Color input scanner calibration system
First Claim
1. A method of operating a photosensitive apparatus, the apparatus including a plurality of pixels, each pixel including a first photosensor sensitive to a first color and a second photosensor sensitive to a second color, wherein the first photosensor and the second photosensor are associated with a single pixel, wherein there are provided a plurality of pixels in the apparatus, comprising:
- for each pixel, exposing the first photosensor and the second photosensor to light of substantially the first color, thereby deriving test signals from the first photosensor and the second photosensor;
for each pixel, exposing the first photosensor and the second photosensor to light of substantially the second color, thereby deriving test signals from the first photosensor and the second photosensor;
deriving from the test signals a cross-color correction factor for each pixel, the cross-color correction factor being related to migration of charge between the first photosensor and the second photosensor in the pixel;
using the cross-color correction factor for each pixel in processing signals output from the first photosensor and the second photosensor when an image is being recorded.
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Accused Products
Abstract
A photosensitive apparatus, such as scanner, includes a plurality of pixels, each pixel having associated therewith a set of photosensors, each photosensor filtered to record a primary color. The photosensors are exposed to light of each primary color separately, thereby deriving test signals. A cross-color correction factor for the pixel is derived from the test signals. The cross-color correction factor is used in processing signals output from the pixel when an image is being recorded, so as to isolate the effects of signal crosstalk between closely-spaced photosensors of different colors.
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Citations
13 Claims
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1. A method of operating a photosensitive apparatus, the apparatus including a plurality of pixels, each pixel including a first photosensor sensitive to a first color and a second photosensor sensitive to a second color, wherein the first photosensor and the second photosensor are associated with a single pixel, wherein there are provided a plurality of pixels in the apparatus, comprising:
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for each pixel, exposing the first photosensor and the second photosensor to light of substantially the first color, thereby deriving test signals from the first photosensor and the second photosensor; for each pixel, exposing the first photosensor and the second photosensor to light of substantially the second color, thereby deriving test signals from the first photosensor and the second photosensor; deriving from the test signals a cross-color correction factor for each pixel, the cross-color correction factor being related to migration of charge between the first photosensor and the second photosensor in the pixel; using the cross-color correction factor for each pixel in processing signals output from the first photosensor and the second photosensor when an image is being recorded. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method of operating a photosensitive apparatus, the apparatus including a plurality of pixels, each pixel having associated therewith a first photosensor sensitive to a first color, a second photosensor sensitive to a second color, and a third photosensor sensitive to a third color, comprising, for each of a plurality of pixels:
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for each pixel, exposing the first photosensor, the second photosensor, and the third photosensor to light of substantially the first color, thereby deriving test signals from the first photosensor, the second photosensor, and the third photosensor; for each pixel, exposing the first photosensor, the second photosensor, and the third photosensor to light of substantially the second color, thereby deriving test signals from the first photosensor, the second photosensor, and the third photosensor; for each pixel, exposing the first photosensor, the second photosensor, and the third photosensor to light of substantially the third color, thereby deriving test signals from the first photosensor, the second photosensor, and the third photosensor; for each pixel, deriving from the test signals a cross-color correction factor for the pixel, the cross-color correction factor being related to migration of charge among the first photosensor, second photosensor and the third photosensor of the pixel; and using the cross-color correction factor in processing signals output from the pixel when an image is being recorded. - View Dependent Claims (9, 10, 11, 12, 13)
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Specification