JP2006235060A - Imaging apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an imaging apparatus for improving handleability by compensating the out-of-focus of a subject without giving an unnatural feeling caused by the deviation of a viewing angle to a photographer. <P>SOLUTION: The imaging apparatus has a focusing determination means for judging the focusing state of an optical image on an image-formation surface. When the result of determination by the focusing determination means shows non-focusing (S305), a zoom lens position is moved to a side where the depth of field gets deeper, and also image data is electronically enlarged (S309 to S311). <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an imaging apparatus having an automatic focus adjustment function.

Conventionally, a subject distance and an appropriate aperture value are obtained, and then it is determined whether or not the subject is in focus. When the subject is in focus, the photographing operation is allowed as it is, and when the subject is out of focus, the object field is There has been proposed an imaging apparatus provided with a control unit that changes a diaphragm value to allow a photographing operation on the deeper side (Patent Document 1). With this technique, it is possible to compensate for the out of focus of the image even when the subject is not within the depth with the appropriate aperture value.
JP-A-8-76169

  However, in the above-described conventional example, when the subject is out of focus, the subject may not fit within the depth even when the aperture is set to be deep, and the subject is not always in focus. There was a possibility that it would not be in a state.

(Object of invention)
An object of the present invention is to provide an imaging apparatus that can compensate for the subject's focus shift without giving the photographer a sense of incongruity due to a shift in the angle of view and improve usability.

  In order to achieve the above object, the present invention provides an imaging apparatus having a focus determination unit that determines a focus state of an optical image on an imaging plane, wherein the determination result of the focus determination unit is not in focus. In such a case, the zoom lens position is moved to the side where the depth of field becomes deeper, and the image data is electronically enlarged.

  According to the present invention, it is possible to provide an imaging apparatus that can compensate for a subject's focus shift without giving the photographer a sense of incongruity due to a shift in the angle of view and improve usability.

  The best mode for carrying out the present invention is as shown in one embodiment described below.

  FIG. 1 is a block diagram showing a circuit configuration of an imaging apparatus according to an embodiment of the present invention. In the figure, reference numeral 100 denotes an image pickup apparatus, which includes the following various components.

  10 is a photographing lens including a focusing lens and a zoom lens, 12 is a shutter having a diaphragm function, 14 is an image sensor that converts an optical image into an electrical signal, and 16 is an A / A that converts an analog signal output of the image sensor 14 into a digital signal. D converter. A timing generation circuit 18 supplies a clock signal and a control signal to the image sensor 14, the A / D converter 16 and the D / A converter 26, and is controlled by the memory control circuit 22 and the system control circuit 50.

  An image processing circuit 20 performs predetermined pixel interpolation processing and color conversion processing on the data from the A / D converter 16 or the data from the memory control circuit 22. The image processing circuit 20 performs predetermined calculation processing using the captured image data, and the system control circuit 50 controls the exposure control unit 40 and the distance measurement control unit 42 based on the obtained calculation result. TTL (through-the-lens) AF (autofocus) processing, AE (automatic exposure) processing, and EF (flash pre-emission) processing are performed. Further, the image processing circuit 20 performs predetermined arithmetic processing using the captured image data, and also performs TTL AWB (auto white balance) processing based on the obtained arithmetic result.

  A memory control circuit 22 controls the A / D converter 16, the timing generation circuit 18, the image processing circuit 20, the image display memory 24, the D / A converter 26, the memory 30, and the compression / decompression circuit 32. The data of the A / D converter 16 is sent via the image processing circuit 20 and the memory control circuit 22, or the data of the A / D converter 16 is sent directly via the memory control circuit 22 to the image display memory 24 or the memory 30. Is written to.

  Reference numeral 24 is an image display memory, and 26 is a D / A converter. Reference numeral 28 denotes an image display unit composed of a TFT LCD or the like. Display image data written in the image display memory 24 is displayed by the image display unit 28 via the D / A converter 26. If the image data captured using the image display unit 28 is sequentially displayed, the electronic viewfinder function can be realized. Further, the image display unit 28 can arbitrarily turn on / off the display according to an instruction from the system control circuit 50. When the display is turned off, the power consumption of the imaging apparatus 100 can be significantly reduced. I can do it.

  Reference numeral 30 denotes a memory for storing captured still images and moving images, and has a sufficient storage capacity to store a predetermined number of still images and a predetermined time of moving images. This makes it possible to write a large amount of images to the memory 30 at high speed even in continuous shooting or panoramic shooting in which a plurality of still images are continuously shot. The memory 30 can also be used as a work area for the system control circuit 50. A compression / decompression circuit 32 compresses / decompresses image data by adaptive discrete cosine transform (ADCT) or the like, reads an image stored in the memory 30 and performs compression processing or decompression processing, and stores the processed data in the memory 30. Write to.

  Reference numeral 40 denotes an exposure control unit that controls the shutter 12 having a diaphragm function, and has a flash light control function in cooperation with the flash 48. Reference numeral 42 denotes a distance measurement control unit that controls focusing of the photographing lens 10, reference numeral 44 denotes a zoom control unit that controls zooming of the photographing lens 10, and reference numeral 46 denotes a barrier control unit that controls the operation of the protective member 102 serving as a barrier. A flash 48 has an AF auxiliary light projecting function and a flash light control function.

  The exposure control unit 40 and the distance measurement control unit 42 are controlled using the TTL method. Based on the calculation result obtained by calculating the captured image data by the image processing circuit 20, the system control circuit 50 includes the exposure control unit 40, Control is performed for the distance measurement control unit 42.

  Reference numeral 50 denotes a system control circuit that controls the entire imaging apparatus 100, and 52 denotes a memory that stores constants, variables, programs, and the like for operation of the system control circuit 50. Reference numeral 54 denotes a display unit such as a liquid crystal display device or a speaker that displays an operation state or a message using characters, images, sounds, or the like in accordance with execution of a program in the system control circuit 50, and an operation unit of the imaging device 100 A single or a plurality of locations are provided in the vicinity where they can be easily seen, and are configured by a combination of, for example, an LCD, an LED, and a sounding element. In addition, the display unit 54 is partially installed in the optical viewfinder 104.

  Among the contents displayed on the display unit 54, what is displayed on the LCD or the like is a single shot / continuous shooting display, a self-timer display, a compression ratio display, a recording pixel number display, a recording number display, and a remaining image number display. , Shutter speed display, Aperture value display, Exposure compensation display, Flash display, Red-eye reduction display, Macro shooting display, Buzzer setting display, Clock battery level display, Battery level display, Error display, Multi-digit number information display , Attachment / detachment status display of the recording media 200 and 210, communication I / F operation display, date / time display, and the like. Among the display contents of the display unit 54, what is displayed in the optical viewfinder 104 includes in-focus display, camera shake warning display, flash charge display, shutter speed display, aperture value display, exposure correction display, and the like.

  Reference numeral 56 denotes an electrically erasable / recordable nonvolatile memory such as an EEPROM. Reference numerals 60, 62, 64, 66, 68, and 70 are operation units for inputting various operation instructions of the system control circuit 50. The following switches, dials, touch panels, pointing by line-of-sight detection, voice recognition devices, etc. Consists of a single or a plurality of combinations.

 Here, these operation units will be described. Reference numeral 60 denotes a mode dial switch, which can switch and set various function modes such as power-off, automatic shooting mode, shooting mode, panoramic shooting mode, playback mode, multi-screen playback / erase mode, and PC connection mode.

    Reference numerals 62 and 64 denote shutter switches. One switch can be operated in two stages. When the shutter switch is pressed in one stage, the shutter switch SW1 is operated (ON state). In the pressed state, the shutter switch SW2 is operated (ON state). Reference numeral 62 denotes the shutter switch SW1 as described above, which instructs the start of shooting preparation operations such as AF (auto focus) processing, AE (auto exposure) processing, AWB (auto white balance) processing, and EF (flash pre-flash) processing. To do. Reference numeral 64 denotes the shutter switch SW2 as described above, and an exposure process in which a signal read from the image sensor 14 is written as image data in the memory 30 via the A / D converter 16 and the memory control circuit 22, the image processing circuit 20 and the memory. Development processing and calculation / magnification processing of image data using calculation in the control circuit 22, recording processing for reading out image data from the memory 30, compression in the compression / decompression circuit 32, and writing the image data to the recording medium 200 or 210 This is an instruction to start the photographing operation of a series of processes.

  Reference numeral 66 denotes an image display ON / OFF switch, which can set ON / OFF of the image display unit 28. With this function, when photographing using the optical viewfinder 104, it is possible to save power by cutting off the current supply to the image display unit 28 including a TFT LCD or the like. Reference numeral 68 denotes a moving image shooting switch which can be operated in one step and performs operations such as AF (autofocus) processing, AE (automatic exposure) processing, AWB (auto white balance) processing, and EF (flash pre-flash) processing. An exposure process for writing a signal read from the image sensor 14 to the memory 30 via the A / D converter 16 and the memory control circuit 22, and an operation in the image processing circuit 20 and the memory control circuit 22. Instructing the start of a series of processing operations such as development processing used, recording data read out from the memory 30, compressed by the compression / decompression circuit 32, and recorded continuously as moving image data on the recording medium 200 or 210 To do. Reference numeral 70 denotes an operation unit including various buttons, a touch panel, and the like, a menu button, a set button, a macro button, a multi-screen playback page break button, a flash setting button, a single shooting / continuous shooting / self-timer switching button, menu movement + (plus ) Button, menu movement- (minus) button, reproduction image movement + (plus) button, reproduction image- (minus) button, shooting image quality selection button, exposure correction button, date / time setting button, and the like.

  Reference numeral 80 denotes a power control unit, which includes a battery detection circuit, a DC-DC converter, a switch circuit for switching a block to be energized, etc., and detects whether or not a battery is installed, the type of battery, and the remaining battery level. The DC-DC converter is controlled based on the result and an instruction from the system control circuit 50, and a necessary voltage is supplied to each unit including the recording medium for a necessary period. Reference numeral 82 denotes a connector having terminals that are electrically connected to the power supply device 150 described later.

  90 and 94 are interfaces with a recording medium such as a memory card or a hard disk, 92 and 96 are connectors for connecting to a recording medium such as a memory card or a hard disk, and 98 is a recording medium 200 or 210 attached to the connectors 92 and 96. It is a recording medium attachment / detachment detection unit that detects whether or not there is.

  In this embodiment, it is assumed that there are two interfaces and connectors for attaching the recording medium. Of course, the interface and the connector for attaching the recording medium may have a single or a plurality of systems and any number of systems. Moreover, it is good also as a structure provided with combining the interface and connector of a different standard. The interface and the connector may be configured using a PCMCIA card, a CF (compact flash) card, or the like that conforms to a standard. Further, when the interfaces 90 and 94, and the connectors 92 and 96 are configured using a PCMCIA card, a CF (compact flash) card, or the like, a LAN card, a modem card, a USB card, an IEEE 1394 card, a P1284 card. By connecting various communication cards such as SCSI cards, PHS and other communication cards, image data and management information attached to the image data can be transferred to and from other computers and peripheral devices such as printers. I can do it.

  Reference numeral 102 denotes a protective member that is a barrier that prevents the imaging unit from being soiled or damaged by covering the imaging unit including the lens 10 of the imaging device 100. Reference numeral 104 denotes an optical viewfinder, which can perform photographing using only the optical viewfinder without using the electronic viewfinder function of the image display unit 28. In the optical viewfinder 104, some functions of the display unit 54, for example, a focus display, a camera shake warning display, a flash charge display, a shutter speed display, an aperture value display, an exposure correction display, and the like are installed. A communication unit 110 has various communication functions such as RS232C, USB, IEEE1394, P1284, SCSI, modem, LAN, and wireless communication. Reference numeral 112 denotes a connector for connecting the imaging apparatus 100 to another device by the communication unit 110 or an antenna in the case of wireless communication.

  Above, description of the component in the imaging device 100 is completed.

  Reference numeral 150 denotes a power supply device. The power supply device is a connector 152 electrically connected to the connector 82 provided in the photographing apparatus 100, a primary battery such as an alkaline battery or a lithium battery, a NiCd battery, a NiMH battery, a Li battery, or the like. A power source 154 including a secondary battery, an AC adapter, and the like.

  Reference numeral 200 denotes a recording medium such as a memory card or a hard disk. The recording medium 200 is connected to a recording unit 202 composed of a semiconductor memory, a magnetic disk, or the like, an interface 204 with the imaging apparatus 100, and a connector 92 on the imaging apparatus 100 side. Connector 206 is provided. Reference numeral 210 denotes a recording medium such as a memory card or a hard disk. The recording medium 210 is connected to a recording unit 212 composed of a semiconductor memory, a magnetic disk, or the like, an interface 214 with the imaging apparatus 100, and a connector 96 on the imaging apparatus 100 side. Connector 216 is provided.

  Next, the operation of the imaging apparatus having the above configuration will be described with reference to FIGS. 2 and 3 are flowcharts showing the main operation of the imaging apparatus, and FIGS. 4 and 5 are photometry / distance measurement (1) and photometry / distance measurement (2) subroutines executed in the main operation. It is a flowchart which shows. FIG. 6 is a diagram showing an image enlargement designation data table used in the photometry / ranging (2) subroutine.

  When power is turned on such as battery replacement, the system control circuit 50 starts operation from step S101 in FIG. First, in step S101, flags, control variables, and the like are initialized, and in the next step S102, the image display of the image display unit 28 is initialized to an OFF state. In the subsequent step S103, the setting position of the mode dial 60 is determined. If the mode dial 60 is set to power OFF, the process proceeds to step S105, the display on each display unit is changed to the end state, and the barrier of the protective member 102 is changed. Is closed to protect the imaging unit, and necessary parameters, setting values, and setting modes including flags and control variables are recorded in the nonvolatile memory 56, and the power source control unit 80 includes the image display unit 28 in the imaging apparatus 100. Predetermined termination processing such as shutting off unnecessary power sources for each unit is performed. Then, the process returns to step S103.

  If it is determined in step S103 that the mode dial 60 is set to another mode, the system control circuit 50 advances the operation to step S104. In step S104, the process corresponding to the selected mode is executed. When the process is completed, the process returns to step S103.

  If it is determined in step S103 that the mode dial 60 is set to the shooting mode, the system control circuit 50 advances the operation to step S106. In step S106, the power supply control unit 80 determines whether the remaining capacity and the operation status of the power supply device 150 including the battery 154 and the like have a problem in the operation of the imaging device 100. In step S108, the display unit 54 is used to display a predetermined warning by image or sound. Then, the process returns to step S103.

  On the other hand, if it is determined in step S106 that there is no problem with the power supply device 150, the system control circuit 50 proceeds to step S107, where the operation state of the recording medium 200 or 210 is the operation of the imaging device 100, In particular, it is determined whether there is a problem in the recording / reproducing operation of the image data with respect to the recording medium. As a result, if there is a problem, the process proceeds to step S108, and a predetermined warning display is performed by an image or sound using the display unit 54. Then, the process returns to step S103.

  If it is determined in step S107 that there is no problem in the operation state of the recording medium 200 or 210, the system control circuit 50 proceeds to step S109. Here, the display unit 54 is used to generate an image or sound. Various setting states of the imaging apparatus 100 are displayed. If the image display of the image display unit 28 is ON, the image display unit 28 is also used to display various setting states of the imaging device 100 using images and sounds. In the next step S110, the setting state of the image display ON / OFF switch 66 is checked. If the image display is set to ON, the process proceeds to step S111, an image display flag is set, and in the subsequent step S112, the image display unit is displayed. 28 image display is set to ON. Then, in the next step S113, the captured image data is set to a through display state for sequentially displaying, and the process proceeds to step S116 in FIG.

  In the through display state, data sequentially written in the image display memory 24 via the image sensor 14, the A / D converter 16, the image processing circuit 20, and the memory control circuit 22 are stored in the memory control circuit 22, D / D The images are sequentially displayed by the image display unit 28 via the A converter 26. That is, the electronic viewfinder function is realized.

  If the image display ON / OFF switch 66 is set to image display OFF in step S110, the system control circuit 50 proceeds to step S114, cancels the image display flag, and in the next step S115, the image display flag is set. The image display on the display unit 28 is set to the OFF state, and the process proceeds to step S116 in FIG.

  When the image display is OFF, the photographer does not use the electronic viewfinder function of the image display unit 28 but takes an image using the optical viewfinder 104. In this case, it is possible to reduce power consumption of the image display unit 28, the D / A converter 26, and the like that consume a large amount of power. The state of the image display flag is stored in the internal memory of the system control circuit 50 or the memory 52.

  When the process proceeds to step S116 in FIG. 3, the system control circuit 50 determines whether or not the shutter switch SW1 is pressed (ON). If not, the system control circuit 50 proceeds to step S103 in FIG. Return.

  On the other hand, if it is determined that the shutter switch SW1 is pressed, the system control circuit 50 proceeds to step S117, where it is determined whether the shutter switch SW1 and the shutter switch SW2 are pressed at the same time. If only the shutter switch SW1 is pressed, the process proceeds to step S118, and the state of the image display flag stored in the internal memory of the system control circuit 50 or the memory 52 is determined. As a result, if the image display flag is set, the process proceeds to step S119, the display state of the image display unit 28 is set to the freeze display state, and the process proceeds to the distance measurement / photometry operation (1) of step S120. If the image display flag is not set, the process immediately proceeds from step S118 to the distance measurement / photometry operation (1) in step S120.

  Here, the distance measurement / photometry operation (1) executed in step S120 will be described in detail with reference to the flowchart of FIG.

  First, in step S201, the system control circuit 50 performs a photometric operation. In the next step S202, the AF electronic shutter and gain are calculated, and in the subsequent step S203, the AF electronic shutter and gain are set. In step S204, an AF operation is performed, and in the next step S205, an AWB operation is performed.

  In step S206, the photometry operation is performed again, and in the next step S207, the electronic shutter and gain for photographing are calculated, and in the subsequent step S208, the electronic shutter and gain for photographing are set. Then, the distance measurement / photometry operation (1) is terminated, and the process proceeds to step S121 in FIG.

  Returning to FIG. 3, if it is determined in step S117 that the shutter switch SW1 and the shutter switch SW2 are simultaneously pressed, the system control circuit 50 proceeds to step S125, and the internal memory or memory of the system control circuit 50 is displayed. The state of the image display flag stored in 52 is determined. If the image display flag is set, the process proceeds to step S126, the display state of the image display unit 28 is set to the freeze display state, and the distance measurement in step S127 is performed. • Proceed to photometric operation (2). If the image display flag is not set, the process immediately proceeds from step S125 to the distance measurement / photometry operation (2) of step S127.

  Here, the distance measurement / photometry operation (2) executed in step S127 will be described in detail with reference to the flowchart of FIG.

  First, in step S301, the system control circuit 50 performs a photometric operation. In the next step S302, the AF electronic shutter and gain are calculated, and in the subsequent step S303, the AF electronic shutter and gain are set. In step S304, an AF operation is performed. In next step S305, it is determined whether or not the AF result is in focus. If the AF focus result is in focus, the process proceeds to step S312 and AF is performed. If the in-focus result is out of focus, the processing of steps S306 to S311 is executed, and the process proceeds to step S312.

  If it is determined in step S305 that the AF focus result is out of focus and the process proceeds to step S306, the system control circuit 50 determines whether or not the aperture can be reduced. If the aperture cannot be reduced, the system control circuit 50 immediately proceeds to step S309. If the aperture can be reduced, the process proceeds to step S307, and the aperture is reduced to step S308.

  In step S308, it is determined again whether the AF in-focus result is in-focus or in-focus. If in-focus, the process immediately proceeds to step S312. If in-focus, the process proceeds to step S309. In step S309, the system control circuit 50 determines whether or not the zoom lens can be moved in the wide direction. If the zoom lens cannot be moved in the wide direction, the system control circuit 50 immediately proceeds to step S312. On the other hand, if the zoom lens can be moved in the wide direction, the process proceeds to step S310, the zoom lens is moved to the wide angle side, and in the next step S311, an image enlargement setting is made to compensate for the shift of the movement to the wide side. The process proceeds to step S312.

  Here, as illustrated in FIG. 6, the imaging apparatus has a table of horizontal cutout pixel sizes of cutout image data corresponding to the position of the step where the zoom lens stops before moving the zoom lens to the wide angle side. ing. The enlargement setting specifies the horizontal cutout pixel size. When the stop position is step 0, the zoom lens is at the wide-angle position, and the cut-out size is the same as that when the zoom lens is not enlarged. The larger the step value, the closer to the telephoto side. For example, when the stop position of the zoom lens before being moved to the wide-angle side is 10, the setting is such that the center horizontal size 1888 pixels is cut out from the horizontal size 2048 pixels without enlargement and enlarged to 2048 pixels. The vertical size is enlarged so as to have the same aspect ratio as that when not enlarged.

  Thereafter, the process proceeds to step S312, and the system control circuit 50 performs an AWB operation, performs a photometric operation again in the next step S313, and performs an electronic shutter for photographing and gain calculation in the subsequent step S314. In step S315, gain correction calculation such as the amount of aperture reduction or the change in F value due to the zoom lens moving in the wide direction is performed. In the next step S316, the electronic shutter for photographing and Set the gain. Then, the distance measurement / photometry operation (2) is terminated, and the process proceeds to step S128 in FIG.

  As described above, when the shutter switch SW1 and the shutter switch SW2 are pressed at the same time, if the AF focus result is out of focus, the zoom lens is moved to the wide side to increase the depth of field. The image is enlarged, and the image processing circuit 20 enlarges the image data (cuts out and enlarges a part of the imaging range), so that the photographer does not feel uncomfortable due to the angle of view. Can be compensated for.

  Returning to FIG. 3, after completing the distance measurement / photometry (1) process, if the image display flag is set in step S123, the system control circuit 50 displays the image in the next step S124. The display state of the unit 28 is set to the through display state, and the through image is continuously displayed until the shutter switch SW2 is pressed or the shutter switch SW1 is released in steps S121 and S122.

  If the shutter switch SW2 is not pressed in step S121 and the pressing of the shutter switch SW1 is released in the next step S122, the system control circuit 50 returns to step S103 in FIG.

  After the shutter switch SW2 is pressed in step S121 or the distance measurement / photometry (2) process is completed, the system control circuit 50 stores the internal memory or memory of the system control circuit 50 in step S128. The state of the image display flag stored in 52 is determined. If the image display flag is not set, the process immediately proceeds to step S130. If the image display flag is set, the process proceeds to step S129, the display state of the image display unit 28 is set to the fixed color display state, and the process proceeds to step S130.

  In the fixed color display state, instead of the captured image data written in the image display memory 24 via the image sensor 12, the A / D converter 16, the image processing circuit 20, and the memory control circuit 22, the fixed image is replaced. By displaying the color image data by the image display unit 28 via the memory control circuit 22 and the D / A converter 26, a fixed color image is displayed on the electronic viewfinder.

  In the next step S130, the system control circuit 50 passes through the image sensor 12, the A / D converter 16, the image processing circuit 20, the memory control circuit 22, or directly from the A / D converter via the memory control circuit 22. Then, an exposure process for writing the captured image data in the memory 30, and a development process for reading out the image data written in the memory 30 and performing various processes using the memory control circuit 22 and, if necessary, the image processing circuit 20. The imaging process consisting of If the enlargement setting has been made, the image data is enlarged by the image processing circuit 20 during the development process. In the enlargement of the image data, the image of the cut-out pixel designated at the time of the enlargement setting is cut out from the center of the same-size image data, and is enlarged so as to become the image data of the same pixel as the same size.

  In subsequent step S131, the system control circuit 50 determines the state of the image display flag stored in the internal memory of the system control circuit 50 or the memory 52. If the image display flag is not set, the process immediately proceeds to step S133. If the image display flag has been set, the process advances to step S132 to perform quick review display. In this case, the image display unit 28 is always displayed as an electronic viewfinder even during shooting, and quick review display immediately after shooting is also performed.

  In the next step S133, the system control circuit 50 executes a recording process for writing image data to the recording medium 200 or 210. In step S134, it is determined whether or not the shutter switch 134 remains pressed. If the shutter switch 134 remains pressed, the process returns to step S130 to perform continuous shooting, and thereafter the same operation is repeated.

  If it is determined in step S134 that the shutter switch SW2 has been released, the system control circuit 50 proceeds to step S135 and waits until a predetermined minimum review time elapses. When this time has elapsed, the system control circuit 50 proceeds to step S136. move on. The minimum review time can be a fixed value, can be arbitrarily set by the user, or can be arbitrarily set or selected by the user within a predetermined range. You may set by the method.

  In the next step S136, the system control circuit 50 determines whether the image display flag is set. If the image display flag is set, the system control circuit 50 proceeds to step S137, and changes the display state of the image display unit 28 to the through display state. Set and proceed to step S139. In this case, after confirming the captured image by the quick review display on the image display unit 28, it is possible to enter a through display state in which image data captured for the next imaging is sequentially displayed. If the image display flag has been canceled, the process proceeds to step S138, the image display of the image display unit 28 is set to the OFF state, and the process proceeds to step S139.

  In the next step S139, the system control circuit 50 determines whether or not the shutter switch SW1 has been pressed. If the shutter switch SW1 has been pressed, the system control circuit 50 returns to step S121 to prepare for the next shooting. On the other hand, if the pressing of the shutter switch SW1 is released, the series of photographing operations is finished, and the process returns to step S103 in FIG.

  Thus, a series of operations is completed.

  According to the above embodiment, when the in-focus determination result is out of focus, the system control circuit 50 moves the zoom lens to the wide-angle side so that the depth of field is deep, and the subject is out of focus. In order to compensate for the focus shift of the subject in the case of the zoom lens, and to compensate for the shift of the imaging range due to the movement of the zoom lens to the wide angle side, the image processing unit 20 performs image data enlargement processing, that is, a part of the imaging range. It is cut out and enlarged. Therefore, it is possible to provide an imaging apparatus that can compensate for the subject's focus shift without giving the photographer a sense of incongruity due to a shift in the angle of view.

  Specifically, the image pickup apparatus of the above-described embodiment gives instructions regarding photographing in two stages of the shutter switch SW1 and the shutter SW2, and when the shutter switch SW1, which is a one-stage switch, is pressed, a focusing operation and an exposure operation are performed. When an image preparation is performed and a shutter switch SW2 that is a two-stage switch is pressed, an imaging operation is performed. In such an imaging apparatus, when two steps of pressing are performed at once, that is, when the shutter switch SW1 and the shutter SW2 are pressed at the same time, the shooting preparation operation and the shooting operation are performed at the same time. The user shoots without knowing whether the subject to be photographed is in focus.

  Therefore, in this embodiment, when simultaneous pressing is performed such that the photographer cannot determine whether or not the subject is in focus at the time of shooting, focusing is performed and the focus determination result is determined to determine the focus. If the result of the determination is out of focus, the zoom lens is moved to the wide-angle side to compensate for the out of focus of the image, i.e. without automatically entrusting the photographer to determine whether the subject is in focus. Even if it is in focus, a part of the imaging range is cut out and enlarged in order to compensate for the focus shift of the image and to compensate for the shift of the imaging range caused by moving the zoom lens to the wide angle side. Therefore, it is possible to compensate for the subject's focus shift without giving the photographer a sense of incongruity due to a shift in the angle of view, and the usability of the imaging apparatus can be improved.

  In the above-described embodiment, the zoom lens is moved to the wide side when the AF focus result is out of focus in the situation where the shutter switch SW1 and the shutter switch SW2 are pressed at the same time. The means for instructing the AF operation is not limited, such as moving the zoom lens to the wide side when the AF focus result when the movie shooting is instructed by the movie shooting switch 68 is out of focus. Therefore, when the video shooting switch 68 is operated so that the photographer cannot determine whether or not the subject is in focus at the time of shooting, focusing is performed and the focus determination result is determined to determine the focus. If the result is out-of-focus, move the zoom lens to the wide-angle side to compensate for the focus shift of the image, and to compensate for the shift of the imaging range due to the movement of the zoom lens to the wide-angle side. If the structure is cut out and enlarged, as in the above embodiment, it is possible to compensate for the subject's focus shift without giving the photographer a sense of incongruity due to the shift in the angle of view, thereby further improving the usability of the imaging device. Can be made.

  Further, in the above embodiment, when the aperture cannot be narrowed down or when focusing is not achieved, the lens is moved to the wide side. However, if the aperture is narrowed down, the shutter time becomes longer, which may cause camera shake. If there is, for example, it may be moved to the wide side without narrowing down.

1 is a block diagram illustrating a circuit configuration of an imaging apparatus according to an embodiment of the present invention. 6 is a flowchart showing a part of the operation of the imaging apparatus according to the embodiment of the present invention. 3 is a flowchart showing a continuation of the operation of FIG. It is a flowchart which shows the operation | movement of ranging / photometry (1) of FIG. It is a flowchart which shows the operation | movement of distance measurement and photometry (2) of FIG. It is a figure which shows the data table of image expansion designation | designated in one Example of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Shooting lens 14 Image pick-up element 20 Image processing part 22 Image processing circuit 42 Distance measurement control part 50 System control circuit 62 (SW1) Shutter switch 64 (SW2) Shutter switch 68 Movie shooting switch 100 Imaging device

Claims (3)

An imaging apparatus having an in-focus determination unit that determines an in-focus state on an imaging plane of an optical image,
When the determination result of the focus determination unit is out of focus, the zoom lens position is moved to the side where the depth of field becomes deeper, and the image data is electronically enlarged.   The electronic enlargement of the image data is to cut out a part of the imaging range and electronically enlarge in order to compensate for a shift in the angle of view of the subject due to the movement of the zoom lens position. The imaging device according to claim 1. A photographic lens with variable focus lens position and zoom lens position;
In-focus determination means for determining the in-focus state on the imaging surface of the optical image by the photographing lens;
Image display means for displaying image data of the optical image;
An imaging device having
Zoom movement control means for moving the zoom lens position of the photographic lens to the side where the depth of field is deep when the determination result of the focus determination means is out of focus;
Image display control means for enlarging the image data in accordance with the operation of the zoom movement control means so as to make the imaging range displayed on the image display means equivalent to that before moving the zoom lens position;
An imaging apparatus comprising:

Images