Television – Camera – system and detail – With single image scanning device supplying plural color...
Reexamination Certificate
2001-05-31
2003-01-07
Ho, Tuan (Department: 2612)
Television
Camera, system and detail
With single image scanning device supplying plural color...
C348S229100
Reexamination Certificate
active
06504573
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to a solid-state image pick-up system, and more particularly to a solid-state image pickup system based upon a field-sequence technique.
SUMMARY
So far, various types solid-state image pick-up systems have been proposed, which are equipped with a rotary filter conducting a color separation with a solid-state image pick-up device, and as one instance there has been known a field-sequence type solid-state image pick-up system. This field-sequence type solid-state image pickup system separates light incident on a solid-state image pick-up device through the use of a rotary filter into R, G, and B in time sequence, with the solid-state image pick-up device outputting R, G, and B time series signals during one revolution of the rotary filter. Further, the R, G, and B signals in the time sequence are put in given memories, respectively, and the output signals are made to simultaneously occur in a manner that the reading timings thereof from the memories are set to be coincident with each other, and then delivered to a monitor or something after undergoing a given process.
One example of arrangements of the prior field-sequence type solid-state image pick-up system will be described hereinbelow with reference to FIG.
22
.
In the illustration, the solid-state image pick-up system is provided with a camera lens
2
accepting an incident light beam
1
such as a subject light beam on the front side of camera body
3
, while being equipped with a R, G, and B rotary filter
4
in the rear of the camera lens
2
the rotary filter
4
. In addition, a solid-state image pick-up device
5
is located at the back of the rotary filter
4
, with the subject light beam separated through the rotary filter
4
into R, G, and B is incident on the solid-state image pick-up device
5
.
The output signal of the solid-state image pick-up device
5
is amplified through a preamplifier
6
and then outputted through an A/D converter
12
, a signal processing circuit
13
including a simultaneously generating circuit
13
, a D/A converter
14
and an output terminal
15
to external equipment.
On the other hand, the camera body
3
has a synchronizing signal generating circuit
9
, so that the rotary filter
4
and the solid-state image pick-up device
5
are driven by an electric motor
9
and a drive circuit
10
which operate in accordance with a synchronizing signal produced in the synchronizing signal generating circuit
9
. Further, the rotation of the rotary filter
4
is detectable with a photointerrupter
7
disposed in the vicinity of the rotary filter
4
, with the detection signal being inputted into the synchronizing signal generating circuit
9
to execute the control of rotation of the rotary filter
4
. The drive circuit
10
is composed of a pulse drive circuit and a bias circuit for the drive of the solid-state image pick-up device
5
.
In the field-sequence type solid-state image pick-up system with the above-mentioned arrangement, when the solid-state image pick-up device
5
outputs the R, G, and B time series signals during one revolution of the rotary filter
4
, for reading out the signals from the solid-state image pick-up device
5
, there are known a first method in which one fields (for example, odd number fields) of the R, G, and B signals are read out therefrom at the first cycle of the rotary filter
4
whereas the other fields (for example, even number fields) are read out therefrom at the second cycle thereof and a second method in which both the fields of the R, G, and B signals are read out therefrom for a time period corresponding to one revolution of the rotary filter
4
.
Assuming that the accumulation time for one color of R, G, and B takes {fraction (1/60)} second, since according to the first method the reception of one picture is possible with 3 fields, it is possible to output 20 pictures for 1 second. On the other hand, according to the second method, the reception of one picture is practicable with 6 fields so that the output of only 10 pictures is made for 1 second. This signifies that both the first and second methods take 0.1 second for the reception of a picture of one frame.
Consequently, the first method is advantageous in reducing the so-called color shift which can occur because at the pick-up of a dynamic picture the subject moves during the time period of one revolution of the rotary filter
4
so that the R, G, and B differ in position.
For sensitizing in such a case as to photograph a subject with a low illuminance, there has been known a way of lengthening the accumulation time per one color as compared with the case of a subject with a common brightness. However, assuming that the accumulation time for one color is 1 second, the above-mentioned first method requires 6 seconds for the reception of one-frame picture, thus deteriorating the operating performance.
Accordingly, it is a first object of the present invention to provide a solid-state image pick-up system which is capable of minimizing the time needed for the reception of a picture even in the case of the lengthened accumulation time.
A second object of this invention is to provide a solid-state image pick-up system which is capable of shortening the picture reception time even in a highsensitivity mode.
A third object of this invention is to provide a solid-state image pick-up system which is capable of improving an S/N ratio in a standard mode.
A fourth object of this invention is to provide a solid-state image pick-up system in which the switching to a standard mode shortening an accumulation time in a solid-state image pick-up device automatically takes place in the case of switching from a still or static picture to a dynamic picture in high-sensitivity mode, thus lessening the color shift.
A fifth object of this invention is to provide a solid-state image pick-up system which is capable of distinguishing between a dynamic picture and a still picture through a microscope without depending upon a subject for sure switching to a standard mode.
A sixth object of this invention is to provide a solid-state image pick-up system which is capable of improving an S/N ratio in accordance with an input signal level.
A seventh object of this invention is to provide a solid-state image pick-up system which is designed to automatically switch from a high-sensitivity mode to a standard mode, thus enhancing its controllability.
An eighth object of this invention is to provide a solid-state image pick-up system in which, in the case of focusing under a microscope, decision is made to that it is under the focusing even if difficulty is encountered to size up the focused condition and the switching to a standard mode is made on that decision.
A ninth object of this invention is to provide a solid-state image pick-up system which is capable of simplifying its circuits.
A tenth object of this invention is to provide a solid-state image pick-up system which is capable of resolving the occurrence of a difference between an odd number filed and an even number field.
Briefly, a solid-state image pick-up system according to the present invention comprises: an image pick-up lens for forming an image corresponding to an incident light from a subject on an image pick-up plane; color separation means for separating the incident light into a plurality of color components at a given cycle or period; a solid-state image pick-up device for receiving the subject light separated in the color separation means to convert it into a given subject image signal; image pick-up mode selection means for selecting a standard mode for picking up a dynamic picture and a high-sensitivity mode for picking up a still picture; and control means for controlling the cycle of the color separation means in accordance with the output of the image pick-up mode selection means.
This objects and advantages of the present invention will become further apparent from the following detailed explanation.
REFERENCES:
patent: 5705806 (1998-01-01), Matsuda et al.
patent: 5734424 (1998-03-01),
Itoh Hiroshi
Kubota Akihiro
Noguchi Toshiyuki
Sugimoto Yukihiro
Ho Tuan
Olympus Optical Co,. Ltd.
Volpe and Koenig P.C.
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