JP3632668B2 - Digital camera - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a digital camera that captures a subject by an exposure operation of an image sensor and generates image data.
[0002]
[Prior art]
In recent years, digital cameras, which are rapidly spreading, can take a picture of an object by electrically controlling the exposure time of the image sensor. Actually, shutter sound is hardly generated.
[0003]
However, when a user who is used to a conventional silver salt camera uses a digital camera, there is no shutter sound, and there may be anxiety in photographing operation. For example, it is necessary to fix the digital camera from the start of exposure to the end of exposure in order to prevent camera shake, but since the exposure start timing and exposure end timing are unknown, the digital camera will be fixed indefinitely I don't know what to do, and I feel anxious about the shooting operation.
[0004]
For this reason, conventionally, Japanese Patent Laid-Open No. 2000-307902 discloses a technique for sounding a shutter sound (for example, “Caschan”) stored in advance in a memory in conjunction with the timing of the shutter operation. For example, a digital camera can provide the same feeling of shooting operation as that of a silver salt camera.
[0005]
[Problems to be solved by the invention]
However, the technique disclosed in the above publication is configured such that sound effects corresponding to the “shear” portion of “casshern” are generated even during the exposure period of the image sensor. For this reason, it is effective when the exposure time is relatively short, but when the exposure time is longer than the predetermined time, such as when shooting a dark subject, a noise like noise is generated from the digital camera. was there. In other words, since an actual silver salt camera does not generate a shutter sound during a period when the shutter is open, when the exposure time is longer than a predetermined time, the technique disclosed in the above publication also uses the silver salt camera. The same shooting operation feeling could not be realized.
[0006]
In addition, if it is configured so that sound effects continue to be generated even during the exposure period of the image sensor, useless power is consumed, which is not preferable for a digital camera that has a particularly high demand for power saving. It becomes a factor to shorten.
[0007]
In addition, in a digital camera, in order to record image data obtained from an image sensor on a predetermined recording medium such as a memory card, it is necessary to perform predetermined image processing, and such image processing is efficient. It is hoped that For example, when continuous shooting or the like is performed with a digital camera, it is necessary to complete image processing promptly, and it is necessary to divide the processing capability inside the digital camera to generate sound effects during the exposure period of the image sensor. It becomes a factor which reduces processing efficiency.
[0008]
Therefore, the present invention has been made in view of the above problems, and by generating sound effects in a timely and effective manner, the digital camera achieves a shooting operation feeling similar to that of a silver salt camera and consumes power. An object of the present invention is to provide a digital camera that can reduce and efficiently perform other necessary operations during exposure of an image sensor.
[0009]
[Means for Solving the Problems]
In order to achieve the above object, the invention described in claim 1 is a digital camera that shoots a subject by an exposure operation of an image sensor and generates image data, which is linked to each of the start and end of the exposure operation. And a sound effect generating means for generating a predetermined sound effect, and a control means for stopping the sound effect generation in the sound effect generating means within a period between the start and end of the exposure operation. Is done.
[0010]
According to a second aspect of the present invention, in the digital camera according to the first aspect, the digital camera further includes image processing means for performing image processing on the image data obtained from the imaging device, and the control means is within the period. The generation of the sound effect in the sound effect generating means is stopped, and the image processing in the image processing means is executed.
[0011]
According to a third aspect of the present invention, in the digital camera according to the first or second aspect, the sound effect generating means is configured to start or end the exposure operation when the exposure period is shorter than a predetermined value. It is characterized in that a predetermined sound effect is generated in conjunction with.
[0012]
The invention according to claim 4 Claim 1 or 2 Digital camera In Counting means for counting exposure time of the image sensor in response to bulb photographing operation The control means further comprises Even when the bulb photographing operation is continued, the exposure time is Preset When the longest exposure time is reached Said End exposure operation It is characterized by .
[0013]
According to a fifth aspect of the present invention, in the digital camera according to any one of the first to fourth aspects, a sound effect that presets the sound effect generated by the sound effect generating unit based on a user's selection operation. Setting means.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0015]
1 and 2 are views showing an external configuration of a digital camera 1 according to an embodiment of the present invention. FIG. 1 corresponds to a front view, and FIG. 2 corresponds to a rear view.
[0016]
A photographing lens 2 for capturing a subject image is provided on the front side of the digital camera 1. A shutter button 9 is provided on the upper portion of the grip portion 1a. The shutter button 9 is an operation unit for a user to instruct a photographing operation, and is configured to be able to detect a two-step pressing operation in a half-pressed state (S1 state) and a fully-pressed state (S2 state). When the shutter button 9 is half-pressed, an automatic focusing (AF) operation in the digital camera 1 is started. When the shutter button 9 is fully pressed, a main photographing operation (that is, recording) in the digital camera 1 is started. (Exposure operation for taking a commercial image) is started.
[0017]
In addition, a dial operation unit 8 for setting a shutter speed (exposure time) in the manual photographing mode is provided above the grip unit 1a. When the user operates the dial operation unit 8, the shutter is operated. It is configured so that the speed can be adjusted. Further, the digital camera 1 can be set for bulb photography by operating the dial operation unit 8. However, in the auto shooting mode, the shutter speed during the main shooting operation is automatically determined by the internal calculation of the digital camera 1.
[0018]
On the back side of the digital camera 1, a liquid crystal display unit (hereinafter referred to as LCD) 5 for performing live view display before the main photographing operation and reproduction display of a recorded image obtained by the main photographing operation, and an electronic viewfinder. (Hereinafter referred to as EVF) 4.
[0019]
In addition, a menu button 6 is provided on the back side of the digital camera 1, and various menu screens are displayed on the LCD 5 when the menu button 6 is pressed. On the back side of the digital camera 1, there are cross cursor buttons 7a to 7d for moving items selected on the menu screen for various settings in four directions, and a decision button 7e provided at the center of the cross cursor button. A configured control button 7 is provided. The user can perform various setting operations on the digital camera 1 by operating the menu button 6 and the control button 7 while referring to the screen displayed on the LCD 5. Note that sound effect setting information, which will be described later, is also set using such a user interface.
[0020]
Furthermore, a speaker 3 for generating a sound effect (shutter sound or the like) for transmitting the exposure start or end timing to the user is provided on the back side of the digital camera 1.
[0021]
The side surface of the digital camera 1 is provided with an insertion / mounting portion of a memory card 90 that is a detachable recording medium, and image data obtained by actual photographing is recorded on the memory card 90 set in the insertion / mounting portion. The
[0022]
Next, the internal configuration of the digital camera 1 will be described. FIG. 3 is a block diagram showing the internal functions of the digital camera 1.
[0023]
The photographic lens 2 is driven by a lens driving circuit 31 and is configured to change the in-focus state of an image formed on the CCD image sensor 10. That is, the photographing lens 2 is driven by the lens driving circuit 31 and performs an automatic focusing (autofocus) operation. The overall control unit 20 performs overall control of the automatic focusing operation by giving a command to the lens driving circuit 31.
[0024]
The CCD image pickup device 10 functions as an image pickup unit that picks up a subject image and generates an electronic image signal. The CCD image pickup device 10 has a large number (for example, 2560 × 1920) of pixels and is formed by the shooting lens 2. The light image of the subject is photoelectrically converted into image signals (signals consisting of a signal sequence of pixel signals received by each pixel) of R (red), G (green), and B (blue) color components for each pixel. Output.
[0025]
The timing generator 32 generates various timing pulses for controlling the driving of the CCD image pickup device 10, and is instructed by the overall control unit 20 to generate various timing pulses.
[0026]
An image signal obtained from the CCD image sensor 10 is supplied to a signal processing circuit 11, and predetermined analog signal processing is performed on the image signal (analog signal) in the signal processing circuit 11. The signal processing circuit 11 includes, for example, a correlated double sampling circuit (CDS) and an auto gain control circuit (AGC). The correlated double sampling circuit performs noise reduction processing of the image signal, and the auto gain control circuit performs gain. The level of the image signal is adjusted by adjusting.
[0027]
The A / D converter 12 converts each pixel signal of the image signal into a 12-bit digital signal. The A / D converter 12 converts each pixel signal (analog signal) into a 12-bit digital signal based on an A / D conversion clock input from the overall control unit 20.
[0028]
A WB (white balance) circuit 13 performs level conversion of each color component of R, G, and B. Although not shown, the WB circuit 13 converts the levels of the R, G, and B color components using the level conversion table stored in the overall control unit 20. The γ correction unit 14 corrects the gradation of pixel data.
[0029]
The color correction unit 15 performs color correction on the image data input from the γ correction unit 14 based on parameters related to color correction set by the user, and converts color information expressed in the RGB color space to the YCrCb color space. Convert to color information expressed in.
[0030]
The image memory 16 is a memory for temporarily buffering image data obtained by the photographing operation of the CCD image pickup device 10 and has a storage capacity for storing at least one frame of image data.
[0031]
The operations of the above-described units are controlled by the overall control unit 20, and at the time of live view display before the main shooting, the exposure operation in the CCD image pickup device 10 is repeatedly performed, whereby image data (live view) sequentially stored in the image memory 16 is performed. The display image data) is written into the VRAM 17 via the overall control unit 20, and the live view display of the EVF 4 or the LCD 5 is sequentially updated.
[0032]
Further, the main photographing operation when the shutter button 9 is fully pressed is also controlled by the overall control unit 20. Specifically, the overall control unit 20 determines the exposure time of the CCD image pickup device 10, and the CCD image pickup device 10 performs an exposure operation based on the exposure time. Image data (image data for image recording) obtained from the CCD image sensor 10 is buffered in the image memory 16 after undergoing various processes such as the WB circuit 13. The overall control unit 20 is configured to read the image data from the image memory 16, perform predetermined image processing, and then record the image data on the memory card 90.
[0033]
The timer 18 is configured to give a clock for a time measuring operation to the overall control unit 20. Further, the operation unit 50 includes the shutter button 9 and other operation members described above, and the content of the operation by the user is transmitted to the overall control unit 20.
[0034]
A card interface (card I / F) 33 is provided in an insertion / mounting unit for mounting the memory card 90, and enables data communication between the overall control unit 20 and the memory card 90.
[0035]
The sound effect storage memory 60 is a memory for storing data on sound effects generated along with the exposure operation of the digital camera 1, and in this embodiment, the first sound effect 61, the second sound effect 62, and the third sound effect are stored. Data is stored for three types of sound effects 63.
[0036]
The overall control unit 20 is realized by the CPU executing a predetermined program, and performs image processing for performing predetermined image processing on the control function for controlling each unit and image data obtained by the main photographing operation. Functions and the like are realized. Further, the overall control unit 20 realizes multitask processing capable of executing a plurality of tasks in parallel. For example, while controlling the exposure operation by the CCD image sensor 10, image processing of image data obtained last time is performed. Configured to be able to perform.
[0037]
As shown in FIG. 3, the overall control unit 20 mainly functions as an exposure control unit 210, a sound effect generation control unit 220, a sound effect generation processing unit 230, and an image processing unit 240. However, the overall control unit 20 also functions as a control unit that controls various operations other than these.
[0038]
The exposure control unit 210 controls the exposure operation of the CCD image sensor 10, more specifically, the exposure time (that is, the shutter speed). In the manual shooting mode, the exposure control unit 210 (more specifically, the dial operation unit 8). The timing generator 32 is instructed to start and end the exposure so that the CCD image sensor 10 is exposed for a preset exposure time.
[0039]
Further, in the auto shooting mode, the timing generator 32 is instructed to start and end the exposure so that the CCD image pickup device 10 is exposed with the exposure time for obtaining the optimum exposure obtained by the arithmetic processing in the exposure control unit 210. .
[0040]
Further, at the time of bulb photographing, when the exposure control unit 210 detects a full-pressing operation (S2 operation) of the shutter button 9, a command is issued to the timing generator 32 to continue the exposure operation of the CCD image pickup device 10 during the full-pressing period. give.
[0041]
However, if the exposure time of the CCD image sensor 10 is made longer than a predetermined time, an appropriate image cannot be obtained due to the influence of noise of the CCD image sensor 10 or the like. Therefore, the longest exposure time 211 is set in the exposure control unit 210 in advance, and when the longest exposure time 211 elapses when the shutter button full-press operation at the time of bulb photographing has passed, the exposure of the CCD image sensor 10 is forcibly performed. Control to stop the operation. In the digital camera 1 of this embodiment, the longest exposure time is set as 30 seconds, for example.
[0042]
When the exposure control unit 210 detects a full-pressing operation (S2 operation) of the shutter button 9 during bulb shooting, it starts counting the clock input from the timer 18 and determines whether or not the longest exposure time 211 has elapsed. If the full-press operation of the shutter button 9 is canceled before the longest exposure time 211 elapses, the exposure operation of the CCD image sensor 10 is stopped in response to the release of the full-press operation. On the other hand, if the longest exposure time 211 has passed even though the shutter button 9 has been fully pressed, the exposure operation of the CCD image sensor 10 is forcibly stopped when the longest exposure time 211 has passed. Let
[0043]
As described above, the exposure control unit 210 can adjust the exposure time of the CCD image sensor 10 based on the preset longest exposure time 211 in order to prevent the influence of noise during bulb photographing. It is configured.
[0044]
The exposure control unit 210 not only instructs the timing generator 32 to start and end the exposure operation of the CCD image pickup device 10, but also gives an instruction linked to the exposure operation to the sound effect generation control unit 220.
[0045]
Specifically, a first sound effect generation instruction is given at the start of the exposure operation, and a sound effect stop instruction is given immediately after the start of the exposure operation. The second sound effect generation instruction is given at the end of the exposure operation.
[0046]
However, when the exposure time of the CCD image pickup device 10 is known in advance other than during bulb shooting and the exposure time is shorter than a predetermined value (for example, 0.5 seconds), the exposure control unit 210 A third sound effect generation instruction is given at the start of the exposure operation, and then a sound effect stop instruction is given.
[0047]
The sound effect generation control unit 220 controls the sound effect generation processing unit 230 and functions when an instruction is given from the exposure control unit 210. Further, the sound effect generation processing unit 230 is controlled by the sound effect generation control unit 220, acquires a sound effect stored in the sound effect storage memory 60, and causes the speaker 3 to generate a sound based on the sound effect setting information 231. Have Therefore, the sound effect generation control unit 220 and the sound effect generation processing unit 230 function as sound effect generating means for generating a predetermined sound effect in conjunction with the start and end of the exposure operation of the CCD image sensor 10.
[0048]
Then, the sound effect generation control unit 220 controls the sound effect generation processing unit 230 so that sound effects such as a shutter sound are generated from the speaker 3 in conjunction with the start and end of the exposure operation of the CCD image sensor 10.
[0049]
In the sound effect memory 60, pseudo sound data similar to the mechanical shutter opening operation (or mirror-up operation) in a single-lens reflex type silver halide camera or the like is used as the first sound effect 61, and the mechanical shutter is used as the second sound effect 62. Pseudo sound data similar to the closing operation (or mirror down operation), and pseudo sound data similar to the opening / closing operation (or mirror up / down operation) of the mechanical shutter are stored as the third sound effect 63, respectively.
[0050]
As a pseudo sound similar to the opening operation (or mirror up operation) of the mechanical shutter in a silver salt camera or the like, for example, a sound of “casha” is adopted, and as a pseudo sound similar to the closing operation (or mirror down operation) of the mechanical shutter For example, the sound “Cashan” is adopted, and as the pseudo sound for instantaneously performing the opening / closing operation (or mirror up / down operation) of the mechanical shutter, the sound “Pashan” is adopted.
[0051]
When the sound effect generation control unit 220 receives the first sound effect generation instruction from the exposure control unit 210, the sound effect generation control unit 220 instructs the sound effect generation processing unit 230 to generate the first sound effect 61 at that timing. As a result, the sound effect generation processing unit 230 acquires the data related to the first sound effect 61 from the sound effect storage memory 60 and refers to the sound effect setting information 231 from the speaker 3 based on the setting state of the first sound effect 61. The first sound effect 61 is generated.
[0052]
Similarly, when the sound effect generation control unit 220 receives the second or third sound effect generation instruction from the exposure control unit 210, the sound effect is generated so that the second sound effect 62 or the third sound effect 63 is generated at that timing. Instructs the generation processing unit 230. As a result, the sound effect generation processing unit 230 acquires the data related to the second sound effect 62 or the third sound effect 63 from the sound effect storage memory 60 and refers to the sound effect setting information 231 to obtain the second sound effect 62 or the third sound effect. Based on the setting state of the sound effect, the second sound effect 62 or the third sound effect 63 is generated from the speaker 3.
[0053]
When the sound effect generation control unit 220 receives the sound effect stop instruction from the exposure control unit 210, the sound effect generation processing unit 230 stops the function of causing the speaker 3 to generate the sound effect. As a result, the processing load for generating sound effects in the overall control unit 20 can be reduced. Therefore, even if the CCD image pickup device 10 is performing an exposure operation, other operations such as image processing are performed in the overall control unit 20. Can be executed efficiently.
[0054]
The image processing unit 240 is realized so as to be able to function in parallel with the above exposure control and sound effect generation processing, and is temporarily stored in the image memory 16 by the exposure operation of the CCD image sensor 10. Data is acquired, and predetermined image processing is performed on the image data. The image processing unit 240 mainly includes an image compression processing unit 241 and a captured image recording unit 242, and acquires image data stored in the image memory 16 by a shooting operation and records the image data in the memory card 90. Process.
[0055]
The image processing unit 240 performs predetermined image processing on the image data obtained from the image memory 16 and then supplies the image data to the image compression processing unit 241. Then, the image compression processing unit 241 functions, and the image data is compressed in a predetermined compression format such as JPEG format. The compressed image data is given to the photographed image recording unit 242, and the photographed image recording unit 242 performs a recording process on the memory card 90.
[0056]
The overall control unit 20 functions as a control unit other than the above-described units, for example, as an automatic focusing control unit, and when the shutter button 9 is in a half-pressed state (S1 state), via the lens driving circuit 31. A function of driving the photographing lens 2 and guiding an image formed on the CCD image pickup device 10 to a focused state is realized. When the focused state of the image is realized by the automatic focusing control function, a notification sound (for example, “beep”) for transmitting to the sound effect generation processing unit 230 that the focused state has been realized is sent to the user. Instructions for generating are given. As a result, a notification sound “beep” is generated from the speaker 3 when the in-focus state is realized.
[0057]
The overall control unit 20 has a function of setting the sound effect setting information 231 for the sound effect generation processing unit 230. This function functions in a setting mode other than the shooting mode, and is set in the sound effect generation processing unit 230 by the user operating the control button 7 while displaying a menu screen on the LCD 5. This function is provided because it is desired to optimize the sound effect according to the shooting environment when performing long exposure in a relatively dark shooting environment. For example, there is noise in the surroundings. Sometimes settings are made to make it easier to detect sound effects such as shutter sound, and settings are made to reduce the volume of sound effects when the surroundings are quiet.
[0058]
FIG. 4 is a diagram showing a display screen and setting operation when setting the sound effect setting information 231. FIG. 4 shows an example in which the character color of the selected item is displayed so as to change.
[0059]
When a screen for setting the sound effect is displayed, a selection menu screen as shown in FIG. 4A is displayed on the LCD 5, and the first sound effect is selected in the initial state. At this time, the sound effect generation processing unit 230 functions in the overall control unit 20, and the currently selected first sound effect is generated from the speaker 3. When changing the selection of the sound effect, the display of the selection state is shifted up and down when the user presses the up and down cursor buttons 7a and 7b. Each time the user performs a sound effect selection operation, the currently selected sound effect is generated from the speaker 3, and the user can audition each sound effect simply by selecting the sound effect.
[0060]
When the user presses the right cursor button 7d of the control button 7, a first setting change item for the sound effect selected at that time is displayed in a list. FIG. 4B shows an example in which the first setting change item is displayed in a list for the first sound effect. The first setting change item is for adjusting the pitch of the sound effect. In the initial state, the item set for the first sound effect at that time is selected. Also at this time, the sound effect generation processing unit 230 functions in the overall control unit 20, and the currently selected sound effect is generated from the speaker 3. When changing the pitch of the sound effect, the display of the selection state is shifted up and down by the user pressing the up and down cursor buttons 7a and 7b. Each time the user performs a pitch change operation of the sound effect, the currently selected sound effect is generated from the speaker 3 at the selected pitch, and the user selects the sound effect and only operates the sound effect. Can be auditioned.
[0061]
When the user further presses the right cursor button 7d of the control button 7, the second setting change item for the sound effect selected at that time is displayed in a list. FIG. 4C shows an example in which the second setting change item is displayed in a list for the first sound effect. The second setting change item is for adjusting the volume of the sound effect. In the initial state, the item set for the first sound effect at that time is in the selected state. Also at this time, the sound effect generation processing unit 230 functions in the overall control unit 20, and the currently selected sound effect is generated from the speaker 3. When changing the volume of the sound effect, the display of the selected state is shifted up and down when the user presses the up and down cursor buttons 7a and 7b. Each time the user performs a sound effect volume changing operation, the currently selected sound effect is pronounced from the speaker 3 at the selected volume, and the user selects the sound effect only by selecting the sound effect. Can be auditioned.
[0062]
When the user presses the enter button 7e in such a state, the sound effect setting processing unit 230 sets (or changes the setting) the sound effect setting information 231.
[0063]
Thus, when the user sets the sound effect, the user can audition the selected sound effect simply by performing a selection operation on the screen. It is possible to confirm what kind of sound effect is generated.
[0064]
In the digital camera 1 configured as described above, in principle, a pseudo sound of opening of the mechanical shutter “cacha” is generated at the start of the exposure operation of the CCD image pickup device 10, and a mechanical shutter of “cachan” is generated at the end of the exposure operation. A pseudo sound of closure is generated. After the instantaneous mechanical shutter opening pseudo sound is generated, the silent state is maintained until the end of the exposure operation. For this reason, useless power is not consumed during exposure of the CCD image sensor 10 in the digital camera 1, and a sound effect close to the shutter sound of an actual silver salt camera or the like can be obtained, which is closer to a silver salt camera. A feeling of shooting operation is realized.
[0065]
Furthermore, since processing for generating sound effects is not performed during the exposure period, the processing efficiency of the image processing unit 240 that is executed while the exposure operation is continued can be improved, and the imaging obtained by the previous imaging operation is performed. Images can be quickly recorded on the memory card 90. As a result, the next photographing operation can be started promptly.
[0066]
In addition, when the exposure time in the CCD image pickup device 10 is shorter than a predetermined value, that is, even if the sound effect is generated twice at the start and end of the exposure operation, it is difficult to distinguish it auditorily. When the exposure time is so short, the third sound effect 63 is generated at the start of exposure, so that useless processing for generating sound effects can be reduced. Further, when the exposure time is shorter than a predetermined value, generating an instantaneous “pashan” sound effect at the start of exposure realizes a shooting operation feeling closer to a silver salt camera.
[0067]
Next, an internal operation when performing a shooting operation with the digital camera 1 as described above will be described. FIGS. 5 and 6 are timing charts when the user performs continuous shooting using the digital camera 1. When shooting the first frame, the exposure time is shorter than a predetermined value and the second frame is shot. In this example, bulb shooting is performed. FIG. 5 shows a case where the longest exposure time 211 elapses during the second frame bulb photography and the shutter button 9 is fully pressed, and FIG. 6 shows a state before the longest exposure time 211 elapses during the second frame bulb photography. The case where the full pressing operation of the shutter button 9 is released is shown. 5 and 6, the horizontal axis is the time axis.
[0068]
First, a description will be given based on the timing chart of FIG. When the user presses the shutter button 9 halfway (S1 state) at time t1, an automatic focusing operation (A1) for photographing the first frame is performed at the timing of the photographing processing of the first frame. When the focused state of the image is realized in the automatic focusing operation (A1), a notification sound P is generated as a sound effect output at that time.
[0069]
Subsequently, the user performs a full pressing operation (S2) of the shutter button 9 at time t2. In response to the full-pressing operation (S2), the automatic focusing operation (A1) is completed in the photographing process of the first frame, and the exposure operation of the CCD image sensor 10 is started. Further, when the exposure control unit 210 of the overall control unit 20 detects a full press operation of the shutter button 9, the sound effect 63 is generated at that timing. At this time, the sound effect 63 generated from the speaker 3 becomes a sound effect that is applied when the exposure time is shorter than a predetermined value, and the user of the digital camera 1 uses the same pseudo sound (for example, “Pashan” )). The digital camera 1 generates sound effects only at the start of exposure and does not generate sound effects at the end of exposure.
[0070]
When the exposure operation of the first frame is completed, a buffering process (A2) for reading out an image signal from the CCD image pickup device 10 and temporarily storing it in the image memory 16 is performed as a shooting process of the first frame. When the buffering process (A2) is completed, the image processing unit 240 of the overall control unit 20 reads out the image data in the image memory 16 and performs a predetermined image process (A3). When this image processing is started, the image memory 16 becomes empty, and the next captured image can be buffered. When the image processing (A3) is finished, the image compression processing unit 241 in the image processing unit 240 functions next, and the compression processing (A4) for the image data is started, the compression processing is finished, and the recording processing to the memory card 90 is performed. (A5) is started.
[0071]
In the timing chart of FIG. 5, while the compression process (A4) in the shooting process of the first frame is being performed, the shutter button operation for shooting the second frame is performed while the bulb shooting is set. Started (time t3).
[0072]
If the user presses the shutter button 9 halfway (S1 state) at time t3 in order to shoot the second frame, an automatic synchronization for shooting the second frame in the shooting process for the second frame at that timing. A focusing operation (B1) is performed. In the automatic focusing operation (B1), when the focused state of the image is realized, a notification sound P is generated as a sound effect output at that time.
[0073]
Subsequently, the user performs a full-press operation (S2) for photographing the second frame (bulb photography) of the shutter button 9 at time t4. In response to the full-pressing operation (S2), the automatic focusing operation (B1) is completed in the photographing process of the second frame, and the exposure operation of the CCD image sensor 10 is started. Further, when the exposure control unit 210 of the overall control unit 20 detects the full-pressing operation of the shutter button 9, it generates a first sound effect generation instruction at that timing and starts the longest exposure time counting process (TC). .
[0074]
When the first sound effect generation instruction is given to the sound effect generation control unit 220, for example, a sound effect 61 of “Kasha” is generated from the digital camera 1 in response thereto. That is, when the user fully presses the shutter button 9, the same pseudo sound as that of the silver salt camera can be heard.
[0075]
On the other hand, the exposure control unit 210 proceeds with the longest exposure time counting process (TC) while checking whether or not the shutter button 9 is fully pressed. When the shutter button 9 is fully pressed and the count value in the count process has passed the longest exposure time, the exposure control unit 210 stops the exposure operation of the CCD image sensor 10 at the timing when the longest exposure time has passed. At the same time, a second sound effect generation instruction is generated (time t5).
[0076]
When the second sound effect generation instruction is given to the sound effect generation control unit 220, for example, the sound effect 62 of “Cashan” is generated from the digital camera 1 in response thereto. That is, even when the user fully presses the shutter button 9, a pseudo sound similar to that of the silver salt camera can be heard, and the end of the exposure operation can be recognized.
[0077]
When the exposure operation for the second frame is completed, a buffering process (B2) for reading out an image signal from the CCD image sensor 10 and temporarily storing it in the image memory 16 is performed as a shooting process for the second frame. When the buffering process (B2) is completed, the image processing unit 240 of the overall control unit 20 reads out the image data in the image memory 16 and performs a predetermined image process (B3). When this image processing is started, the image memory 16 becomes empty, and the next captured image can be buffered. When the image processing (B3) is completed, the image compression processing unit 241 and the photographed image recording unit 242 in the image processing unit 240 function sequentially to perform compression processing on the image data and recording processing on the memory card 90. .
[0078]
As described above, in the timing chart of FIG. 5, the exposure time of the CCD image sensor 10 at the time of bulb photographing is the longest exposure time 211. Even when the shutter button 9 is fully pressed during bulb shooting, the exposure operation is terminated when the exposure time reaches the preset longest exposure time 211, and is effective when the exposure operation ends. By generating the sound, it is possible to recognize that the digital camera 1 has finished the exposure operation regardless of the user's intention to shoot.
[0079]
Next, a description will be given based on the timing chart of FIG. When the user presses the shutter button 9 halfway (S1 state) at time t1, an automatic focusing operation (A1) for photographing the first frame is performed at the timing of the photographing processing of the first frame. When the focused state of the image is realized in the automatic focusing operation (A1), a notification sound P is generated as a sound effect output at that time.
[0080]
Subsequently, the user performs a full pressing operation (S2) of the shutter button 9 at time t2. In response to the full-pressing operation (S2), the automatic focusing operation (A1) is completed in the photographing process of the first frame, and the exposure operation of the CCD image sensor 10 is started. Further, when the exposure control unit 210 of the overall control unit 20 detects a full press operation of the shutter button 9, the sound effect 63 is generated at that timing. At this time, the sound effect 63 generated from the speaker 3 is a sound effect applied when the exposure time is shorter than a predetermined value.
[0081]
When the exposure operation for the first frame is completed, the buffering process (A2), the image process (A3), the compression process (A4), and the recording process ( A5) is performed sequentially.
[0082]
In the timing chart of FIG. 6, the shutter button operation for photographing the second frame is started (time t3) while the compression processing (A4) in the photographing processing of the first frame is being performed. .
[0083]
If the user presses the shutter button 9 halfway (S1 state) at time t3 in order to shoot the second frame, an automatic synchronization for shooting the second frame in the shooting process for the second frame at that timing. A focusing operation (B1) is performed. In the automatic focusing operation (B1), when the focused state of the image is realized, a notification sound P is generated as a sound effect output at that time.
[0084]
Subsequently, the user performs a full-press operation (S2) for photographing the second frame (bulb photography) of the shutter button 9 at time t4. In response to the full-pressing operation (S2), the automatic focusing operation (B1) is completed in the photographing process of the second frame, and the exposure operation of the CCD image sensor 10 is started. Further, when the exposure control unit 210 of the overall control unit 20 detects the full-pressing operation of the shutter button 9, it generates a first sound effect generation instruction at that timing and starts the longest exposure time counting process (TC). .
[0085]
When the first sound effect generation instruction is given to the sound effect generation control unit 220, for example, a sound effect 61 of “Kasha” is generated from the digital camera 1 in response thereto. That is, when the user fully presses the shutter button 9, the same pseudo sound as that of the silver salt camera can be heard.
[0086]
On the other hand, the exposure control unit 210 proceeds with the longest exposure time counting process (TC) while checking whether or not the shutter button 9 is fully pressed. When the shutter button 9 is fully pressed at time t5 when the count process (TC) has not reached the longest exposure time, the exposure control unit 210 performs the CCD at the timing when the shutter button 9 is fully pressed. The exposure operation of the image sensor 10 is stopped and a second sound effect generation instruction is generated.
[0087]
When the second sound effect generation instruction is given to the sound effect generation control unit 220, for example, the sound effect 62 of “Cashan” is generated from the digital camera 1 in response thereto. That is, even when the user fully presses the shutter button 9, a pseudo sound similar to that of the silver salt camera can be heard, and the end of the exposure operation can be recognized.
[0088]
When the exposure operation for the second frame ends, as in the case described above, the buffering process (B2), the image process (B3), the compression process (B4), and the recording process are performed as the shooting process for the second frame. It is done sequentially.
[0089]
As described above, in the timing chart of FIG. 6, the exposure time of the CCD image sensor 10 at the time of bulb photographing is the time during which the user has fully pressed the shutter button 9.
[0090]
As described above, the digital camera 1 emits the sound effect 63 that instantaneously opens and closes the mechanical shutter when the exposure time is shorter than a predetermined value such as 0.5 seconds. Configured as follows. As a result, an appropriate sound effect can be generated only by giving a sound effect generation instruction once, the process for generating the sound effect becomes easier, and the processing load on the overall control unit 20 can be reduced. is there.
[0091]
When the exposure time is longer than the predetermined value, sound effects 61 and 62 are emitted at the start and end of the exposure operation, respectively, and the sound effect stop period is during the period between the start and end of the exposure operation. . Therefore, the user can hear a pseudo sound similar to the shutter opening operation at the start of the exposure operation, and can hear a pseudo sound similar to the shutter closing operation at the end of the exposure operation. It becomes possible to shoot with. Further, since the sound effect 62 is generated at the end of the exposure operation, the user can recognize the end of the exposure operation and can grasp the timing when the fixed state of the digital camera 1 may be released.
[0092]
Furthermore, since the sound effect stop period is provided during the exposure period, it is not necessary to perform a process for generating sound effects during the period inside the digital camera 1, and other operations such as image processing can be performed efficiently. It becomes possible to do. In the timing charts of FIGS. 5 and 6, the compression process (A4) and the recording process (A5), which are the shooting processes of the first frame, are efficiently performed in the sound effect stop period during the exposure period of the second frame. It becomes possible to do. More specifically, if the sound effect output is always continued without providing the sound effect stop period during the exposure period of the second frame, a processing burden for the sound effect output is generated as an internal process of the digital camera 1. Therefore, the processing time of the compression processing (A4) and recording processing (A5), which are the imaging processing of the first frame, is longer than the required time shown in FIGS. 5 and 6, whereas this embodiment is effective. By providing the sound stop period, the required time is shortened.
[0093]
In the timing charts of FIG. 5 and FIG. 6, the case where the first frame and the second frame are continuously shot is illustrated, but the operation is the same as the above-described operation even when the continuous shooting is not performed.
[0094]
As described above, the digital camera 1 generates sound effects in a timely and effective manner, thereby realizing a shooting operation feeling similar to that of the silver salt camera in the digital camera 1, reducing power consumption, and exposing the CCD image sensor 10. It is configured so that necessary operations other than the sound effect generation process can be efficiently performed during the operation.
[0095]
Although the embodiments of the present invention have been described above, the present invention is not limited to the contents described above.
[0096]
For example, in the above description, the sound effect 62 is generated at the end of the exposure operation, but the user may be notified of the end of the exposure operation by notifying the user of the end of the exposure operation. The sound effect 62 at the end of the exposure operation also has a significance to inform the user that the fixed state of the digital camera 1 may be released. In view of this significance, the sound effect 62 is generated after the exposure operation is completed. Also good. Therefore, the timing at which the sound effect 62 is generated is not required to be strictly coincident with the end timing of the exposure operation, and may be configured to be emitted before or after the end timing of the exposure operation. That is, when the sound effect 62 is generated at the timing when the exposure time of the CCD image sensor 10 reaches the longest exposure time 211 during bulb shooting, the sound effect 62 is generated as a notice one second before the longest exposure time 211 is reached, The sound effect 62 may be generated as a completion report one second after the longest exposure time 211 is reached.
[0097]
In the above description, when the exposure time of the CCD image sensor 10 is shorter than the predetermined time, the sound effect 63 is generated in synchronization with the start of the exposure operation. However, in this case, it is not at the start of the exposure operation. The sound effect 63 may be generated in synchronization with the end of the exposure operation.
[0098]
In the above description, the digital camera 1 stores data related to the first to third sound effects 61 to 63, and each sound effect is generated at different timings. You may comprise so that the same sound effect (for example, "beep") may be generated at a timing.
[0099]
In the above description, the case where the exposure operation is performed according to the user's shutter button operation is illustrated, but the present invention can also be applied to a case where remote shooting, self-timer shooting, or the like is performed.
[0100]
Further, in the above description, the case of “bulb photography” is illustrated, but the present invention is applied to a case where long exposure is performed (for example, when the exposure time is longer than 0.5 seconds) even if bulb photography is not performed. Is also possible.
[0101]
【The invention's effect】
As described above, according to the first aspect of the present invention, it is configured to generate a predetermined sound effect in conjunction with the start and end of the exposure operation, and the start and end of the exposure operation. In this period, it is configured to stop the generation of sound effects, so that it is possible to realize a shooting operation feeling similar to that of a silver halide camera, reduce power consumption, and further It becomes possible to efficiently perform other necessary operations during the exposure.
[0102]
According to the second aspect of the present invention, since the generation of the sound effect is stopped and the image processing is executed within the period between the start and end of the exposure operation, the image processing can be completed quickly. Is possible.
[0103]
According to the third aspect of the present invention, when the exposure period is shorter than the predetermined value, a predetermined sound effect is generated in conjunction with either the start or the end of the exposure operation. However, even when the camera is short, it is possible to realize a shooting operation feeling similar to that of a silver halide camera, and the processing load can be reduced by simplifying the processing for generating sound effects.
[0104]
According to the fourth aspect of the present invention, the exposure time of the image sensor is counted in response to the bulb photographing operation, and the exposure time reaches the longest exposure time even when the bulb photographing operation is continued. It is configured to end the exposure operation of the image sensor Because An appropriate image can be obtained at the time of bulb photographing, and the user can be notified of the exposure end timing at the time of bulb photographing with a feeling of photographing operation similar to that of a silver salt camera.
[0105]
According to the fifth aspect of the present invention, since the sound effect generated by the sound effect generating means is preset based on the user's selection operation, the user can select the sound effect suitable for the shooting environment. It is possible to set in advance.
[Brief description of the drawings]
FIG. 1 is a front view showing an external configuration of a digital camera.
FIG. 2 is a rear view showing an external configuration of the digital camera.
FIG. 3 is a block diagram showing internal functions of the digital camera.
FIG. 4 is a diagram showing a display screen and setting operation when setting sound effect setting information.
FIG. 5 is a timing chart when performing continuous shooting using a digital camera.
FIG. 6 is a timing chart when continuous shooting is performed using a digital camera.
[Explanation of symbols]
1 Digital camera
2 Photo lens
3 Speaker
5 Liquid crystal display (LCD)
9 Shutter button
10 CCD image sensor
20 Overall control unit (control means)
60 sound effect memory
61-63 Sound effect
210 Exposure control unit (control means)
211 Longest exposure time
220 Sound effect generation control unit (sound effect generating means)
230 Sound effect generation processing unit (sound effect generating means)
231 Sound effect setting information
240 Image processing unit
241 Image compression processing unit
242 Captured image recording unit

Claims (5)

A digital camera that shoots a subject by an exposure operation of an image sensor and generates image data,
Sound effect generating means for generating a predetermined sound effect in conjunction with each of the start and end of the exposure operation;
Control means for stopping generation of the sound effect in the sound effect generating means within a period between the start and end of the exposure operation;
Digital camera equipped with. The digital camera according to claim 1, wherein
Further comprising image processing means for performing image processing on image data obtained from the image sensor;
The digital camera according to claim 1, wherein the control unit stops the generation of the sound effect in the sound effect generation unit within the period and executes the image processing in the image processing unit. The digital camera according to claim 1 or 2,
The digital sound camera according to claim 1, wherein the sound effect generating means generates a predetermined sound effect in conjunction with either the start or end of the exposure operation when the exposure period is shorter than a predetermined value. The digital camera according to claim 1 or 2 ,
A counter for counting the exposure time of the image sensor in response to a bulb photographing operation ;
Said control means, said valve shooting even if the operation is continued, the digital camera, wherein the exposure time to terminate the exposure operation at timings that reaches the maximum exposure time is set in advance. The digital camera according to any one of claims 1 to 4,
A sound effect setting means for presetting the sound effect generated by the sound effect generating means based on a user's selection operation;
Further equipped with a digital camera.

Images