Solid state image pickup device driving method utilizing an electronic shutter operation
First Claim
1. A method for driving a solid image pickup device comprising light receiving elements arranged in first and second fields, the elements being operatively connected to charge transfer paths in a light receiving section and a storage section, the storage section being operative to output its contents to a charge coupled device (CCD), comprising:
- (a) transferring first signal charges produced by light receiving elements in said first field to charge transfer paths in said light receiving section and then to said storage section;
(b) transferring, while said first signal charges are held in said storage section, second signal charges produced by light receiving elements in said second field to said charge transfer paths in said light receiving section;
(c) outputting, while said second signal charges are held in said charge transfer paths of said light receiving section, said first signal charges in said storage section through said CCD;
(d) utilizing a first time interval, which spans from the reception of light in said light receiving elements in said first field until the transferring of said first signal charges to said charge transfer paths, as a shutter period for said first field, and(e) utilizing a second time interval, which spans from the reception of light in said light receiving elements in said second field until the transferring of said second signal charges to said charge transfer paths, as a shutter period for said second field.
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Accused Products
Abstract
A solid image pickup device driving method is provided in which a charge storage type solid image pickup device of a frame transfer interline system is used to detect still picture signals. Either the odd-numbered or even-numbered field elements are transferred to charge transfer paths in a light receiving section and next transferred to a storage section. The remaining field elements are then transferred to charge transfer paths in the light receiving section. The field elemeents residing in the storage section are then transferred to a horizontal CCD for output. Finally, the remaining field elements, having been stored in the charge transfer paths in the light receiving section, are transferred to the storage section, and then transferred to the horizontal CCD for output. The driving method provides for increased vertical resolution and facilitates miniaturization of the device. In addition, the shutter periods and/or the signal amplification factors of the odd-numbered and even-numbered fields are adjusted so that, with respect to the picture elements of the odd-numbered and even-numbered fields, with light applied under the same conditions, the output signals of the odd-numbered and even-numbered fields obtained through scanning are equal to each other. Therefore, the odd-numbered field scanning operation and the even-numbered field scanning operation each possess an equal ratio of the video signal to smear, and field flickering is therefore suppressed.
157 Citations
10 Claims
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1. A method for driving a solid image pickup device comprising light receiving elements arranged in first and second fields, the elements being operatively connected to charge transfer paths in a light receiving section and a storage section, the storage section being operative to output its contents to a charge coupled device (CCD), comprising:
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(a) transferring first signal charges produced by light receiving elements in said first field to charge transfer paths in said light receiving section and then to said storage section; (b) transferring, while said first signal charges are held in said storage section, second signal charges produced by light receiving elements in said second field to said charge transfer paths in said light receiving section; (c) outputting, while said second signal charges are held in said charge transfer paths of said light receiving section, said first signal charges in said storage section through said CCD; (d) utilizing a first time interval, which spans from the reception of light in said light receiving elements in said first field until the transferring of said first signal charges to said charge transfer paths, as a shutter period for said first field, and (e) utilizing a second time interval, which spans from the reception of light in said light receiving elements in said second field until the transferring of said second signal charges to said charge transfer paths, as a shutter period for said second field. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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Specification