JP4043595B2 - Imaging device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an imaging apparatus, and more particularly, to an imaging apparatus including a display unit that performs electrical processing on a captured subject image and displays it on a monitor.
[0002]
[Prior art]
Conventionally, various electronic cameras that record still images as electrical signals are known. As such an electronic camera, for example, an object in which a subject image is converted into a video signal by an image sensor such as a CCD, and various processes are performed on the video signal to display and record has been proposed.
[0003]
In the field of video cameras, there are also known those equipped with a so-called electronic viewfinder (hereinafter abbreviated as EVF) that performs electrical processing on a captured subject image and displays it on a monitor. The EVF is mainly composed of a liquid crystal (LCD) monitor, but has recently been installed in electronic cameras due to its convenience.
[0004]
[Problems to be solved by the invention]
By the way, in general, a video camera often employs an EVF having a resolution lower than that of an image sensor such as a CCD. This is because the LCD itself used as an EVF has a lower resolution than an image sensor such as a CCD, and it takes a great deal of cost to increase the resolution, and the video camera does not require a very high resolution. It depends. In other words, in the shooting of moving images, some sweetness is in an acceptable range.
[0005]
However, it goes without saying that there is still a demand for more precise focus confirmation even in moving image shooting regardless of the above circumstances.
[0006]
On the other hand, an electronic camera often captures and records still images with a larger number of pixels than a video camera, and thus the focus function of the finder is required to be more accurate. As long as it is used, it was difficult to shoot with accurate focus. That is, there is a problem that the image intended by the photographer is not necessarily captured because the resolution of the EVF is difficult.
[0007]
On the other hand, Japanese Patent Laid-Open No. 5-244471 discloses a technique for enlarging and displaying a part of a monitor (finder) image on the entire display screen in order to facilitate focus adjustment even when an electronic viewfinder having a small number of pixels is used. It is disclosed. However, this is because the user recognizes that enlargement is necessary and selects the part that he wants to enlarge further by manual operation, and enlarges the selected part on the entire screen.
-It is difficult to determine whether or not to use enlarged display, and the operation is complicated.
・ You cannot see the area other than the enlarged part during the enlarged display, so you cannot check the composition of the entire screen.
It had the problem of these.
[0008]
The present invention has been made in view of such problems, and one of the purposes is to accurately focus without difficult judgments and complicated operations even when the EVF is used as a shooting finder. The other is to provide an imaging apparatus capable of confirming the state, and the other is to provide an imaging apparatus capable of both confirming the correct focus state and confirming the composition even when the EVF is used as a shooting finder. Is to provide.
[0009]
[Means for Solving the Problems]
In order to achieve the above object, a first imaging device of the present invention includes an optical system configured to be adjustable in focus, an imaging device that generates a video signal by photoelectric conversion related to a subject image by the optical system, Monitor means for obtaining a monitor display relating to the video signal generated by the image sensor, focus adjustment state recognition means for obtaining recognition corresponding to the focus adjustment state in the optical system, Focus control means for performing focus control in the optical system; Recognition of the display mode by the monitor means by the focus adjustment state recognition means In relation to, the normal display that displays the image to be shot as it is and the enlarged image of at least a part of the area For display in focus monitor mode switching Focus monitor mode setting means for setting; Manual focus means for performing manual focus adjustment according to the optical system, and a focusing operation switch for instructing driving of the photographing lens in the manual focus means; Equipped with When the focusing operation switch is operated, first, the focus monitor mode setting means switches the display mode by the monitor means to display in the focus monitor mode, while the focus control means performs shooting by the manual focus means. The lens is not immediately driven, and is configured to be executed when the focusing operation switch is operated even after a predetermined time has elapsed. It is characterized by that.
[0010]
In order to achieve the above object, the second imaging device of the present invention is the first imaging device, wherein the focus monitor mode setting means is the focus In monitor mode The display by the monitor means can be set to a display mode in a mode in which a part of the image related to the video signal is enlarged.
[0011]
In order to achieve the above object, the third imaging device of the present invention is the first imaging device, wherein the focus monitor mode setting means is the focus In monitor mode The display by the monitor means is configured so that a part of the image related to the video signal is enlarged and the area corresponding to the enlargement can be set to a display mode in a mode surrounded by a frame-like pattern. It is characterized by being.
[0012]
In order to achieve the above object, according to a fourth imaging device of the present invention, in the first imaging device, the focus monitor mode setting unit includes the focus. In monitor mode In the display by the monitor means, a predetermined selected portion of the image related to the video signal is enlarged, while a region around the selected portion does not suffer from the enlargement, and the selected portion and the surrounding region are positioned. The display is configured to be able to set to a display mode in such a manner that the enlargement magnification gradually changes in accordance with the display mode and continuously shifts.
[0013]
In order to achieve the above object, according to a fifth imaging device of the present invention, in the first imaging device, the focus monitor mode setting means includes the focus In monitor mode The display by the monitor means is configured to be set to a display mode in a mode in which a predetermined selected portion of the image related to the video signal is enlarged while no region in the image is lost. It is characterized by being.
[0014]
In order to achieve the above object, according to a sixth imaging device of the present invention, in the first imaging device, a signal for obtaining a display in the focus monitor mode set by the focus monitor mode setting means is externally provided. It is characterized by comprising monitor output selection switching means for selectively switching whether to output or to output a signal for obtaining a normal display not depending on the focus monitor mode.
[0015]
In order to achieve the above object, according to a seventh imaging device of the present invention, in the first imaging device, a signal for obtaining a display in a focus monitor mode set by the focus monitor mode setting means is externally provided. A first monitor output means for outputting and a second monitor output means for outputting a signal for obtaining a normal display not depending on the focus monitor mode to the outside. It is characterized by being.
[0022]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
[0023]
FIG. 1 is a block diagram showing the main configuration of an electronic camera 1 according to the first embodiment of the present invention, and FIG. 2 is a view of the electronic camera of this embodiment as viewed from the back side.
[0024]
As shown in FIG. 1, the electronic camera 1 of this embodiment is a system that controls the entire electronic camera, for example, focus control for the taking lens system 2, monitor display control of the LCD monitor 10, and other overall control of the entire system. A controller 11 is provided.
[0025]
Here, the features of the electronic camera of the present embodiment will be briefly described. When autofocus is instructed by an operation to be described later, the system controller 11 performs focus control of the photographing lens system 2 and also displays the monitor on the LCD monitor 10. It is characterized in that control is performed so as to enlarge and display a predetermined portion.
[0026]
Hereinafter, the main configuration and operation of the present embodiment will be described.
First, the configuration of the present embodiment will be described. The electronic camera 1 includes a photographing lens 3 whose focus is adjustable by the focusing unit 22 under the control of the system controller 11, and an imaging element 4 that photoelectrically converts a subject image by the photographing lens 3 to generate a video signal. And an LCD monitor 10 that performs monitor display related to the video signal generated by the image pickup device 4 under the control of the system controller 11.
[0027]
The photographic lens 3 is disposed in the photographic lens system 2 and forms an image by entering a subject image. The image sensor 4 has a shutter function, receives a subject image from the photographic lens system 2, controls the shutter, photoelectrically converts the subject image into a video signal, and outputs the video signal.
[0028]
Further, in the subsequent stage of the image sensor 4, a pre-processing circuit 5 that performs pre-processing such as gain control and sample hold control on the subject image signal from the image sensor 4, and the pre-processing circuit 5 appropriately performs processing. An A / D conversion circuit 6 for A / D converting and outputting a subject image signal and a memory 7 for inputting and storing the subject image signal A / D converted by the A / D conversion circuit 6 are connected.
[0029]
The memory 7 is connected to a D / A conversion circuit 8 that D / A converts and outputs the stored image signal under the control of the system controller 11. Further, the D / A conversion circuit 8 is controlled under the control of the system controller 11. An LCD drive circuit 9 for driving the LCD monitor 10 is connected to display the output image signal of the A conversion circuit 8 on the monitor.
[0030]
On the other hand, an external monitor output terminal 20 is connected to the D / A conversion circuit 8 in order to output the D / A converted image signal stored in the memory 7 to the external monitor 21 (see FIG. 2). .
[0031]
In addition, an operation switch unit 12 including a switch for giving a predetermined instruction to the system controller 11 is provided. As shown in FIG. 2, the operation switch unit 12 is disposed on the back of the camera body, and includes a focus mode switch 13, a lens retraction switch 14 for manual focus, a lens retraction switch 15, and the like. . The operation portions of these switches 14 and 15 are integrated as shown in the figure to form a so-called seesaw switch configuration.
[0032]
The focus mode switch 13 is a switch for switching between an auto focus mode and a manual focus mode. The lens retraction switch 14 and the lens retraction switch 15 are switches for instructing retraction and retraction of the focus lens during manual focus.
[0033]
Connected to the system controller 11 is a two-stage release switch 16 (electrically composed of two switches corresponding to the following 1st release and 2nd release, but is omitted in the figure as one). Has been. The release switch 16 is disposed on the upper surface of the camera body as shown in FIG. The first release at the first stage serves as a predetermined one-shot trigger at the time of focusing, and instructs the system controller 11 to perform an imaging operation at the second release.
[0034]
On the other hand, the subject image in the memory 7 is recorded on the memory card 19 via the compression / decompression circuit 17 and the card I / F 18 under the control of the system controller 11.
[0035]
The system controller 11 controls various circuits as described above, and also includes focus adjustment state recognition means for obtaining recognition corresponding to the focus adjustment state in the photographing lens 3 optical system, an LCD monitor 10 and the like. It serves as a focus monitor mode setting means for setting the display mode of the monitor means to display in the focus monitor mode that depends on the recognition.
[0036]
As shown in FIG. 2, the LCD monitor 10 is a known display unit disposed in the center on the back side of the camera body. Various image processing circuits including a memory 7 are used for subject images captured by the image sensor 4. Display in real time (while updating data repeatedly at a predetermined timing), thereby functioning as an electronic viewfinder (EVF). At this time, a part of the area of the memory 7 is assigned to a buffer area in which a captured image signal is first captured.
[0037]
The signal in this buffer area is subjected to so-called process processing including various image corrections such as gradation correction and color correction, and finally an image to be recorded including so-called electronic zoom enlargement if necessary. At this point, the image is written in the imaging target image area set as an area different from the buffer area in the memory 7. The image signal in this mode is a “subject image in the memory 7” recorded on the memory card 19 under the control of the system controller 11.
[0038]
On the other hand, in the area of the memory 7, a finder image area provided separately from the shooting target image area such as the buffer area is set. That is, the display as an EVF is not only to display the image to be photographed as it is, but also to display the image processed in the display mode in the focus monitor mode, which is the main part of the present invention. This is an area in which an image (which may include no processing) is written. For real-time operation for functioning as the EVF, information is written to, read from, and image processing for process processing and display mode is performed in real time as needed. It is configured as follows.
[0039]
Note that the above three memory areas are set for convenience, and actually, it is not always necessary to set them completely in different areas.
[0040]
In the following description of each embodiment, in order to avoid complicated description, description of processing that is naturally performed in a normal electronic camera that reaches the shooting target image area writing through the above-described process processing will be omitted. That is, in the following, the video signal data captured in the memory 7 via the A / D conversion circuit 6 is directly subjected to appropriate image processing and stored in the memory 7 again, so that the display mode in the focus monitor mode is displayed. Although an image (viewfinder image) is obtained, it is expressed as follows, but this does not eliminate such a signal processing form (generally, in general), but omits the specific video signal processing as described above. It is an expression.
[0041]
On the other hand, an output terminal 20 to the external monitor 21 is disposed at the lower part of one side of the camera body.
[0042]
In FIG. 2, an optical viewfinder eyepiece window 23 (not shown) is provided on the left side of the back of the camera body.
[0043]
Next, the main control mode and operation of the electronic camera of the first embodiment will be described.
The electronic camera 1 according to the present embodiment forms a subject image with the photographing lens 3 that is adjustable in focus by the focusing means 22 under the control of the system controller 11. In addition, a video signal is generated by photoelectrically converting a subject image obtained by the photographing lens 3 with the imaging element 4. Then, preprocessing such as gain control and sample hold control is performed on the video signal generated by the image sensor 4 in the preprocessing circuit 5 and A / D conversion is performed in the A / D conversion circuit 6 to store the video signal data of the subject. 7
[0044]
The video signal data stored in the memory 7 is read by the system controller 11 and appropriately subjected to image processing, and then stored in the memory 7 again. The stored image data is D / A converted by the D / A conversion circuit 8 under the control of the system controller 11. Further, the image is driven by the LCD drive circuit 9 and displayed on the LCD monitor 10 on the monitor.
[0045]
Further, the system controller 11 performs predetermined focus control according to the state of the focus mode switch 13. That is, when the auto focus mode is selected by the focus mode change switch 13, the auto focus control is started by the ON operation of the first release of the release switch 16. At this time, the system controller 11 controls the focusing means 22 to automatically focus the photographing lens 3 based on the video signal data stored in the memory 7 and performs image processing to be described later.
[0046]
On the other hand, when the manual focus mode is selected by the focus mode switch 13, the system controller 11 controls the focusing means 22 to drive the photographing lens 3 in accordance with the operation of the lens retract switch 14 or the lens extend switch 15.
[0047]
As described above, the electronic camera 1 according to the first embodiment displays the LCD monitor 10 when the autofocus mode is selected by the focus mode switch 13 and the autofocus is instructed by the first release of the release switch 16. It is a characteristic.
[0048]
That is, when autofocus is instructed in the autofocus mode, the system controller 11 once reads the video signal data of the subject captured in the memory 7. Thereafter, the video signal data is appropriately subjected to image processing so as to be enlarged at a predetermined magnification (twice in the present embodiment), and is written in the memory 7 again. This image processing is performed by a known electronic scaling process, and specifically, for example, an address change and a complementary process for a corresponding pixel accompanying this change.
[0049]
FIG. 3 is an explanatory diagram showing an example of the monitor display of the LCD monitor 10 during autofocusing in the electronic camera of the first embodiment.
Assume that the image taken into the memory 7 is the image shown on the left side of FIG. Here, when the autofocus mode is set by the focus mode switch 13 and the first release is turned on by the release switch 16, the system controller 11 assumes that autofocus is instructed and doubles the image captured in the memory 7. Is written in the memory 7 again. Further, the enlarged image is displayed on the LCD monitor 10. This is the image shown on the right side in FIG. As shown in the figure, an image that can be actually displayed on the LCD monitor 10 is an image in which the central portion of the original image is enlarged.
[0050]
As described above, in the first embodiment, when autofocus is instructed, the image captured by the system controller 11 in the memory 7 is enlarged and displayed on the LCD monitor 10.
[0051]
Further, after the autofocus operation is finished, the enlarged display image is displayed on the monitor for a certain time, for example, about 3 seconds, and thereafter, the control is performed so as to return to the normal display.
[0052]
Further, when the 2nd release is turned on during the fixed time even during or after the autofocus operation, the enlargement process is canceled and the normal image is restored.
[0053]
This makes it difficult for the photographer to determine whether or not the camera is in focus in a state where no processing is performed, and the monitor display screen of the EVF (LCD monitor 10) is enlarged and displayed on the monitor, which is contrary to the intended one. It is possible to prevent a problem that a state image is captured. Alternatively, it is possible to adjust the in-focus state while observing the image by using the focus lock together. In addition, since the normal image is restored after a predetermined time after the autofocus operation is completed, the photographer can confirm the focused image while confirming the imaging angle of view.
[0054]
As described above, there is a great advantage in enlarging and displaying the monitor image of the LCD monitor 10 at a predetermined magnification at the time of focus control (during auto focus control in the present embodiment). Various aspects are conceivable without being limited to the aspects of the first embodiment, and each has an effect. Hereinafter, an embodiment according to a difference in the aspect of the enlargement process will be described.
[0055]
An electronic camera according to a second embodiment of the present invention will be described.
The electronic camera of the second embodiment has the same configuration as that of the first embodiment described above, and differs only in the mode of enlargement processing at the time of focus control as described above. Therefore, in order to avoid redundant explanation, only the difference is explained here.
[0056]
In the first embodiment, since the subject image is enlarged and uniformly displayed on the entire screen of the LCD monitor 10 during the enlargement process, the peripheral portion of the subject is naturally not displayed. In the second embodiment, As shown in FIG. 4, only the central portion of the display image is enlarged and the peripheral portion displays the same image as usual. Also in the second embodiment, this enlargement process is performed only during the autofocus operation as in the first embodiment.
[0057]
That is, the image captured in the memory 7 is the image shown on the left side of FIG. 4. When the autofocus mode is set by the focus mode switch 13 and the first release is turned on by the release switch 16, the system controller 11 Assuming that the focus is instructed, the enlargement process is doubled only on a predetermined central portion of the image taken into the memory 7 and is written in the memory 7 again. The enlarged image is displayed on the LCD monitor 10. This is the image shown on the right side in FIG.
[0058]
As shown in FIG. 4, in the second embodiment, the enlarged display portion is displayed according to a magnifying glass displayed in superimposition, but this is not restrictive, and various other display methods are used. It may be adopted.
[0059]
According to the second embodiment, since only the central part is enlarged and the peripheral part is displayed normally, the focus state can be confirmed while confirming the angle of view to be captured. In addition, for example, by displaying with an image frame display such as a magnifying glass, there is an effect of reliably recognizing that the image is being partially enlarged. Are clearly separated, and thus have an effect of being easily observed.
[0060]
Next, an electronic camera according to a third embodiment of the present invention will be described.
The configuration of the electronic camera of the third embodiment is the same as that of the first embodiment, and only the mode of enlargement processing at the time of focus control is different as described above. Therefore, in order to avoid redundant explanation, only the difference is explained here.
[0061]
In the first embodiment, the entire screen of the LCD monitor 10 is uniformly enlarged and displayed during the enlargement process. In the third embodiment, however, as shown in FIG. The display is characterized by continuously changing the enlargement ratio. Note that, also in the third embodiment, this enlargement process is performed only during the autofocus operation as in the first embodiment.
[0062]
That is, the image captured in the memory 7 is the image shown on the left side of FIG. 5. When autofocus is instructed as in the above embodiment, the system controller 11 moves the image captured in the memory 7 from the periphery to the center. Although the enlargement ratio is gradually increased, the enlargement process continuously changes (the maximum enlargement magnification is 2), and is written in the memory 7 again. The enlarged image is displayed on the LCD monitor 10. This is the image shown on the right side in FIG.
[0063]
Also in the third embodiment, the central portion is displayed in an enlarged manner, but the peripheral portion is displayed normally, so that the focus state can be confirmed while checking the angle of view to be captured, and the central portion of the image is also displayed. There is an effect that more accurate judgment can be made because there is no missing portion in the display.
[0064]
As described above, the embodiment has been described in which the enlargement process is performed on all or part of the monitor display of the LCD monitor 10 during autofocus, and the focus state is accurately grasped. Next, when the manual focus mode is set, the LCD monitor An embodiment in which a predetermined enlargement process is performed on 10 monitor displays will be described. In this embodiment, the enlargement process itself performs any one of the processes shown in the first to third embodiments.
[0065]
An electronic camera according to a fourth embodiment of the present invention will be described.
The configuration of the electronic camera of the fourth embodiment is the same as that of the first embodiment as long as viewed on the block diagram (see FIG. 1). As described above, the first embodiment performs enlargement processing during autofocus, whereas the fourth embodiment performs enlargement processing similar to the above embodiment when the manual focus mode is set. It is characterized by. Therefore, in order to avoid redundant description, only the control mode and operation will be described here.
[0066]
In the electronic camera 1 of the fourth embodiment, under the control of the system controller 11, a subject image is incident and formed by the photographing lens 3 whose focus is adjustable by the focusing means 22. In addition, a video signal is generated by photoelectrically converting a subject image obtained by the photographing lens 3 with the imaging element 4. Then, preprocessing such as gain control and sample hold control is performed on the video signal generated by the image sensor 4 in the preprocessing circuit 5 and A / D conversion is performed in the A / D conversion circuit 6 to store the video signal data of the subject. 7
[0067]
The video signal data stored in the memory 7 is read by the system controller 11 and appropriately subjected to image processing, and then stored in the memory 7 again. The stored image data is D / A converted by the D / A conversion circuit 8 under the control of the system controller 11. Further, the image is driven by the LCD drive circuit 9 and displayed on the LCD monitor 10 on the monitor.
[0068]
Further, the system controller 11 sets a predetermined focus mode according to the state of the focus mode switch 13. That is, when the manual focus mode is selected by the focus mode changeover switch 13, the system controller 11 sets the manual focus mode and performs image processing to be described later. Further, the focusing means 22 is controlled to drive the photographing lens 3 in accordance with the operation of the lens retracting switch 14 or the lens extending switch 15.
[0069]
On the other hand, when the auto focus mode is selected by the focus mode change switch 13, the auto focus control is started by turning on the first release of the release switch 16. At this time, the system controller 11 controls the focusing means 22 to automatically focus the taking lens 3 based on the video signal data stored in the memory 7.
[0070]
As described above, in the electronic camera 1 of the fourth embodiment, when the manual focus mode is selected by the focus mode changeover switch 13, the display on the LCD monitor 10 is displayed in the first to third embodiments. One of the enlargement processes shown is performed.
[0071]
That is, when the manual focus mode is selected by the focus mode change-over switch 13, the system controller 11 once reads out the video signal data of the subject captured in the memory 7 at this time, and the first through the above-mentioned first through the video signal data. Any one of the enlargement processes shown in the third embodiment is performed and written again in the memory 7. The LCD monitor 10 displays an enlarged display image that has been subjected to enlargement processing under the control of the system controller 11.
[0072]
In the fourth embodiment, the enlargement process is performed on the condition that the manual mode is selected by the focus mode switch 13. The lens retraction switch 14 or the lens retraction switch 15 It is not affected by the operation status.
[0073]
As described above, according to the fourth embodiment, when the manual focus mode is selected, the image on the LCD monitor 10 is enlarged and displayed, so that an accurate focus state can be grasped. In manual focus, the effect of the present invention is more significant than in autofocus in the sense that it is essential for the photographer to visually recognize the focus state during shooting.
[0074]
Next, electronic cameras according to fifth to eighth embodiments of the present invention will be described.
The electronic cameras of the fifth to eighth embodiments have the same configuration as that of the first to fourth embodiments (see FIG. 1). As described above, the fourth embodiment is characterized in that when the manual focus mode is set, the same enlargement process as that in the first to third embodiments is performed. In the fifth to eighth embodiments, as in the fourth embodiment, the enlargement process is performed immediately when the manual focus mode is set. After the enlargement process, a normal image is displayed only for a predetermined period. It is characterized by displaying.
[0075]
Hereinafter, fifth to eighth embodiments having different modes of the predetermined period will be described. In order to avoid redundant explanation, only the difference is explained here.
[0076]
First, similarly to the fourth embodiment, the electronic camera 1 according to the fifth embodiment displays the first to the second on the display of the LCD monitor 10 when the manual focus mode is selected by the focus mode switch 13. One of the enlargement processes shown in the third embodiment is performed. As a result, an enlarged display image that has been enlarged under the control of the system controller 11 is displayed on the LCD monitor 10.
[0077]
Thereafter, when the first trigger of the release switch 16 is turned on, the system controller 11 once returns the monitor display of the enlarged LCD monitor 10 to a normal image. Then, the normal image is displayed until the 2nd trigger is turned on and imaging is performed, and the display is changed to the enlarged display again at the same time as the 2nd trigger is turned on.
[0078]
In the fifth embodiment as well, the enlargement process is not affected by the operation status of the lens retraction switch 14 or the lens retraction switch 15.
[0079]
Thus, according to the fifth embodiment, as in the fourth embodiment, when the manual focus mode is selected, the image on the LCD monitor 10 is enlarged and displayed, so that an accurate focus state can be grasped. Can do. In addition, since a normal image is displayed when the 1st trigger of the release switch 16 is turned on, an effect is obtained in that it is possible to grasp the angle of view captured at the time of imaging by the 2nd trigger.
[0080]
Next, as in the fourth embodiment, when the manual focus mode is selected by the focus mode changeover switch 13, the electronic camera 1 according to the sixth embodiment displays the first through the first displays on the LCD monitor 10. One of the enlargement processes shown in the third embodiment is performed. As a result, an enlarged display image that has been enlarged under the control of the system controller 11 is displayed on the LCD monitor 10.
[0081]
Thereafter, when the first trigger of the release switch 16 is turned on, the system controller 11 once returns the monitor display of the enlarged LCD monitor 10 to a normal image. Then, the 2nd trigger is turned on and an image is taken, and the normal image is displayed until the recording of the image is completed.
[0082]
In the sixth embodiment as well, the enlargement process is not affected by the operation status of the lens retraction switch 14 or the lens extension switch 15.
[0083]
Thus, according to the sixth embodiment, as in the fourth embodiment, when the manual focus mode is selected, the image on the LCD monitor 10 is enlarged and displayed, so that an accurate focus state can be grasped. Can do. In addition, since the normal image is displayed when the first trigger of the release switch 16 is turned on as in the fifth embodiment, it is possible to grasp the angle of view captured at the time of imaging by the 2nd trigger. In addition, since a normal image is displayed until the recording is completed, the photographer can confirm the captured screen and finish the operation.
[0084]
Next, as in the fourth embodiment, when the manual focus mode is selected by the focus mode changeover switch 13, the electronic camera 1 according to the seventh embodiment displays the first through the first displays on the LCD monitor 10. One of the enlargement processes shown in the third embodiment is performed. As a result, an enlarged display image that has been enlarged under the control of the system controller 11 is displayed on the LCD monitor 10.
[0085]
Thereafter, when the first trigger of the release switch 16 is turned on, the system controller 11 once returns the monitor display of the enlarged LCD monitor 10 to a normal image. Then, the normal image is displayed for a predetermined time after the 1st trigger is turned on, and after the predetermined time elapses, the display is changed to enlarged display again.
[0086]
In the seventh embodiment as well, the enlargement process is not affected by the operation status of the lens retraction switch 14 or the lens extension switch 15.
[0087]
Thus, according to the seventh embodiment, as in the fourth embodiment, when the manual focus mode is selected, the image on the LCD monitor 10 is enlarged and displayed, so that an accurate focus state can be grasped. Can do. In addition, since the normal image is displayed for a predetermined time when the first trigger of the release switch 16 is turned on as in the fifth embodiment, it is possible to determine the next operation while grasping the angle of view to be captured. it can.
[0088]
Next, as in the fourth embodiment, the electronic camera 1 according to the eighth embodiment displays the first through the first displays on the LCD monitor 10 when the manual focus mode is selected with the focus mode switch 13. One of the enlargement processes shown in the third embodiment is performed. As a result, an enlarged display image that has been enlarged under the control of the system controller 11 is displayed on the LCD monitor 10.
[0089]
Thereafter, when the 2nd trigger of the release switch 16 is turned on and imaging and recording operations are started, the system controller 11 once returns the monitor display of the LCD monitor 10 displayed in an enlarged manner to a normal image. Then, during this recording operation, a normal image is displayed, and after the operation is completed, the display is changed to enlarged display again.
[0090]
In the eighth embodiment as well, the enlargement process is not affected by the operation status of the lens retraction switch 14 or the lens retraction switch 15.
[0091]
As described above, according to the eighth embodiment, when the manual focus mode is selected as in the fourth embodiment, the image on the LCD monitor 10 is enlarged and displayed, so that an accurate focus state can be grasped. Can do. In addition, since a normal image is displayed during the imaging and recording operations when the 2nd trigger of the release switch 16 is turned on, the photographer can check the angle of view to be captured.
[0092]
As described above, the embodiment in which the enlargement process is performed on all or a part of the monitor display of the LCD monitor 10 when the manual focus mode is set to accurately grasp the focus state has been described. Next, the manual focus mode is set. In this state, an embodiment in which a predetermined enlargement process is performed on the monitor display of the LCD monitor 10 when the manual focusing operation, that is, the lens retraction switch 14 or the lens extension switch 15 is operated will be described. In this embodiment, the enlargement process itself performs any one of the processes shown in the first to third embodiments.
[0093]
An electronic camera according to a ninth embodiment of the present invention will be described.
The configuration of the electronic camera of the ninth embodiment is the same as that of the first embodiment (see FIG. 1). As described above, the fourth embodiment performs the enlargement process shown in the first to third embodiments on the condition that the manual focus mode is set. On the other hand, the ninth embodiment uses the manual process. The enlargement process shown in the first to third embodiments is performed on the condition that the focus mode is set and the focusing operation of the lens retraction switch 14 or the lens retraction switch 15 is performed. Therefore, in order to avoid redundant description, only the control mode and operation will be described here.
[0094]
In the electronic camera 1 according to the ninth embodiment, under the control of the system controller 11, a subject image is incident and formed by the photographing lens 3 that can be adjusted in focus by the focusing means 22. In addition, a video signal is generated by photoelectrically converting a subject image obtained by the photographing lens 3 with the imaging element 4. Then, preprocessing such as gain control and sample hold control is performed on the video signal generated by the image sensor 4 in the preprocessing circuit 5 and A / D conversion is performed in the A / D conversion circuit 6 to store the video signal data of the subject. 7
[0095]
The video signal data stored in the memory 7 is read by the system controller 11 and appropriately subjected to image processing, and then stored in the memory 7 again. The stored image data is D / A converted by the D / A conversion circuit 8 under the control of the system controller 11. Further, the image is driven by the LCD drive circuit 9 and displayed on the LCD monitor 10 on the monitor.
[0096]
Further, the system controller 11 sets a predetermined focus mode according to the state of the focus mode switch 13. That is, when the manual focus mode is selected by the focus mode changeover switch 13, the system controller 11 sets the manual focus mode.
[0097]
Further, when the lens retracting switch 14 or the lens extending switch 15 is operated, the system controller 11 controls the focusing means 22 to drive the photographing lens 3 in accordance with this operation and performs the same enlargement process as described above.
[0098]
On the other hand, when the auto focus mode is selected by the focus mode change switch 13, the auto focus control is started by turning on the first release of the release switch 16. At this time, the system controller 11 controls the focusing means 22 to automatically focus the taking lens 3 based on the video signal data stored in the memory 7.
[0099]
In the electronic camera 1 of the ninth embodiment, as described above, when the manual focus mode is selected by the focus mode switch 13 and the focusing operation of the lens retraction switch 14 or the lens retraction switch 15 is performed. The display on the LCD monitor 10 is subjected to any of the enlargement processing shown in the first to third embodiments.
[0100]
That is, when the manual focus mode is selected with the focus mode switch 13 and the lens retraction switch 14 or the lens retraction switch 15 is operated, the system controller 11 stores the video signal data of the subject captured in the memory 7 at this time. Once read, the video signal data is subjected to any one of the enlargement processes shown in the first to third embodiments, and is written in the memory 7 again. The LCD monitor 10 displays an enlarged display image that has been subjected to enlargement processing under the control of the system controller 11.
[0101]
Thereafter, when these focusing operations are completed, the monitor image of the LCD monitor 10 is returned to a normal image under the control of the system controller 11.
[0102]
As described above, according to the ninth embodiment, since the image on the LCD monitor 10 is enlarged and displayed only when the manual focus mode is selected and focus control is actually performed by manual operation, the photographer can An accurate focus state can be grasped in real time during the focus operation, and after the focus operation, an imaging angle of view can be grasped from a normal image, so that an intended image can be taken.
[0103]
Next, an electronic camera according to a tenth embodiment of the present invention will be described.
The electronic camera of the tenth embodiment has the same configuration as that of the first to ninth embodiments (see FIG. 1), and similarly to the ninth embodiment, the manual focus mode is set, and The enlargement process shown in the first to third embodiments is performed on the condition that the focusing operation of the lens retracting switch 14 or the lens extending switch 15 has been performed. The predetermined time after the end of the focusing operation It is characterized by continuing the enlarged display.
[0104]
Thereby, according to the tenth embodiment, when the manual focus mode is selected and the focus operation by the manual operation is actually performed, and the image on the LCD monitor 10 is displayed for a predetermined time after the focus operation is finished. Since the image is magnified, the photographer can grasp the accurate focus state in real time during the focus operation, and can also grasp the focus state from the enlarged image for a certain period of time after the focus operation. Easy to use. In addition, after a predetermined time has passed, the imaging field angle can be grasped from a normal image as in the ninth embodiment.
[0105]
Next, an electronic camera according to an eleventh embodiment of the present invention will be described.
The electronic camera of the eleventh embodiment has the same configuration as that of the first to ninth embodiments (see FIG. 1), and similarly to the ninth embodiment, the manual focus mode is set, and The enlargement process shown in the first to third embodiments is performed on the condition that the focusing operation of the lens retraction switch 14 or the lens retraction switch 15 has been performed.
[0106]
However, in the eleventh embodiment, even when the focusing operation by the lens retracting switch 14 or the lens extending switch 15 is performed, the actual focusing operation, that is, the photographing lens 3 is not driven by the focusing means 22 immediately. On the other hand, the monitor display of the LCD monitor 10 displays an image corresponding to the focusing operation by the lens retraction switch 14 or the lens retraction switch 15. Then, after a predetermined time has elapsed after the key operation, the photographing lens 3 is driven by the focusing means 22.
[0107]
Thus, according to the eleventh embodiment, when the manual focus mode is selected and the manual focus operation is performed by the lens retraction switch 14 or the lens extension switch 15, first, enlargement processing is performed only on the monitor display of the LCD monitor 10. Thus, since a time delay is given until the actual photographing lens 3 is driven, the photographer can first confirm the focused state of the image when performing the focus operation. Therefore, unnecessary focus driving is not performed. If necessary, focusing driving is performed if the switch is kept pressed. In general, it is extremely difficult to accurately reproduce the in-focus position lost by driving with manual focus, so it is extremely meaningful that unnecessary focus driving is not performed. Further, when the operation is interrupted in the middle of the predetermined time, the motor or the like is not operated, which is advantageous from the viewpoint of power consumption.
[0108]
The electronic cameras according to the first to eleventh embodiments have been described above. In any of these embodiments, enlargement processing is performed on the monitor display of the LCD monitor 10 disposed in the camera body.
[0109]
The technical idea of the present invention is not limited to this, and can be applied to an external monitor 21 (see FIG. 1) outside the camera body. That is, each of the electronic cameras of the above embodiments includes an output unit 20 for the external monitor 21 (see FIG. 1), and this output basically includes a video signal supplied to the LCD monitor 10. An equivalent signal is output.
[0110]
Therefore, image processing as shown in the above embodiments can be performed not only on the LCD monitor 10 but also on the external monitor 21. In this case, the same effect as the above embodiment can be obtained.
[0111]
Further, the LCD monitor 10 can be turned off by using the external monitor 21. In this case, a power saving effect is expected.
[0112]
Further, the LCD monitor 10 can be subjected to the enlarged display image processing as described above, and the external monitor 21 can display a normal image that is not subjected to the enlargement processing.
[0113]
The monitor 21 connected to the outside usually has a sufficient resolution unlike the built-in LCD monitor 10. In this case, since the confirmation of the focus state and the confirmation of the angle of view can be compatible without depending on the signal of a special aspect, the embodiment of this embodiment configured as the signal output aspect as described above is optimal for each monitor. The signal of the aspect can be provided without using the switching means or the like.
[0114]
As yet another aspect, the switching means is used to change the signal mode provided to the LCD monitor 10 and the output 20 for the external monitor 21 to the display mode in the focus monitor mode and the arbitrary mode of the normal mode. Some are arbitrarily selectable. This has the effect that it can take any display mode depending on the will of the photographer, the specifications of the external monitor actually used, and the like.
[0115]
【The invention's effect】
As described above, according to the present invention, it is possible to provide an imaging apparatus in which a photographer can accurately confirm a focus state even when a monitor display unit using electrical processing is used as a finder.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a main configuration of an electronic camera according to first to eleventh embodiments of the present invention.
FIG. 2 is a view of the electronic camera of the first to eleventh embodiments as viewed from the back side.
FIG. 3 is an explanatory diagram illustrating an example of image processing in the electronic camera according to the first embodiment.
FIG. 4 is an explanatory diagram illustrating an example of image processing in the electronic camera according to the second embodiment of the present invention.
FIG. 5 is an explanatory diagram illustrating an example of image processing in an electronic camera according to a third embodiment of this invention.
[Explanation of symbols]
1 ... Electronic camera
2 ... Photography lens system
3 ... Photography lens
4 ... Image sensor
5 ... Pre-processing circuit
6 ... A / D conversion circuit
7 ... Memory
8 ... D / A conversion circuit
9 ... LCD drive circuit
10 ... LCD monitor
11 ... System controller
12 ... Operation switch section
13. Focus mode selector switch
14 ... Lens retraction switch
15 ... Lens extension switch
16 ... Release switch
20 ... Output terminal
21 ... External monitor

Claims (7)

An optical system configured to allow focus adjustment;
An image sensor that generates a video signal by photoelectric conversion of a subject image by the optical system;
Monitor means for obtaining a monitor display related to the video signal generated by the image sensor;
Focus adjustment state recognition means for obtaining recognition corresponding to the focus adjustment state in the optical system;
Focus control means for performing focus control in the optical system;
The display mode by the monitor unit is related to the recognition by the focus adjustment state recognition unit , and is displayed in a normal display in which an image to be photographed is displayed as it is and in a focus monitor mode in which at least a part of the image is enlarged. Focus monitor mode setting means for switching to
Manual focus means for performing manual focus adjustment according to the optical system;
A focusing operation switch for instructing driving of the photographing lens in the manual focus means ,
When the focusing operation switch is operated, the focus monitor mode setting means first switches the display mode by the monitor means to display in the focus monitor mode, while the focus control means is a photographing lens by the manual focus means. The imaging apparatus is configured to be executed when the focusing operation switch is operated even after a predetermined time has elapsed without immediately driving . The focus monitor mode setting means is configured to be able to set the display by the monitor means in the focus monitor mode to a display mode in a mode in which a part of the image related to the video signal is enlarged. The image pickup apparatus according to claim 1, wherein the image pickup apparatus is provided. The focus monitor mode setting means is a mode in which a part of the image related to the video signal is enlarged and a region corresponding to the enlargement is surrounded by a frame-like pattern in the display by the monitor means in the focus monitor mode. The imaging apparatus according to claim 1, wherein the imaging apparatus is configured to be set to a display mode. The focus monitor mode setting means displays the display by the monitor means in the focus monitor mode, while a predetermined selected portion of the image related to the video signal is enlarged, while an area around the selected portion is subjected to the enlargement. In addition, the selected portion and the surrounding area are configured so that the display mode can be set in such a manner that the enlargement magnification gradually changes according to the position and continuously shifts. The imaging apparatus according to claim 1. The focus monitor mode setting means displays the display by the monitor means in the focus monitor mode in such a manner that a predetermined selected portion of the image related to the video signal is enlarged while none of the areas in the image is lost. The imaging apparatus according to claim 1, wherein the imaging apparatus is configured to be set to a display mode.   Whether to output a signal for obtaining a display in the focus monitor mode set by the focus monitor mode setting means to the outside, or to output a signal for obtaining a normal display not depending on the focus monitor mode. 2. The imaging apparatus according to claim 1, further comprising monitor output selection switching means for selection switching. First monitor output means for outputting a signal for obtaining a display in the focus monitor mode set by the focus monitor mode setting means;
A second monitor output means for outputting to the outside a signal for obtaining a normal display not depending on the focus monitor mode;
The imaging apparatus according to claim 1, comprising:

Images