JP4461708B2 - Digital camera - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a digital camera that converts light from an object to be photographed into digital data and stores it.
[0002]
[Prior art]
There is known a digital camera that converts light into an electric signal by an optical sensor such as a CCD, converts the electric signal into digital data, and stores it in a storage medium such as a flash memory. In a digital camera, image data can be stored and various processes can be easily performed by an individual using a personal computer or the like, and a picture can be printed without developing the film by outputting the image data to a printer. In addition, with the improvement of the printing quality of printers, it has become possible to print high-quality photos that are almost indistinguishable from silver halide photos.
[0003]
[Problems to be solved by the invention]
The digital camera as described above has many functions, and it is desirable that the user can set many items according to his / her preference. However, in order to enable the user to change the setting quickly, it is necessary to provide a large number of input means such as buttons. In this case, it is difficult to know what function is assigned to which button. In addition, since one button is small, there is a problem that it is difficult to press accurately.
For example, it is possible to reduce the number of buttons by displaying a menu screen on a display unit such as a liquid crystal display (LCD) and selecting setting contents by a combination of a selection button and a determination button. There is a problem that the operation becomes complicated and takes time.
On the other hand, when a menu screen is displayed on the display unit and processing to be executed is selected by a combination of the selection button and the determination button, the user's finger may block the display unit when operating these buttons. Therefore, it is necessary to repeatedly bring the finger close to and away from the vicinity of the display unit, and there is a problem that operability is degraded.
[0004]
The present invention has been made to solve the above problems, and an object thereof is to provide a digital camera capable of changing various settings with a simple operation.
Another object of the present invention is to provide a digital camera that can improve the operability of the input means.
[0005]
[Means for Solving the Problems]
According to the digital camera of the present invention, an imaging unit that converts light from an imaging target into image data and a display unit that displays image data, displaying different setting information depending on the mode,
A display unit that displays one of a plurality of options for each setting information, an input unit that is arranged outside the screen of the display unit and is used for changing the options for each setting information displayed on the display unit, and is displayed on the display unit A control unit that performs control according to options for each setting information, and the display unit is a digital camera that circulates and displays a plurality of options of setting information each time the input unit is operated. Has a first input means for displaying the date / time setting screen on the display unit, and displays a mark indicating a correctable portion of the displayed date / time on the setting screen for input. The means further includes second input means for increasing the number of the correctable part and third input means for decreasing the number of the correctable part.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 3 is a block diagram for explaining the structure of the digital camera 10 according to an embodiment of the present invention. The digital camera 10 includes a control unit 11, a condensing lens 12, a CCD (Charge Coupled Device) 13 as an imaging unit, an A / D converter 14, a RAM (Random Access Memory) 15 for temporarily recording image data, and a compression. A memory card 16 on which the recorded image data can be recorded, a card slot 20 on which the memory card 16 is removable, a liquid crystal display (LCD) 21 for displaying an image, and a VRAM 18 for storing data for an image displayed on the LCD 21 The interface 19 for outputting the data in the memory card 16 to an external device is configured.
[0013]
The control unit 11 includes a CPU and data input / output means, and performs various controls of the digital camera 10 by executing a control program. The condenser lens 12 is provided with a diaphragm 121 for adjusting the amount of light input to the condenser lens 12. By using the CCD 13 in which a plurality of imaging elements having complementary color filters of C (Cyan), M (Magenta), Y (Yellow), and G (Green) are arranged in a matrix as the CCD 13, a color image is taken. Can do. The complementary color filter may have three colors of C, M, and Y. A CCD having primary color filters of R (Red), G (Green), and B (Blue) may be used. As the RAM 15, an S-DRAM (Synchronous Dynamic RAM) having a self-refresh function is used.
[0014]
The memory card 16 has image data recorded in a flash memory or the like, which is a rewritable storage medium that can hold the recorded contents without being energized, and is detachably attached to the card slot 20 of the digital camera 10. . By using, for example, a memory card conforming to the PCMCIA standard or a memory card that can be attached to a PCMCIA card adapter as the memory card 16, the contents of the memory card 16 can be directly read and written by a personal computer having a PCMCIA card slot.
[0015]
1 and 2 are a rear view and a plan view showing a digital camera 10 of the present embodiment. The digital camera 10 is photographed when the user determines a photographing range with the LCD 21 or the optical viewfinder 110 as a viewfinder and presses the shutter button 101. The control unit 11 can distinguish and recognize “half press” in which the shutter button 101 is pressed halfway in the movable range and “full press” in which the shutter button 101 is pressed to the limit of the movable range or near the limit. The user can select the “viewfinder mode” as the first shooting mode, “LCD mode”, “Off”, and “playback mode” as the second shooting mode by using the mode switching dial 102 for switching the operation mode of the digital camera. , “Direct Print Mode”, and “Setup Mode” are selected from one of the six modes.
[0016]
The “viewfinder mode” is a mode in which photographing is performed mainly using the optical viewfinder 110 in order to save power consumption of the digital camera 10. The “LCD mode” is a mode in which shooting is performed mainly using the LCD 21 as a viewfinder. The “playback mode” is a mode for displaying an image based on image data that has already been shot and recorded in the memory card 16. The “direct print mode” is a mode for printing an image by connecting the digital camera 10 to an external printer via the interface 19. The “setup mode” is a mode for performing various settings such as shooting conditions of the digital camera 10. When the mode switching dial 102 is set to the “Off” position, the digital camera 10 is turned off.
[0017]
Around the LCD 21, input keys 103 to 109 as input means are provided. The control unit 10 executes a control program corresponding to the selected mode. The input of the shutter button 101 and the input keys 103 to 109 by the user is detected, and control corresponding to the input is performed. Further, an image quality selection button 111, a strobe selection button 112, and a mode selection button 113 are provided on the top of the digital camera 10. When the image quality selection button 111 is pressed, the recording image quality is changed by changing the compression rate or the number of pixels of the image data. When the strobe selection button 112 is pressed, the light emission mode of the strobe can be selected from “automatic light emission control”, “always light emission”, and “always no light emission”. By pressing the mode selection button 113, it is possible to switch between “normal shooting mode”, “close-up shooting mode”, “enlarged shooting mode”, “panoramic shooting mode”, and the like. The contents set by the selection buttons 111, 112, 113 are displayed on the segment type LCD 114.
[0018]
The input means includes a first input means having input keys 103, 104, 105, 106 arranged in a direction parallel to the axis of the shutter button 101, and a direction perpendicular to the direction in which the first input means is arranged. It is comprised from the 2nd input means which has the input keys 107, 108, and 109 arrange | positioned in.
[0019]
The first input means is disposed along the LCD 21 on the side of the LCD 21 on the shutter button 102 side. The input keys 103, 104, 105, and 106 constituting the first input means are located below the shutter button 102 shown in FIG. On the other hand, the second input means is disposed along the LCD 21 at the end opposite to the shutter button 102 across the LCD 21. The input keys 107, 108 and 109 constituting the second input means are arranged along the lower end portion of the LCD 21 shown in FIG.
[0020]
That is, the first input means is disposed along the short side of the rectangular LCD 21, and the second input means is disposed along the long side of the LCD 21. The first input means is operated with the hand pressing the shutter button 102, and the second input means is operated with the other hand. Therefore, the hands that operate the first input means and the second input means do not cross on the LCD 21, and one hand does not hinder the movement of the other hand.
[0021]
Next, the operation of the digital camera 10 of this embodiment will be described.
When the mode switching dial 102 is set to the “Setup” position, the digital camera 10 enters the setup mode, and a screen including a plurality of setting information related to the digital camera 10 as shown in FIG. .
[0022]
When the input key 103 provided near the position where the date / time is displayed on the LCD 21 is pressed, the display on the LCD 21 is switched as shown in FIG. 4B, and the date and time can be corrected. The item to be corrected is selected with the input keys 108 and 109, and the numerical value is increased or decreased with the input keys 104 and 105. When the input key 103 or 107 is pressed, the screen shown in FIG.
[0023]
When the screen shown in FIG. 4A is displayed and the input key 104 provided near the position where the setting related to the viewfinder mode is displayed, the screen shown in FIG. 4C is displayed. The viewfinder mode setting switches from “Custom” to “Auto”. When the input key 104 is pressed again, the screen shown in FIG. 4A is displayed, and the viewfinder mode setting is switched from “auto” to “custom”. That is, every time the input key 104 is pressed, the setting of the viewfinder mode is alternately switched between “custom” and “automatic”.
[0024]
Similarly, when the input key 105 provided near the position where the setting related to the LCD mode is displayed in the state where the screen shown in FIG. 4A is displayed, the LCD is displayed every time the input key 105 is pressed. In the mode setting, “ME / MF” shown in FIG. 4A and “AE / AF” shown in FIG. 5D are alternately switched. The “ME / MF” mode is a mode in which the user manually sets exposure and focus, and the “AE / AF” mode is a mode in which the control unit 11 automatically sets exposure and focus.
[0025]
When the screen shown in FIG. 4A is displayed, when the input key 107 provided near the position where the characters “other setting” are displayed is pressed, the screen shown in FIG. And another setting information is displayed. On this screen, pressing the input key 103 selects whether energy saving is set or not. By pressing the input keys 104 and 105, exposure is corrected. By pressing the input key 106, the language of characters displayed on the LCD is selected. By pressing the input key 108, it is selected whether or not recording is performed during shooting. By pressing the input key 109, it is selected whether or not an electronically synthesized shutter sound is generated when the shutter button 101 is pressed. When the input key 107 is pressed, the setting screen shown in FIG.
[0026]
When the mode switching dial 102 is set to the “Play” position, the playback mode is set, and a captured image based on the image data in the memory card 16 is displayed on the LCD 21. In addition, a menu screen as shown in FIG. 6F is displayed over the captured image. The display / non-display of the menu screen can be switched by pressing the input key 107.
[0027]
When the input key 103 is pressed while the screen shown in FIG. 6F is displayed, the “manual playback mode” is switched to the “slide playback mode” shown in FIG. When the input key 103 is pressed while the screen shown in FIG. 6G is displayed, the “slide playback mode” is switched to the “enlarged / scroll playback mode”. When the input key 103 is pressed while the screen shown in FIG. 6H is displayed, the mode is switched from “enlarged / scroll playback mode” to “manual playback mode”.
[0028]
In the “manual playback mode” shown in FIG. 6F, the number of images recorded on the memory card 16 and the number of images currently displayed on the LCD 21 are, for example, “12/32”. Displayed in the form. When the input key 104 is pressed, the previous image is displayed in the storage order in the memory card 16, and when the input key 105 is pressed, the next image is displayed. When the input key 106 is pressed, the image data can be locked to prevent the image data from being deleted by mistake. When the input key 106 is pressed again, the lock is released. When the input key 108 is pressed, the number of images to be displayed on one screen of the LCD 21 can be selected. For example, every time the input key 108 is pressed, the display of 1 image, 2 × 2 4 images, and 3 × 3 9 images circulates and switches. When the input key 109 is pressed, the image data can be deleted. A confirmation screen is displayed asking if you really want to delete before deleting.
[0029]
In the “slide playback mode” shown in FIG. 6G, slide playback is started by pressing the input key 106, and a plurality of images can be displayed continuously. It is suitable for making a presentation by connecting the digital camera 10 to a television or the like. By pressing the input key 104, it is possible to set how many seconds one image is displayed. By pressing the input key 105, an image displayed by slide reproduction can be selected. By pressing the input key 108, the playback order can be switched between the forward direction and the reverse direction. By pressing the input key 109, display / non-display of shooting information such as date and time can be switched.
[0030]
In the “enlargement / scroll mode” shown in FIG. 6H, a line for dividing the image displayed on the LCD 21 into 4 × 4 areas is displayed, and a selection frame surrounding the 2 × 2 area is displayed. The By pressing the input keys 104, 105, 108, and 109, the area surrounded by the selection frame can be moved, and by pressing the input key 106, the selected area can be enlarged and displayed on the entire screen of the LCD 21.
[0031]
When the mode switching dial 102 is set to the “SH1” position, the viewfinder mode as the first shooting mode is set.
When the viewfinder mode is set to “automatic” in the setup mode, the LCD 21 is not energized and the LCD 21 is not displayed. Normally, the CCD 13 is not energized, and when the user presses the shutter button 101 halfway, the operation of the CCD 13 starts. The control unit 11 automatically sets the exposure, the focus, the white balance, and the like. Done. Exposure is determined by shutter speed and aperture. The user determines the shooting range using the optical viewfinder 110. However, when any one of the close-up shooting mode, the enlarged shooting mode, and the panoramic shooting mode is selected by the mode switching button 113, it is desirable that the shooting range can be accurately confirmed. The light condensed on the CCD 13 by the condenser lens 12 every second is converted into an electrical signal, converted into digital image data, transferred to the VRAM 18, and the photographing object is displayed on the LCD 21 as a moving image.
[0032]
When the setting of the viewfinder mode is “custom” in the setup mode, the screen shown in FIG. In the initial state, the white balance is automatically set. When the input key 104 in the vicinity of the position where the white balance setting is displayed is pressed, the screen is switched to the screen shown in FIG. 7J, and the previously set white balance setting is used. When the input key 104 is pressed while this screen is displayed, the screen is switched to the screen shown in FIG. When the input key 105 near the position where “NO” is displayed is pressed, the screen returns to the screen shown in FIG. Here, when the input key 104 is pressed again, the screen is switched to the screen shown in FIG. 7I, and the white balance is automatically set. When the input key 106 in the vicinity of the position where “YES” is displayed in the state where the screen shown in FIG. 7K is displayed, the screen is switched to a screen where the user can set the white balance.
[0033]
When the screen shown in FIG. 7I is displayed, the flash mode of the strobe is fixed to automatic setting, and is not changed even if the strobe selection button 112 is pressed. When the input key 105 near the position where the setting relating to the strobe is displayed is pressed, the screen changes to the screen shown in (L) of FIG. 8, and the flash mode of the strobe can be changed.
[0034]
In the vicinity of the input key 106, an exposure correction setting is displayed. Pressing the input key 106 switches to another selection screen on which all exposure correction options are displayed as shown in FIG. 8M, and pressing the input keys 104 and 105 causes the control unit 11 to automatically It is possible to determine how much to change from the exposure determined automatically. Pressing the input key 107 returns to the original screen.
By pressing the input key 108, it is possible to select whether the image is recorded in color or black and white. By pressing the input key 109, it is determined whether to shoot with standard sensitivity or with high sensitivity. You can choose.
[0035]
When the user half-presses the shutter button 101 of the digital camera 10, appropriate exposure and focus are set for the image recognized by the CCD 13, and the exposure and focus are fixed while the shutter button 101 is half-pressed.
[0036]
When any one of the close-up shooting mode, the enlarged shooting mode, and the panoramic shooting mode is selected, as in the case of “automatic”, the condenser lens 12 is used every several seconds to several tens of seconds. The light condensed on the CCD 13 is converted into an electrical signal, converted into digital image data, transferred to the VRAM 18, and the subject to be photographed is displayed on the LCD 21 as a moving image. The menu screens shown in FIGS. Overlaid on the screen.
[0037]
When the user fully presses the shutter button 101, shooting is started and image data is created.
First, all the charges accumulated in the CCD 13 are once discharged, and then the light collected by the condenser lens 12 is input to the CCD 13. In the CCD 13, the light is converted into a charge corresponding to the amount of light. The electrical signal output from the CCD 13 is converted into a digital signal by the A / D converter 14. The digital data output from the A / D converter 14 is transferred by directly specifying the address of the RAM 15 without going through the control unit 11 by DMA (Direct Memory Access) for speeding up.
[0038]
The data transferred from the CCD 13 has only information corresponding to one color per pixel. Therefore, for the data recorded in the RAM 15, the C, M, Y, and G color information is interpolated for each pixel based on the color information of the surrounding pixels, for example, image data having color information for each pixel of 1280 × 960 pixels. Create
[0039]
Next, in order to increase the number of recordings to the memory card 16, compression is performed by a lossy compression method according to the JPEG (Joint Photographic Experts Group) standard to generate compressed data with a small capacity. JPEG is a commonly used color image compression method, and the storage image quality can be adjusted by changing the compression rate. JPEG compression is performed by software by the control unit 11, and a dedicated circuit can be used for speeding up. The compressed data subjected to JPEG compression is recorded on the memory card 16.
[0040]
When the mode switching dial 102 is set to the “SH2” position, the LCD mode is the second shooting mode, and the shooting target is displayed on the LCD 21 as a moving image.
When “AE / AF” is selected in the setup mode, a screen as shown in FIG. 9 (N) is displayed over the moving image on the LCD 21.
[0041]
In the screen shown in (N) of FIG. 9, the magnification mode is set, and each time the input key 103 near the position where the magnification is displayed is pressed, the magnification is displayed, for example, “× 1.25”. , “× 1.6” and “× 2.0” are switched in a circulating manner, and an enlargement magnification can be set. The moving image of the shooting range corresponding to the enlargement ratio is displayed on the LCD 21.
[0042]
When the input key 105 is pressed while the screen shown in FIG. 9N is displayed, the screen shown in FIG. 9O is displayed, and the AE / AF metering mode is set to the center from the spot metering mode. Switches to the priority metering mode. When the input key 105 is pressed while the screen shown in FIG. 9O is displayed, the center-weighted metering mode is switched to the spot metering mode.
The operation when the input keys 104, 106, 108, 109 are pressed is the same as when “custom” is selected in the viewfinder mode described above.
[0043]
When “ME / MF” is selected in the setup mode, a screen as shown in FIG. 10 (P) is displayed over the moving image on the LCD 21.
The user can manually change the focal length by pressing the input keys 104 and 105 near the position where the focal length of the digital camera 10 is displayed. Therefore, it is possible to take a picture with intentionally shifting the focus, the so-called “front focus” in which the subject is in front, or the “rear focus” in which the subject is in focus later.
[0044]
When the input key 108 provided near the position where the shutter speed is displayed is pressed, the shutter speed can be selected from 1/2, 1/30, 1/125, and 1/750, for example. In addition, as shown in (Q) of FIG. 10, it is possible to select an aperture priority shutter speed determined by the control unit 11 so that an appropriate shutter speed is obtained when the aperture is fixed to a set aperture.
[0045]
When the input key 106 provided near the position where the aperture is displayed is pressed, the aperture can be selected from, for example, F2.4, F8, and F16. In addition, as shown in FIG. 10 (R), it is also possible to select a shutter speed priority aperture that is determined by the control unit 11 so that an appropriate aperture is obtained when the shutter speed is fixed.
[0046]
When the user fully presses the shutter button 101, shooting is started, image data is created in the same procedure as in the viewfinder mode, and JPEG compressed data is recorded in the memory card 16. Although it may take several seconds to several tens of seconds from the start of recording of image data to the memory card 16 to completion, an image based on the image data continues to be displayed on the LCD 21 during that time.
[0047]
When the mode switching dial 102 is set to the “DP” position, the direct print mode is set. When the digital camera 10 is connected to an external printer and the user operates the input keys 103 to 109, a photographed image can be selected and printed.
[0048]
When the digital camera 10 of the present embodiment is used, it can be operated as follows.
As shown in FIG. 11, the user's right hand 2 holds the digital camera 10 on one side, the index finger 2b can press the shutter button 102, and the thumb 2a is input keys 103, 104, 105, 106. Can be operated. The digital camera 10 is held by the remaining middle finger, ring finger, and little finger (not shown).
On the other hand, the user's left hand 3 holds the digital camera 10 at the other end, and the thumb 3a can operate the input keys 107, 108, and 109.
[0049]
The input keys 103 to 109 of the digital camera 10 are distinguished from a set of input keys 103, 104, 105 and 106 operated with the user's right hand 2 and a set of input keys 107, 108 and 109 operated with the left hand 3. Thus, it is possible to prevent the user's right hand 2 and left hand 3 from crossing over the LCD 21 and preventing one hand from obstructing the movement of the other hand. Therefore, when the operation is performed while looking at the LCD 21 as in the digital camera 10 of the present embodiment, the display on the LCD 21 is not blocked by the hand operating the input key, and the operability of the digital camera 10 can be improved.
[0050]
That is, in the digital camera 10 of this embodiment, it is necessary to operate the input keys 103 to 109 while looking at the LCD 21. Therefore, it is necessary to arrange the input keys 103 to 109 at positions where they can be easily operated. In general, since the user operates the shutter button 102 with the index finger 2b of the right hand 2, the thumb 2a is positioned on the back of the digital camera 10, that is, on the surface of the LCD 21. Therefore, by arranging the input keys 103, 104, 105, 106 of the first input means on the side of the LCD 21 on the shutter button 102 side, these operations can be easily and smoothly performed with the thumb 2a of the right hand 2. . Further, by disposing the input keys 107, 108, and 109 as the second input means operated with the left hand 3, even if the number of input keys increases, these operations can be performed easily and smoothly. .
[0051]
Also, by separating the input keys 103, 104, 105, 106 for operating the input keys 103 to 109 with the right hand 2 and the input keys 107, 108, 109 for operating with the left hand 3, the right hand 2 and the left hand 3 are input. There is no interference during key operation. Therefore, even if a small LCD 21 is used, the display on the LCD 21 can be easily recognized.
[0052]
As described above, according to the digital camera of the present invention as described in the embodiment, when changing a setting with a small number of options, such as a setting for selecting whether to shoot in black and white or color, one input key is pressed. Settings can be changed simply by pressing, and operation is easy. Furthermore, since each input key is provided in the vicinity of each setting content displayed on the LCD, it is easy to understand which setting is changed when which key is pressed. When there are many choices such as setting the date, another screen is displayed for setting. Moreover, it is easier to select if all options are displayed and selected from among them as in the exposure setting.
[Brief description of the drawings]
FIG. 1 is a plan view showing a digital camera according to an embodiment of the present invention.
FIG. 2 is a rear view showing a digital camera according to an embodiment of the present invention.
FIG. 3 is a block diagram illustrating a digital camera according to an embodiment of the present invention.
FIG. 4 is a diagram illustrating an input key of a digital camera according to an embodiment of the present invention and a screen displayed on an LCD in a setup mode.
FIG. 5 is a diagram showing input keys of a digital camera according to an embodiment of the present invention and a screen displayed on the LCD in a setup mode.
FIG. 6 is a diagram showing input keys of a digital camera according to an embodiment of the present invention and a screen displayed on the LCD in the playback mode.
7 is a diagram showing input keys of a digital camera according to an embodiment of the present invention and a screen displayed on the LCD in a viewfinder mode. FIG.
FIG. 8 is a diagram illustrating an input key of a digital camera according to an embodiment of the present invention and a screen displayed on the LCD in a viewfinder mode.
FIG. 9 is a diagram illustrating an input key of a digital camera according to an embodiment of the present invention and a screen displayed on the LCD in the LCD mode.
FIG. 10 is a diagram illustrating an input key of a digital camera according to an embodiment of the present invention and a screen displayed on the LCD in the LCD mode.
FIG. 11 is a schematic diagram illustrating a state in which a digital camera according to an embodiment of the present invention is operated.
[Explanation of symbols]
10 Digital camera
11 Control unit
13 CCD (imaging part)
21 Liquid crystal display (LCD, display unit)
101 Shutter button
103, 104, 105, 106 Input key (first input means)
107, 108, 109 Input keys (second input means)

Claims (1)

A rectangular display on the back of the housing;
A shutter button provided on the upper surface of the housing and provided on the right side of the center of the display unit;
A plurality of first buttons provided along the right side of the display unit in the vicinity of the display unit;
A plurality of second buttons provided along the lower side of the display unit in the vicinity of the display unit;
A display control unit for displaying setting items in the vicinity of at least some of the first button and the second button of the display unit;
Display control so that when the first button is operated, a menu including all options for accepting a change in setting according to the setting item displayed in the vicinity of the operated button is displayed on the display unit. Control the part
A setting changing unit that changes the setting according to the option selected using the first button when the second button is operated while the menu is displayed, and ends the display of the menu ;
An imaging unit that converts light from an imaging target into image data in response to an operation of the shutter button;
A digital camera comprising:

Images