The present invention relates to readout structures in solid state image sensors, and is particularly related to pinned-photodiode image sensors providing red, green, blue (RGB) outputs.
It is well known to use pinned-photodiode arrangements where a single output amplifier serves more than one pixel, for example in the so-called 2.5T pixel where two pixels share a total of five transistors, or the 1.75T pixel where four pixels share a total of seven transistors. For color images, the pixels are overlaid with color filtering material, most commonly RGB. The arrangement which is most commonly used is the Bayer pattern where the pixels are BGBGBG . . . and GRGRGR . . . in alternate rows.
A problem with the Bayer pattern (and potentially also with other RGB sensors) is that with the materials typically used, green pixels are more sensitive than red and blue pixels because of the different color filter absorption coefficients. It would be desirable to reduce this difference by appropriate adjustment as between green and red/blue of exposure and/or gain, but this has not yet been accomplished.
The present invention provides a solid state image sensor having an array of pixels, each pixel having a pinned photodiode and a transfer gate operable to provide a photodiode signal to an output amplifier. A common output amplifier is shared by a plurality of pixels in a plurality of adjacent rows in each column. A horizontal transfer gate control line is provided per row of the array. Each of the transfer gate control lines is connected in successive columns to a different one of the plurality of rows in a cyclical manner.
In preferred embodiments, the invention is applied to sensors in which the pixels are provided with red, green and blue color filters arranged in a Bayer pattern. In one embodiment the arrangement is such that pairs of pixels in adjacent rows of each column share a common output amplifier, and each of the transfer gate control lines alternates between the rows of a pair in alternate columns. In another embodiment, each output amplifier is shared by four pixels in four adjacent rows, and the four adjacent rows have two pairs of transfer gate control lines, each of the transfer gate control lines alternating between a pair of rows in alternate columns.
The invention also provides a digital camera, preferably a color digital camera, making use of the above image sensor. From another aspect, the invention provides a method of reading out image data from a pinned-photodiode image sensor having an array of pixels, and in which a common output amplifier is shared by a plurality of pixels in a plurality of adjacent rows in each column. The method comprises causing pixel values to be transferred to the output amplifiers in a sequence such that a pixel in a given row of a column is followed by a pixel in an adjacent row of the succeeding column.
Embodiments of the invention will now be described, by way of example only, with reference to the drawings, in which:
a is a chart illustrating the color distribution of pixels in a Bayer pattern; and
b is a chart showing the order in which the pixels are read out from the embodiments of
Referring to
As one example,
The altered readout format from the image surface has a number of advantages. The exposure of green and red/blue pixels can be adjusted independently, allowing the dynamic range of the pixels to be optimized. The exposure of the red/blue pixels can be increased with respect to the green to maximize the signal to noise ratio. Alternatively, the exposure of the green pixels can be reduced to minimize dark current. Also, different analog gain can be applied to green pixels than to red/blue, which allows the signal to quantization noise level to be optimized. Because green pixels are read out on the same line, mismatches in the gain and offset of the two green pixels in a Bayer quad can be eliminated. Similarly, mismatches in the gain and offset of red/blue pixels are eliminated. The operation of 2.5T pixels typically gives rise to row-row mismatches caused by the sequence of operations in reading the upper row followed by the lower row. In the present invention, these mismatches are translated into column-column mismatches which can be removed by vertical fixed pattern noise learning and subtraction. This advantage is not limited to color images.
The image sensor of the invention may be incorporated in a digital camera, a lens or lens system being provided to focus the desired image on an image plane of the sensor. The invention is particularly useful in digital color cameras.
Number | Date | Country | Kind |
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04253372 | Jun 2004 | EP | regional |
Number | Name | Date | Kind |
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6661457 | Mathur et al. | Dec 2003 | B1 |
6943837 | Booth, Jr. | Sep 2005 | B1 |
7057652 | Watanabe | Jun 2006 | B2 |
20020063787 | Watanabe | May 2002 | A1 |
Number | Date | Country |
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0 707 417 | Apr 1996 | EP |
0113649 | Feb 2001 | WO |
Number | Date | Country | |
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20050269609 A1 | Dec 2005 | US |