Facsimile and static presentation processing – Facsimile – Recording apparatus
Patent
1987-09-24
1989-04-25
Ng, Jin F.
Facsimile and static presentation processing
Facsimile
Recording apparatus
358105, 250201, H04N 530, G03B 708
Patent
active
048252913
DESCRIPTION:
BRIEF SUMMARY
DESCRIPTION
TECHNICAL FIELD
This invention relates generally to a television camera, and more particularly to a solid-state television camera using a solid-state imaging device.
BACKGROUND ART
Present television cameras produce an optical image of an object on the imaging area of a charge integration type image pickup tube or a solid-state imaging device and scan the signal charge developed on this imaging area at a predetermined frequency to convert it to an electrical signal. This scanning frequency is predetermined in accordance with the television system employed, and is 60 fields/sec in the NTSC system, for example. Therefore, the signal storage time is 16.7 msec (in the case of signal readout with field storage) or 33.3 msec (in the case of signal readout with frame storage).
Solid-state imaging devices put into practical application as television cameras of the kind described above include an MOS type device and a CCD type device. These devices convert the optical image to signal charges using photoelements (e.g. photo-diodes) formed on a semiconductor substrate, store the signal charges, read out the signal charges at a predetermined frequency by a scanning circuit or the like and output video signals. In the charge integration type solid-state imaging device which stores the signal charges in the parasitic capacity of the photoelement (photo-diode), the sum of signal charges that can be stored (saturated signal charge) is determined to a predetermined value by the parasitic capacity of each photoelement.
On the other hand, the quantity of signal charge stored in each photoelement is proportional to the product of a signal storage time of each photoelement and the intensity of rays of light incident on each photoelement (or scene illuminance). Therefore, the quantity of signal charge stored in the photoelement becomes great when the signal storage time is long or when the object is bright and the intensity of incident rays is high, and becomes small when the signal storage time is short or when the object is dark and the intensity of incident rays of light is low, on the contrary. Since substantially constant noise charge mixes in the signal charge read out from the photoelement, the signal-to-noise ratio (S/N) of the imaging device is proportional to the quantity of signal charge stored in the photoelement. In other words, S/N changes depending on the signal storage time and the intensity of incident rays (scene illuminance). For instance, S/N can be improved by about 6 dB if the signal storage time is doubled or the intensity of incident rays is doubled.
In order to improve the S/N of the imaging device on the basis of the principle described above, the following prior art references attempt to control the signal storage time in accordance with the intensity of incident rays (scene illuminance):
These prior art references relate to a charge integration type photodetector used in an automatic focus detector of a camera or the like, and can set arbitrarily the storage time of the signal charge in accordance with the intensity of incident rays (scene illuminance). However, in the television camera to which the present invention is directed, the scanning frequency is fixed to 60 fields/sec. Therefore, the maximum storage time of the signal charge is 1/60 sec (16.7 msec) in the system employing signal readout with field storage and at most 1/30 sec (33.3 msec) in the system employing signal readout with frame storage. For this reason, when an object having low illuminance with low intensity of incident rays is imaged, the maximum storage time is fixed to either 1/60 sec (16.7 msec) or 1/30 sec (33.3 msec) even when one attempts to extend the storage time in order to improve S/N. Accordingly, degradation of image quality due to the drop of S/N is unavoidable.
Moreover, the prior art technique described above controls the storage time only through the intensity of incident rays (scene illuminance) but does not at all take moving objects into consideration. In other words, these references do not
REFERENCES:
patent: 4064533 (1977-12-01), Lampe et al.
patent: 4218119 (1980-08-01), Schickedanz
patent: 4527053 (1985-07-01), Kinoshita et al.
patent: 4686572 (1987-08-01), Takatsu
Akiyama Toshiyuki
Eto Yoshizumi
Kudo Koji
Mimura Itaru
Ozawa Naoki
Brinich Stephen
Hitachi , Ltd.
Ng Jin F.
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