JP2007201535A - Camera system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To allow a user to use the new functions and adjustment functions of a lens unit to which a body unit does not work. <P>SOLUTION: The body unit 11 is used by attaching various kinds of lens units 12. Information display data are displayed on an LCD 30 of the body unit 11 when adjustment peculiar to the lens unit 12 is performed, and are written into a ROM 41a at the side of the lens unit 12. When a specific operation mode is selected by a mode change dial 28, the information display data in the ROM 41a are transmitted to the body unit 11 by a lens control unit 41 at the side of the lens unit 12 for displaying on the LCD 30 accordingly. An operation signal from an operation section 42 is transferred to the lens control unit 41, and the lens control unit 41 performs processing in response to the operation signal. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a camera system including a lens unit including a photographing lens and an image sensor, and a main unit in which the lens unit is detachable.

  In recent years, digital cameras that photograph a subject with an image sensor such as a CCD image sensor and store the image data in a memory card or the like have become widespread. For example, as shown in Patent Document 1, a lens unit (plug-in unit) in which a photographic lens and an image sensor (imaging device) are incorporated in a housing, and the lens unit are attached, and an image of the lens unit. There is known a camera system including a main unit (camera main body) that receives image data obtained by photographing with a sensor.

In the above camera system, various types of lens units such as a zoom lens and a wide-angle lens are prepared, and various lens units can be exchanged and used. The main unit has a built-in microcomputer, and controls the operation of the mounted lens unit.
JP-A-8-172561

  By the way, in the camera system as described above, it is necessary to prepare a control program for controlling the lens unit and performing the operation on the main unit side according to the lens unit at the time of manufacture. For this reason, when new functions that the main unit does not support, such as adjustment functions and shooting functions that are unique to the lens unit, are added to the lens unit, the new functions of the lens unit will be added to the previous main unit. There was a problem that the control program of the main unit had to be rewritten in order to use it or to use its new function. In particular, because new functions are used, settings, adjustment details, and instructions for adjustment cannot be displayed.

  The present invention has been made to solve the above problems, and an object of the present invention is to provide a camera system in which new functions and unique adjustment functions of a lens unit can be easily used.

  In order to achieve the above object, in the camera system according to claim 1, a display unit provided in the main body unit for displaying information according to input information display data, and provided in the lens unit, the display unit includes A lens-side storage unit that pre-stores information display data for displaying information, a mode setting unit for setting a specific operation mode for performing an operation specific to the lens unit that is mounted, and the mode setting unit. Display control means for sending information display data stored in the lens-side storage means to the display means via the communication means to display information relating to the specific operation mode when the specific operation mode is set; It is provided.

  In the camera system according to claim 2, a display unit provided in the main body unit for displaying information according to input information display data, and a display procedure provided in the lens unit and to be displayed on the display unit or Lens-side storage means for storing display control data describing a display form in advance, mode setting means for setting a specific operation mode for performing an operation specific to the mounted lens unit, and the lens unit being the main unit The display control data stored in the lens-side storage means is read after being mounted on the camera, and sent to the main unit via the communication means, and the display control from the transfer means is provided in the main unit. Main body side storage means for storing data; provided in the main body unit; When the operation mode is set, information display data is generated based on the display control data stored in the main body side storage means, and the generated information display data is input to the display means to provide information on the specific operation mode. Display control means for displaying.

  In the camera system according to claim 3, the specific operation mode is a mode for adjusting the lens unit, and the lens-side storage means stores information display data relating to the adjustment of the lens unit. In the camera system according to Item 4, the specific operation mode is a mode for executing an unsupported function of a lens unit that is not supported by the main body unit, and the lens-side storage unit stores information display data regarding the unsupported function. It is what I did. In the camera system according to the fifth aspect, the information related to the specific operation mode includes at least one of operation guidance, operation instructions, selection items, and setting items related to the specific operation mode.

  In the camera system according to claim 6, the main body unit includes an operation unit that generates an operation signal according to an operation from the outside, and the lens unit includes a lens control unit that controls each unit of the lens unit, and performs a specific operation. In the mode, an operation signal from the operation unit is sent to the lens control unit via the communication unit, and the lens control unit controls each part of the lens unit in direct response to the operation signal. .

  According to the camera system of the present invention, information display data necessary for the specific operation mode is stored in the lens-side storage unit provided in the lens unit that is detachable from the main unit, and when the specific operation mode is set, The information display data is input to display means provided in the main unit to display information relating to the specific operation mode. Alternatively, display control data describing a display procedure or display form to be displayed on the display means in the specific operation mode is stored in the lens unit, and the display control means provided in the main unit when the specific operation mode is set Display data is generated based on the display control data, and information about the specific operation mode is displayed on the display means, so that new lens unit functions and adjustment function settings, adjustment details, and instructions for adjustment are displayed. Therefore, new functions and unique adjustment functions of these lens units can be easily used.

  A camera system embodying the present invention is shown in FIG. The digital camera 10 of this camera system is configured by combining a main unit 11 and a lens unit 12. The lens unit 12 includes a photographing lens 13 built in a cylindrical casing 12a and an image sensor 14 that photoelectrically converts a subject image formed by the photographing lens 13. Although a CCD image sensor is used as the image sensor 14, it may be a MOS type or the like.

  The main body unit 11 exchanges various signals with the mounted lens unit 12 to drive the image sensor 14 and acquire image data obtained by photographing the subject with the image sensor 14. The lens unit 12 is detachable from the main unit 11. In addition, as the lens unit 12, for example, a plurality of types are available, such as those having different focal lengths of the photographing lens 13, different numbers of pixels of the image sensor 14, and those capable of infrared photographing. As a result, the lens unit 12 can be arbitrarily selected according to the shooting intention / shooting scene and mounted on the main unit 11 for shooting.

  On the back surface of the lens unit 12, a mount portion 16 in which a bayonet claw 15 is formed is provided. On the other hand, a mount 18 having a bayonet groove 17 is provided on the front surface of the main unit 11. The lens unit 12 is mounted on the main unit 11 by aligning and pushing the bayonet claw 16 into the bayonet groove 17 and rotating it clockwise to a fixed position. Note that the light receiving surface 14a of the image sensor 14 is in a landscape orientation when the fixed position is set in this way.

  A lock pin 20 is provided on the mount portion 18. The lock pin 20 is movable between a lock position protruding forward and a release position moved into the main body unit 11, and is biased toward the lock position. When the lens unit 12 is attached to the main body unit 11 as described above, the lock pin 20 is moved to the release position against the bias of the spring by being pressed by the mount portion 16, and the lens unit 12 is fixed. When the lens unit 12 is rotated to the position, it engages with a pin hole (not shown) formed in the mount portion 16 to lock the rotation of the lens unit 12. This prevents the lens unit 12 from rotating carelessly and falling off the main unit 11.

  A lock release button 21 is provided in the vicinity of the mount portion 18. When the lock release button 21 is pressed, the lock pin 20 moves to the release position, and the engagement between the lock pin 20 and the pin hole is released. The Thereby, the rotation of the lens unit 12 is allowed, and the lens unit 12 can be detached from the camera body 11.

  A mount lid 23 is provided at the center of the mount portion 18. The mount lid 23 is biased forward, and when the lens unit 12 is not mounted, the opening into which the bayonet claw 15 enters is closed from the inside as shown in FIG. Prevent intrusion. When the lens unit 12 is attached to the main body unit 11, the mount lid 23 is attached to the lens unit 12 by being pressed by the lens unit 12 and moving backward.

  The bayonet claw 15 is provided with a plurality of contacts 15a. Each contact 15a is a contact (not shown) provided in the mount 18 on the main unit 11 side when the lens unit 12 is fixed to the main unit 11. ). Thereby, the circuit built in the main unit 11 and the circuit built in the lens unit 12 are electrically connected.

  On the front surface of the main unit 11, a strobe light emitting unit 24 that irradiates a subject with strobe light at the time of shooting is provided. A release button 25 for instructing the digital camera 10 to shoot and a mode switching dial 26 are provided on the upper surface of the camera body 11. By operating the mode switching dial 26, it is possible to switch between a shooting mode for shooting still images, a playback mode for playing back and displaying captured images, and a specific operation mode for performing operations specific to the lens unit 12. it can.

  In this example, as an operation peculiar to the lens unit 12, the main unit 11 adjusts the lens unit 12 that is not supported, and the adjustment mode of the lens unit 12 is set by selecting a specific operation mode. The operation unique to the lens unit 12 operating in the specific operation mode is not limited to the adjustment of the lens unit 12, and a newly added photographing function may be operated.

  The release button 25 is pressed in two steps. When the release button 25 is lightly pressed halfway in the shooting mode, exposure adjustment, focus adjustment, and the like are performed. If the release button 25 is further pushed down from this half-press to make it full-press, one screen image is taken under the exposure adjustment and focus adjustment made by half-press and image data is created.

  The back surface of the main unit 11 is shown in FIG. On the back of the main unit 11, a power switch 28 for switching the power ON / OFF, an LCD 30 that displays a captured image, a through image, a menu screen, and the like, and various instructions for inputting various instructions to the camera system 10. A zoom button 33, a menu button 34, a cross key 35, and an enter key 36 are arranged.

  When the mounted lens unit 12 is a zoom type, the photographing lens 13 can be zoomed to the wide-angle side and the telephoto side by operating the zoom button 33. The menu button 34 is operated when a setting menu screen is displayed on the LCD 30. The cross key 35 is operated when the cursor is moved on the setting menu screen. The determination key 36 is operated when determining the selection contents with the cross key 35. The zoom button 33, the menu button 34, the cross key 35, the enter key 36, and the release button 25 are also used when selecting an adjustment item or instructing execution of adjustment in a specific operation mode, in this example, the adjustment mode. Operated.

  FIG. 3 shows the configuration of the main unit 11 and the lens unit 12. The main body unit 11 is provided with a main body control unit 40, and the lens unit 12 is provided with a lens control unit 41. In the digital camera 10, in the photographing mode or the playback mode, the main body control unit 40 controls the respective units of the main body unit 11 and the lens unit 12 by placing the lens control unit 41 under the control. In addition, the lens control unit 41 substantially controls the specific operation mode. As described above, in the specific operation mode, the lens control unit 41 substantially controls so that the main unit 11 can operate in the specific operation mode without a control program or the like.

  The main body control unit 40 is connected to a ROM 40a and a RAM 40b. The ROM 40a stores in advance a control program used in the shooting mode / reproduction mode, information display data for displaying a setting screen, a program used in the specific operation mode, and the like. The main body control unit 40 controls each part based on the control program stored in the ROM 40a in the shooting mode / reproduction mode, and the main body control unit under the control of the lens control unit 41 according to the specific operation program in the specific operation mode. 50 necessary operations such as power management and control of communication with the lens unit 12 are performed. In the specific operation mode, the main body control unit 40 also performs a process of transferring information display data from the lens unit 12 toward the LCD 30. The RAM 40b is used as a work memory that temporarily stores work data.

  The lens control unit 41 is connected to a ROM 41a and a RAM 41b used as a work memory. An operation program used in the shooting mode / reproduction mode and a control program used in the specific operation mode are written in advance. Further, information display data for performing various displays on the LCD 30 during a specific operation is written in the ROM 40a in advance. In this example, information display data relating to the adjustment of the lens unit 12 is written in the ROM 40a. More specifically, for example, an adjustment menu screen for selecting an adjustment item, an operation for adjustment, or an adjustment is displayed. Information display data for displaying an adjustment operation screen for inputting a value is written.

  The lens control unit 41 is a shooting mode. In the reproduction mode, each part of the lens unit 12 is driven for photographing according to an operation program under the control of the main body control unit 40. In the specific operation mode, the lens control unit 51 drives each part of the lens unit 12 according to the adjustment control program, and adjusts the lens unit 12, for example, detection of defective pixels of the image sensor 14, adjustment of black balance, and autofocus. Make adjustments. In this specific operation mode, the lens control unit 41 reads the information display data of the adjustment screen from the ROM 41 a and sends it to the main unit 11 to display the adjustment menu screen and the adjustment operation screen on the LCD 30.

  The operation unit 32 includes a release button 25, a zoom button 33, a menu button 34, a cross key 35, and an enter key 36. The operation unit 32 generates an operation signal corresponding to these operations, and the operation signal is transmitted to the main body control unit 40. Send to. In the photographing mode / reproduction mode, the main body control unit 40 controls each part of the main body unit 11 in response to an operation signal and controls the driving of the lens unit 12 via the lens control unit 41. In the specific operation mode, the main body control unit 40 transfers an operation signal to the lens control unit 41 when an operation signal is input.

  A memory 45 is connected to the digital signal processing unit 43 via a bus 44. Image data acquired from the lens unit 12 is temporarily written in the memory 45. The digital signal processing unit 43 performs various image processing such as gradation conversion, white balance correction, and gamma correction, YC conversion processing, and the like on the image data stored in the memory 45.

  In addition to the digital signal processing unit 43 and the memory 45, a serial driver 46 for communicating with the lens unit 12, a strobe control unit 47, an LCD driver 48, a media controller 49, and the like are connected to the bus 44. Therefore, control signals and data can be exchanged between each other. The serial driver 46 is connected to the serial driver 51 of the lens unit 12 through each contact provided on the mount parts 16 and 18. The strobe control unit 47 causes the strobe light emitting unit 24 to emit light in response to the strobe light emission signal from the main body control unit 40.

  The LCD driver 48 displays an image by driving the LCD 30 based on the input image data in the through image display under the photographing mode and the reproduction mode. In addition, information display data is input to the LCD driver 48 when displaying a setting screen under the shooting mode / reproduction mode and various screens under the specific operation mode on the LCD 30.

  In the shooting mode and playback mode, the main body control unit 40 inputs information display data read from the ROM 40a to the LCD driver 48, whereby a setting menu screen or the like is displayed on the LCD 30. In the specific operation mode, the information display data from the lens unit 12 is once sent to the main body control unit 40 via the serial drivers 51 and 46, and is transferred to the LCD driver 48 from the main body control unit 40 for adjustment. A menu screen or the like is displayed on the LCD 30.

  The media controller 49 reads / writes image data from / to the recording medium 53 attached to the main unit 11. In the shooting mode, the image data acquired from the lens unit 12 is recorded on the recording medium 53. In the playback mode, the image data read from the recording medium 53 is sent to the LCD driver 48 to be played back and displayed on the LCD 30.

  A battery 54 is mounted in a battery storage chamber (not shown) of the main unit 11, and this battery 54 is connected to the power control unit 55. The power supply control unit 55 transforms the output voltage of the battery 55 to a predetermined voltage and supplies it to each part of the main unit 11. Further, the power supply control unit 55 supplies power to the lens unit 12 through the contacts of the mount units 16 and 18. The power control unit 55 is connected to the power switch 28, and the supply and stop of power to each unit are controlled in response to the ON / OFF operation of the power switch 28.

  The photographing lens 13 includes a variable power lens 57, a diaphragm 58, and a focus lens 59, which are driven by a lens driving unit 61 controlled by the lens control unit 41. The focal length of the photographic lens 13 is changed by moving the zoom lens 57 back and forth according to the operation of the zoom button 33. The focus lens 59 is moved, for example, so that the subject of the photographing lens 13 is in focus with the subject at the center of the photographing screen, and the aperture 58 enters the image sensor 14 by changing its aperture diameter (aperture value). Adjust the light intensity.

  A shutter device 62 is disposed between the taking lens 13 and the image sensor 14. The shutter device 62 and the image sensor 14 are driven by a driver 63. The image sensor 14 converts the subject image into an electrical signal by photoelectric conversion, and outputs an analog image signal. Under the shooting mode, the shutter device 62 is normally in an open state in which the shutter blades are opened, and the shutter blades are closed immediately after the image sensor 14 performs shooting for one screen in response to the full press of the release button 25. Closed. The shutter device 62 prevents smearing.

  The image signal from the image sensor 14 is sent to the signal processing unit 64. The signal processing unit 64 is connected to the lens control unit 41 via the bus 65 and is driven under the control of the lens control unit 41. In the imaging mode, the signal processing unit 64 performs noise removal, interpolation processing, amplification processing, and the like of the image signal corresponding to the defective pixel on the input image signal, and then digitally converts the image data for each pixel. Is output. The signal processing unit 64 includes a memory for storing position information of the defective pixel, a black balance parameter, and the like, and performs interpolation processing corresponding to the defective pixel, correction of the black balance, and the like based on the memory.

  The signal processing unit 64 generates an AF detection value that is an amplitude value of a high-frequency component of the subject image and an AE detection value that indicates the subject luminance based on the image signal, and sends the AF detection value to the lens control unit 41. The lens control unit 41 moves the focus lens 57 in order to bring the subject into focus, and performs AF processing so that the AF detection value becomes maximum, and based on the AE detection value, the aperture value of the aperture 58 and the image sensor 14 electronic shutter speed (charge accumulation time) is determined and controlled.

  Under the adjustment mode (specific operation mode), the lens control unit 41 sets appropriate parameters and the like by referring to the image data, AF detection value, and AE detection value from the signal processing unit 64. For example, when a defective pixel is detected, a new defective pixel whose output is abnormal is detected by examining the image data, and the position information of the pixel is written in the memory of the signal processing unit 64.

  The serial driver 51 connected to the bus 65 is connected to the serial driver 46 of the main unit 11 via the mount parts 16 and 18. Each serial driver 46, 51 converts a parallel signal input via the buses 44, 65 into a serial signal and transmits it to the other serial driver, and converts the signal received from the other serial driver into a parallel signal. The data is converted and sent to the bus 44. As a result, communication between the control units 40 and 41 and transmission / reception of image data and information display data are performed between the main unit 11 and the lens unit 12. In this example, the serial drivers 46 and 51 are used as communication means, but the present invention is not limited to this.

  The power control unit 66 is connected to the power control unit 55 of the main unit 11 through the contacts of the mount units 16 and 18. The power controller 66 distributes the power to each part of the lens unit 12 when power is supplied from the power controller 55.

  In this example, under the specific operation mode, the operation signal received by the main body control unit 40 is transferred to the lens control unit 41 via the bus 44, serial drivers 46 and 51, and the bus 65, and sent from the lens unit 12. The information display data to be processed is once received by the main body control unit 40 and then transferred to the LCD driver 48. However, the present invention is not limited to these methods. For example, a circuit switching means is provided so that an operation signal from the operation unit 42 is directly sent to the lens control unit 41, or display data sent from the lens unit 12 by the LCD driver 48 is directly sent from the bus 44. You may make it acquire.

  FIG. 4 shows an example of an adjustment menu screen displayed on the LCD 30 under the specific operation mode. On the adjustment menu screen 76, a mode display 77 indicating that the adjustment mode is selected by selecting a specific operation mode, a list display 78 indicating various selectable adjustment items 78a, and operation instructions and guidance for the operator are displayed. An operation instruction display 79 is displayed. The selected adjustment item 78a is highlighted, for example (in FIG. 5, surrounded by a solid line). By operating the cross key 35, the highlighted adjustment items 78a are sequentially moved, and a desired adjustment item 78a can be selected.

  When the adjustment item 78a is determined by pressing the determination key 36, an adjustment operation screen 81 corresponding to the adjustment item 78a is displayed on the LCD 30 as shown in FIG. On the adjustment operation screen 81, a mode display 77, an adjustment item display 82 indicating the selected adjustment item, and an operation instruction display 83 indicating an operation instruction to be performed by the operator using the adjustment item are displayed.

  Next, the operation of the above configuration will be described. To use the digital camera 10, the power switch 28 is turned on after the lens unit 12 is attached to the camera body 11. When the power switch 28 is turned on, the voltage of the battery 54 is transformed by the power controller 55 and supplied to each part of the camera body 11. In addition, power is supplied from the power supply control unit 55 to the power supply control unit 66 of the lens unit 12 through the contacts of the mount units 18 and 16. When power is input, the power controller 66 supplies power to each part of the lens unit 12. As a result, the digital camera 10 is activated.

  When shooting, the digital camera 10 is activated as described above, and then the mode switching dial 26 is operated to select the shooting mode. When the shooting mode is selected, each part of the main unit 11 is controlled by the main body control unit 40 based on an operation signal from the operation unit 42, and the lens control unit 41 is under the control of the main body control unit 40. Under control, each part of the lens unit 12 is controlled.

  Under the shooting mode, the image sensor 14 repeatedly performs photoelectric conversion for displaying a through image of the subject, and the obtained image signal is subjected to noise removal by the signal processing unit 64, interpolation processing and amplification of the image signal corresponding to the defective pixel. After processing, the image data is converted. Then, this image data is sent to the main unit 11 via the serial drivers 51 and 46. The image data sent to the main unit 11 is sent to the memory 45 via the bus 44, and after various image processing is performed on the image data on the memory 45 by the digital signal processing unit 43, the image data Data is input to the LCD driver 48. As a result, the subject is displayed on the LCD 30 as a through image. The photographer can perform framing by observing a through image displayed on the LCD 30.

  At this time, for example, when the zoom button 33 is operated, an operation signal corresponding to the zoom operation is input from the operation unit 42 to the main body control unit 40. For example, when the zoom operation to the wide angle side is performed, the main body control unit 40 responds to the operation signal via the bus 44, serial drivers 46, 51, and bus 65 to instruct to zoom the photographing lens 13 to the wide angle side. To the lens control unit 41. Thereby, the zoom lens 57 is moved by the lens driving unit 61 so that the focal length of the photographing lens 13 is shortened. When the operation of the zoom button 33 is released, an instruction for stopping the smoothing is sent from the main body control unit 40 to the lens control unit 41, and the movement of the zoom lens 57 is stopped. Similarly, when the zoom operation to the telephoto side is performed, the photographing lens 13 is zoomed to the telephoto side.

  When the release button 25 is half-pressed after framing, an operation signal (hereinafter referred to as a half-press signal) is input from the operation unit 42 to the main body control unit 40. When a half-press signal is input, an AF instruction and an AE instruction are sent from the main body control unit 40 to the lens control unit 41, and the lens control unit 41 is sent from the signal processing unit 64 by the input of the AF instruction and AE instruction. The focus lens 59 is moved so that the output AF detection value is maximized, and the aperture value of the aperture 58 and the electronic shutter speed of the image sensor 14 are determined based on the AE detection value.

  When the release button 25 is further depressed to be fully depressed, an operation signal (hereinafter referred to as a full depression signal) is input from the operation unit 42 to the main body control unit 40. Then, in response to the full press signal, the main body control unit 40 sends a shooting instruction signal for shooting a still image to the lens control unit 41. After the lens control unit 41 is set to the aperture value determined when the aperture 58 is half-pressed by the input of the shooting instruction signal, the shutter device 62 and the image sensor 14 are operated via the driver 63 so as to correspond to one screen. Exposure (charge accumulation) is performed.

  After the exposure is completed, an image signal from the image sensor 14 is input to the signal processing unit 64. The image signal is subjected to various processes by the signal processing unit 64 and then converted into image data, and is written into the memory 45 via the bus 65, serial drivers 51 and 46, and the bus 44. The image data is subjected to various processes by the digital signal processing unit 43, sent to the media controller 49, and recorded on the recording medium 53.

  When reproducing an image, the mode switching dial 26 is operated to select a reproduction mode. When the playback mode is selected, the media controller 49 is operated by the control of the main body control unit 40, and the first image data is read from the attached recording medium 53 and sent to the LCD driver 48, whereby the LCD 30 The first image is displayed.

  Every time the cross key 35 is operated in this playback mode, the main body control unit 40 instructs the media controller 49 to read the next image data. Thereby, the image data read from the recording medium 53 is sequentially switched, and the image displayed on the LCD 30 can be made a desired one.

  For example, when changing the setting in the shooting mode, the menu button 34 is pressed. When an operation signal generated by the operation of the menu button 34 is input from the operation unit 42 to the main body control unit 40, the main body control unit 41 reads information display data on the setting menu screen from the ROM 40 a, and this is displayed on the LCD via the bus 44. By being sent to the driver 48, a setting menu screen is displayed on the LCD 30. The operator selects desired setting items by operating the cursor key 35 and the decision key 36 while referring to the setting menu screen.

  When a setting item is selected and the enter key 36 is operated, information display data is read from the ROM 40a and sent to the LCD driver 48, whereby a setting screen for the selected setting item is displayed on the LCD 30. The operator changes the parameter or the like for the setting item by operating the cursor key 35 and the decision key 36 and decides with the decision key 36.

  For example, when the cross key 35 is operated on the white balance setting screen, the type or color temperature of the light source displayed on the LCD 30 is sequentially switched in response to the operation, and the determination key 36 is operated, Parameters for white balance corresponding to the type of light source or the color temperature are set in the digital signal processing unit 43.

  On the other hand, when adjusting the lens unit 12, the mode switching dial 26 is operated to select a specific operation mode. When the specific operation mode is selected in this way, the main body control unit 40 notifies the lens control unit 41 that the specific operation mode has been selected, and the lens control unit 41 responds to the operation signal from the operation unit 42. Thus, substantial control is performed. Further, the main body control unit 40 transfers information display data from the lens unit 12 to the LCD driver 48.

  As shown in FIG. 6, the ROM 41 a is accessed by the lens control unit 41, and information display data of the adjustment menu screen is sent to the main body control unit 40 via the bus 65, serial drivers 51 and 46, and the bus 44. Then, the information display data is transferred from the main body control unit 40 to the LCD driver 48, whereby an adjustment menu screen 76 as shown in FIG.

  The operator operates the cross key 35 while referring to the adjustment menu screen 76 so that the desired adjustment item 78a is highlighted, and then operates the enter key 36. When the cross key 35 is operated while the adjustment menu screen 76 is displayed, the operation signal is transferred from the main body control unit 40 to the lens control unit 41. Then, information display data for reversing and displaying the next adjustment item 78a according to the operation of the cross key 35 is read from the ROM 41a by the lens control unit 41 and sent to the LCD driver 48 via the main body control unit 40. . As a result, the adjustment item 78a which is highlighted on the LCD 30 and is being selected is changed.

  Even when the enter key 36 is operated, the operation signal is transferred from the main body control unit 40 to the lens control unit 41. When this operation signal is input, the adjustment control item 78a that is highlighted when the operation signal is input, that is, the information display data of the selected adjustment item 78a is read from the ROM 41a by the lens control unit 41. And sent to the LCD driver 48 via the main body control unit 40. As a result, the adjustment operation screen 81 for the selected adjustment item is displayed on the LCD 30.

  For example, when the determination key 36 is operated while the pixel defect detection adjustment item 78a is selected, the pixel defect detection adjustment operation screen 81 is displayed on the LCD 30 as shown in FIG. Then, the operator performs an operation according to the operation instruction display 83 on the adjustment operation screen 81. In pixel defect detection, a lens cap is attached to the front surface of the lens unit 12 so that light from the outside does not enter, and then the release button 25 is pressed to be fully pressed.

  A full-press signal output from the operation unit 42 when the release button 25 is fully pressed is sent from the main body control unit 40 to the lens control unit 41. Then, the image sensor 14 is driven under the control of the lens control unit 41, and charge accumulation is performed for a predetermined time while being shielded from light by the lens cap. Thereafter, an image signal is output from the image sensor 14, and the image signal is amplified and then converted into image data. When the lens control unit 41 examines the image data obtained in this way, the position of the defective pixel of the image sensor 14 is specified, and the position information is written in the signal processing unit 64. From the next photographing, interpolation processing of the signal portion corresponding to the defective pixel is performed based on the position information of the defective pixel updated in this way.

  In the above embodiment, the case where the lens unit is adjusted according to the specific operation mode has been described. For example, as in the example shown in FIG. 7, functions of the lens unit 12 that are not supported by the main unit 11, such as new functions and special functions You may shoot with In this case, the ROM 41a on the lens unit 12 side has a function selection menu containing a list of new and special functions (hereinafter referred to as unsupported functions) of the lens unit 12 that are not supported by the main unit 11. A control program corresponding to an unsupported function is written in advance together with information display data for displaying a screen, operation guidance / instruction for the unsupported function, and the like, and a control program for executing basic photographing.

  When a specific operation mode is selected by operating the mode switching dial 26, an unsupported function mode for shooting using an unsupported function is entered, and information display data for displaying a function selection menu screen is read from the ROM 41a. By being sent to the main unit 11, an unsupported function selection menu screen is displayed on the LCD 30. As in the adjustment mode, the cross key 35 is operated to select a desired unsupported function of the lens unit 12, and the enter key 36 is operated to determine.

  When a desired unsupported function is selected on the LCD 30 by the above operation, the lens control unit 41 reads information display data for displaying operation guidance / instruction of the selected unsupported function from the ROM 41a. When this is sent to the main unit 11, the operation guidance / instruction for the selected unsupported function is displayed on the LCD 30. The photographer shoots according to this display. When the operation unit 42 is operated, an operation signal output from the operation unit 42 is sent from the main body unit 11 to the lens control unit 41. In response to the operation signal, the lens control unit 41 is based on a control program for unsupported functions. Then, each part of the lens unit 12 is controlled to perform photographing with the selected unsupported function.

  The image data obtained in this way is sent to the main unit 11 and processed in the same procedure as when shooting in the shooting mode, and then the image data is written to the recording medium 53. In this way, it is possible to perform shooting with an unsupported function in the lens unit 12 that the main unit 11 does not support.

  When setting parameters for unsupported functions, etc., it is possible to set from the adjustment mode as in the first embodiment, or to display a parameter setting screen from the unsupported function mode. can do. Further, when the specific operation mode is selected, adjustment of the lens unit 12 and photographing using an unsupported function may be selected. Furthermore, the shooting operation may be performed using an unsupported function from the shooting mode.

  FIG. 8 shows an example in which display control data describing the display procedure and display form to be displayed on the LCD from the lens unit is sent to the main unit. In this example, for example, a function selection menu screen for unsupported functions, a script such as JAVA (registered trademark) as display control data for causing the main unit to perform processing for displaying operation guidance / instructions in a predetermined procedure. This script is stored in the ROM 41a on the lens unit 12 side.

  When the power of the digital camera 10 is turned on, the script in the ROM 41a is transferred to the RAM 40a on the main unit 11 side and written. Then, when the function mode that does not support the lens unit 12 is selected by the operation on the main unit 11 side, the main body control unit 40 performs display control according to the script written in the RAM 40a, whereby the function selection menu is displayed on the LCD 30. Display screen and operation guidance / instructions.

Various kinds of display control data can be used. For example, a markup language such as XML or HTML can be used. Further, not only the function selection menu screen and the operation guidance / instruction, but also an adjustment screen may be displayed.

  In each of the above embodiments, display based on the information display data is performed on the LCD that displays an image. However, the display means is not limited to this, and display means using an LED, an LCD that displays an image, Alternatively, a display means provided separately may be used.

It is a perspective view which shows the structure of a camera system. It is a rear view of a main unit. It is a block diagram which shows the structure of each unit. It is explanatory drawing which shows an example of the adjustment menu screen displayed in specific operation mode. It is explanatory drawing which shows another example of the screen displayed in specific operation mode. It is a flowchart which shows the outline of the process in specific operation mode. It is a flowchart which shows the outline of the process in the case of making it operate | move by an unsupported function. An example of transferring a script is shown.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Digital camera 11 Main body unit 12 Lens unit 13 Shooting lens 14 Image sensor 26 Mode switching dial 30 LCD
40, 41 Control unit 40a, 41a ROM
42 Operation unit

Claims (6)

In a camera system comprising a lens unit provided with a photographic lens and an image sensor, and a main unit that controls the lens unit that is detachably mounted via communication means,
A display unit provided in the main unit and displaying information according to input information display data; and a lens side provided in the lens unit and previously storing information display data for displaying information on the display unit A storage unit, a mode setting unit for setting a specific operation mode for executing an operation specific to the lens unit mounted, and the lens side storage when the mode setting unit sets the specific operation mode. And a display control means for displaying information relating to a specific operation mode by sending information display data stored in the means to the display means via the communication means. In a camera system comprising a lens unit provided with a photographic lens and an image sensor, and a main body unit in which the lens unit is detachable and controls the mounted lens unit via communication means,
Display means provided in the main unit and displaying information corresponding to input information display data; and display control data provided in the lens unit and describing a display procedure or display form to be displayed on the display means. Lens-side storage means stored in advance, mode setting means for setting a specific operation mode for performing an operation specific to the attached lens unit, and the storage means after the lens unit is attached to the main body unit Transfer means for reading the display control data stored in the main body unit via the communication means, a main body side storage means provided in the main body unit for storing display control data from the transfer means, Provided in the main unit, and when set to the specific operation mode by the mode setting means, Display control means for generating information display data based on the display control data stored in the memory means, and inputting the generated information display data to the display means to display information relating to the specific operation mode. A featured camera system.   3. The camera according to claim 1, wherein the specific operation mode is a mode for adjusting the lens unit, and the lens-side storage unit stores information display data relating to the adjustment of the lens unit. system.   The specific operation mode is a mode for executing an unsupported function of a lens unit that is not supported by the main unit, and the lens-side storage unit stores information display data related to the unsupported function. The camera system according to claim 1 or 2.   5. The camera according to claim 1, wherein the information related to the specific operation mode includes any one of operation guidance, operation instructions, selection items, and setting items related to the specific operation mode. system.   The main body unit includes an operation unit that generates an operation signal according to an operation from the outside, and the lens unit includes a lens control unit that controls each unit of the lens unit. In the specific operation mode, the operation unit 5. An operation signal from the control unit is sent to the lens control unit via the communication unit, and the lens control unit controls each part of the lens unit in direct response to the operation signal. The camera system according to any one of claims.

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