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Your choices are...
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Color
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A color CCD image sensor. An integral RGB color filter array provides color responsivity and separation.
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Monochrome
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A black and white CCD image sensor.
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Search Logic:
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All products with ANY of the selected attributes will be returned as matches. Leaving all boxes unchecked will not limit the search criteria for this question; products with all attribute options will be returned as matches.
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Array Type:
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Your choices are...
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Linear Array
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Linear arrays consist of a single line of pixels.
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Frame Transfer Area Array
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Frame transfer CCDs are built with MOS capacitors that serve as sensing elements, as well as comprise the parallel and serial shift registers. Light is integrated in the photosites of the imaging region. After a period of integration, i.e. 1/60 of a second for video applications, the charge is quickly transferred down the shift register and into the CCD's storage region, another integration period can begin. The storage region of the frame transfer CCD makes it faster and more expensive than the full frame CCD.
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Full Frame Area Array
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Full frame CCD imager does not have a storage region, making it half the size of frame transfer type CCDs. With half the silicon area, the price is proportionally less than frame transfer designs. The disadvantage is that because there is no storage region, the entire image must be read out of the array before the next image can be acquired.
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Interline Transfer Area Array
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Interline transfer CCD imagers can control the start / stop of when it measures light falling on it, otherwise known as an electronic shutter, it does so by shifting values out of the photodiodes into "shift registers" then pushing all of that data out as a final image.
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Other
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Search Logic:
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All products with ANY of the selected attributes will be returned as matches. Leaving all boxes unchecked will not limit the search criteria for this question; products with all attribute options will be returned as matches.
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Optical Format:
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Digital imaging optical format is a measure of the size of the imaging area. Optical format is used to determine what size lens is necessary for use with the imager. Optical format refers to the length of the diagonal of the imaging area.
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Your choices are...
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1/7 inch
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Digital imaging optical format is a measure of the size of the imaging area. Optical format is used to determine what size lens is necessary for use with the imager. Optical format refers to the length of the diagonal of the imaging area. The optical format is 1/7 inch.
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1/6 inch
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Digital imaging optical format is a measure of the size of the imaging area. Optical format is used to determine what size lens is necessary for use with the imager. Optical format refers to the length of the diagonal of the imaging area. The optical format is 1/6 inch.
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1/5 inch
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Digital imaging optical format is a measure of the size of the imaging area. Optical format is used to determine what size lens is necessary for use with the imager. Optical format refers to the length of the diagonal of the imaging area. The optical format is 1/5 inch.
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1/4 inch
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Digital imaging optical format is a measure of the size of the imaging area. Optical format is used to determine what size lens is necessary for use with the imager. Optical format refers to the length of the diagonal of the imaging area. The optical format is 1/4 inch.
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1/3 inch
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Digital imaging optical format is a measure of the size of the imaging area. Optical format is used to determine what size lens is necessary for use with the imager. Optical format refers to the length of the diagonal of the imaging area. The optical format is 1/3 inch.
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1/2 inch
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Digital imaging optical format is a measure of the size of the imaging area. Optical format is used to determine what size lens is necessary for use with the imager. Optical format refers to the length of the diagonal of the imaging area. The optical format is 1/2 inch.
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2/3 inch
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Digital imaging optical format is a measure of the size of the imaging area. Optical format is used to determine what size lens is necessary for use with the imager. Optical format refers to the length of the diagonal of the imaging area. The optical format is 2/3 inch.
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3/4 inch
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Digital imaging optical format is a measure of the size of the imaging area. Optical format is used to determine what size lens is necessary for use with the imager. Optical format refers to the length of the diagonal of the imaging area. The optical format is 3/4 inch.
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1 inch
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Digital imaging optical format is a measure of the size of the imaging area. Optical format is used to determine what size lens is necessary for use with the imager. Optical format refers to the length of the diagonal of the imaging area. The optical format is 1 inch.
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Other
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Any other optical format not listed.
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Search Logic:
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Products with the selected attribute will be returned as matches. Leaving or selecting "No Preference" will not limit the search criteria for this question; products with all attribute options will be returned as matches.
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Horizontal Pixels:
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The number of pixels in a row of the image sensor. The greater the number of pixels, the better the resolution. For example, VGA resolution is (640x480), this means the number of horizontal pixels is 640 and the number of vertical pixels are 480.
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Search Logic:
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User may specify either, both, or neither of the "At Least" and "No More Than" values. Products returned as matches will meet all specified criteria.
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Vertical Pixels:
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The number of pixels in a column of the image sensor. The greater the number of pixels, the better the resolution. For example, VGA resolution is (640x480), this means the number of horizontal pixels is 640 and the number of vertical pixels are 480.
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Search Logic:
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User may specify either, both, or neither of the "At Least" and "No More Than" values. Products returned as matches will meet all specified criteria.
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Pixel Size:
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The largest dimension of the pixel. Pixels are usually square but can sometimes be rectangular.
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Search Logic:
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All matching products will have a value less than or equal to the specified value.
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