JP2003078801A - Electronic still camera - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain an electronic still camera that drives a zoom lens so as to be a zoom scale factor being the same as that of an image selected among a plurality of electronically zoomed images. SOLUTION: A CPU 11 makes a lens barrel driving device 13 drive a lens barrel 12 to wide edges. When a release switch 19 is operated, the CPU 11 instructs an imaging device 14 to perform imaging. The imaging device 14 outputs an imaging signal to an image processing circuit 15. Image data that undergoes image processing in the image processing circuit 15 are stored in a buffer memory 20. The CPU 11 generates N sheets of electronically zoomed images form the image data in accordance with the number N of zooming steps stored in a memory 16. The electronically zoomed images are displayed as N sheets of thumbnail images on a monitor 17 for display in a matrix shape. The CPU 11 operates driving quantity of the lens barrel 12 so as to be able to obtain an optical scale factor equal to the scale factor of a thumbnail image selected by an image selection and decision operation member 18 and makes the lens barrel driving device 13 drive the leans barrel 12.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electronic still camera for photographing through a zoom lens.

[0002]

2. Description of the Related Art An electronic still camera including a zoom lens for photographing is known. Generally, an optical zoom magnification changing operation performed for determining a composition at the time of shooting is often performed while observing a monitor image displayed on an image display monitor provided in the camera. The camera repeatedly captures a subject image through the zoom lens and sequentially displays the captured images on the image display monitor. The photographer changes the optical zoom magnification to the telephoto end or the wide-angle end so that the image displayed on the image display monitor has an arbitrary angle of view.

[0003]

In the camera described above,
In addition to repeating the imaging operation when determining the angle of view,
The zoom up or zoom down operation of the zoom lens is repeatedly performed. Especially when the photographer changes the angle of view while looking at the image displayed on the image display monitor,
There is a problem that it takes time to determine the angle of view and the power consumption of the camera increases.

An object of the present invention is to provide an electronic still camera in which the power consumption and the time required for determining the zoom magnification (angle of view) are suppressed.

[0005]

An electronic still camera according to the present invention includes an image pickup device for picking up a subject image through a zoom lens and outputting an image pickup signal, a zoom drive device for changing a zoom magnification by the zoom lens, and an image pickup device. An image generation circuit that electronically generates images of a plurality of magnifications using an imaging signal output from the display device, a display device that displays the plurality of images generated by the image generation circuit in a comparable manner, and a display device that displays the images. An operation member that outputs an operation signal for selecting an image of any magnification from the selected images, and the zoom drive device is controlled to have a zoom magnification that corresponds to the magnification of the image selected by the operation member. By including a control circuit, the above-mentioned object is achieved. The electronic still camera may further include a display control circuit for displaying images of a plurality of magnifications side by side in the display screen of the display device for thumbnail display. The electronic still camera may further include a display control circuit that sequentially displays images of a plurality of magnifications one by one on the display screen of the display device. The electronic still camera may further include a display control circuit that superimposes and displays a frame indicating a range of images of a plurality of magnifications on the image of the lowest magnification. The display device may be an image display monitor. The display device may be an electronic viewfinder.

[0006]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings. First Embodiment FIG. 1 is a block diagram showing the outline of the electronic still camera according to the first embodiment of the present invention. In FIG. 1, the electronic still camera includes a CPU 11, a lens barrel 12 for a photographing zoom lens, a lens barrel driving device 13, an image pickup device 14, an image processing circuit 15, a memory 16, and a display monitor 17.
An image selection / determination operation member 18, a release switch 19, a buffer memory 20, and a removable recording medium 2
Including 1 and.

The CPU 11 controls the entire camera. C
When the operation signal is input from the release switch 19, the PU 11 performs a predetermined exposure calculation based on the subject brightness detected by a photometric device (not shown), and the imaging device 1
4 outputs an operation instruction signal. The image sensor 14 is
A timing control signal necessary for discharging unnecessary charges, accumulating charges, and discharging accumulated charges is received from a driver circuit (not shown).

The image pickup device 14 constituting the image pickup device accumulates signal charges according to the brightness of the subject image formed on the image pickup surface through the photographing zoom lens. The signal charge accumulated in the image sensor 14 is swept out by a timing signal sent from a driver circuit (not shown), and is input to the image processing circuit 15 as an image signal. The image processing circuit 15
The noise of the image pickup device 14 included in the image pickup signal output from the image pickup device 14 is removed. The noise-removed image pickup signal is amplified by a predetermined gain and then converted from an analog signal to a digital signal. The converted image data is subjected to image processing such as gamma correction and color temperature adjustment, and is temporarily stored in the buffer memory 20.

The image data after the image processing stored in the buffer memory 20 is processed into a predetermined recording format and then recorded in a recording medium 21 such as a memory card or processed into display image data and displayed. Monitor 17
Is displayed in.

The lens barrel 12 supports a photographing zoom lens. The lens barrel driving device 13 changes the amount of extension of the lens barrel 12 according to a command sent from the CPU 11, and changes the focal length of the photographing zoom lens. The memory 16 stores the zoom step number N. The number of zoom steps N is the number of focal lengths arbitrarily provided to confirm the shooting angle of view based on the focal length of the shooting zoom lens. For example, if four zoom steps are provided between the wide-angle end (wide end) and the telephoto end (tele end) of the shooting zoom lens,
The zoom step number N = 6 is set. In this case, N = 1
Corresponds to the wide end, N = 2 is Middle1, N = 3 is Midd
le2, N = 4 corresponds to Middle3, N = 5 corresponds to Middle4, and N = 6 corresponds to the tele end. Focal length f of zoom lens
For example, when N = 1 to f = 35 mm, N = 2 to f = 50 mm.
, N = 3 to f = 70mm, N = 4 to f = 90mm
, N = 5 to f = 110 mm, N = 6 to f = 135 m
correspond to m.

The image selection / determination operation member 18 includes an image selection switch composed of a cross switch and a determination switch composed of a push button switch.
Both switches output an image selection operation signal and a determination operation signal to the CPU 11, respectively.

In the electronic still camera described above, the lens barrel 12 is used.
The processing procedure performed to drive the drive will be described with reference to the flowchart in FIG. The program for performing the process shown in FIG. 2 is started by the CPU 11 when the power switch of the camera is turned on. In step S31, the CPU 11 issues a command to the lens barrel driving device 13 to drive the lens barrel 12 to the wide end, and the process proceeds to step S32. As a result, the lens barrel driving device 13 drives the lens barrel 12 to the wide end. In step S32, the CPU 11
Determines whether or not the release operation has been performed. CPU11
When the operation signal is input from the release switch 19, the affirmative determination is made in step S32 and the process proceeds to step S33. When the operation signal is not input from the release switch 19, the negative determination is made in step S32 and the determination process is repeated.

In step S33, the CPU 11
After instructing to start shooting, the process proceeds to step S34. As a result, the image data from the image sensor 14 is image-processed and temporarily stored in the buffer memory 20. The CPU 11 once turns off the image sensor 14 and circuits necessary for shooting.
In step S34, the CPU 11 reads the zoom step number N from the memory 16, and proceeds to step S35.

In step S35, the CPU 11
Create an N-level magnified image. For example, when the number of zoom steps is N = 6 and the focal length f of the zoom lens is 35 mm to 135 mm as described above, N = corresponding to the wide end stored in the buffer memory 20.
Based on the image data of 1 (f = 35 mm), (N-1) (five in this case) trimming images (enlarged images) are generated by a known electronic zoom process. These magnified images have N = 2 (f = 50 mm) and N = 3 (f
= 70 mm), N = 4 (f = 90 mm), N = 5 (f =
110 mm) and N = 6 (f = 135 mm), so that the electronic zoom magnification is set. The CPU 11 stores each of the generated images in the buffer memory 20 and stores the images in step S3.
Go to 6.

At step S36, the CPU 11
The N images stored in the buffer memory 20 are displayed on the display monitor 17 so that they can be compared with each other, and step S
Proceed to 37. FIG. 3 is a diagram showing a display screen of the display monitor 17. The CPU 11 arranges and displays thumbnail images corresponding to N = 1 to 6 in a matrix. In the example of FIG. 3, the upper left part of the screen corresponds to the wide end image with N = 1, and the image displayed from the left to the right and the image displayed from the top to the bottom have higher magnifications, and the lower right image N
= 6 corresponding to the tele edge image.

At step S37, the CPU 11
It is determined whether an image has been selected by the photographer. While the screen of FIG. 3 is displayed on the display monitor 17, the photographer operates the cross switch of the image selection / determination operation member 18 up, down, left, and right to display an image with an arbitrary angle of view (electronic zoom magnification). select. The selected thumbnail image is displayed, for example, with its edge surrounded by a thick line. The photographer operates the decision switch of the image selection / decision operation member 18 in a state in which an arbitrary image is surrounded and displayed. The CPU 11 performs step S3 when an operation signal is input from the decision switch.
If 7 is affirmatively determined, the process advances to step S38 to repeat the determination process when no operation signal is input from the decision switch.

In step S38, the CPU 11
The drive amount of the lens barrel 12 is calculated so that an optical magnification equal to the electronic zoom magnification of the thumbnail image selected when the operation signal is input from the determination switch is obtained. C
The PU 11 outputs a command for driving the lens barrel 12 to the lens barrel driving device 13 together with information indicating the calculated driving amount,
It proceeds to step S39. Thereby, the lens barrel drive device 13
Drives the lens barrel 12, and an angle of view (optical zoom magnification) equal to the image of N = 5 is obtained by optical zoom.

In step S39, the CPU 11
It is determined whether or not the release operation has been performed. CPU11
When an operation signal is input from the release switch 19, the affirmative decision is made in step S39, the operation proceeds to step S40,
When the operation signal is not input from the release switch 19, the negative determination is made in step S39 and the determination processing is repeated.

In step S40, the CPU 11
The start of shooting is instructed, and the image sensor 14 and circuits necessary for shooting are turned on. As a result, the image data from the image sensor 14 is image-processed and temporarily stored in the buffer memory 20. The CPU 11 processes the image data stored in the buffer memory 20 into a predetermined recording format and records it on the recording medium 21. The CPU 11 further generates image data for display on the display monitor 17, displays a captured image called a freeze image on the display monitor 17, and ends the process shown in FIG.

According to the first embodiment described above,
The following effects can be obtained. (1) When the wide-angle shooting is performed in step S33, the image sensor 14 and the circuit required for shooting are once turned off. Therefore, the drive current is not supplied to the image sensor 14 and the circuits required for shooting until it is turned on again in step S40, so that the power consumption can be reduced. (2) When determining the shooting angle of view, N corresponding to the wide end
Based on the image of = 1 (f = 35 mm), N = 2 (f = 50 mm) and N = 3 (f = 70 m) by electronic zoom processing.
m), N = 4 (f = 90 mm), N = 5 (f = 110 m
m) and N = 6 (f = 135 mm) images are generated respectively, and an arbitrary angle of view is selected from these images. Since it is not necessary to select the angle of view while driving the lens barrel 12 by the lens barrel driving device 13, power consumption can be reduced. Further, as compared with the case where the lens barrel 12 is driven, the time required for selecting the angle of view is shortened because the lens barrel drive time does not occur. When the time required to select the angle of view is shortened, the display monitor 17
The electric power consumed by can also be reduced. (3) When selecting an arbitrary angle of view, thumbnail images corresponding to N = 1 to 6 are arranged in a matrix and displayed on the display monitor 17. Since the photographer can operate the cross switch of the image selection / determination operation member 18 up, down, left, and right to select an image with an arbitrary angle of view, a camera with good operability and easy use can be obtained. (4) Since the actual photographing / recording (step S40) processing is performed by the enlargement magnification by the optical zoom rather than the electronic zoom, a high-quality photographed / recorded image can be obtained.

The value of the zoom step number N is not limited to N = 6, but may be N = 9, for example.

In step S36, the display monitor 1
Although 6 types of thumbnail images are arranged and displayed in a matrix in 7, the number of thumbnail images arranged in a matrix may be appropriately changed according to the value of the zoom step number N. Further, when the value of the zoom step number N is large or when the size of the display screen of the display monitor 17 is small, the pages may be switched and displayed.

-Second Embodiment-When N types of images stored in the buffer memory 20 are displayed on the display monitor 17 so that they can be compared, one image at a time may be displayed on the display monitor 17. . In the second embodiment, as shown in FIG. 4, for example, N = 1 to
The images corresponding to 4 are sequentially displayed one by one. In the example of FIG. 4, the image at the left end corresponds to the wide end image with N = 1, and the image at the right end corresponds to the tele end image with N = 4.

The photographer operates the cross switch of the image selection / determination operation member 18 left and right to select an image with an arbitrary angle of view. Every time an operation signal indicating left or right is input from the cross operation switch, the CPU 11 switches the image to be displayed to the image on the tele side when the signal for the right operation is input, and displays it when the signal for the left operation is input. Switch the image to the wide image. The photographer operates the determination switch of the image selection / determination operation member 18 in the state where an arbitrary image is displayed.

According to the second embodiment described above,
Similar to the first embodiment, the power consumption when determining the angle of view can be reduced, and each image corresponding to N = 1 to 4 is displayed on the display monitor 17 one by one. As a result, you can get a camera that's easy to check the angle of view and easy to use.

-Third Embodiment- When displaying N kinds of images stored in the buffer memory 20 on the display monitor 17 so that they can be compared with each other, a frame showing a range of a photographed image is widened with N = 1. You may display it on an edge image. In the third embodiment, as shown in FIG. 5, for example, a wide end image 51 corresponding to N = 1 is displayed, and a display frame 52 indicating the range of the image of N = 2 is displayed on the wide end image 51. The display frame 53 showing the range of the image of N = 3 and the display frame 54 showing the range of the image of N = 4 are each superimposed and displayed.

The photographer operates the cross switch of the image selection / determination operation member 18 to the left or right or up and down to select an image with an arbitrary angle of view. The CPU 11 sets the frame of the wide-end image 51 and any one of the display frames 52 to 54, for example, the frame 51 → the frame 52 → The frame 53 and the frame 54 are displayed in a thick box. In addition, the CPU 11
Each time an operation signal indicating left or bottom is input from the cross operation switch, the frame of the wide end image 51 and any one of the display frames 52 to 54 are displayed, for example, the frame 54 →
The frame 53, the frame 52, and the frame 51 are displayed in a thick box. The photographer operates the decision switch of the image selection / decision operation member 18 in a state where the display frame showing an arbitrary angle of view is surrounded and displayed thickly.

According to the third embodiment described above,
Similar to the first and second embodiments, the power consumption at the time of determining the angle of view can be reduced, and the range of the image of N = 2 is superposed on the wide end image 51 corresponding to N = 1. When the display screen is switched, since the display frame 52 indicating “,” the display frame 53 indicating the range of the image of N = 3, and the display frame 54 indicating the range of the image of N = 4 are respectively superimposed. It is possible to shorten the time required to confirm the angle of view, as compared with.

In the above description, the through image display for sequentially displaying the images captured by the image pickup device 14 on the display monitor 17 before the release operation is omitted. However, when the through image display is performed, the mirror image is displayed in step S31. After the barrel 12 is driven to the wide end and after the barrel 12 is driven to the driving amount calculated in step S38, the through image display may be performed. In this case as well, the supply of the drive current to the image sensor 14 and the circuits necessary for shooting is turned off during steps S34 to S38.

An electronic viewfinder may be provided instead of the display monitor 17.

Further, a video signal output circuit for outputting a video signal for displaying an image on the external display device may be provided so that the image displayed on the display monitor 17 or the electronic viewfinder is displayed on the external display device. The external display device may be, for example, a projection display device or a personal computer.

Correspondence between each component in the claims and each component in the embodiment of the invention will be described. The image pickup device is configured by the image pickup device 1, for example. The zoom driving device is composed of, for example, a lens barrel driving device 13. Images with a plurality of magnifications have, for example, N = 1 (f = 35 mm) and N = 2 (f = 50 m).
m), N = 3 (f = 70 mm), N = 4 (f = 90 m
m), N = 5 (f = 110 mm), N = 6 (f = 135
(mm) image corresponds. The display device includes, for example, a display monitor 17. The operation member is composed of the image selection / determination operation member 18. Control circuit,
The display control circuit is composed of, for example, the CPU 11.

[0033]

As described above in detail, in the electronic still camera according to the present invention, the power consumption for determining the angle of view by the zoom lens is reduced, and the time required for determining the angle of view is shortened.

[Brief description of drawings]

FIG. 1 is a block diagram showing an outline of an electronic still camera according to a first embodiment.

FIG. 2 is a flowchart illustrating a processing procedure performed to drive a lens barrel in an electronic still camera.

FIG. 3 is a diagram showing a display screen of a display monitor.

FIG. 4 is a diagram showing a display screen of a display monitor according to a second embodiment.

FIG. 5 is a diagram showing a display screen of a display monitor according to a third embodiment.

[Explanation of symbols]

11 ... CPU, 12 ... lens barrel, 1
3 ... Lens barrel drive device, 14 ... Imaging device,
15 ... Image processing circuit, 16 ... Memory,
17 ... Display monitor, 18 ... Image selection / determination operation member, 19 ... Release switch,
20 ... Buffer memory, 21 ... Recording medium

Claims (6)

[Claims] 1. A subject image is taken through a zoom lens,
An image pickup device that outputs an image pickup signal, a zoom drive device that changes the zoom magnification by the zoom lens, and an image generation circuit that electronically generates images of a plurality of magnifications using the image pickup signal output from the image pickup device A display device that displays the plurality of images generated by the image generation circuit in a comparable manner, and an operation signal for selecting an image of any magnification from the images displayed on the display device. An electronic still camera, comprising: an operating member for controlling the zoom driving device; and a control circuit for controlling the zoom driving device so that the zoom ratio corresponds to the magnification of the image selected by the operating member. 2. The electronic still camera according to claim 1, further comprising a display control circuit for displaying images of the plurality of magnifications side by side in a display screen of the display device for thumbnail display. 3. The electronic still camera according to claim 1, wherein the images of the plurality of magnifications are displayed in a display screen of the display device.
An electronic still camera, further comprising a display control circuit for sequentially displaying images one by one. 4. The electronic still camera according to claim 1, further comprising a display control circuit that superimposes and displays a frame indicating a range of the plurality of magnification images on the lowest magnification image. An electronic still camera. 5. The electronic still camera according to claim 1, wherein the display device is an image display monitor. 6. The electronic still camera according to claim 1, wherein the display device is an electronic viewfinder.