Television – Camera – system and detail – Combined image signal generator and general image signal...
Reexamination Certificate
2000-06-08
2003-02-18
Moe, Aung S. (Department: 2612)
Television
Camera, system and detail
Combined image signal generator and general image signal...
C348S224100
Reexamination Certificate
active
06522353
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to an automatic white balance control device and a video camera with the automatic white balance control device, particularly to an automatic white balance control device and a video camera with a white balance control device which can be controlled at high speed, change white balance control modes corresponding to photograph conditions and operate white balance control stably at a moment when actual recording is started.
In a production operation of an automatic white balance control device for a video camera, in the case that a color temperature is detected from an output signal of an image pick-up elements of a charge coupled device (CCD) and so on, a control signal is detected from a color temperature detecting signal and then gains of amplifiers for controlling white balance control is controlled by feed forward control, control error of white balance caused by dispersion of image pick-up elements, gap of color temperatures between a reference illuminating light memorized in a production operation and natural sunshine or actual illuminating light of various fluorescent lamps can be reduced.
In an automatic white control device according to the present invention, while an iris is moved to open at high speed, a certain value of a white balance control signal can be detected.
PRIOR ART
In a conventional video camera, white balance is controlled in order to obtain a white reproduced picture image when an white object is photographed. In a white balance control operation, gains of a red singal and a blue signal of the video camera are controlled with reference to a green signal.
In an automatic white balance control circuit in a type of integrating picture image, white balance is controlled in a condition that integrated color signal elements of whole pick-up image would become achromatic color.
In the automatic white balance control circuit in the type of integrating picture image, color signal elements are integrated. There are two types depending on integrating processes. One type is to integrate color signals of a whole picture image totally and another type is to integrate color signals of each divided areas of a picture image.
The type of separately integrating color signals of each area of a picture image will be described with reference to FIG.
1
. As shown in
FIG. 1
, a picture image is divided to a plurality of areas (sections). Usually, each areas are numbered from a
1
to a
20
in order, for instance. Actually, number of divided areas are very much. However, to explain an operation of the invention simply, the number of the divided areas is designed twenty in FIG.
1
. During the first vertical scanning period (herein after it is referred as “V term”), a signal element of an area a
1
is integrated and an integrated value i
1
is obtained. During the second V term, a signal element of an area a
2
is integrated and an integrating value i
2
is obtained. Likewise, each areas, areas a
3
, a
4
, a
5
, . . . are successively scanned for every V term in order. Finally, an integrated value i
20
of an area a
20
can be obtained in the 20th V term. Among the integrated values i
1
through i
20
, the integrated values which means white data are selected. A color temperature of an object is detected based on selected data (integrated values) Thus, white balance is controlled. In the above process, areas of which integrated values mean white data are only selected among the whole of areas. The type of separately integrating color signals is superior to the type of totally integrating color signals in view of accuracy.
In an integrated circuit (IC) utilized in a conventional commercially produced video camera, integrating calculation is operated only one time for each V term. In automatic white balance control in the type of separately integrating color signals, it has to wait for a period (V term×number of divided areas) to control white balance once time. Therefore, if color temperature would be changed rapidly, white balance control can not respond to such a change. On the other hand, in the type of totally integrating color signals, a data calculation for white balance control can be operated within one V term.
In a conventional automatic white balance control device for a video camera, there are two kinds depending on control operations. One is a feed back control type and another is a feed forward type.
In an automatic white balance control device of the feed back control type, gains of white balance control amplifiers are controlled to equalize a color temperature detected signal output from an image pick-up element such as a charge coupled device (CCD) and a reference signal. If a controllable range is wide, dispersion of image pick-up elements, i.e. CCD, is baneful influenced to a control result.
In an automatic white balance control device of the feed forward control type, color elements output from an image pick-up element such as a charge coupled device (CCD) are divided into each element color signals and detected values for each elementary color signal R, G, B are integrated for every one field. Further, ratios R/B and B/G are calculated and control values Rcont and Bcont are determined by the detected ratios R/B and B/G, respectively. Thus, gains of white balance control amplifiers can be controlled. Usually, illuminating light having color temperature 3200K is utilized as a reference illuminating light. A desired reference illuminating light having an optional color temperature can be obtained by using a color temperature convert filter with the reference illuminating light in order to approximate light of sunshine, an indoor fluorescent lamp and an incandescent lamp, so that a color temperature detecting region for judging an actual light source and a color temperature control region for selecting proper control values Rcont and Bcont corresponding to the actual light source (described after) can be determined.
However, in the feed forward control operation, characteristic of image pick-up elements such as a charge coupled device, for example, dispersion of integral color filters, is influenced to a dispersion of detected values. Such a dispersion of detected values is baneful influenced to white balance control. The desired illuminating light does not always match real sunshine and real indoor fluorescent illumination light. Therefore, when an object is photographed under sunshine or fulorescent lamp, a color temperature detecting region and a color temperature control region become wrong in some cases.
To resolve the above problem, in a conventional method, a color signal photographed at an optional temperature is divided by a color signal photographed under a reference illuminating light as a reference value. However, in the conventional method, dispertion caused by image pick-up elements can not be sufficiently reduced.
As a compact and portable video camera integrated with a video tape recorder (herein after it is referred as “video camera”), it has been developed a video camera as shown in FIG.
2
. As shown in
FIG. 2
, an outer packaging case
02
of the video camera
01
has a flat thin wall along a direction from the front to the rear of a camera body (arrows A, B in
FIG. 2
) and a generally rectangular parallelpiped shape. A photographing lens
03
and an optical view finder
04
are mounted at an upper portion of the outer packaging case
02
. A stereo microphone
05
is mounted on a top portion of the outer packaging case
02
. Numerals
06
,
07
and
08
and
09
indicates a video tape recorder deck, a side grip portion, a photograph button and a telescope/wide switch button, respectively.
In the video camera
01
as shown in
FIG. 2
, an optical view finder
04
is utilized instead of an electronic view finder, so that an operator can find an object or a sight through the optical view finder
04
even if an electric power is turned off. For such a video camera
01
, a power save mode can be designed to an integrated circuit.
In the video camera
01
with a power save mode prog
Saito Kenji
Shinkai Yasuhiro
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