JP4288965B2 - Electronic camera and imaging control program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
[0002]
The present invention relates to an electronic camera and an imaging control program.
[0003]
[Prior art]
[0004]
In a general electronic camera, a subject image is captured at a predetermined short time interval (charge accumulation time) by an image sensor, and the subject image captured at the predetermined time interval is displayed on a liquid crystal monitor as a through image. The photographer performs image quality adjustment, field angle adjustment, and the like while visually recognizing the through image displayed on the liquid crystal monitor, and performs a shutter operation when a through image having a desired image quality, field angle, and the like is displayed.
[0005]
If the auto shooting mode is set at this time, the exposure condition for the main shooting is determined based on the brightness of the through image immediately before the shutter operation is performed, and the charge accumulation time according to the determined exposure condition. The subject image picked up by the image pickup device is recorded in the storage memory. When the manual shooting mode is set, the subject image captured by the image sensor with the charge accumulation time corresponding to the exposure conditions for main shooting set in advance by the user is recorded in the storage memory. Therefore, the image quality of the subject image displayed on the LCD monitor and the subject image recorded in the storage memory in accordance with the shutter operation differ depending on the difference in charge accumulation time, etc., and the subject image displayed on the LCD monitor is visually recognized. Even if shooting is performed, a subject image having an undesired image quality different from the visually recognized subject image is recorded.
[0006]
For this reason, provisional shooting is performed under the same shooting conditions as in the main shooting, and the temporarily captured subject image is displayed. After the provisionally captured subject image is visually recognized, the actual shooting is performed in advance. An electronic camera capable of recording a subject image of the same quality as the subject image (at the time of shooting) has also been proposed (see, for example, Patent Document 1).
[0007]
[Patent Document 1]
Japanese Patent Laid-Open No. 2001-212359
[0008]
[Problems to be solved by the invention]
[0009]
However, when temporary shooting is executed under the shooting conditions as described above and the temporarily captured subject image is displayed, the operation time required for the temporary shooting has elapsed since the operation time for the temporary shooting is unavoidable. Later, the temporarily photographed subject image is displayed. For this reason, if an attempt is made to perform actual shooting after confirming the image quality based on the temporarily captured subject image, the subject may move during that time, the composition may change, and a photo opportunity may be lost. Therefore, even if a subject image having a desired image quality can be photographed, a desired image that has not lost the photo opportunity cannot be captured and recorded.
[0010]
The present invention has been made in view of the above problems, and provides an electronic camera and an imaging control program that can capture and record a subject image having a desired image quality without losing a photo opportunity. It is intended.
[0011]
[Means for Solving the Problems]
[0012]
In order to solve the above-mentioned problem, in the electronic camera according to the invention of claim 1, In an electronic camera having a first photographing means and a second photographing means, setting means for setting photographing conditions for photographing an image for recording a subject image, and photographing conditions set by the setting means First imaging control means for performing repeated imaging operations by the first imaging means under different imaging conditions, and repetition by the second imaging means under the same imaging conditions set by the setting means. A second photographing control unit that performs the photographing operation, a first subject image that is repeatedly photographed by the first photographing control unit using the first photographing unit, and a second photographing control unit. Display control means for simultaneously displaying on the display means a second subject image repeatedly photographed using the second photographing means; .
[0013]
Therefore, the display means includes By the first imaging means A first subject image captured repeatedly; By the second shooting means The second subject image that is repeatedly shot at the same time Is displayed. Here, since the first subject image and the second subject image are photographed under different photographing conditions, the first subject image is displayed without causing a time lag with the actual subject image. The second subject image is shot under shooting conditions that can be When shooting images for recording subject images You can shoot under shooting conditions.
[0014]
The user waits for a photo opportunity while adjusting the composition and angle of view while viewing the first subject image in parallel with the operation of confirming the image quality of the image recorded and stored by the second subject image. Then, a shooting instruction is issued when a subject image having a desired image quality is displayed as the second subject image and a subject image having a desired composition and angle of view is displayed as the first subject image (photo opportunity). . As a result, it is possible to shoot and record a desired image having a desired image quality that does not lose the photo opportunity.
[0020]
Claims 2 In the electronic camera according to the invention of For recording subject images Shooting instruction means for instructing shooting and when shooting is instructed by this shooting instruction means, Third shooting control means for controlling the second shooting means so as to perform shooting for subject image recording according to the shooting conditions set by the setting means; By this third shooting control means Said second photographing means Recording means for recording a subject image photographed using. Therefore, as described above, when a subject image having a desired composition and angle of view is displayed as the first subject image, a desired instruction that does not lose photo opportunity is obtained by giving a shooting instruction. The second subject image having the image quality of 2 is taken and recorded.
[0021]
Claims 3 In the electronic camera according to the invention of Set in the setting means The second photographing control unit includes an adjusting unit that adjusts the photographing condition, and the second photographing control unit adjusts the photographing condition adjusted by the adjusting unit. By The second photographing unit performs a repeated photographing operation, and the third photographing control unit is configured to perform the photographing condition adjusted by the adjusting unit. Controlling the second photographing means so as to perform photographing for subject image recording. . Therefore, the second The subject recording image The image quality can be adjusted and displayed, and after the second subject image having the adjusted image quality is displayed and confirmed by the user, the first subject image is viewed and a shooting instruction is given at the time of the photo opportunity By performing the above, a desired image that has the confirmed image quality and does not lose the photo opportunity is photographed and recorded.
[0022]
Claims 4 In the electronic camera according to the invention of Set by the setting means Shooting conditions are aperture, shutter speed Or at least one of the gains including.
[0023]
Claims 5 In the imaging control program according to the invention of A computer provided in an electronic camera having a first photographing unit and a second photographing unit, a setting unit for setting photographing conditions when photographing an image for recording a subject image, and a photographing set by the setting unit A first photographing control means for performing a repeated photographing operation by the first photographing means under photographing conditions different from the conditions; and the second photographing under the same photographing conditions set by the setting means. A second photographing control means for performing a repeated photographing operation by means, a first subject image repeatedly photographed using the first photographing means by the first photographing control means, and the second photographing. Display control means for causing the display means to simultaneously display a second subject image repeatedly photographed by the control means using the second photographing means; And make it work. Therefore, when the computer executes processing according to this program, the same effects as those of the first aspect of the invention can be obtained.
[0024]
Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
(First embodiment)
FIG. 1 is a block diagram showing a schematic configuration of an electronic camera 1 according to the first embodiment of the present invention. The electronic camera 1 includes a first CCD 2 that is used to display a through image (finder image) for image quality adjustment, which will be described later, and a second CCD 22 that is used to display a normal through image. Stops 6 and 26 are disposed on the front surface. The diaphragms 6 and 26 are driven by a drive signal generated by the diaphragm drive unit 9 based on a control signal from the DSP / CPU 3, and adjust the light quantity of the subject image incident on the CCDs 2 and 22.
[0025]
The DSP / CPU 3 is a one-chip microcomputer that has various digital signal processing functions including image data compression / decompression processing and controls each part of the electronic camera 1. Connected to the DSP / CPU 3 are a TG (Timing Generator) 4 that drives the first CCD 2 and a TG 24 that drives the second CCD 22. These TGs 4 and 24 are connected to unit circuits 5 and 25, respectively, to which analog imaging signals corresponding to the optical images of the subjects output from the CCDs 2 and 22 are input. Each of the unit circuits 5 and 25 includes a CDS that holds an input image signal, a gain adjustment amplifier (AGC) that amplifies the image signal, and an A / D converter (A / D converter) that converts the amplified image signal into a digital image signal. AD), and the output signals of the CCDs 2 and 22 are sent to the DSP / CPU 3 as digital signals through the unit circuits 5 and 25, respectively.
[0026]
The DSP / CPU 3 is connected to a display device 6, a key input unit 7, and a clock unit 8, and is connected to a buffer memory (DRAM) 11, a built-in flash memory 12, and a storage memory 13 via an address / data bus 10. ing. The buffer memory 11 is a buffer for temporarily storing image data of a subject imaged and digitized by both the CCDs 2 and 22, and is also used as a working memory of the DSP / CPU 3. The image data temporarily stored in the buffer memory 11 is compressed (encoded) by the DSP / CPU 3 and is finally recorded in the storage memory 13 as still image data having a predetermined format (JPEG method or the like). The The built-in flash memory 12 stores an operation program for the DSP / CPU 3 and various data used for controlling each unit. The DSP / CPU 3 operates in accordance with the operation program, so that the first, second, third Functions as a photographing control unit, a display control unit, and an adjustment unit.
[0027]
Further, the built-in flash memory 12 captures a through image that indicates a combination of an aperture value (F) corresponding to an exposure value (EV), a shutter speed, and a gain value at the time of through image shooting for an auto shooting mode to be described later. The program AE data constituting the program diagram for the main photographing and the program diagram for the main photographing showing the combination of the aperture value (F) corresponding to the exposure value (EV) at the time of the main photographing, the shutter speed, and the gain value are also included. Stored. Note that the program diagram for through image shooting needs to secure imaging at a predetermined time interval (for example, 30 frames per second), so the upper limit of the charge storage time is the charge storage time in the program graph for main shooting. The upper limit of the gain is set to be higher than the upper limit of the gain in the program diagram for the main photographing. On the other hand, since the program diagram for actual shooting needs to prioritize image quality, the upper limit of the charge accumulation time is set longer than the upper limit of the charge accumulation time in the program diagram for through image shooting. Accordingly, the upper limit of the gain is set lower than the upper limit of the gain in the program diagram for through image shooting. Therefore, when the exposure value (EV) is the same, the charge accumulation time at the time of actual photographing is usually longer than the charge accumulation time at the time of through image photographing. The DSP / CPU 3 performs the charge accumulation time of the first CCD 2 and the aperture according to the program diagram for the main shooting in the auto shooting mode and according to the aperture value and shutter speed manually set by the user in the manual shooting mode. 6 is set, and the gain of the gain adjustment amplifier (AGC) of the unit circuit 5 is set. In addition, the DSP / CPU 3 performs the charge accumulation time of the second CCD 22 in accordance with the program diagram for through image shooting in the auto shooting mode, and in accordance with the aperture value and shutter speed manually set by the user in the manual shooting mode. The opening degree of the diaphragm 26, the gain setting of the gain adjustment amplifier (AGC) of the unit circuit 25, and the like are performed. Further, the charge accumulation time set by the DSP / CPU 3 based on the program diagram for actual photographing or the shutter speed manually set by the user is supplied to the first CCD 2 via the TG 4 as the shutter pulse, and the first CCD 2 operates according to this. As a result, the charge accumulation time, that is, the exposure time is controlled. That is, the first CCD 2 functions as an electronic shutter. Similarly, the charge accumulation time set by the DSP / CPU 3 on the basis of the program diagram for shooting a through image or the shutter speed manually set by the user is supplied as a shutter pulse to the second CCD 22 via the TG 24, and the second CCD 22 is supplied accordingly. By operating, the charge accumulation time, that is, the exposure time is controlled. That is, the second CCD 22 functions as an electronic shutter.
[0028]
The display device 6 includes a color LCD and its driving circuit, displays the subject image captured by the second CCD 22 as a normal through image when in a shooting standby state, and displays the subject image captured by the first CCD 2 in image quality. Displayed as a through image for adjustment. Further, when the recorded image is reproduced, the expanded still image read from the storage memory 13 is displayed. The key input unit 7 includes a plurality of operation keys such as a shutter button, a shooting mode setting key, a shooting condition setting key for setting shooting conditions (exposure conditions) in the manual mode, a playback key, a power key, a MENU key, and a cross key. The key input signal corresponding to the key operation by the user is output to the DSP / CPU 3. The clock unit 8 has a calendar function that counts the date and time and a clock function, and sends date data and time data to the DSP / CPU 3 as necessary during a shooting operation or the like.
[0029]
The CCDs 2 and 22 form subject images via the diaphragms 6 and 26 by the same optical system (not shown). However, the optical system for the CCD 2 and the optical system for the CCD 22 may be provided separately.
[0030]
Next, the operation of the electronic camera 1 having the above configuration will be described. When the power switch is operated to turn on the power and the manual shooting mode is set, the DSP / CPU 3 performs processing according to the procedure shown in the flowchart of FIG. 2 according to the program stored in the built-in flash memory 12. I do. First, simultaneous display processing of a normal through image and a through image for image quality adjustment is executed (step S101).
[0031]
That is, if the aperture value A and the shutter speed B are set for the actual shooting by the operation of the shooting condition setting key by the user, the aperture drive unit 9 drives the apertures 6 and 26 to set the aperture value A respectively. Set. The TG 24 drives the second CCD 22 at a predetermined time interval (for example, 30 frames per second) and a predetermined charge accumulation time for displaying a normal through image, and the unit circuit 25 has a predetermined charge accumulation time (shutter). In order to compensate for the difference between the (speed) and the shutter speed B, the image pickup signal sent from the second CCD 22 is amplified at a predetermined time interval with a gain corresponding to the shutter speed B, and converted into a digital image pickup signal. / Send to CPU3. The DSP / CPU 3 supplies the sent digital image pickup signal to the display device 6, and the display device 6 is based on the image pickup signal, and the normal image is displayed on almost the entire screen of the display device 6 as shown in FIG. A through image P2 (second subject image) is displayed.
[0032]
Therefore, the normal through image P2 is a through image that virtually matches the shooting conditions set in the manual shooting mode, and is a through image that smoothly changes at a predetermined time interval.
[0033]
The TG 4 drives the first CCD 2 with a time interval corresponding to the shutter speed B (for example, one frame per second) and a charge accumulation time, and the unit circuit 5 has a predetermined gain and a time interval corresponding to the shutter speed B. The image pickup signal sent from the first CCD 2 is amplified and converted into a digital image pickup signal, which is sent to the DSP / CPU 3. The DSP / CPU 3 supplies the sent digital image pickup signal to the display device 6, and the display device 6 adjusts the image quality to a part of the screen of the display device 6 based on the image pickup signal as shown in FIG. Through image P1 (first subject image) is displayed.
Therefore, the through image P1 for image quality adjustment is an image having the same quality as that of an image that is captured in accordance with the shutter operation and stored in the storage memory 13. Therefore, by visually recognizing the through image P1 for image quality adjustment, it is possible to know in advance what image quality is captured and stored in the storage memory 13 in accordance with the shutter operation.
[0034]
Next, it is determined whether or not an image quality adjustment operation has been performed (step S102). In order to change the image quality of the image recorded by the user who has viewed the through image P1, the aperture value A or the When the shutter speed B is changed, the determination in step S102 is YES. Accordingly, the process proceeds to step S103, where image processing parameters (including aperture value A or shutter speed B) are changed and set according to the operation of the shooting condition setting key (step S103), and the process of step S101 is executed again. Therefore, by visually recognizing the through image P1 for image quality adjustment displayed by the processing of step S101 as described above, it is instantaneously confirmed what image quality the image having the current image processing parameter changed has. be able to.
[0035]
If there is no image quality adjustment operation (step S102: NO), the processing from step S101 is repeated until the shutter button is operated (step S104: YES). Accordingly, the user waits for a photo opportunity while recognizing the image quality adjustment through image P1 displayed during this time and recognizing what image quality is stored in the storage memory 13 in accordance with the shutter operation. be able to.
[0036]
However, since the through image P1 for image quality adjustment is a subject image that changes at a time interval (for example, one frame per second) corresponding to the shutter speed B as described above, it is slightly between the actual subject image. There is a time lag. Therefore, when the user visually recognizes only the through image P1 for image quality adjustment and determines the presence or absence of a photo opportunity, the photo opportunity may be lost.
[0037]
On the other hand, the normal through image P2 is a subject image that changes frequently and smoothly, and the time lag between the actual subject image and the normal through image P2 is negligible. Accordingly, the user adjusts the composition and the angle of view while viewing the normal through image P2 in parallel with the operation of confirming the image quality of the image stored in the storage memory 13 by the through image P1 for adjusting the image quality. Wait for a chance. A shutter button is displayed when a subject image having a desired image quality is displayed as a through image P1 for image quality adjustment and a subject image having a desired composition and angle of view is displayed as a normal through image P2. To operate.
[0038]
Then, the process proceeds from step S104 to step S105, and the photographing process is executed with the currently set process parameters. That is, as described above, if the aperture value A and the shutter speed B are set, the image data from the first CCD 2 exposed at the aperture value A and the shutter speed B is processed by the unit circuit 5. The image data thus stored is temporarily stored in the buffer memory 11. Further, a recording process is performed, and the image data temporarily stored in the buffer memory 11 is recorded in the storage memory 13 as still image data having a predetermined format (step S106).
[0039]
The still image data stored in the storage memory 13 has the same image quality as the image confirmed immediately before shooting by the through image P1 for image quality adjustment by the user. The image data is not stored in the storage memory 13. Moreover, since the stored still image is taken when the user visually recognizes the through image P2 and the desired subject image is displayed, the desired still image taken by operating the shutter button at the time of the photo opportunity is displayed. It is an image. Therefore, it is possible to shoot and record a desired image having a desired image quality that has not lost the photo opportunity.
[0040]
(Modification 1 of the first embodiment)
In the flowchart of FIG. 2, the case where the manual shooting mode is set has been described. However, when the auto shooting mode is set, the aperture value and shutter speed determined by AE (Auto Exposure) are set. Based on this, similar processing may be performed. That is, in normal AE, while displaying a through image, the aperture value a, shutter speed b, and gain c of the through image to be captured this time are determined based on the brightness of the previously captured through image and the above-described program diagram for photographing the through image. Are repeatedly executed until the shutter operation is performed, and at the time of actual photographing, the aperture value A and the shutter speed B are determined based on the brightness of the through image immediately before the shutter operation is performed and the above-described program diagram for actual photographing. And the gain C are determined, and the actual photographing is executed.
[0041]
In the first modification of the present embodiment, while the through image is being displayed, the aperture value A and the shutter speed of the through image to be captured this time based on the brightness of the through image previously captured from the first CCD 2 and the above-described program diagram for main shooting. In parallel with repeatedly executing the operation of determining B and gain C until a shutter operation is performed, the current capture is performed based on the brightness of the through image previously captured from the second CCD 22 and the above-described program diagram for through image capturing. Operations such as determining the aperture value a, the shutter speed b, and the gain c of the through image are repeated until a shutter operation is performed. The aperture driver 9 drives the apertures 6 and 26 to set the aperture value A and the aperture value a that are repeatedly determined.
[0042]
The TG 24 drives the second CCD 22 at a predetermined time interval (for example, 30 frames per second) for displaying a normal through image and the charge accumulation time b repeatedly determined, and the unit circuit 25 is repeatedly determined. With the gain c, the imaging signal sent from the second CCD 22 at the predetermined time interval is amplified, converted into a digital imaging signal, and sent to the DSP / CPU 3. The DSP / CPU 3 supplies the sent digital image pickup signal to the display device 6, and the display device 6 is based on the image pickup signal, and the normal image is displayed on almost the entire screen of the display device 6 as shown in FIG. The through image P2 is displayed (step S101). Therefore, this normal through image P2 is a through image that is AE-controlled and changes smoothly at a predetermined time interval.
[0043]
The TG 4 drives the first CCD 2 at a time interval (for example, one frame per second) corresponding to the shutter speed B repeatedly determined by the AE and the charge accumulation time B, and the unit circuit 5 has a gain C determined repeatedly. The imaging signal sent from the first CCD 2 at a time interval corresponding to the shutter speed B is amplified, converted into a digital imaging signal, and sent to the DSP / CPU 3. The DSP / CPU 3 supplies the sent digital image pickup signal to the display device 6, and the display device 6 adjusts the image quality to a part of the screen of the display device 6 based on the image pickup signal as shown in FIG. A live view image P1 is displayed (step S101).
[0044]
Therefore, the through image P1 for image quality adjustment is an AE-controlled through image and an image having the same quality as the image stored in the storage memory 13 in accordance with the shutter operation. Therefore, by visually recognizing the through image P1 for image quality adjustment, it is possible to know in advance what image quality is stored in the storage memory 13 in accordance with the shutter operation.
[0045]
If the auto shooting mode is set, the process in step S101 is repeated until the shutter button is operated (step S104: YES) without performing the determination in step S102 and the process in step S103. Accordingly, the user waits for a photo opportunity while recognizing the image quality adjustment through image P1 displayed during this time and recognizing what image quality is stored in the storage memory 13 in accordance with the shutter operation. be able to.
[0046]
However, since the through image P1 for image quality adjustment is a subject image that changes at a time interval (for example, one frame per second) corresponding to the shutter speed B as described above, it is slightly between the actual subject image. There is a time lag. Therefore, when the user visually recognizes only the through image P1 for image quality adjustment and determines the presence or absence of a photo opportunity, the photo opportunity may be lost.
[0047]
On the other hand, the normal through image P2 is a subject image that changes frequently and smoothly, and the time lag between the actual subject image and the normal through image P2 is negligible. Accordingly, the user adjusts the composition and the angle of view while viewing the normal through image P2 in parallel with the operation of confirming the image quality of the image stored in the storage memory 13 by the through image P1 for adjusting the image quality. Wait for a chance. A shutter button is displayed when a subject image having a desired image quality is displayed as a through image P1 for image quality adjustment and a subject image having a desired composition and angle of view is displayed as a normal through image P2. To operate.
[0048]
Then, the process proceeds from step S104 to step S105. In this step S105, unlike the above-described embodiment, the brightness of the through image captured from the second CCD 22 immediately before the shutter operation is performed and the above-described program for main photographing. An aperture value A, a shutter speed B, and a gain C are determined based on a diagram or the like, and the main photographing process is executed. That is, the image data from the first CCD 2 exposed at the aperture value A and the shutter speed B and amplified by the unit circuit 5 with the gain C is temporarily stored in the buffer memory 11. Further, a recording process is performed, and the image data temporarily stored in the buffer memory 11 is recorded in the storage memory 13 as still image data having a predetermined format (step S106).
[0049]
The still image data stored in the storage memory 13 has the same image quality as the image confirmed immediately before shooting by the through image P1 for image quality adjustment by the user. The image data is not stored in the storage memory 13. Moreover, since the stored still image is taken when the user visually recognizes the through image P2 and the desired subject image is displayed, the desired still image taken by operating the shutter button at the time of the photo opportunity is displayed. It is an image. Therefore, it is possible to shoot and record a desired image having a desired image quality that has not lost the photo opportunity.
[0050]
As described above, in this modification, the determination in step S104 is performed without performing the determination in step S102 and the process in step S103. However, in step S103, the adjustment to the target parameter value in the auto shooting mode is performed. It may be determined whether or not an operation has been performed, and if an adjustment operation has been performed, the process of step S103 may be performed.
[0051]
(Modification 2 of the first embodiment)
The normal through image P2 may be a through image having appropriate brightness by AE, and the through image P1 for image quality adjustment may be a through image based on manually set shooting conditions. That is, it is assumed that the manual shooting mode is set in the shooting mode, and the aperture value A and the shutter speed B are set by the operation of the shooting condition setting key by the user. At this time, the normal through image P2 is based on the brightness of the through image previously captured from the second CCD 22 and the above-described program diagram for through image shooting, as in the first modification of the first embodiment. Operations such as determining the aperture value a, shutter speed b, and gain c of the through image to be captured this time are repeatedly executed.
[0052]
The aperture driving unit 9 drives the aperture 26, and the aperture value a based on AE is repeatedly set for the aperture 26, and the aperture value A based on manual setting is set for the aperture 6. The TG 24 drives the second CCD 22 at a predetermined time interval (for example, 30 frames per second) for displaying a normal through image and the charge accumulation time b repeatedly determined, and the unit circuit 25 is repeatedly determined. With the gain c, the imaging signal sent from the second CCD 22 at the predetermined time interval is amplified, converted into a digital imaging signal, and sent to the DSP / CPU 3. The DSP / CPU 3 supplies the sent digital image pickup signal to the display device 6, and the display device 6 is based on the image pickup signal, and the normal image is displayed on almost the entire screen of the display device 6 as shown in FIG. A through image P2 (second subject image) is displayed (step S101). Therefore, this normal through image P2 is a through image whose brightness is appropriate by AE, and which changes smoothly at a predetermined time interval.
[0053]
On the other hand, the TG 4 drives the first CCD 2 at a time interval corresponding to the shutter speed B (for example, one frame per second) and the charge accumulation time B, and the unit circuit 5 is a time corresponding to the shutter speed B with a predetermined gain. The imaging signal sent from the first CCD 2 at an interval is amplified and converted into a digital imaging signal and sent to the DSP / CPU 3. The DSP / CPU 3 supplies the sent digital image pickup signal to the display device 6, and the display device 6 adjusts the image quality to a part of the screen of the display device 6 based on the image pickup signal as shown in FIG. A live view image P1 is displayed (step S101).
[0054]
Therefore, the through image P1 for image quality adjustment is an image having the same image quality as the image stored in the storage memory 13 in accordance with the shutter operation. Therefore, by visually recognizing the through image P1 for image quality adjustment, it is possible to know in advance what image quality is stored in the storage memory 13 in accordance with the shutter operation.
[0055]
Next, it is determined whether or not an image quality adjustment operation has been performed (step S102). In order to change the image quality of the image recorded by the user who has viewed the through image P1, the aperture value A or the When the shutter speed B is changed, the determination in step S102 is YES. Accordingly, the process proceeds to step S103, the image processing parameter is changed and set according to the operation of the shooting condition setting key (step S103), and the process of step S101 is executed again. That is, in this case, only the through image P1 for image quality adjustment is changed according to the changed shooting condition. Therefore, by visually recognizing the through image P1 for image quality adjustment displayed by the processing of step S101 as described above, it is instantaneously confirmed what image quality the image having the current image processing parameter changed has. be able to.
[0056]
If there is no image quality adjustment operation (step S102: NO), the processing from step S101 is repeated until the shutter button is operated (step S104: YES). Accordingly, the user waits for a photo opportunity while recognizing the image quality adjustment through image P1 displayed during this time and recognizing what image quality is stored in the storage memory 13 in accordance with the shutter operation. be able to.
[0057]
However, since the through image P1 for image quality adjustment is a subject image that changes at a time interval (for example, one frame per second) corresponding to the shutter speed B as described above, it is slightly between the actual subject image. There is a time lag. In addition, when the user desires to record a dark image, it is difficult to identify the composition even when viewing the through image P1 for image quality adjustment. Therefore, when the user visually recognizes the through image P1 for image quality adjustment and determines the presence or absence of a photo opportunity, the photo opportunity may be lost.
[0058]
On the other hand, the normal through image P2 is a subject image that changes frequently and smoothly, and is displayed with the optimum brightness by AE. Accordingly, the user adjusts the composition and the angle of view while viewing the normal through image P2 in parallel with the operation of confirming the image quality of the image stored in the storage memory 13 by the through image P1 for adjusting the image quality. Wait for a chance. A shutter button is displayed when a subject image having a desired image quality is displayed as a through image P1 for image quality adjustment and a subject image having a desired composition and angle of view is displayed as a normal through image P2. To operate.
[0059]
Then, the process proceeds from step S104 to step S105, and the photographing process is executed with the currently set process parameters. That is, as described above, if the aperture value A and the shutter speed B are set, the image data from the first CCD 2 exposed at the aperture value A and the shutter speed B is processed by the unit circuit 5. The image data thus stored is temporarily stored in the buffer memory 11. Further, a recording process is performed, and the image data temporarily stored in the buffer memory 11 is recorded in the storage memory 13 as still image data having a predetermined format (step S106).
[0060]
The still image data stored in the storage memory 13 has the same image quality as the image confirmed immediately before shooting by the through image P1 for image quality adjustment by the user. The image data is not stored in the storage memory 13. Moreover, since the stored still image is taken when the user visually recognizes the through image P2 and the desired subject image is displayed, the desired still image taken by operating the shutter button at the time of the photo opportunity is displayed. It is an image. Therefore, it is possible to shoot and record a desired image having a desired image quality that has not lost the photo opportunity.
[0061]
(Modification 3 of the first embodiment)
The normal through image P2 may be a through image having appropriate brightness by AE, and the through image P1 for image quality adjustment may be a through image that virtually matches a manually set shooting condition. That is, it is assumed that the manual shooting mode is set in the shooting mode, and the aperture value A and the shutter speed B are set by the operation of the shooting condition setting key by the user. At this time, for the normal through image P2, as in the first and second modifications of the first embodiment, the brightness of the through image previously captured from the second CCD 22, the program diagram for the through image shooting described above, and the like. The operation of determining the aperture value a, the shutter speed b, and the gain c of the through image to be captured this time based on the above is repeatedly executed. For the through image P1 for image quality adjustment, the same aperture value a and shutter speed b as in the normal through image P2 are set, and the difference between the manually set aperture value A and aperture value b, and It is assumed that the gain C for compensating for the difference between the manually set shutter speed B and the shutter speed b is repeatedly determined and set.
[0062]
The aperture drive unit 9 drives the apertures 6 and 26 and repeatedly sets an aperture value a based on AE for the apertures 6 and 26. The TG 24 drives the second CCD 22 at a predetermined time interval (for example, 30 frames per second) and a charge accumulation time b for displaying a normal through image, and the unit circuit 25 has a gain c that is repeatedly determined. The imaging signal sent from the second CCD 22 at the predetermined time interval is amplified and converted into a digital imaging signal, which is sent to the DSP / CPU 3. The DSP / CPU 3 supplies the sent digital image pickup signal to the display device 6, and the display device 6 is based on the image pickup signal, and the normal image is displayed on almost the entire screen of the display device 6 as shown in FIG. A through image P2 (second subject image) is displayed. Therefore, this normal through image P2 is a through image whose brightness is appropriate by AE, and which changes smoothly at a predetermined time interval.
[0063]
The TG 4 also drives the first CCD 2 at a predetermined time interval (for example, 30 frames per second) and a charge accumulation time b for displaying a normal through image, and the unit circuit 5 includes an aperture value b and an aperture value A. And the gain C that is repeatedly determined to compensate for the difference between the charge accumulation time b (shutter speed b) and the shutter speed B, amplifies the imaging signal sent from the first CCD 2 at the predetermined time interval. It is converted into a digital image signal and sent to the DSP / CPU 3. The DSP / CPU 3 supplies the sent digital image pickup signal to the display device 6, and the display device 6 adjusts the image quality to a part of the screen of the display device 6 based on the image pickup signal as shown in FIG. A live view image P1 is displayed. Therefore, the through image P1 for image quality adjustment is a through image that virtually matches a manually set photographing condition and is a through image that smoothly changes at a predetermined time interval. Therefore, by visually recognizing the through image P1 for image quality adjustment, it is possible to know in advance what brightness (image quality) image is stored in the storage memory 13 in accordance with the shutter operation.
[0064]
However, the through image P1 for image quality adjustment is based on the image signal converted by amplifying the image signal sent from the first CCD 2 at the predetermined time interval with the gain C. Accordingly, when the user sets a high shutter speed B even though the shooting environment is dark, the through image P1 for image quality adjustment is displayed darkly, and the through image P1 for image quality adjustment is viewed. However, it is difficult to identify the composition. Therefore, when the user visually recognizes the through image P1 for image quality adjustment and determines the presence or absence of a photo opportunity, the photo opportunity may be lost.
[0065]
On the other hand, the normal through image P2 is a subject image that changes frequently and smoothly, and is displayed with the optimum brightness by AE. Therefore, the user adjusts the composition and the angle of view while viewing the normal through image P2 in parallel with the operation of confirming the brightness of the image stored in the storage memory 13 by the through image P1 for image quality adjustment. Wait for a photo opportunity. When the subject image having the brightness desired by the user is displayed as the through image P1 for image quality adjustment, and the subject image having the desired composition and angle of view is displayed as the normal through image P2, the shutter is released. Operate the button.
[0066]
Then, the process proceeds from step S104 to step S105, and the photographing process is executed with the currently set process parameters. That is, as described above, assuming that the aperture value A and the shutter speed B are set, the image data from the first CCD 2 exposed at the aperture value A and the shutter speed B, which is predetermined by the unit circuit 5. Is temporarily stored in the buffer memory 11. Further, a recording process is performed, and the image data temporarily stored in the buffer memory 11 is recorded in the storage memory 13 as still image data having a predetermined format (step S106).
[0067]
The still image data stored in the storage memory 13 has the same brightness as the image that the user has confirmed immediately before shooting with the through image P1 for image quality adjustment. The image data is not stored in the storage memory 13. Moreover, since the stored still image is taken when the user visually recognizes the through image P2 and the desired subject image is displayed, the desired still image taken by operating the shutter button at the time of the photo opportunity is displayed. It is an image. Therefore, it is possible to shoot and record a desired image that does not lose the photo opportunity and has a desired brightness.
[0068]
In the third modification, the difference between the through image P1 for adjusting the image quality and the normal through image P2 is based on the image signal amplified by the gain c determined by AE, or a manually set aperture. It is based on the image signal amplified with the gain C corresponding to the value A and the shutter speed B, that is, only the gain is different. Therefore, it is not necessary to provide the two CCDs 2 and 22; it is sufficient to provide a single CCD and amplify signals from the CCDs with different amplification factors, and the number of required CCDs can be reduced. .
[0069]
In the present embodiment, the normal through image P2 is displayed on the entire screen of the display device 6 and the through image P1 for image adjustment is displayed on a part of the screen. The through image P1 for image adjustment and the normal through image P2 may be displayed in any display form, such as a display form opposite to the form, or evenly displaying both on the left and right or top and bottom of the screen.
In the present embodiment, the case where the through image P1 for image adjustment is generated by repeating shooting with the same aperture value, shutter speed, and gain as in the actual shooting has been described. ) To generate a through image P1 for image adjustment by repeating shooting in the same white balance processing, gamma processing, and color correction processing, and the normal through image P2 is white balance processing, gamma processing, and color correction suitable for display. You may make it produce | generate by repeating imaging | photography by a process. In this case, if the photographing processing (image processing) such as white balance processing, gamma processing, and color correction processing is configured so that parallel processing can be performed for the through image P1 for image adjustment and the normal through image P2, the deformation Similar to Example 3, it can be realized with a single CCD.
[0070]
(Second Embodiment)
FIG. 4 is a block diagram showing a schematic configuration of the electronic camera 21 according to the second embodiment of the present invention. This electronic camera 21 differs from the electronic camera 1 according to the first embodiment in that it has a single aperture 36, CCD 32, unit circuit 35, and TG 34, and the other configuration is the same because it is the same. The same reference numerals are given to the parts and the description is omitted.
[0071]
Next, the operation of the electronic camera having the above configuration will be described. When the power switch is operated to turn on the power and the auto shooting mode is set, the DSP / CPU 3 performs processing according to the procedure shown in the flowchart of FIG. 5 according to the program stored in the built-in flash memory 12. I do. First, it is determined whether or not a through image display mode for image quality adjustment has been selected by an operation on the key input unit 7 (step S201). If the through image display mode for image quality adjustment is not selected and the normal through image display mode is selected, normal through image processing is executed (step S202).
[0072]
That is, in the normal through image processing as described above, during the through image display, the aperture value a and the shutter value of the through image to be captured this time based on the brightness of the previously captured through image and the program diagram for the through image shooting described above. The operation of determining the speed b and the gain c is repeatedly executed until the shutter operation is performed, and at the time of actual photographing, based on the brightness of the through image immediately before the shutter operation is performed and the above-described program diagram for the main photographing. Aperture value A, shutter speed B, and gain C are determined, and actual photographing is executed. The aperture driver 9 drives the aperture 36 to repeatedly set the aperture value a. The TG 34 drives the CCD 32 at a predetermined time interval (for example, 30 frames per second) and the charge accumulation time b, and the unit circuit 35 is sent from the CCD 32 at the predetermined time interval with a gain c determined repeatedly. The incoming image signal is amplified and converted into a digital image signal, which is sent to the DSP / CPU 3. The DSP / CPU 3 supplies the sent digital imaging signal to the display device 6, and the display device 6 displays a normal through image P <b> 2 on the entire screen of the display device 6 based on the imaging signal. Therefore, this normal through image P2 is a through image that virtually matches the shooting conditions set at the time of actual shooting, and is a through image that smoothly changes at predetermined time intervals.
[0073]
On the other hand, if the result of determination in step S201 is that a through image display mode for image quality adjustment has been selected, a through image display process for image quality adjustment is executed (step S203). That is, in the through image display process for image quality adjustment, during the through image display, the aperture value A and the shutter speed B of the through image to be captured this time based on the brightness of the previously captured through image and the above-described program diagram for main shooting. And the gain C are repeatedly executed until the shutter operation is performed. Similarly, during the actual shooting, based on the brightness of the through image immediately before the shutter operation is performed and the above-described program diagram for the main shooting. Aperture value A, shutter speed B, and gain C are determined, and actual photographing is executed. The aperture driver 9 drives the aperture 36 to repeatedly set the aperture value A. The TG 34 drives the CCD 32 at a time interval (for example, one frame per second) corresponding to the shutter speed B set in the AE, and the unit circuit 35 sets the shutter speed B to the shutter speed B with a gain C that is repeatedly determined. The image pickup signal sent from the CCD 32 at a corresponding time interval is amplified and converted into a digital image pickup signal, which is sent to the DSP / CPU 3. The DSP / CPU 3 supplies the sent digital imaging signal to the display device 6, and the display device 6 displays the through image P <b> 1 for image quality adjustment on the entire screen of the display device 6 based on the imaging signal.
[0074]
Therefore, the through image P1 for image quality adjustment is an image having the same image quality as the image stored in the storage memory 13 in accordance with the shutter operation. Therefore, by visually recognizing the through image P1 for image quality adjustment, it is possible to know in advance what image quality is stored in the storage memory 13 in accordance with the shutter operation.
[0075]
Then, while the through image display mode for image quality adjustment is selected, the process of step S203 is repeated until the shutter button is operated (step S204: YES). Accordingly, the user waits for a photo opportunity while recognizing the image quality adjustment through image P1 displayed during this time and recognizing what image quality is stored in the storage memory 13 in accordance with the shutter operation. be able to.
[0076]
However, since the through image P1 for image quality adjustment is a subject image that changes at a time interval (for example, one frame per second) corresponding to the shutter speed B as described above, it is slightly between the actual subject image. There is a time lag. Therefore, when the user visually recognizes the through image P1 for image quality adjustment and determines the presence or absence of a photo opportunity, the photo opportunity may be lost.
[0077]
On the other hand, the normal through image P2 is a subject image that changes frequently and smoothly, and the time lag between the actual subject image and the normal through image P2 is negligible. Accordingly, when shooting with priority on image quality confirmation, the user selects the through image display mode for image quality adjustment to display the through image P1 for image quality adjustment and performs shooting with priority on composition (shutter chance) confirmation. In this case, by selecting a normal through image display mode and displaying a normal through image P2, it is possible to perform a through image display according to the priority imaging mode.
[0078]
If the image quality of the image stored in the storage memory 13 is confirmed by the through image P1 for image quality adjustment, the normal through image P2 is displayed by the switching operation at the key input unit 7, and the normal through image P2 is displayed. It is also possible to wait for a photo opportunity by adjusting the composition and angle of view while viewing the image.
[0079]
Then, when the shutter button is operated while any one of the through images P1 and P2 is displayed, the process proceeds from step S204 to step S205, and the photographing process is executed with the currently set processing parameters. That is, as described above, when the aperture value A, the shutter speed B, and the gain C for the main photographing are determined based on the brightness of the through image immediately before the shutter operation is performed and the above-described program diagram for the main photographing, etc. The image data from the CCD 32 exposed at the aperture value A and the shutter speed B, which is amplified by the unit circuit 35 with the gain C, is temporarily stored in the buffer memory 11. Further, a recording process is performed, and the image data temporarily stored in the buffer memory 11 is recorded in the storage memory 13 as still image data having a predetermined format (step S206).
[0080]
In the still image data stored in the storage memory 13, when shooting is performed by selecting a through image display mode for image quality adjustment, an image confirmed by the user immediately before shooting using the through image P1 for image quality adjustment. Therefore, the storage memory 13 does not store image data having an image quality unexpected by the user. In addition, since the stored still image can be taken when the user visually recognizes at least one of the through images P1 and P2 and a desired subject image is displayed, the shutter button is operated during a photo opportunity. It is the desired image image | photographed by this. Therefore, it is possible to shoot and record a desired image having a desired image quality that has not lost the photo opportunity.
[0081]
(Modification 1 of the second embodiment)
In the present embodiment, the case where the auto shooting mode is set has been described. However, in the case where the manual shooting mode is set, the same operation is performed based on the aperture value and the shutter speed set by the user. What is necessary is just to process. That is, if the manual shooting mode is set in the shooting mode, and the aperture value A and the shutter speed B are set by the user in the manual shooting mode, the aperture drive unit 9 drives the aperture 36 to stop the aperture value. Set A.
[0082]
If the normal through image display mode is selected as a result of the determination in step S201, the TG 34 drives the CCD 32 at a predetermined time interval (for example, 30 frames per second) and a predetermined charge accumulation time. The unit circuit 35 receives the imaging signal sent from the CCD 32 at the predetermined time interval with a gain corresponding to the shutter speed B in order to compensate for the difference between the predetermined charge accumulation time (shutter speed) and the shutter speed B. Amplified and converted into a digital image signal and sent to the DSP / CPU 3. The DSP / CPU 3 supplies the sent digital imaging signal to the display device 6, and the display device 6 displays the normal through image P2 on the entire screen of the display device 6 based on the imaging signal (step S202). ). Therefore, the normal through image P2 displayed in the process of step S202 is a through image that virtually matches the shooting conditions set in the manual shooting mode, and changes smoothly at a predetermined time interval. It becomes an image. On the other hand, when the through image display mode for image quality adjustment is selected as a result of the determination in step S201, the TG 34 sets a time interval corresponding to the shutter speed B set by the user (for example, one frame per second). ) And the charge accumulation time B, and the unit circuit 35 amplifies the image signal sent from the CCD 32 at a time interval corresponding to the shutter speed B with a predetermined gain and converts it into a digital image signal. To the DSP / CPU 3. The DSP / CPU 3 supplies the sent digital imaging signal to the display device 6, and the display device 6 displays the through image P1 for image quality adjustment on the entire screen of the display device 6 based on the imaging signal ( Step S203).
[0083]
Therefore, the through image P1 for image quality adjustment is an image having the same image quality as the image stored in the storage memory 13 in accordance with the shutter operation. Therefore, by visually recognizing the through image P1 for image quality adjustment, it is possible to know in advance what image quality is stored in the storage memory 13 in accordance with the shutter operation.
[0084]
Then, while the through image display mode for image quality adjustment is selected, the process of step S203 is repeated until the shutter button is operated (step S204: YES). Accordingly, the user waits for a photo opportunity while recognizing the image quality adjustment through image P1 displayed during this time and recognizing what image quality is stored in the storage memory 13 in accordance with the shutter operation. be able to.
[0085]
However, since the through image P1 for image quality adjustment is a subject image that changes at a time interval (for example, one frame per second) corresponding to the shutter speed B as described above, it is slightly between the actual subject image. There is a time lag. Therefore, when the user visually recognizes the through image P1 for image quality adjustment and determines the presence or absence of a photo opportunity, the photo opportunity may be lost.
[0086]
On the other hand, the normal through image P2 is a subject image that changes frequently and smoothly, and the time lag between the actual subject image and the normal through image P2 is negligible. Therefore, the user displays the through image P1 for image quality adjustment when shooting with priority on image quality confirmation, and displays the normal through image P2 when shooting with priority on composition (shutter chance) confirmation. , It is possible to perform display according to the priority imaging mode.
[0087]
If the image quality of the image stored in the storage memory 13 is confirmed by the through image P1 for image quality adjustment, the normal through image P2 is displayed by the switching operation at the key input unit 7, and the normal through image P2 is displayed. It is also possible to wait for a photo opportunity by adjusting the composition and angle of view while viewing the image.
[0088]
When the shutter button is operated, the process proceeds from step S204 to step S205, and the photographing process is executed with the currently set process parameters. That is, as described above, if the aperture value A and the shutter speed B are set manually, the image data from the CCD 32 exposed at the aperture value A and the shutter speed B is obtained by the unit circuit 35. The processed image data is temporarily stored in the buffer memory 11. Further, a recording process is performed, and the image data temporarily stored in the buffer memory 11 is recorded in the storage memory 13 as still image data having a predetermined format (step S206).
[0089]
The still image data stored in the storage memory 13 has the same image quality as the image confirmed immediately before shooting by the through image P1 for image quality adjustment by the user. The image data is not stored in the storage memory 13. Moreover, since the stored still image is taken when the user visually recognizes at least one of the through images P1 and P2 and a desired subject image is displayed, the user can operate the shutter button at the time of a photo opportunity. It is a desired image taken. Therefore, it is possible to shoot and record a desired image having a desired image quality that has not lost the photo opportunity.
[0090]
(Modification 2 of the second embodiment)
Further, the normal through image P2 can be a through image having appropriate brightness by AE, and the through image P1 for image quality adjustment can be a through image having brightness based on a manually set photographing condition. That is, it is assumed that the manual shooting mode is set in the shooting mode, and the aperture value A and the shutter speed B are set by the operation of the shooting condition setting key by the user. At this time, if the normal through image display mode (through image P2) is selected, the through image to be captured this time is based on the brightness of the through image previously captured from the CCD 32 and the above-described program diagram for through image shooting. Operations such as determining the aperture value a, shutter speed b, and gain c are repeatedly executed. When the through image display mode for adjusting image quality (through image P1) is selected, manually set aperture value A, shutter speed B, and predetermined gain are set.
That is, when the determination in step S201 is NO, the aperture driving unit 9 drives the aperture 36, and sets the aperture value a based on AE for the aperture 36. Further, the TG 34 drives the CCD 32 at a predetermined time interval (for example, 30 frames per second) and a charge accumulation time b for displaying a normal through image, and the unit circuit 35 has the gain c that is repeatedly determined, The image pickup signal sent from the CCD 32 at a predetermined time interval is amplified and converted into a digital image pickup signal, which is sent to the DSP / CPU 3. The DSP / CPU 3 supplies the sent digital image pickup signal to the display device 6, and the display device 6 displays a normal through image P2 on the entire screen based on the image pickup signal. Therefore, this normal through image P2 is a through image whose brightness is appropriate by AE, and which changes smoothly at a predetermined time interval.
[0091]
On the other hand, if the determination in step S201 is YES, the aperture drive unit 9 drives the aperture 36, and sets the aperture value A that is manually set in the aperture 36. The TG 34 drives the CCD 32 at a time interval (for example, one frame per second) corresponding to the shutter speed B and the charge accumulation time B, and the unit circuit 35 is a time interval corresponding to the shutter speed B with a predetermined gain. The image pickup signal sent from the CCD 32 is amplified and converted into a digital image pickup signal, which is sent to the DSP / CPU 3. The DSP / CPU 3 supplies the sent digital imaging signal to the display device 6, and the display device 6 displays the through image P1 for image quality adjustment on the entire screen of the display device 6 based on the imaging signal ( Step S203)
[0092]
Therefore, the through image P1 for image quality adjustment is an image having the same image quality as the image stored in the storage memory 13 in accordance with the shutter operation. Therefore, by visually recognizing the through image P1 for image quality adjustment, it is possible to know in advance what image quality is stored in the storage memory 13 in accordance with the shutter operation.
[0093]
However, the through image P1 for image quality adjustment is a subject image that changes at a time interval (for example, one frame per second) corresponding to the manually set shutter speed B as described above. There is a slight time lag between them. In addition, when the user desires to record a dark image, it is difficult to identify the composition even when viewing the through image P1 for image quality adjustment. Therefore, when the user visually recognizes the through image P1 for image quality adjustment and determines the presence or absence of a photo opportunity, the photo opportunity may be lost.
[0094]
On the other hand, the normal through image P2 is a subject image that changes frequently and smoothly, and is displayed with optimum brightness by AE. Therefore, the user displays the through image P1 for image quality adjustment when shooting with priority on image quality confirmation, and displays the normal through image P2 when shooting with priority on composition (shutter chance) confirmation. , It is possible to perform display according to the priority imaging mode.
[0095]
Alternatively, when the user confirms the image quality of the image stored in the storage memory 13 with the through image P1 for image quality adjustment, the normal through image P2 is displayed by the switching operation at the key input unit 7, and this normal through image is displayed. While viewing the image P2, the composition and angle of view may be adjusted to wait for a photo opportunity.
[0096]
Then, the shutter button is operated when the subject image of the image quality desired by the user is displayed as the through image P1 for image quality adjustment, or when the subject image having a desired composition and angle of view is displayed as the normal through image P2. To do. Then, the process proceeds from step S204 to step S205, and the photographing process is executed with the currently set process parameters. That is, as described above, if the aperture value A and the shutter speed B are set manually, the image data from the CCD 32 exposed at the aperture value A and the shutter speed B is obtained by the unit circuit 35. The processed image data is temporarily stored in the buffer memory 11. Further, a recording process is performed, and the image data temporarily stored in the buffer memory 11 is recorded in the storage memory 13 as still image data having a predetermined format (step S206).
[0097]
The still image data stored in the storage memory 13 has the same image quality as the image confirmed immediately before shooting by the through image P1 for image quality adjustment by the user. The image data is not stored in the storage memory 13. Moreover, since the stored still image is taken when the user visually recognizes at least one of the through images P1 and P2 and a desired subject image is displayed, the user can operate the shutter button at the time of a photo opportunity. It is a desired image taken. Therefore, it is possible to shoot and record a desired image having a desired image quality that has not lost the photo opportunity.
[0098]
(Modification 3 of the second embodiment)
The normal through image P2 may be a through image having appropriate brightness by AE, and the through image P1 for image quality adjustment may be a through image that virtually matches a manually set shooting condition. That is, it is assumed that the manual shooting mode is set in the shooting mode, and the aperture value A and the shutter speed B are set by the operation of the shooting condition setting key by the user. At this time, if the normal through image display mode (through image P2) is selected, the through image to be captured this time is determined based on the brightness of the through image previously captured from the CCD 32 and the above-described program diagram for photographing the through image. Operations such as determining the aperture value a, shutter speed b, and gain c are repeatedly executed. When the through image display mode for adjusting image quality (through image P1) is selected, a manually set aperture value A and a predetermined shutter speed are set, and a manually set shutter speed B is set. And a gain C for compensating for the difference between the predetermined shutter speed and the predetermined shutter speed. That is, when the determination in step S201 is NO, the aperture driving unit 9 drives the aperture 36, and sets the aperture value a based on AE for the aperture 36. Further, the TG 34 drives the CCD 32 at a predetermined time interval (for example, 30 frames per second) and a charge accumulation time b for displaying a normal through image, and the unit circuit 35 has the gain c that is repeatedly determined, The image pickup signal sent from the CCD 32 at a predetermined time interval is amplified and converted into a digital image pickup signal, which is sent to the DSP / CPU 3. The DSP / CPU 3 supplies the sent digital image pickup signal to the display device 6, and the display device 6 displays a normal through image P2 on the entire screen based on the image pickup signal. Therefore, this normal through image P2 is a through image whose brightness is appropriate by AE, and which changes smoothly at a predetermined time interval.
[0099]
On the other hand, if the determination in step S201 is YES, the aperture drive unit 9 drives the aperture 36, and sets the aperture value A that is manually set in the aperture 36. Further, the TG 34 drives the CCD 32 at a predetermined time interval (for example, 30 frames per second) and a predetermined charge accumulation time, and the unit circuit 35 calculates the difference between the predetermined charge accumulation time (shutter speed) and the shutter speed B. In order to compensate, the imaging signal sent from the CCD 32 at a predetermined time interval is amplified with a gain corresponding to the shutter speed B, converted into a digital imaging signal, and sent to the DSP / CPU 3. The DSP / CPU 3 supplies the sent digital image pickup signal to the display device 6, and the display device 6 displays the through image P1 for image quality adjustment on the entire screen based on the image pickup signal. Therefore, the through image P1 for image quality adjustment is a through image that virtually matches a manually set photographing condition and is a through image that smoothly changes at a predetermined time interval. Accordingly, by visually recognizing the through image P1 for image quality adjustment, it is possible to know in advance what brightness image is stored in the storage memory 13 in accordance with the shutter operation.
[0100]
However, the through image P1 for image quality adjustment is sent from the CCD 32 at the predetermined time interval with a gain corresponding to the shutter speed B in order to compensate for the difference between the predetermined charge accumulation time (shutter speed) and the shutter speed B. This is based on the imaging signal converted by amplifying the incoming imaging signal. Accordingly, when the user sets a high shutter speed B even though the shooting environment is dark, the through image P1 for image quality adjustment is displayed darkly, and the through image P1 for image quality adjustment is viewed. However, it is difficult to identify the composition. Therefore, when the user visually recognizes the through image P1 for image quality adjustment and determines the presence or absence of a photo opportunity, the photo opportunity may be lost.
[0101]
On the other hand, the normal through image P2 is a subject image that changes frequently and smoothly, and is displayed with the optimum brightness by AE. Therefore, the user displays the through image P1 for image quality adjustment when shooting with priority on brightness confirmation, and displays the normal through image P2 when shooting with priority on composition (shutter chance) confirmation. Thus, it is possible to perform display according to the imaging mode to be prioritized.
[0102]
Alternatively, when the user confirms the brightness of the image stored in the storage memory 13 by the through image P1 for image quality adjustment, the normal through image P2 is displayed by the switching operation at the key input unit 7, and this normal image is displayed. While viewing the through image P2, the composition and angle of view may be adjusted to wait for a photo opportunity.
[0103]
Then, when a subject image having a brightness desired by the user is displayed as the through image P1 for image quality adjustment, or when a subject image having a desired composition or angle of view is displayed as the normal through image P2, the shutter button is pressed. Manipulate. Then, the process proceeds from step S204 to step S205, and the photographing process is executed with the currently set process parameters. That is, as described above, if the aperture value A and the shutter speed B are set manually, the image data from the CCD 32 exposed at the aperture value A and the shutter speed B is obtained by the unit circuit 35. The processed image data is temporarily stored in the buffer memory 11. Further, a recording process is performed, and the image data temporarily stored in the buffer memory 11 is recorded in the storage memory 13 as still image data having a predetermined format (step S206).
[0104]
The still image data stored in the storage memory 13 has the same brightness as the image that the user has confirmed immediately before shooting with the through image P1 for image quality adjustment. The image data is not stored in the storage memory 13. Moreover, since the stored still image is taken when the user visually recognizes at least one of the through images P1 and P2 and a desired subject image is displayed, the user can operate the shutter button at the time of a photo opportunity. It is a desired image taken. Therefore, it is possible to shoot and record a desired image having a desired image quality that has not lost the photo opportunity.
[0105]
In Modifications 1 to 3 of the second embodiment, it is determined whether or not an image quality adjustment operation has been performed following the processing of Step S203, and an image recorded by the user who has viewed the through image P1 is recorded. When the aperture value A or the shutter speed B is changed by operating the shooting condition setting key in order to change the image quality, the aperture value and the shutter speed are changed according to the change operation of the shooting condition, and the process of step S203 is performed. It may be executed again. In this case, by visually recognizing the through image P1 for image quality adjustment displayed by the processing in step S203, it is possible to instantaneously confirm the image quality of the image with the current image processing parameter changed.
[0106]
In the second embodiment, the present invention is applied to an electronic camera having a single CCD or the like. However, as in the first embodiment, the present invention is applied to an electronic camera having a pair of CCDs or the like. You can also
[0107]
Furthermore, in each of the embodiments and modifications, the subject image exposed for the exposure time indicated by the shooting condition is described as an example of the through image P1 (first subject image) for adjusting the image quality. A subject image having other image quality that should be included in an image recorded in accordance with a shooting instruction such as color balance may be sequentially displayed as a through image P1 (first subject image) for image quality adjustment.
[0108]
【The invention's effect】
[0109]
As described above, according to the present invention, the display means includes A first subject image taken under a photographing condition different from that for photographing an image for subject image recording and a second subject photographed under the same photographing condition as the photographing condition for photographing an image for subject image recording View image Can be made. Since the first subject image and the second subject image are photographed under different photographing conditions, the first subject image can be displayed without causing a time lag with the actual subject image. The second subject image can be shot under shooting conditions according to desired image quality. Accordingly, the user can wait for a photo opportunity by adjusting the composition and the angle of view while viewing the first subject image in parallel with the operation of checking the image quality of the image recorded and stored by the second subject image. As a result, it is possible to capture and record a subject image having a desired image quality that does not lose a photo opportunity.
[Brief description of the drawings]
FIG. 1 is a block diagram of an electronic camera according to a first embodiment of the present invention.
FIG. 2 is a flowchart showing a processing procedure in the same embodiment;
FIG. 3 is a diagram showing a display example in the same embodiment.
FIG. 4 is a block diagram of an electronic camera according to a second embodiment of the present invention.
FIG. 5 is a flowchart showing a processing procedure in the same embodiment;
[Explanation of symbols]
1 Electronic camera
2 1st CCD
3 DSP / CPU
4 TG
5 Unit circuit
6 Display device
7 Key input part
9 Aperture drive
12 Built-in flash memory
13 Saved memory
22 Second CCD
24 TG
25 unit circuit
32 CCD32
34 TG
35 unit circuit

Claims (5)

In an electronic camera having a first photographing means and a second photographing means,
Setting means for setting shooting conditions when shooting an image for recording a subject image;
First photographing control means for performing repeated photographing operations by the first photographing means under photographing conditions different from the photographing conditions set by the setting means;
Second shooting control means for performing a repeated shooting operation by the second shooting means under the same shooting conditions set by the setting means;
A first subject image repeatedly photographed using the first photographing means by the first photographing control means, and a first subject image repeatedly photographed using the second photographing means by the second photographing control means. Display control means for simultaneously displaying two subject images on the display means;
Electronic camera comprising: a. Photographing instruction means for instructing photographing for recording a subject image ;
A third shooting control unit that controls the second shooting unit to perform shooting for subject image recording according to the shooting conditions set by the setting unit when shooting is instructed by the shooting instruction unit ;
The third said the photographing control means of the second claim 1 electronic camera, wherein further comprising a recording means for recording the photographed object image using the photographing means. Adjusting means for adjusting the shooting conditions set in the setting means ;
The second photographing control unit causes the second photographing unit to perform a repeated photographing operation according to the photographing condition adjusted by the adjusting unit.
The third imaging control means, according to the imaging condition adjusted by said adjustment means, according to claim 1, wherein the controller controls the second imaging means to perform imaging for the subject image recording Electronic camera. It said imaging condition set by the setting means, aperture, of the shutter speed, and gain, an electronic camera according to any one of claims 1 to 3, characterized in that it comprises at least one. A computer provided in an electronic camera having a first photographing means and a second photographing means;
Setting means for setting shooting conditions when shooting an image for recording a subject image;
First photographing control means for performing repeated photographing operations by the first photographing means under photographing conditions different from the photographing conditions set by the setting means;
Second shooting control means for performing a repeated shooting operation by the second shooting means under the same shooting conditions set by the setting means;
A first subject image repeatedly photographed using the first photographing means by the first photographing control means, and a first subject image repeatedly photographed using the second photographing means by the second photographing control means. photographing control program for causing to function as a display control means for displaying simultaneously on a display unit and a second object image.

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