JP2003209744A - Apparatus and method for imaging - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To pick up an image with proper lightness. <P>SOLUTION: A memory 22 stores: shutter speed control data providing an increasingly slower shutter speed than a shutter speed determined by object luminance and an aperture value as the aperture becomes increasingly smaller; and gain control data for making the amplification factor of an automatic gain adjustment circuit 15 increasingly larger as a distance from a CCD 12 to an exit pupil becomes increasingly smaller. A telescopic/wide switch 19 decides a zoom position and obtains the distance from the CCD 12 to the exit pupil. An exposure condition is decided depending on an output signal from a photometric sensor 20, the value of an aperture 11 is decided, shutter speed control data depending on the aperture value are read from the memory to control a shutter. Further, the gain control data depending on the distance from the CCD 12 to the exit pupil are read from the memory 22, and the automatic gain adjustment circuit 15 amplifies the output signal from the CCD 12. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image pickup apparatus and an image pickup method including a solid-state electronic image pickup element provided with a micro lens corresponding to a pixel.

[0002]

2. Description of the Related Art In an image pickup apparatus represented by a still video camera, a subject is photographed using a solid-state electronic image pickup device such as a CCD. In some solid-state electronic image pickup devices, microlenses are provided on the light-receiving surface corresponding to the pixels in order to increase the amount of light incident on the light-receiving unit.

2 and 3 show a part of a sectional view of a CCD in which a micro lens is provided on the light receiving surface. 2 shows the state of the incident light beam P1 when the aperture value of the aperture stop provided in front of the CCD is large, and FIG. 3 shows the incident light beam P1 when the aperture value of the aperture stop provided in front of the CCD is small.
Each of the two states is shown.

The CCD includes a light receiving portion 32 which receives an incident light beam and accumulates it as a signal charge, and a vertical transfer path 33 which vertically transfers the signal charge accumulated in the light receiving portion 32. The vertical transfer path 33 is provided with the light-shielding film 31 and is not irradiated with light. The micro lens 30 is provided on the front surface of the light receiving unit 32.

In such a CCD, when the aperture value of the aperture is large as shown in FIG. 2, the micro lens 30 is used.
The light ray P1 incident on is a parallel light ray, and almost all the light rays are incident on the light receiving section 32. However, as shown in FIG. 3, when the aperture value of the diaphragm becomes small, the light ray P2 incident on the micro lens 30 may be oblique, and the refraction angle also becomes large depending on the incident angle, so that the incident light ray P2 is caused by the light shielding film 31. The light will not be incident on the light receiving unit 32.

In a still video camera, the subject brightness is generally measured by using an external photometric element having an optical axis different from the optical axis of the image pickup optical system, and the exposure condition is determined according to the subject brightness value. In the case of the CCD provided with the lens 30, the incident light ray of the CCD may be blocked by the light shielding film 31 when the aperture value of the diaphragm becomes small, so that the output of the CCD decreases as shown in FIG. Therefore, if the exposure condition is determined based on the subject brightness value measured by the photometric element and the subject is photographed, the exposure amount may be insufficient.

Further, when the distance from the CCD to the position of the exit pupil is short, it is considered to be the same as when the diaphragm value of the diaphragm is large, and the output signal of the CCD may decrease as shown in FIG. In this case also, if the exposure condition is determined based on the subject brightness value measured by the external photometric element and the subject is photographed, the exposure amount may be insufficient. In a still video camera having a zoom function, as shown in FIG. 6, the closer to the wide position, the closer the distance from the CCD to the exit pupil and the lower the CCD output.

[0008]

DISCLOSURE OF THE INVENTION An object of the present invention is to make it possible to always obtain an image of appropriate brightness in an image pickup apparatus which determines an exposure condition by using an external photometric element.

According to the present invention, in an image pickup apparatus having an external photometric element for measuring the subject brightness and an exposure control means for controlling exposure based on the subject brightness value obtained from the external photometric element, a large number of light receiving elements are provided. An image pickup means including a solid-state electronic image pickup element, which is provided with a microlens for each light receiving element and outputs a video signal representing a subject image;
A shutter value for controlling the exposure time of the solid-state electronic image pickup device, an aperture value is determined based on the exposure control by the exposure control means, and an aperture value for limiting incident light to the solid-state electronic image pickup device, and an aperture value of the aperture value are Storage means for storing shutter speed control data corresponding to the aperture value in advance so that the smaller the shutter speed, the slower the shutter speed of the shutter means determined from the subject brightness and aperture value obtained by the external photometric element. , And shutter speed control data corresponding to the aperture value of the diaphragm is read from the storage means, and shutter control means for controlling the shutter speed of the shutter means according to the shutter speed control data is provided. .

The present invention also provides the above-mentioned imaging method.

According to the image pickup device of the present invention, the shutter speed control data in which the shutter speed is slower than the shutter speed determined from the subject brightness and the aperture value as the aperture value of the aperture is smaller is stored in advance in correspondence with the aperture value. Has been done. The exposure control means controls the exposure to determine the aperture value, the shutter speed control data corresponding to the aperture value is read from the storage means, and the shutter speed is determined according to the shutter speed data.

According to the present invention, the shutter speed becomes slower as the aperture value becomes smaller, so that the amount of light incident on the CCD increases.
Even if the incident light beam is blocked by the light-shielding film of the CCD, an image with an appropriate brightness is captured by capturing an exposure amount determined based on the subject brightness value obtained by the photometric element.

In the above description, the photometric element is something other than the photometric means for measuring the subject brightness value based on the video signal output from the CCD. The photometric element having an optical axis different from the optical axis of the imaging optical system, the incident light The beam splitter may be divided into two, one of which is used as a CCD and the other of which is used for photometry.

[0014]

1 is a block diagram showing the electrical construction of a still video camera according to an embodiment of the present invention.

The overall operation of the still video camera is controlled by the CPU 18.

An image pickup lens having a zoom function for a subject image
An image is formed on the CCD 12 via the diaphragm 11 by the lens 10.

The still video camera includes a tele / wide switch 19 for setting the zoom position. When the operator operates the tele / wide switch 19, a signal indicating the setting is given to the CPU 18. C
The zoom motor 13 is controlled by the PU 18 and the zoom
The motor 13 positions the imaging lens 10.

Further, the still video camera is provided with a photometric sensor 20 having an optical axis different from the optical axis of the image pickup lens 10 and for measuring the subject brightness.

The photometric detection signal output from the photometric sensor 20 is given to the CPU 18. The CPU 18 controls the diaphragm motor 14 according to the photometric detection signal, and the diaphragm motor 14 determines the size of the aperture of the diaphragm 11.

As shown in FIGS. 2 and 3, the CCD 12 has a micro lens 30 arranged in front of a pixel, and performs a so-called electronic shutter operation. CCD drive timing pulse generator circuit for still video camera
21 is included and controlled by the CPU 18. CC
CCD 12 by D drive timing pulse generator 21
The electronic shutter operation of is controlled.

Since the microlens 30 is provided on the front surface of the CCD 12 in correspondence with the light receiving portion 32, the smaller the aperture value of the diaphragm 11 is, or the closer the exit pupil is from the CCD 12, the light shielding film of the CCD 12 is used. The incident light that is struck may increase and the output signal of the CCD 12 may decrease. Therefore, in the still video camera shown in FIG. 1, the smaller the aperture value of the aperture 11 or the closer the distance from the CCD 12 to the exit pupil, the slower the shutter speed than the shutter speed determined from the subject brightness and aperture value. Or the gain of the automatic gain adjustment circuit 15, which will be described later, is controlled by the CPU 18 to be higher than the normal gain. Since the exit pupil is an image in the image space of the aperture stop, the still video camera shown in FIG. 1 has an exit pupil at the position Ep shown. Since the position of the exit pupil Ep is determined by the zoom position of the imaging lens 10, the exit pupil Ep from the CCD 12
The distance to can be recognized by the drive amount of the zoom motor 13.

A memory 22 is attached to the CPU 18,
Shutter speed control data is stored corresponding to the aperture value such that the smaller the aperture value of the aperture 11, the slower the shutter speed determined by the exposure condition. Further, the gain control data for setting the gain of the automatic gain adjusting circuit 15 is set in the memory 22 so that the smaller the aperture value of the aperture 11 is, the higher the gain of the automatic gain adjusting circuit 15 becomes. Correspondingly stored. These shutter speed control data and gain control data are stored in the memory 22 in the form of a table.

The memory 22 has a shutter speed corresponding to the distance from the CCD 12 to the position of the exit pupil so that the closer the distance from the CCD 12 to the position of the exit pupil, the slower the shutter speed determined by the exposure condition. Control data is stored. An automatic gain adjustment circuit in which the amplification factor in the automatic gain adjustment circuit 15 becomes relatively higher as the distance from the CCD 12 to the position of the exit pupil is closer to the memory 22.
Gain control data for setting the amplification factor of 15 is stored corresponding to the aperture value. These shutter speed control data and gain control data are also stored in the form of a table in memory.
It is stored in 22.

The video signal output from the CCD 12 is given to the automatic gain adjustment circuit 15. The automatic gain adjustment circuit 15 is CP
Under the control of U18, the input video signal is amplified and given to the imaging system signal processing circuit 16.

In the image pickup system signal processing circuit 16, white balance adjustment, luminance signal Y and color difference signals RY and B-
Y generation processing and the like are performed.

The signal output from the image pickup system signal processing circuit 16 is applied to the recording signal processing circuit 17.

The recording signal processing circuit 17 includes a line-sequentializing circuit, a pre-emphasis circuit, an FM modulation circuit, a synthesizing circuit, etc., and an FM-modulated synthetic video signal is output from this circuit 17 to generate a recording medium such as a magnetic disk. Given to and recorded by.

Next, a processing procedure at the time of shooting using the still video camera shown in FIG. 1 will be described.

First, the photographer operates the tele / wide switch 19, and the zoom motor 13 operates the photographing lens.
10 is positioned in place. The aperture value of the aperture 11 is determined based on the photometric detection signal output from the photometric sensor 20. Aperture motor so that the specified aperture value is obtained.
The diaphragm 11 is controlled by 14.

A memory is provided in consideration of incident light emitted by a micro lens provided in front of the CCD 12.
The shutter speed control data stored in 22 is read out, and the CCD 12 is controlled by the CCD drive timing pulse generation circuit 21 so that the shutter speed represented by the shutter speed control data can be photographed.

Further, gain control data that determines the amplification factor of the automatic gain adjusting circuit 15 according to the distance between the CCD 12 and the exit pupil Ep which is known from the drive amount of the zoom motor 13 is read from the memory 22, and the gain control data is obtained. The automatic gain adjustment circuit 15 is controlled so that the amplification factor represented by

A subject image is formed on the CCD 12 by the imaging lens 10 through the diaphragm 11, and the subject is photographed at a predetermined shutter speed in response to the depression of a shutter release button (not shown).

A video signal representing a subject image is output from the CCD 12 and is amplified in the automatic gain adjusting circuit 15 by the amplification factor represented by the gain control data read from the memory 22. The video signal amplified in the automatic gain adjustment circuit 15 is given to and recorded on a recording medium such as a magnetic disk (not shown) via the imaging system signal processing circuit 16 and the recording signal processing circuit 17 as described above.

Since the shutter speed and the amplification factor in the automatic gain adjusting circuit 15 are determined according to the aperture value of the aperture 11 and the distance from the CCD 12 to the exit pupil,
When the aperture of the diaphragm 11 is large or the distance from the CCD 12 to the exit pupil is short, an image with proper brightness can be obtained even if the incident light of the CCD 12 is eclipsed.

In the above-described embodiment, the exposure condition is determined by the photometric sensor 20, and the aperture value of the aperture 11 is determined so as to satisfy the exposure condition. The CCD 12 is controlled so that the shutter speed stored in the memory 22 corresponds to the aperture value. Further, the amplification factor of the automatic gain adjustment circuit 15 is controlled so that the amplification factor of the automatic gain adjustment circuit 15 becomes higher as the distance from the CCD 12 to the exit pupil becomes shorter.

However, the smaller the aperture value of the diaphragm 11, the higher the amplification factor of the automatic gain adjustment circuit 15 and the slower the shutter speed may be, and the shorter the distance from the CCD 12 to the exit pupil, the smaller the aperture value of the automatic gain adjustment circuit 15. You can increase the amplification factor and slow the shutter speed. Further, any one of increase of amplification factor according to size of aperture value, reduction of shutter speed or increase of amplification factor of automatic gain adjustment circuit 15 according to distance from CCD 12 to exit pupil, reduction of shutter speed is arbitrary. It is also possible to obtain an image of appropriate brightness by a combination of. In any case, the shutter speed and the amplification factor of the automatic gain adjustment circuit 15 may be set so that an image with appropriate brightness can be obtained according to the aperture value of the aperture 11 and the distance from the CCD 12 to the exit pupil.

Further, the memory 22 stores shutter speed data having a shutter speed slower than the shutter speed determined from the subject brightness and the aperture value, and the shutter is controlled. It is also possible to store shutter speed correction data such that the shutter speed is slower than the predetermined shutter speed, and use the correction data to correct the shutter speed that is determined based on the photometric value obtained by the photometric element 20. In any case, the larger the aperture value and the closer the distance from the CCD 12 to the exit pupil, the slower the shutter speed than the shutter speed determined from the subject brightness and the aperture value.

[Brief description of drawings]

FIG. 1 is a block diagram showing an electrical configuration of a still video camera according to an embodiment of the present invention.

FIG. 2 shows how parallel light is incident on a CCD having a micro lens.

FIG. 3 shows a state of light obliquely incident on a CCD having a micro lens.

FIG. 4 shows the relationship between aperture value and CCD output.

FIG. 5 shows the relationship between the distance from the CCD to the exit pupil and the CCD output.

FIG. 6 shows the relationship between the zoom position and the distance from the CCD to the exit pupil.

[Explanation of symbols]

11 Aperture 12 CCD 15 Automatic gain adjustment circuit 18 CPU 20 Photometric element

Continued front page    (72) Inventor Izumi Miyake             3-11-46 Izumi, Asaka-shi, Saitama Prefecture             Shin Film Co., Ltd. F-term (reference) 5C022 AA13 AB12 AB17 AC42 AC54                       AC69                 5C024 BX01 CX67 EX11 EX43 GY01

Claims (2)

[Claims] 1. An image pickup apparatus comprising an external photometric element for measuring subject brightness, and an exposure control means for controlling exposure based on a subject brightness value obtained from the external photometric element, comprising a large number of light receiving elements, An image pickup means including a solid-state electronic image pickup element for outputting a video signal representing a subject image, a shutter means for controlling an exposure time of the solid-state electronic image pickup element, and an exposure control by the exposure control means. The aperture value is determined based on the aperture value, which limits the incident light to the solid-state electronic image sensor,
The smaller the aperture value of the aperture is, the shutter speed control data corresponding to the aperture value becomes a shutter speed slower than the shutter speed of the shutter means determined from the subject brightness obtained by the external photometric element and the aperture value. Storage means for storing in advance, shutter speed control data corresponding to the aperture value of the aperture, read from the storage means, and shutter control means for controlling the shutter speed of the shutter means in accordance with the shutter speed control data. Imaging device. 2. An image pickup apparatus comprising an external photometric element for measuring subject brightness, and an exposure control means for performing exposure control based on a subject brightness value obtained from the external photometric element. Corresponding to the aperture value, the shutter speed control data is such that the smaller the aperture value determined based on the above, the slower the shutter speed determined from the subject brightness obtained by the external photometric element and the aperture value. It is stored in advance and has a large number of light receiving elements, each light receiving element is provided with a microlens, and a solid-state electronic image pickup device that outputs a video signal representing the image of the subject Obtain the video signal to represent, read out the shutter speed control data corresponding to the aperture value, and change the shutter speed control data according to the read shutter speed control data. Shooting a subject according to the speed
Imaging method.