JP2004184433A - Image pickup device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image pickup device in which photographing conditions such as a scene photography mode, an electronic flash photography mode, a macrophotography mode and shutter speed can be set with mutual adaptability and which efficiently photographs a subject with high image quality by low power consumption under given photographing conditions. <P>SOLUTION: When an operator independently selects various photographing conditions including the selection of the scene photography mode, the electronic flash photography mode and the macrophotography mode from an operation part 23, a CPU 22 decides whether the mutual adaptability in terms of photographing the subject is found among a plurality of selected photographing conditions on the basis of efficient photography and the low power consumption. On the basis of the obtained result of decision, the electronic flash photography mode, the macrophotography mode and an image quality photography mode are selectively set appropriate to the photographing condition selected by an electronic flash mode control unit 28, a macrophotography control unit 29 and an image quality control unit 29 according to a command from the CPU 22, and the high-quality photographic image of the subject is efficiently picked up and acquired with the low power consumption. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an imaging apparatus having a function of selecting a shooting mode corresponding to a subject shooting condition.
[0002]
[Prior art]
2. Description of the Related Art In recent years, imaging devices such as digital cameras have a function of selecting and setting a scene shooting mode such as a portrait mode, a night view mode, a landscape mode, a sports mode, a snap mode, and a character mode in consideration of convenience of use by an operator. Even if the operator has little knowledge and experience in operation of the digital camera, the user can select and set the scene shooting mode to capture and acquire a high quality image of the subject in accordance with the selected scene shooting mode. (For example, see Patent Document 1).
For example, when the night scene mode is selected as the scene shooting mode, the contrast is increased at the time of shooting the subject at night, the black setting threshold is increased, and the exposure is controlled so that the entire image becomes darker. The visual effect is enhanced.
On the other hand, in the imaging device, a strobe shooting mode or a macro shooting mode is selectively set according to the shooting atmosphere condition, and a shutter speed according to the shooting atmosphere condition is selected, and a scene shooting mode, a flash shooting mode, a macro shooting mode are set. The subject is photographed at a shutter speed adapted to the shutter speed.
[0003]
In the imaging apparatus for photographing a subject in this way, adaptability among selected conditions is required for the selected scene shooting mode, strobe shooting mode and macro shooting mode, and the selected shutter speed. In addition, there is a demand for a photographing operation without wasteful power consumption and without an operator's operation burden.
For example, if the landscape mode is selected as the scene shooting mode, the selection setting of the flash shooting mode or the macro shooting mode is meaningless, and even if the red-eye mode flash shooting is performed for the scene shooting mode other than the person shooting. meaningless.
In such a case, if the strobe is in the emission permission mode, the charging check and the necessary charging operation are always performed even when the strobe is not emitted, so that power is wasted.
[0004]
[Patent Document 1]
JP 2001-21457 A (paragraphs [0026] to [0068])
[0005]
[Problems to be solved by the invention]
The present invention has been made in view of the current state of the operation of the conventional photographing apparatus as described above, and its purpose is to correspond to the selected scene photographing mode, strobe photographing mode, macro photographing mode, shutter speed Are set in a state that satisfies mutual adaptability, and high-quality shooting of a subject corresponding to the shooting atmosphere condition can be performed without burden on the operator and without wasteful power consumption. It is to provide an imaging device.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, the imaging apparatus according to the first aspect of the present invention selects a scene shooting mode to be executed from a plurality of scene shooting modes when shooting a subject, and performs shooting in the selected scene shooting mode. A scene shooting mode setting unit to be set; and a flash mode setting unit for selecting a flash shooting mode to be executed from a plurality of flash modes when shooting using a flash of a subject, and setting shooting in the selected flash shooting mode. Strobe mode setting control for controlling the selection setting operation of the strobe mode setting means so that the selection of the strobe shooting mode having adaptability is performed with respect to the scene shooting mode selected and set by the scene shooting mode setting means. Means.
[0007]
According to such means, when photographing a subject, a scene photographing mode to be executed from a plurality of scene photographing modes is selected by the scene photographing mode setting means, and photographing in the selected scene photographing mode is set. In shooting using the flash mode, the strobe mode to be executed is selected from the plurality of strobe modes by the strobe mode setting means, and shooting is set in the selected strobe mode. The selection setting operation of the flash mode setting means is controlled by the flash mode setting control means so that the selection and setting of the flash mode having the adaptability to the scene shooting mode are performed. Inappropriate strobe mode with no adaptability selected Not be, without burdening such operator repair operation, to prevent and wasteful power consumption, in response to the shooting atmospheric conditions, always high quality captured image of the subject is photographed acquired.
[0008]
Similarly, in order to achieve the above object, according to the second aspect of the present invention, in accordance with the first aspect of the present invention, the scene shooting mode set by the scene shooting mode setting means is controlled by a strobe mode control means. An initial value of the flash photography mode selected and set by the flash mode setting means is set to a flash prohibited state.
[0009]
According to such means, in addition to the effect of the invention according to claim 1, under the control of the strobe mode control means, the strobe mode setting means corresponds to the scene photographing mode selected and set by the scene photographing mode setting means. The initial value of the flash mode selected and set is always set to the flash prohibited state, and the power supply capacity of the flash and the charging operation are performed only when necessary, preventing unnecessary power consumption and shooting. The operation is performed efficiently.
[0010]
Similarly, in order to achieve the above object, the invention according to claim 3 is the invention according to claim 1, wherein the strobe mode setting unit holds or initializes a strobe shooting mode set by the strobe mode setting means. It is characterized by further comprising initialization control means and holding / initialization selection means for selecting the operation of the strobe mode holding / initialization control means.
[0011]
According to such a means, in addition to the effect of the first aspect, the holding / initializing selection means selects the holding or initialization of the strobe mode set by the strobe mode setting means, and sets the strobe mode when necessary. By holding the strobe mode in the strobe mode holding / initializing means, the duplication operation for setting the strobe mode again is omitted, and the photographing operation of the subject is executed efficiently.
[0012]
Similarly, in order to achieve the above object, the invention according to claim 4 is characterized in that, in the invention according to claim 1, when the landscape photographing mode is set by the scene photographing mode setting means, the strobe mode control means controls the strobe light. The mode setting means selects and sets the flash photography mode to the flash inhibition mode.
[0013]
According to such means, in addition to the effect of the first aspect of the present invention, when the landscape shooting mode is set by the scene shooting mode setting means, the strobe mode setting means controls the strobe mode setting means under the control of the strobe mode control means. By setting the mode to the light emission prohibition mode and preventing useless strobe light emission, the photographing operation of the subject can be performed efficiently without wasting power consumption.
[0014]
Similarly, in order to achieve the above object, according to the invention described in claim 5, in the invention described in claim 1, when a shooting mode other than the person shooting mode is set by the scene shooting mode setting means, the strobe control means The flash mode setting means is for selectively setting a flash mode other than the red-eye mode.
[0015]
According to such a means, in addition to the operation of the invention according to claim 1, when a shooting mode other than the person shooting mode is set by the scene shooting mode setting means, the strobe mode setting means causes the strobe mode setting means to: By controlling the selection of strobe modes other than the red-eye shooting mode, which is not necessary for the set shooting mode, preventing unnecessary red-eye emission of the strobe, the shooting operation of the subject avoids waste of power consumption and efficiency It is done on a regular basis.
[0016]
Similarly, in order to achieve the above object, the invention according to claim 6 is characterized in that, in the invention according to claim 5, the photographing mode other than the person photographing mode is a character photographing mode or a landscape photographing mode. Things.
[0017]
According to such a means, the operation according to the fifth aspect of the present invention is executed by setting a photographing mode other than the person photographing mode as a character photographing mode or a landscape photographing mode.
[0018]
Similarly, in order to achieve the above object, according to a seventh aspect of the present invention, in the image pickup apparatus according to the first aspect, a strobe light is emitted when the shutter speed is less than a reference value, and the strobe light is emitted when the shutter speed is more than the reference value. When setting the night scene shooting mode by the strobe driving unit that inhibits light emission and the scene shooting mode setting unit, the shutter speed is allowed to be less than the reference value when the scene shooting mode other than the night scene shooting mode is set. And shutter speed setting means for stopping the shutter speed.
[0019]
According to such a means, in addition to the effect of the invention according to claim 1, a strobe driving means for emitting a strobe when the shutter speed is less than the reference value, and prohibiting the emission of the strobe when the shutter speed is equal to or more than the reference value. On the other hand, when the night scene shooting mode is set by the scene shooting mode setting means, the flash is emitted at a low shutter speed by allowing the shutter speed to be less than the reference value, and the shutter speed is reduced to below the reference value. In addition, not only the person to whom the strobe light reaches but also the background to which the strobe light does not reach can be brightly photographed, and the high-quality strobe photographing of the person against the night view is performed.
[0020]
Similarly, in order to achieve the above object, the invention according to claim 8 selects a scene shooting mode to be executed from a plurality of scene shooting modes when shooting a subject, and sets shooting in the selected scene shooting mode. Scene shooting mode setting means, macro shooting mode setting means for selecting shooting of a subject from a short distance, and setting a macro shooting mode, and a scene shooting mode which is not adaptable to macro shooting by the scene shooting mode setting means. When the setting is made, a macro photographing prohibiting means for prohibiting macro photographing is provided.
[0021]
According to such means, when photographing a subject, a scene photographing mode to be executed from a plurality of scene photographing modes is selected by the scene photographing mode setting means, photographing in the selected scene photographing mode is set, and a macro photographing mode is set. When the macro shooting mode for shooting the subject from a short distance is set by the setting means, and when the scene shooting mode incompatible with the macro shooting is set by the scene shooting mode setting means, the macro shooting prohibiting means is set. Macro photography is prohibited, and erroneous photography in a scene photography mode that is not adaptable to macro photography is prevented.
[0022]
Similarly, in order to achieve the above object, according to the ninth aspect of the present invention, in the invention of the eighth aspect, the scene shooting mode which is not adaptable to macro shooting is a scene shooting mode, a night view shooting mode, and a sports shooting mode. It is one of the features.
[0023]
According to such a means, the operation according to the eighth aspect of the present invention is executed by setting the scene shooting mode that is not adaptable to macro shooting to any of a landscape shooting mode, a night view shooting mode, and a sports shooting mode.
[0024]
BEST MODE FOR CARRYING OUT THE INVENTION
An embodiment of the present invention will be described below with reference to FIGS.
FIG. 1 is a block diagram showing the configuration of the present embodiment, FIG. 2 is an explanatory diagram showing the external configuration of the present embodiment, and FIG. 3 is a flash mode setting for a scene shooting mode displayed on a liquid crystal display in the present embodiment. It is explanatory drawing of an image.
[0025]
In the present embodiment, as shown in FIG. 1, a charge coupled device (CCD) 5 having an electronic shutter function for photoelectrically converting a subject light image formed on a light receiving surface and outputting the image as an image signal is provided. A lens unit 1 for forming a subject light image on a light receiving surface of the CCD 5 is disposed in front of the CCD 5, and a subject light image is incident on the CCD 5 between the lens unit 1 and the CCD 5. And a shutter mechanism 2 for controlling incidence and cutoff, and an imaging signal processing unit 10 is connected to an output terminal of the CCD 5.
[0026]
The imaging signal processing unit 10 is provided with a CDS (Correlated double sampling circuit) 6 which is connected to an output terminal of the CCD 5 and suppresses noise of an input imaging signal. The output terminal of the CDS 6 has a CDS (Correlated double sampling circuit) 6. Is connected to an AGC 7 for performing a gain correction, and an output terminal of the AGC 7 performs an A / D conversion on an image signal subjected to noise suppression and gain correction, for example, at an integral multiple of a subcarrier frequency of an NTSC signal. A circuit 8 is connected, and a drive control circuit 11 that outputs a drive control signal to each of the CCD 5, CDS 6, AGC 7, and AD conversion circuit 8 is provided.
[0027]
A signal processing unit 12 that performs signal processing on an output signal from the imaging signal processing unit 10 is connected to the imaging signal processing unit 10 having the above-described configuration. A CCD interface 13 that is connected to an output terminal of the circuit 8 and performs an interface operation is provided. A first output terminal of the CCD interface 13 is connected to a memory controller 14 that performs overall control of signal processing. The vertical synchronization signal VD and the horizontal synchronization signal VH are configured to be input to the drive control circuit 11 from the second output terminal.
Further, in the signal processing unit 12, the memory controller 14 has a YUV conversion circuit 15 for performing YUV conversion on the RAW-RGB data, and a compression / decompression processing block for performing data compression / decompression in accordance with the JPEG (Joint Photographic Experts Group) standard. 17 and a display interface 16 for performing an interface operation of a display signal.
[0028]
A liquid crystal display 18 for displaying various data is connected to the display interface 16 of the signal processing unit 12 having such a configuration, and the RAW-RGB data 31, the YUV conversion data 32, and the JPEG compression An SDRAM 34 in which data 33 is stored, a CPU 22 for controlling a photographing operation of the whole apparatus, a ROM 24 in which a control program is stored, and an SRAM (Static RAM) 21 for writing and reading various data during the control operation are connected. Further, a memory card 20 on which compressed image data is recorded is detachably connected.
[0029]
On the other hand, a motor driver 3 for driving the lens unit 1 and the shutter mechanism unit 2 and the drive control circuit 11 described above are connected to a CPU 22 to which an operation unit 23 to which various photographing command signals are input by an operator is connected. The CPU 22 includes a strobe mode setting unit 25 for selecting and setting a strobe shooting mode according to a command from a plurality of strobe shooting modes based on a shooting command signal input from the operation unit 23, and a macro mode for setting a macro mode. A setting unit 26 and a scene shooting mode setting unit 27 for selecting and setting a scene shooting mode according to a command from a plurality of scene shooting modes are provided.
[0030]
In addition, the CPU 22 includes a flash mode control unit 28 which controls the flash mode setting unit 25 to set an adaptive flash mode with respect to the scene mode set by the scene mode setting unit 27; A macro control unit 29 for controlling the macro mode setting of the macro mode setting unit 26 when the macro mode setting is adaptable to the scene shooting mode set by the scene shooting mode setting unit 27; An image quality control unit 30 that performs image quality control appropriately corresponding to the scene shooting mode set by the mode setting unit 27 is provided.
In the image quality control unit 30, when the portrait mode in which a person is shot is set by the scene shooting mode setting unit 27, the gamma curve is changed so that the image quality becomes slightly brighter, so that the skin color can be seen clearly. Shifts the color balance slightly to the red.
Further, the CPU 22 is provided with shutter speed changing means for changing a reference second value of a lower limit speed set based on camera shake with respect to a shutter speed of the imaging device under a predetermined shooting condition.
[0031]
2A and 2B show an external configuration of the present embodiment, in which FIG. 2A is a plan view with the top cover opened, FIG. 2B is a front view with the top cover opened, and FIG. FIG. 3 is a side view in a state where an upper lid is opened.
An upper lid 36 having a liquid crystal display 18 is attached to one edge of the upper surface of the camera body 47 so as to be freely opened and closed by a hinge 37. On the upper surface of the upper lid 36, a sub-display 48 for displaying the number of shots, a battery replacement alarm, and the like is displayed. Similarly, on the upper surface of the camera body 47, an upper lid opening / closing detection switch 35 for detecting the opening / closing of the upper lid 36 is provided. Further, on the upper surface of the camera body 47, a DATE switch 43, frame advance switches 44a and 44b, a strobe switch 41, an image quality mode switch 40, a recording mode changeover switch 42, and a release switch 38 are provided. Is provided with a lens unit 1, a strobe 25, and a finder 46. The above switches are appropriately used as the operation unit 23.
[0032]
The photographing operation of the present embodiment having such a configuration will be described.
At the time of the photographing operation, the operator operates the operation unit 23 to display a scene photographing mode, a strobe photographing mode, and a macro photographing mode based on the setting menu image 18A displayed on the liquid crystal display 18 as shown in FIG. The selection of various shooting conditions, including the selection of, is performed independently between a plurality of set shooting modes, based on shooting efficiency and low power consumption, under the current shooting atmosphere conditions. Whether or not there is adaptability to photographing is determined by a command from the CPU 22, and the setting of the selected photographing mode is controlled based on the obtained determination result.
[0033]
A specific case in which the control is executed by the CPU 22 in this case is as follows.
(1) In the flash photography mode selected in correspondence with the scene photography mode, the flash emission mode is set to the initial value for all the selected flash photography modes. This is performed in order to perform the shooting operation efficiently. When all the initial values are set to the flash mode for the selected flash shooting mode, the charge amount of the flash capacitor is checked each time. In this case, the charging is performed when the charging is necessary, and when the photographing is actually performed without using the strobe, unnecessary operations are performed to prevent the photographing preparation time from becoming long.
(2) The operator can select the holding or initialization of the flash shooting mode selected and set this time from the next time onward, or the initialization, and when the holding selection command is issued, the strobe shooting mode is set and selected at the time of the next and subsequent shootings. The flash photography mode is executed as it is, and the trouble of selecting and setting the flash photography mode again is eliminated.
(3) When the distant view shooting mode is selected as the scene shooting mode, the strobe light does not reach a distant place, and the strobe light emission is only a loss of power consumption and is meaningless. Prohibition mode is set.
[0034]
(4) When photographing a person or an animal in a dark atmosphere, the red-eye phenomenon in which the pupil of the subject is photographed in red is known, and in order to reduce this phenomenon, red-eye emission in which a strobe light is pre-emitted before actual shooting is performed. Shooting in mode is being performed.
In this embodiment, if a non-personal photographing mode such as a character photographing mode or a landscape photographing mode is selected as a scene photographing mode, a flash inhibit mode is set even if a red-eye flash mode is selected in the strobe photographing mode. Is set.
(5) In this type of imaging apparatus, an auto strobe that performs strobe light emission when the shutter speed is less than a reference value (a reference value corresponding to a camera shake occurrence shutter speed) and prohibits strobe light emission when the shutter speed is equal to or more than the reference value. Driving means is provided. If the shutter speed is less than the reference value, the shutter speed is changed to the reference value or more together with the flash emission.
However, when performing flash photography of a person against the background of a night scene, shooting with auto flash emission at a shutter speed higher than the reference value allows the flash light to reach the person, but does not reach the background, so the background becomes darker. The night view has no meaning as a background.
For this reason, in the present embodiment, the strobe shooting mode is set to the slow synchro mode, the reference value of the shutter speed is increased (the speed is reduced), and the shutter speed is kept at the low shutter speed, thereby achieving high quality. Flash photography of a person against the background of the night scene is performed.
(6) When a shooting mode that is not suitable for macro shooting, such as a distant landscape shooting mode or a night view shooting mode, is selected as a scene shooting mode, setting of the macro shooting mode is prohibited.
[0035]
The strobe mode selection setting operation at the time of switching the selection of the scene shooting mode in the present embodiment will be described with reference to FIG.
FIG. 4 is a flowchart showing a flash mode setting operation for the scene shooting mode of the present embodiment.
[0036]
In step S1 of the flowchart of FIG. 4, the currently selected scene shooting mode is read from the SRAM 21 by the command of the CPU 22, and the process proceeds to step S2, where the selected scene shooting mode is set to the distant view shooting mode. A determination is made whether there is.
If it is determined in step S2 that the distant view shooting mode is selected and set, the process proceeds to step S10, where the flash inhibition mode is set for the flash shooting mode, and the process ends. On the other hand, if it is determined in step S2 that the distant view photographing mode has not been selected and set, the process proceeds to step S3, where the selected strobe photographing mode is read out of the SRAM 21 in accordance with a command from the CPU 22, and step S4 is performed. In accordance with the instruction from the CPU 22, it is determined whether the selected flash photography mode is the last hold setting from the previous time or the default flash photography mode.
[0037]
If it is determined in step S4 that the selected flash photography mode is the initial value, the process proceeds to step S11, in which the flash inhibition mode is set for the flash photography mode, and the process ends. On the other hand, if it is determined in step S4 that the selected and set flash shooting mode is based on the last hold setting from the previous time, the process proceeds to step S5. The selected and set flash photography mode is read.
Then, the process proceeds to step S6, where it is determined whether or not the flash prohibition mode is set in the flash photography mode read out in step S5. If it is determined that the flash prohibition mode is set, the process ends. .
[0038]
On the other hand, if it is determined in step S6 that the flash prohibition mode has not been set in the flash photography mode read out in step S5, the process proceeds to step S7, where the lens driver is operated by the motor driver 3 operated according to a command from the CPU 22. The first focus lens is moved to the set position.
Next, in step S8, the charge state of the main capacitor of the strobe is checked by a command from the CPU 22, and it is determined whether or not charging is necessary. Is determined to be necessary, the process proceeds to step S9, in which the main capacitor of the strobe is charged, and the process ends.
[0039]
The shutter speed setting operation at the time of shooting in the night view portrait mode according to the present embodiment will be described with reference to FIG.
FIG. 5 is a flowchart showing a shutter speed setting operation at the time of shooting in the night view portrait mode according to the present embodiment.
[0040]
In step S21 of the flowchart in FIG. 5, photometry processing of a subject is performed according to a command from the CPU 22, and a shutter speed at the time of shooting is calculated according to a command from the CPU 22 based on the photometry result. Based on the zoom position, a shutter speed at which the possibility of camera shake increases is calculated as a reference value.
Next, the process proceeds to step S24, and if the shutter speed at the time of shooting calculated in step S22 is equal to or higher than the reference value calculated in step S23, the process ends.
On the other hand, if it is determined in step S24 that the shutter speed at the time of photographing calculated in step S22 is a low speed lower than the reference value, the process proceeds to step S25, and preparation for strobe light emission is performed according to a command from the CPU 22. Proceeding to step S26, it is determined whether or not the currently selected and set scene shooting mode read from the SRAM 21 is the night scene shooting mode.
[0041]
If it is determined in step S26 that the selected and set scene shooting mode is not the night scene shooting mode, the process ends. If it is determined that the selected scene photographing mode is the night scene photographing mode, in step S27, the reference value relating to camera shake is increased, and the flash photographing is performed with respect to the shutter speed at the time of photographing calculated from the photometry result. The mode is set to the light emission mode by slow synchro, and the subject is photographed.
[0042]
The macro mode setting operation of the present embodiment will be described with reference to FIG.
FIG. 6 is a flowchart showing the macro mode setting operation of the present embodiment.
[0043]
In response to a command from the CPU 22, the currently selected scene photographing mode is read from the SRAM 21. In step S31, it is determined whether the selected scene photographing mode is the distant scene photographing mode. If it is determined that the process is completed, the process ends. On the other hand, if it is determined in step S31 that the selected and set scene shooting mode is not the distant view shooting mode, the process advances to step S32 to determine whether or not the selected and set scene shooting mode is the night view mode. If it is determined that the mode is the night view mode, the process ends.
[0044]
On the other hand, if it is determined in step S32 that the selected and set scene shooting mode is not the night scene mode, the process proceeds to step S33, where it is determined whether or not the selected and set scene shooting mode is sports mode. If it is determined that the mode is the sport mode, the process ends. On the other hand, if it is determined in step S33 that the selected and set scene shooting mode is not the sports mode, the process proceeds to step S34, in which the lens barrel mechanism is moved to the macro shooting position by the motor driver 3 operated according to a command from the CPU 22. And terminate the processing.
[0045]
As described above, in the present embodiment, when the selection and setting of a plurality of shooting conditions including the scene shooting mode, the flash shooting mode, and the macro shooting mode are performed while maintaining mutual compatibility, thereafter, The subject is photographed under the selected and set photographing conditions.
In this case, the light image of the subject is formed on the light receiving surface of the CCD 5 by the lens unit 1, is incident on the photodiodes arranged in a matrix on the CCD 5, and is controlled by a drive control circuit 11 operated by a command from the CPU 22. The accumulation is performed in a state where the accumulation time is controlled by the electronic shutter operation by the signal. The light image incident on the CCD 5 is photoelectrically converted by the CCD 5 into an analog image signal, output from the CCD 5 and input to the image signal processing unit 10.
[0046]
The imaging signal input to the imaging signal processing unit 10 is subjected to noise reduction processing by correlated double sampling by the CDS 6, gain correction is performed by the AGC 7, and, for example, the sub-carrier frequency of the NTSC signal is processed by the AD conversion circuit 8. The digital signal is subjected to AD conversion at a sampling frequency that is an integral multiple of the above, and is input to the signal processing unit 12 as a digital imaging signal.
In the signal processing unit 12, the digital imaging signal input to the CCD tenter face 13 is stored in the SDRAM 34 by the memory controller 14 as RAW-RGB data 31 in the CCD arrangement.
[0047]
Then, in the signal processing unit 12, the RAW-RGB data 31 is read from the SDRAM 34 by the memory controller 14 operated by a command of the CPU 22, and the YUV conversion is performed by the YUV conversion circuit 15 based on gamma correction and color separation processing. A color difference signal and a luminance signal are created, and a digital NTSC signal is obtained based on the obtained color difference signal and the luminance signal. The digital NTSC signal is DA-converted via the display interface 16 and displayed on the liquid crystal display 18 as a subject image.
[0048]
On the other hand, when the captured image data of the subject is recorded and stored in the memory card 20, the RAW-RGB data 31 read from the SDRAM 21 is subjected to gamma correction and color separation processing by the YUV conversion circuit 15 by the memory controller 14. Based on this, a color difference signal and a luminance signal are created, and the created color difference signal and the luminance signal are stored in the SDRAM 34 as the YUV conversion data 32.
Next, the memory controller 14 applies a JPEG compression process to the YUV conversion data 32 read from the SDRAM 34 by orthogonal compression or Huffman coding by the compression / decompression processing block 17 operated by the command of the CPU 22. The JPEG compressed data 33 is stored in the SDRAM 34 by the memory controller 14.
Then, the JPEG compressed data 33 stored in the SDRAM 34 is read out from the SDRAM 34 and recorded and stored in the memory card 20 by the memory controller 14 operated in accordance with a command from the CPU 22 in this manner.
[0049]
When the compressed data recorded and stored in the memory card 20 is read from the memory card 20, the compressed data to be read is temporarily stored in the SDRAM 34 and then read out by the memory controller 14. The data is decompressed in real time by the compression / decompression block 17, input to the display interface 16 by the memory controller 14, DA converted, and displayed on the liquid crystal display 18.
[0050]
As described above, according to the present embodiment, when the operator independently selects various shooting conditions including the selection of the scene shooting mode, the flash shooting mode, and the macro shooting mode from the operation unit 23. The CPU 22 determines whether there is adaptability in photographing a subject between the selected plurality of photographing conditions, based on the photographing efficiency and the reduction in power consumption, under the current photographing atmosphere condition. The strobe mode control unit 28, the macro control unit 29, and the image quality control unit 29, which are operated according to a command from the CPU 22 based on the obtained determination result, set an appropriate strobe shooting mode in accordance with the selected shooting condition. , Macro shooting mode and image quality shooting mode are selected and set. High quality photographic images it is possible to efficiently captured acquired with low power consumption.
[0051]
【The invention's effect】
According to the first aspect of the present invention, when photographing a subject, a scene photographing mode to be executed from a plurality of scene photographing modes is selected by the scene photographing mode setting means, and photographing in the selected scene photographing mode is set. When taking a picture using the strobe, a strobe mode to be executed from a plurality of strobe modes is selected by the strobe mode setting means, and shooting is set in the selected strobe mode. The strobe mode setting control means controls the selection setting operation of the strobe mode setting means so that the selection of the strobe mode having adaptability to the set scene photographing mode is performed. Incorrect strobe mode with no adaptability to scene shooting mode It is not selected and set, and does not impose a burden on the operator such as a repair operation and prevents unnecessary power consumption, and always captures and acquires a high-quality captured image of the subject in accordance with the shooting atmosphere condition. Becomes possible.
[0052]
According to the second aspect of the present invention, in addition to the effect obtained by the first aspect of the present invention, the strobe mode control means controls the strobe light corresponding to the scene photographing mode selected and set by the scene photographing mode setting means. Since the initial value of the flash mode selected and set by the mode setting means is always set to the flash disabled state, the power supply capacity of the flash and the charging operation are performed only when necessary, and unnecessary power consumption is reduced. Prevention makes it possible to perform a shooting operation efficiently.
[0053]
According to the third aspect of the invention, in addition to the effect obtained by the first aspect of the invention, the holding / initialization selecting means selects the holding or initialization of the strobe mode set by the strobe mode setting means, By holding the set strobe mode when necessary, the strobe mode holding / initializing unit can save the duplication operation for setting the strobe mode again, thereby enabling the photographing operation of the subject to be executed efficiently.
[0054]
According to the fourth aspect of the present invention, in addition to the effect obtained by the first aspect of the present invention, when the landscape shooting mode is set by the scene shooting mode setting means, the strobe mode setting means is controlled by the strobe mode control means. By selecting and setting the strobe mode to the light emission prohibition mode and preventing useless strobe light emission, it becomes possible to efficiently perform a shooting operation of a subject without wasting power consumption.
[0055]
According to the fifth aspect of the present invention, in addition to the effect obtained by the first aspect of the present invention, when a shooting mode other than the person shooting mode is set by the scene shooting mode setting means, the strobe mode setting is performed by the strobe control means. Means for controlling the selection setting of a strobe mode other than the red-eye shooting mode which is not necessary for the set shooting mode, thereby preventing useless red-eye emission of the strobe, thereby reducing the power consumption of the shooting operation of the subject. It is possible to avoid this and perform it efficiently.
[0056]
According to the invention described in claim 6, in the invention described in claim 5, an effect obtained by the invention described in claim 5 is realized by setting a photographing mode other than the person photographing mode as a character photographing mode or a landscape photographing mode. Becomes possible.
[0057]
According to the seventh aspect of the present invention, in addition to the effect obtained by the first aspect of the present invention, if the shutter speed is lower than the reference value, the strobe is fired, and if the shutter speed is higher than the reference value, the strobe light emission is prohibited. When the night scene shooting mode is set by the scene shooting mode setting unit to the strobe driving unit, the strobe is allowed to emit light at a low shutter speed by allowing the shutter speed to be less than the reference value, and the shutter speed is reduced to a low speed below the reference value. By doing so, not only the person to whom the strobe light reaches but also the background to which the strobe light does not reach can be brightly photographed, and high-quality strobe photographing of the person against the night scene can be performed.
[0058]
According to the eighth aspect of the present invention, when photographing a subject, the scene photographing mode to be executed from the plurality of scene photographing modes is selected by the scene photographing mode setting means, and photographing in the selected scene photographing mode is set. When a macro shooting mode for shooting a subject from a short distance is set by the shooting mode setting means, macro shooting is prohibited when a scene shooting mode that is not adaptable to macro shooting is set by the scene shooting mode setting means. Since macro photography is prohibited by the means, it is possible to prevent erroneous photography in a scene photography mode that is not adaptable to macro photography.
[0059]
According to the ninth aspect of the present invention, in the invention of the eighth aspect, the scene photographing mode which is not adaptable to the macro photographing is any one of a landscape photographing mode, a night scene photographing mode, and a sport photographing mode. The effect obtained by the invention can be realized.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of an embodiment of the present invention.
FIG. 2 is an explanatory diagram showing an external configuration of the embodiment.
FIG. 3 is an explanatory diagram of a flash mode setting image for a scene shooting mode displayed on a liquid crystal display in the embodiment.
FIG. 4 is a flowchart showing a flash mode setting operation for a scene shooting mode according to the embodiment.
FIG. 5 is a flowchart showing a shutter speed setting operation at the time of shooting in night view portrait mode according to the embodiment;
FIG. 6 is a flowchart showing a macro mode setting operation of the embodiment.
[Explanation of symbols]
6 CCD
10. Photographing signal processing unit
12 signal processing unit
14 Memory controller
18 LCD display
22 CPU
25 Strobe mode setting unit
26 Macro mode setting unit
27 Scene shooting mode setting unit
28 Strobe control unit
29 Macro control unit
30 Image quality control unit
34 SDRAM

Claims (9)

When shooting a subject, a scene shooting mode setting unit that selects a scene shooting mode to be executed from a plurality of scene shooting modes and sets shooting in the selected scene shooting mode;
A flash mode setting means for selecting a flash shooting mode to be executed from a plurality of flash modes when shooting using a flash of a subject, and setting shooting in the selected flash shooting mode;
Strobe mode setting control for controlling the selection setting operation of the strobe mode setting means so that the selection of the strobe shooting mode having adaptability is performed with respect to the scene shooting mode selected and set by the scene shooting mode setting means. And an imaging device. The imaging device according to claim 1,
For the scene shooting mode set by the scene shooting mode setting means, the initial value of the flash shooting mode selected and set by the flash mode setting means is set to a flash prohibited state under the control of the flash mode control means. Imaging device. The imaging device according to claim 1,
Strobe mode holding / initialization control means for holding or initializing the strobe shooting mode set by the strobe mode setting means,
An image pickup apparatus characterized by further comprising a holding / initializing selecting means for selecting an operation of the strobe mode holding / initializing control means. The imaging device according to claim 1,
An image pickup apparatus characterized in that, when a landscape shooting mode is set by a scene shooting mode setting means, the strobe mode setting means selects and sets a flash shooting mode to a light emission inhibition mode under the control of a strobe mode control means. The imaging device according to claim 1,
An imaging apparatus characterized in that when a shooting mode other than the person shooting mode is set by the scene shooting mode setting means, the flash mode setting means selects and sets a flash shooting mode other than the red-eye shooting mode by the flash control means. The imaging device according to claim 5,
An image pickup apparatus, wherein a photographing mode other than a person photographing mode is a character photographing mode or a landscape photographing mode. The imaging device according to claim 1,
A flash drive unit for emitting a flash when the shutter speed is less than the reference value, and prohibiting the flash emission when the shutter speed is equal to or more than the reference value;
A shutter speed setting unit that permits a shutter speed to be less than the reference value when setting the night scene shooting mode by the scene shooting mode setting unit, and cancels the shutter speed with the reference value when setting a scene shooting mode other than the night scene shooting mode. An imaging device, which is provided. When shooting a subject, a scene shooting mode setting unit that selects a scene shooting mode to be executed from a plurality of scene shooting modes and sets shooting in the selected scene shooting mode;
Macro shooting mode setting means for selecting shooting from a short distance of the subject and setting a macro shooting mode;
An imaging apparatus, comprising: a macro photography prohibition unit for prohibiting macro photography when a scene photography mode incompatible with macro photography is set by the scene photography mode setting unit. The imaging device according to claim 8,
An imaging apparatus characterized in that a scene shooting mode that is not adaptable to macro shooting is any of a landscape shooting mode, a night view shooting mode, and a sports shooting mode.

Images