Patent Publication Number: US-8115853-B2

Title: Digital camera having input devices and a display capable of displaying a plurality of set information items

Description:
The present application is a divisional of U.S. patent application Ser. No. 12/334,265, filed on Dec. 12, 2008, which is a divisional of U.S. patent application Ser. No. 10/947,283, filed on Sep. 23, 2004, now abandoned, which is a continuation of U.S. patent application Ser. No. 09/549,167, filed on Apr. 13, 2000, which issued as U.S. Pat. No. 6,952,229, on Oct. 4, 2005. The above-referenced U.S. patent applications claim the benefit of Japanese Patent Application Nos. 2000-90663, filed on Mar. 29, 2000; P.HEI. 11-105285, P.HEI. 11-105277, and P.HEI. 11-105124, filed on Apr. 13, 1999. The entire disclosures of the prior applications are hereby incorporated by reference in their entirety. 
    
    
     BACKGROUND OF THE INVENTION 
     1. Field of the Invention 
     The present invention relates to a digital camera which converts light from an object to be photographed, into digital data, and stores the digital data. 
     The present application is based on Japanese Patent Application Nos. Hei. 11-105277, Hei. 11-105285, Hei. 11-105124, and 2000-90663, which are incorporated herein by reference. 
     2. Description of the Related Art 
     There is known a digital camera which converts light into an electric signal by an optical sensor, such as a CCD or the like, and further converts the electric signal into digital data so as to be stored in a storage medium, such as a flash memory or the like. The digital camera permits saving of image data and a variety of processes to easily and personally be performed by using a personal computer or the like. Moreover, a photograph can be printed by outputting image data to a printer without a necessity for performing development of a film. Since the print quality of the printer has been improved, a photograph having excellent quality which cannot substantially be distinguished from a film photograph can be printed. 
     It is preferable that the digital camera has a multiplicity of functions to permit a user to set a multiplicity of required items. To enable the user to quickly change the setting, a multiplicity of input devices, such as buttons etc., must be provided. In the foregoing case, assignment of the functions to the buttons cannot easily be understood by the user. Since the size of each button is undesirably reduced, there arises a problem in that the button cannot easily be depressed. 
     It might be feasible to employ a structure for reducing the number of buttons such that a menu screen is displayed on a display unit, such as a liquid crystal display (LCD) unit, to permit a process which must be executed to be selected in accordance with combination of the selected button and a decision button. In the foregoing case, there arises another problem in that the required operation becomes too complicated and an excessively long time is required. 
     When the menu screen is displayed on the display portion to select a process which must be executed in accordance with the combination of the selected button and the decision button, there is apprehension that the finger of the user undesirably covers the display portion when the button is operated. Therefore, the operation for causing the finger to approach the display portion and move away from the display must be repeated. Thus, there arises a problem in that the operability deteriorates. 
     SUMMARY OF THE INVENTION 
     To solve the foregoing problems, an object of the present invention is to provide a digital camera which is capable of changing a variety of settings by a simple operation. 
     Another object of the present invention is to provide a digital camera with which the operability of input devices can be improved. 
     According to the first, tenth or seventeenth aspect of the present invention, there is provided a digital camera which comprises a plurality of input devices respectively disposed adjacent to a plurality of set information items displayed on a display portion. Therefore, the input devices can be operated while the set information items displayed on the display portion are being observed. Accordingly, it follows that the location of the input portion which is used when the setting of the digital camera is changed can easily be detected, and therefore, the setting can be changed by performing a simple operation. 
     According to the second, eighth, or fifteenth aspect of the present invention, the input devices may include a plurality of first input devices disposed along a periphery of the display portion in a direction which is in parallel with an axial line of the shutter button, and a plurality of second input devices disposed in a direction perpendicular to the direction of the first input devices. The first input devices and the second lo input devices are disposed perpendicular to each other. Accordingly, there is no apprehension that the fingers of the user intersect in the vicinity of the display portion when the digital camera is operated and that the operation of either finger obstructs the operation of another finger. Hence, it follows that the operability of the input devices can be improved. 
     According to the third, ninth, or sixteenth aspect of the present invention, the first input devices may be disposed along a first side surface of the display portion adjacent to the shutter button, and the second input devices may be disposed along a second side surface of the display portion opposite to a third side surface of the display portion adjacent to the shutter button, across the display portion. In general, a user operates the shutter button with the forefinger. Therefore, when, for example, the shutter button is operated with the right hand, an operation is permitted such that the thumb of the right hand operates the first input devices and the thumb of the left hand operates the second input&#39; devices. That is, an operation of the input devices is permitted such that the thumbs of the right and left hands are used to operate the input devices in a state where the middle, third and little fingers of the right and left hands are holding the digital lo camera. At this time, the thumbs of the right and left hands do not obstruct the upper surface of the display portion. Moreover, the thumbs do not intersect each other and obstruct the operation. Accordingly, the input devices can be operated while the display portion is being observed. Moreover, the operability of the input devices can be improved. 
     According to the fourth, eleventh, or eighteenth aspect of the present invention, the plurality of set information items may include at least one kind of set information of shutter speed, aperture, white balance, and flash. Accordingly, the photographing conditions can quickly be changed by performing a simple operation. 
     According to the fifth or twelfth aspect of the present invention, a plurality of contents of the set information items may be circularly changed whenever input to the input devices is performed. Accordingly, one setting item can be changed without using a plurality of the input devices, and therefore, the operation can easily be performed. Incidentally, it is preferable that the number of the contents of set information which is circularly changed is four or less. 
     According to the sixth, thirteenth, or nineteenth aspect of the present invention, the display portion is capable of displaying an image io in accordance with the image data. Therefore, the display can be used as a finder when the photograph operation is performed and the photographed image. can be confirmed on the spot. 
     According to the seventh aspect of the present invention, there is provided a digital camera which comprises an image pickup portion which converts light from an object to be photographed, into image data, a display portion capable of displaying at least one of setting screens including a plurality of set information items, a displaying device which displays one type of a plurality of types of the setting screens on the display portion, a plurality of input devices, and a changing device which changes at least one of the set information items in accordance with input to at least one of the input devices. Accordingly, when one set information is changed, simple input to one input device is required, and therefore, the operation can easily be performed. Since the role of the input devices is changed in accordance with the setting screen of the plural types of setting screens, a multiplicity of settings can be changed in spite of a small number of input devices. 
     According to the fourteenth aspect of the present invention, there is provided a digital camera in which a plurality of alternatives are circularly displayed whenever input to the input devices is performed when the number of the alternatives of the set information items is not larger than a predetermined number. Accordingly, use of a plurality of the input devices is not required when one setting is changed, and is therefore, the operation can easily be performed. It is preferable that the number of the alternatives which are circularly displayed is four or less. When the number of the alternatives of set information is larger than a predetermined number, another selection screen is displayed on the display portion. Therefore, increase in the number of input operations causing the operation to be made complicated can be prevented. 
     According to the twentieth aspect of the present invention, the selection screen displayed owing to input to the input devices displays all of the alternatives of the set information items. Therefore, permitted alternatives can easily be understood by a user. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         FIG. 1  is a rear view showing a digital camera  5  according to an embodiment of the present invention; 
         FIG. 2  is a top view showing the digital camera according to the embodiment of the present invention; 
         FIG. 3  is a block diagram showing the digital camera according to the embodiment of the present invention; 
         FIGS. 4(A) to 4(C)  are diagrams showing input keys of the digital camera according to the embodiment of the present invention and a screen displayed on the LCD in a setup mode; 
         FIGS. 5(D) and 5(E)  are diagrams showing the input keys of the digital camera according to the embodiment of the present invention and a screen displayed on the LCD in the setup mode; 
         FIGS. 6(F) to 6(H)  are diagrams showing the input keys of the digital camera according to the embodiment of the present invention and a screen displayed on the LCD in a playback mode; 
         FIGS. 7(I) to 7(K)  are diagrams showing the input keys of the digital camera according to the embodiment of the present invention and a screen displayed on the LCD in a view finder mode; 
         FIGS. 8(L) and 8(M)  are diagrams showing the input keys of the digital camera according to the embodiment of the present invention and a screen displayed on the LCD in the view finder mode; 
         FIGS. 9(N) and 9(O)  are diagrams showing the input keys of the digital camera according to the embodiment of the present invention and a screen Io displayed on the LCD in a LCD mode; 
         FIGS. 10(P) to 10(R)  are diagrams showing the input keys of the digital camera according to the embodiment of the present invention and a screen displayed on the LCD in the LCD mode; and 
         FIG. 11  is a schematic view showing a state where the digital camera according to the embodiment of the present invention is operated. 
     
    
    
     DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT 
     An embodiment of the present invention will now be described with reference to the drawings. 
       FIG. 3  is a block diagram showing the structure of a digital camera  10  according to the embodiment of the present invention. The digital camera  10  includes a control portion  11 , a converging lens  12 , a CCD (Charge Coupled Device)  13  serving as an image pickup portion, an A/D converter  14 , a RAM (Random Access Memory)  15  in which image data is temporarily recorded, a memory card  16  in which compressed image data can be recorded, a card slot  20  into which the memory card  16  can be inserted and from which the same can be removed, a liquid crystal display unit (LCD)  21  for displaying an image, a VRAM  18  in which data for the image which is displayed on the LCD  21  is stored and an interface  19  for outputting data in the memory card  16  to an external unit. 
     The control portion  11  includes a CPU and a device for inputting/outputting data to execute a control program to perform a variety of control operations of the digital camera. 
     The converging lens  12  is provided with a diaphragm  121  for adjusting the quantity of light which is input to the converging lens  12 . When the CCD  13  is a CCD  13  having a structure that a plurality of image pickup devices having complementary-color filters C (Cyan), M (Magenta), Y (Yellow) and G (Green) are disposed in a matrix configuration, a color image can be photographed. The complementary-color filters may be C, M and Y filters. A CCD including primary color filters in R (Red), G (Green) and B (Blue) is sometimes employed. The RAM  15  is an SDRAM (Synchronous Dynamic RAM) having a self refreshing function. 
     The memory card  16  includes a flash memory or the like which is a reloadable storage medium capable of storing the recorded contents without a ‘necessity of power supply and on which image data is recorded. The memory card  16  is removably inserted into the card slot  20  of the digital camera  10 . When the memory card  16  is a memory card which is in conformity with PCMCIA standard or a memory card which can be adapted to a PCMCIA card adapter is employed, the contents of the memory card  16  can directly be read/written by a personal computer having a PCMCIA card slot. 
       FIGS. 1 and 2  are a rear view and a plan view showing the digital camera  10  according to this embodiment. The digital camera  10  is operated such that a user uses the LCD  21  or an optical finder  110  serving as a view finder to determine a range which must be photographed. When the user has depressed a shutter button  101 , a photographing operation is started. The control portion  11  is able to distinguish and recognize a state of “half depression” in which the shutter button  101  has been depressed half and a state of “full depression” in which the shutter button  101  has been depressed to the limit of movement or adjacent to the limit. The user operates a mode-switching dial  102  for switching the operation mode of the digital camera to select a mode from six modes which include a “view finder mode” which is a first photographing mode, an “LCD mode” which is a second photographing mode, “Off”, a “playback mode”, a “direct print mode” and a “setup mode”. 
     The “view finder mode” is a mode in which a photographing operation is performed by mainly using the optical finder  110  to save. power consumption of the digital camera  10 . The “LCD mode” is a mode in which a photographing operation is performed by mainly using the LCD  21  as the finder. The “playback mode” is a mode in which an image in accordance with image data recorded on the memory card  16  is displayed. The “direct print mode” is a mode in which the digital camera  10  is connected to an external printer through the interface  19  to print the image. The “setup mode” is a mode in which a variety of settings of the digital camera  10  including the photographing condition are set. When the mode-switching dial  102  has been set to the position of “Off”, the power source of the digital camera  10  is turned off. 
     Input keys  103  to  109  serving as input devices are disposed around the LCD  21 . The digital camera  10  executes a control program corresponding to the selected mode. Then, the digital camera  10  detects input of the shutter button  101  and the input keys  103  to  109  performed by the user to perform corresponding control. An image-quality selection button  111 , a flash selection button  112  and a mode selection button  113  are disposed in the upper&#39; portion of the digital camera  10 . When the imagequality selection button  111  has been depressed, the compression ratio and the number of pixels of image data are changed. Thus, the image quality of the recorded image is changed. When the flash selection button  112  is depressed, the light emission mode of the flash can be selected from “automatic light emission control”, “always light emission” and “always inhibition of light emission”. When the mode selection button  113  has been depressed, switching is permitted among a “usual photographing mode”, a “proximate photographing mode”, an “enlargement photographing mode” and a “panorama photographing mode”. The contents set by each of the selection buttons  111 ,  112  and  113  are displayed on the segment-type LCD  114 . 
     The input devices include first input devices having input keys  103 ,  104 ,  105  and  106  disposed in parallel with the axial line of the shutter button  101 ; and input keys  107 ,  108  and  109  disposed in a direction perpendicular to the direction in which the first input devices are disposed. 
     The first input devices are disposed in the side portion along the LCD  21  adjacent to the modeswitching dial  102 . The input keys  103 ,  104 ,  105  and  106  serving as the first input devices are disposed below the mode-switching dial  102  shown in  FIG. 1 . On the other hand, the second input devices are disposed along the LCD  21  at an end opposite to the shutter button across the LCD  21 . The input keys  107 ,  108  and  109  serving as the second input devices are disposed along the lower end of the LCD  21  shown in  FIG. 1 . 
     The first input devices are disposed along the short side of the rectangular LCD  21 , while the second input devices are disposed along the longer side of the LCD  21 . The first input devices are operated by the hand with which the mode-switching dial  102  is depressed, while the second input devices are operated by the other hand. Therefore, the hands for operating the first and second input devices do not intersect at a position above the LCD  21 . Moreover, one of the hands does not obstruct the movement of the other hand. 
     The operation of the digital camera  10  according to this embodiment will now be described. When the mode-switching dial  102  has been moved to the position of “Setup”, the digital camera  10  is put into the setup mode. Thus, a plurality of set information items concerning the digital camera  10  as shown in  FIG. 4(A)  are displayed on the LCD  21 . 
     When the input key  103  disposed adjacent to a position on the LCD  21  at which the time and date are displayed has been depressed, the display on the LCD  21  is changed to that as shown in  FIG. 4(B) . Thus, the time and date can be adjusted. The input keys  108  and  109  are used to select the items which must be modified and the input keys  104  and  105  are used to change the numerical values. When the input key  103  or the input key  107  is depressed, the display is returned to the screen shown in  FIG. 4(A) . 
     When the input key  104  provided for a position adjacent to the position at which setting about the view finder mode is displayed has been depressed in a state in which the screen shown in  FIG. 4(A)  is displayed, a screen shown in  FIG. 4(C)  is realized. Thus, the setting of the view finder mode is changed from “custom” to “automatic”. When the input key  104  has been again depressed, the screen shown in  FIG. 4(A)  is realized. Thus, the setting of the view finder mode is changed from the “automatic” to the “custom”. That is, whenever the input key  104  is depressed, the setting of the view finder mode is alternately changed between the “custom” and the “automatic”. 
     Also in a case where the input key  105  disposed adjacent to a position at which the setting about the LCD mode is displayed has been depressed in a state where the screen shown in  FIG. 4(A)  is displayed, the setting of the LCD mode is alternately changed between “ME/MF” shown in  FIG. 4(A)  and “AE/AF” shown in  FIG. 5(D)  whenever the input key  105  is depressed. The “ME/MF” mode is a mode in which the user manually sets the exposure and/or the focal point, while the “AE/AF” mode is a mode in which the control portion  11  automatically sets the exposure and/or the&#39;-focal point. 
     When the input key  107  disposed adjacent to a position at which characters “another setting” is depressed in a state where the screen shown in  FIG. 4(A)  is displayed, a screen shown in  FIG. 5(E)  is displayed. Thus, another setting information item is displayed. With the foregoing screen, the input key  103  is depressed to select setting, of energy saving or no setting of the same. The input keys  104  and  105  are depressed to correct the exposure. When the input key  106  has been depressed, the language of the characters which are displayed on the LCD is selected. When the input key  108  has been depressed, whether or not sound recording is performed is selected. When the input key  109  has been depressed, whether or not shutter sound created by electronic synthesis is generated is selected when the shutter button  101  is depressed. When the input key  107  has been depressed, the setting screen shown in  FIG. 4(A)  is restored. 
     When the mode-switching dial  102  has been moved to the position corresponding to “Play”, the playback mode is started. Thus, a photographed image in accordance with image data stored in the memory card  16  is displayed on the LCD  21 . Moreover, a menu screen as shown in  FIG. 6(F)  is displayed to overlap the photographed image. Display/non-display of the menu screen can be changed by depressing the input key  107 . 
     When the input key  103  has been depressed in a state where the screen shown in  FIG. 6(F)  is displayed, the “manual playback mode” is changed to a “slide playback mode” shown in  FIG. 6(G) . When the input key  103  has been depressed in a state where the screen shown in  FIG. 6(G)  is displayed, the “slide playback mode” is changed to an “enlargement/scroll playback mode”. When the input key  103  has been depressed in a state where a screen shown in  FIG. 6(H)  is displayed, the “enlargement/scroll playback mode” is changed to the “manual playback mode”. 
     In the “manual playback mode” shown in  FIG. 6(F) , the number of images recorded in the memory card  16  and the order of the image among the recorded images are displayed on the LCD  21  in the foiin of, for example, “12/32”. When the input key  104  has been depressed, an immediately forward image in the memory card  16  is displayed. When the input key  105  has been depressed, a next image is displayed. When the input key  106  has been depressed, image data can be locked to prevent unintentional deletion of image data. When the input key  106  has again been depressed, locking is suspended. When the input key  108  has been depressed, the number of images which are displayed on one screen of the LCD  21  can be selected. Whenever the input key  108  is depressed, circulation of display is performed such that, for example, one image, 2×2=4 images and 3×3=9 images are circularly changed. When the input key  109  has been depressed, image data can be eliminated. When data elimination is performed, a confirmation screen is displayed so that whether or not image data is eliminated is confirmed. 
     In the “slide playback mode” shown in  FIG. 6(G) , slide playback is started when the input key  106  has been depressed. Thus, a plurality of images can successively be displayed. When the digital camera  10  is connected to a TV set or the like, a presentation can satisfactorily be performed. When the input key  104  has been depressed, time for which one image is displayed can be set. When the input key  105  has been depressed, images which are played back in the slide manner can be selected. When the input key  108  has been depressed, the playback order can be changed between a forward direction and the reverse direction. When the input key  109  has been depressed, display/non-display of photographing information, such as date and time can be changed. 
     In the “enlargement/scroll mode” shown in  FIG. 6(H) , lines for sectioning the image displayed on the LCD  21  into 4×4 regions are displayed. Moreover, a selective frame enclosing the 2×2 region is displayed. When the input keys  104 ,  105 ,  108  and  109  are depressed, the region enclosed by the selective frame is shifted. When the input key  106  has been depressed, the selected region is enlarged and displayed fully in the screen of the LCD  21 . 
     When the mode-switching dial  102  has been moved to the position of “SH1”, the view finder mode which is the first photographing mode is started. 
     When the setting of the view finder mode is the “automatic” in the setup mode, supply of electric power to the LCD  21  is inhibited. Therefore, the display of the LCD  21  is inhibited. Usually, no electric power-is supplied to the CCD  13 . When the user has depressed the shutter button  101  half, the operation of the CCD  13  is started. Thus, the control portion  11  automatically sets the exposure, focal point and the white balance. The exposure is determined according to the shutter speed and the aperture. The user uses the optical finder  110  to determine the range which must be photographed. When the mode selection button  113  has been depressed to select any one of the proximate photographing modes, the enlargement photographing mode or the panorama photographing mode, it is preferable that the range which-must be photographed can accurately be confirmed. Therefore, light converged onto the CCD  13  by the converging lens  12  is conveyed into an electric signal at intervals of a fraction of one second to shorter intervals. Thus, electric signal is converted into image data so as to be transferred to the VRAM  18 . Thus, an object to be photographed is displayed on the LCD  21  as a kinetic image. 
     When the setting of the view finder mode is the “custom” in the setup mode, a screen shown in  FIG. 7(I)  is displayed on the LCD  21 . In an initial state, the white balance is automatically set. When the input key  104  adjacent to a position at which the setting about the white balance is displayed has been depressed, the screen is changed to a screen shown in  FIG. 7(J) . The setting of the white balance which has been set by a custom manner is used. When the input key  104  has been depressed in a state where the foregoing screen is displayed, the screen is changed to a screen shown in  FIG. 7(K) . When the input key  105  adjacent to the position at which “NO” has been displayed has been depressed, the screen is returned to the screen shown in  FIG. 7(J) . When the input key  104  has again been depressed, the screen is changed to the screen shown in  FIG. 7(I) . Thus, the white balance is made to be automatic setting. When the input key  106  adjacent to a position at “YES” has been displayed is depressed in a state where the screen shown in  FIG. 7(K)  is displayed, a screen is realized with which the user is able to custom-set the white balance. 
     In the state where the screen show in  FIG. 7(I)  is displayed, the light emission mode of the flash is fixed to the automatic setting. Therefore, when the flash selection button  112  has been depressed, the setting is not changed. When the input key  105  adjacent to the position at which the setting about the flash has been displayed is depressed, the screen is changed to a screen shown in  FIG. 8(L) . Thus, the light emission mode of the flash can be changed. 
     In a portion adjacent to the input key  106 , setting about the exposure correction is displayed. When the input key  106  has been depressed, the screen is changed to a screen shown in  FIG. 8(M) . When the input keys  104  and  105  have been depressed, the degree of change of the exposure from the degree automatically set by the control portion  11  can be determined. When the input key&#39;  107  has been depressed, the original screen is restored. 
     When the input key  108  has been depressed, whether or not the image is recorded in color or in white and black can be selected. When the input key  109  has been depressed, whether or not the photographing operation is performed with standard sensitivity or high sensitivity can be selected. 
     When the user has depressed the shutter button  101  of the digital camera  10  half, adequate exposure and focus for the image which is recognized by the CCD  13  are set. Therefore, the exposure and the focus are fixed in a period of time in which the shutter button  101  is depressed half. 
     When any one of the proximate photographing mode, the enlargement photographing mode and the panorama photographing mode has been selected, light converged onto the CCD  13  by the converging lens  12  is conveyed into an electric signal at intervals of a fraction of one second or shorter intervals. The electric signal is converted into digital image data so as to be transferred to the VRAM  18 . Thus, the object to be photographed is displayed on the LCD  21  as a kinetic image. The menu screen shown in  FIGS. 7 and 8  are displayed to overlap the kinetic image. 
     When the user has depressed the shutter button  101  fully, the photographing operation is started so that image data is produced. 
     Initially, electric charges accumulated in the CCD  13  are completely discharged. Then, light converged by the converging lens  12  is input to the CCD  13 . The CCD  13  converts light into an electric charge corresponding to the quantity of light. The electric 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 directly transferred to the RAM  15  by a DMA (Direct Memory Access) such that the control portion  11  is bypassed to perform a quick operation and the address in the RAM  15  is instructed. 
     Data transferred from the CCD  13  has information about only one color of one pixel corresponding to the color of the filter. Therefore, color interpolation of data recorded in the RAM  15  is performed in accordance with color information about the surrounding pixels. For example, image data of 1280×960 pixels having color information in C, M, Y and G is produced. 
     To enlarge the number of images which can be recorded in the memory card  16 , compression is performed by the non-reciprocal compression method conforming to JPEG (Joint Photographic Experts Group). Thus, compressed data having a small volume is produced. The JPEG is a usual method of compressing a color image. When the compression ratio is changed, the image quality of the preserved image can be adjusted. The JPEG compression operation can be performed by a software manner by the control portion  11  or a special circuit capable of raising the operation speed. Data compressed by the JPEG method is recorded on the memory card  16 . 
     When the mode switch dial  102  has been set to “SH2”, the LCD mode which is the second photographing mode is started. Thus, the object to be photographed is displayed on the LCD  21  as a kinetic image. 
     When “AE/AF” has been selected in the setup mode, a screen shown in  FIG. 9(N)  is displayed to overlap the kinetic image which is being displayed on the LCD  21 . 
     On the screen shown in  FIG. 9(N) , the enlargement photographing mode has been set. Whenever the input key  103  adjacent to the position at which the magnification is displayed is depressed, the display of the magnification is circularly changed among, for example, “×1.25”, “×2 s 1.6” and “×2.0”. Thus, the magnification can be set. The LCD  21  displays a kinetic image in a printed range corresponding to the magnification. 
     When the input key  105  has been depressed in a state where the screen shown in  FIG. 9(N)  is displayed, a screen shown in  FIG. 9(O)  is displayed. The metering mode of AE/AF is changed from a spot metering mode to a center-weighted metering mode. When the input key  105  has been depressed in a state where the screen shown in  FIG. 9(O)  is displayed, the center-weighted metering mode is changed to the spot metering mode. 
     The operation which is performed when any one of the input keys  104 ,  106 ,  108  and  109  has been depressed is similar to the operation which is performed when the “custom” has been selected in the view finder mode. 
     When “ME/MF” has been selected in the setup mode, a screen as shown in  FIG. 10(P)  is displayed on the kinetic image which is being displayed on the LCD  21 . When the input keys  104  and  105  adjacent to the position at which the focal distance of the digital camera  10  is displayed have been depressed, the focal distance can manually be changed by the user. Therefore, photographing in a front or rear focus state is permitted. 
     When the input key  108  provided for a position adjacent to a position at which the shutter speed is displayed has been depressed, the shutter speed can be selected from, for example, ½, 1/30, 1/125 and 1/750. Moreover, shutter speed can be selected with which the aperture is given priority and which is determined by the control portion  11  such that adequate shutter speed is realized when the set aperture has been fixed as shown in  FIG. 10(Q) . 
     When the input key  106  provided for a position adjacent to a position at which the aperture is displayed has been depressed, the aperture can be selected from, for example, F2.4, F8 and F16. Moreover, the aperture can be selected with which the shutter speed is given priority and which is determined by the control portion  11  such that an adequate aperture is realized when the set shutter speed has been fixed as shown in  FIG. 10(R) . 
     When the user has completely depressed the shutter button  101 , the photographing operation is started. Thus, image data is produced by a procedure similar to that in the view finder mode. Data compressed by the JPEG method is recorded on the memory card  16 . A long time is sometimes taken from start of recording of image data in the memory card  16  to completion of recording. During this, an image in accordance with the image data is continuously displayed on the LCD  21 . 
     When the mode-switching dial  102  has been moved to the position of “DP”, the direct print mode is started. When the digital camera  10  has been connected to an external printer and the user has depressed the input keys  103  to  109 , a photographed image can be selected and printed. 
     When the digital camera  10  according to the present invention is used, the following operation is permitted. 
     As shown in  FIG. 11 , the right hand  2  of the user holds either side portion of the digital camera  10 . Moreover, the forefinger  2   b  is able to depress the shutter button. Thus, the thumb is able to operate the input keys  103 ,  104 ,  105  and  106 . The residual fingers, the middle finger, the third finger and the little finger (not shown) hold the digital camera  10 . 
     On the other hand, the left hand of the user holds the other end of the digital camera  10 . The thumb  3   a  is able to operate the input keys  107 ,  108  and  109 . 
     The input keys  103  to  109  of the digital camera  10  are distinguished into the set of the input keys  103 ,  104 ,  105  and  106  which are operated by the right hand  2  of the user and the set of the input keys  107 ,  108  and  109  which are operated by the left hand. Thus, intersection of the right hand  2  and the left hand  3  at a position above the LCD  21  and obstruction of movement of either hand by the other hand can be prevented. Therefore, when the operation of the digital camera  10  according to this embodiment is performed while the LCD  21  is being observed, obstruction of the display of the LCD  21  by the hand which operates the input key does not occur. Thus, the operability of the digital camera  10  can be improved. 
     That is, the digital camera  10  according to this embodiment requires a user to operate the input keys  103  to  109  while viewing the LCD  21 . Therefore, the input keys  103  to  109  must be disposed at positions at which the input keys  103  to  109  can easily be recognized. In general, a user uses the forefinger  2   b  of the right hand  2  to depress the shutter button  101 . Therefore, the thumb  2   a  is placed on the rear surface of the digital camera  10 , that is, on the surface of the LCD  21 . Therefore, the input keys  103 ,  104 ,  105  and  106  of the first input devices are disposed on the side portion of the LCD  21  adjacent to the shutter button  101 . Thus, the operation of the foregoing input keys  103 ,  104 ,  105  and  106  can easily and smoothly be performed with the thumb  2   a  of the right hand  2 . Moreover, the input keys  107 ,  108  and  109  serving as the second input devices which are operated by the left hand  3  are disposed apart from one another. Thus, if the number of the input keys is enlarged, the input keys can easily and smoothly be performed. 
     The input keys  103  to  109  are separated into&#39; the set of the input keys  103 ,  104 ,  105  and  106  and arranged to be operated by the right hand and the set of the input keys  107 ,  108  and  109  and arranged to be operated by the left hand. Thus, interference between the right hand  2  and the left hand  3  occurring when the input key is operated can be prevented. Therefore, even if a small size LCD  21  is employed, the display on the LCD  21  can easily be recognized. 
     The digital camera according to this embodiment enables the contents of set information displayed on the display portion to directly be changed owing to input to the input devices. Therefore, the set information items can quickly be changed. When one input key has a plurality of functions corresponding to the modes, the contents of the process which is executed can easily be recognized. 
     The digital camera according to this embodiment is able to change setting by depressing only one input key when setting having a small number of alternatives is changed, for example, selection of white and black photographing or color photographing is performed. Therefore, the operation can easily be performed. Moreover, each input key is disposed adjacent to each of contents of the settings displayed on the LCD. Hence it follows that the correspondence between the depressed key and caused change in the setting can easily be understood. When a large number of alternatives is large, for example, when the date and time are set, another screen is displayed to perform the setting. When the exposure is set, all of the alternatives are displayed to perform selection among the displayed alternatives. Thus, selection can easily be performed. 
     In the embodiment of the present invention, the optical finder is employed as the view finder. A view finder including a small-size LCD may be employed.