview image shooting. The digital camera according to claim 2,
The digital camera according to claim 1, wherein said image obtaining means obtains a main photographed image of said subject by using a shutter speed, an aperture value, and a gain for sensitivity adjustment set by said setting means at the time of main photographing. The digital camera according to claim 1,
The setting means,
A first operation member used for both the first operation and the second operation;
A second operation member for switching which one of the first operation and the second operation is used for the first operation member;
A digital camera, comprising: The digital camera according to claim 1,
A digital camera, wherein the display unit displays a histogram indicating a frequency distribution of luminance in the preview image so as to overlap the preview image.

Images