Abstract: A photosensor chip, such as used in a digital image scanner, includes a first contiguous subset of photosensors and a second contiguous subset of photosensors. Each subset of photosensors includes two interleaved (odd and even) groups of photosensors, outputting image data onto two multiplexed output channels. The image signals from each contiguous subset of photosensors are output through a common video line. Dividing the chip into first and second subsets of photosensors decreases total parasitic capacitance on the chip, and decreases the necessary number of transistors for readout.

Abstract: A streak detection method and system in a fixed imaging array digital scanning system obtains image data from each of the plurality of rows in the at least one full color spectrum channel set of rows of positionally discrete sensors and integrates this data to produce an estimate of image data recorded by at least one clear channel row of positionally discrete sensors. A clear channel error signal is generated by the comparison to alert the operator to the presence of non-image data. The clear channel error signal may be refined to through a low pass column filtering process in order to filter out potentially erroneous clear channel error resulting from thermal, mechanical or other noise sources unrelated to image scanning. Stationary obstructions in the field of view of the imaging array, or defects in one or more sensors in the imaging array, are detected through this comparison which would otherwise appear repeatedly reproduced as streaks or lines in the reproduced output image.

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.

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.

Abstract: In an imaging apparatus such as a scanner or digital camera, a plurality of photosensors read image data onto a video line. The video line is periodically associated with a correction signal of predetermined magnitude, such as on a correction capacitor on the video line. A digital-analog converter (DAC) precisely adjusts the correction signal, to make consistent the video outputs of different subsets of photosensors on a chip, or of different photosensor chips reading onto a single video line.

Abstract: An imaging apparatus, such as used in a digital camera or scanner, includes at least one photosensor chip. Each chip includes one line for conveying a signal causing an integration event of a selected subset of photosensors on the chip, the integration event being one of a starting or ending an integration period for the subset of photosensors. Each chip also includes at least two selection lines, for conveying a multi-bit code identifying the selected subset of photosensors for the integration event.

Abstract: A reference level generator for driving an analog circuit to cyclically complete an analog function includes a portion of the analog circuit, a master clock, a control circuit, a detection circuit, an integrating circuit and a reference level circuit. The master clock operates at a master clock speed and provides master clock signals to the analog circuit utilized to complete the analog function. The control circuit is used to start and stop the operation of the portion of the analog circuit. The detection circuit is configured to determine when the analog function is completed and to provide an output indicative of the completion of the analog function. The integrating circuit is driven by the output of the detection circuit and configured to set an analog level that is function of the analog function completion time.

Abstract: A method and or a device for comprehensive temperature calibration of a full width array (FWA) image sensor may minimize loss of productivity and/or image quality. Multiple temperature sensors disposed along a width of the FWA image sensor may provide temperature points used to correct for temperature shifts in output of individual pixel sensors of the FWA image sensor. Under control of a microprocessor, a real-time correction may be calculated for each pixel of the FWA image sensor. The correction may be based upon a real-time temperature profile of the FWA image sensor and temperature dependent factors of at least one calibration equation. The factors may be predetermined, or be determined at factory test, at warm-up or at a specified time.

Abstract: An architecture and manufacturing method for photosensitive chips, such as used in office equipment and digital cameras, involves creating grooves between chip areas in a wafer, and then placing a light-transmissive planar layer over the main surface of the wafer. The planar layer, which may be acrylic-based, creates a substantially planar surface over both the photosites in the chip areas and the grooves. The planar layer in turn supports one or more light-transmissive filtering layers. The arrangement avoids damage to the filtering layers when the wafer is diced along the grooves.

Abstract: A streak detection method and system in a fixed imaging array digital scanning system obtains image data from each of the plurality of rows in the at least one full color spectrum channel set of rows of positionally discrete sensors and integrates this data to produce an estimate of image data recorded by at least one clear channel row of positionally discrete sensors. A clear channel error signal is generated by the comparison to alert the operator to the presence of non-image data. The clear channel error signal may be refined to through a low pass column filtering process in order to filter out potentially erroneous clear channel error resulting from thermal, mechanical or other noise sources unrelated to image scanning. Stationary obstructions in the field of view of the imaging array, or defects in one or more sensors in the imaging array, are detected through this comparison which would otherwise appear repeatedly reproduced as streaks or lines in the reproduced output image.

Abstract: The present disclosure relates that by modifying chip die dicing methodology to a U-groove profile from a V-groove profile by modifying the second etch step to be a dry etch instead of a wet etch results in a direct cost savings by eliminating a more expensive process step, as well as the need for stripping the developed photoresist layer. Furthermore, going to a U-groove profile accomplishes additional indirect and greater cost savings resulting from increased process throughput, improved yield, and reduced metal layer defects.

Abstract: The present disclosure relates that by modifying chip die dicing methodology to a U-groove profile from a V-groove profile by modifying the second etch step to be a dry etch instead of a wet etch results in a direct cost savings by eliminating a more expensive process step, as well as the need for stripping the developed photoresist layer. Furthermore, going to a U-groove profile accomplishes additional indirect and greater cost savings resulting from increased process throughput, improved yield, and reduced metal layer defects.

Abstract: An imaging apparatus, such as would be used in a digital copier, includes at least one linear array of photosensors. Along a direction of the array, the photosensors are filtered to different primary colors, such as RGB, according to a repeating pattern. The repeating pattern includes at least one substantially clear photosensor, or a photosensor sensitive to a non-primary color (K). Some possible repeating patterns thus include RGBK, RKB, BKRK, and RGBGKG.

Abstract: A photosensitive imaging device for recording images across the entire visible spectrum includes a set of photosensors which have a peak response around the orange part of the spectrum, about 600 nm. The peak response is obtained by combining responses of, in one case, photosensors associated with a filter which admits red or infrared wavelengths and longer and photosensors associated with a filter which admits orange wavelengths and longer. In another case, the photosensor is structured to attenuate longer wavelengths, which, in combination with a filter which admits orange and longer wavelengths, can simulate a peak behavior around the orange part of the spectrum.

Abstract: A photosensitive imaging apparatus has a linear array of groups of photosensors. In a low-resolution scanning mode, all of the photosensors in each group act together as one large photosensor. In a high-resolution scanning mode, each photosensor in a group acts outputs image-based signals independently. In either mode, the signals output by the photosensors are transferred to one of two output lines, such as for “odd-” and “even-” positioned photosensors or groups of photosensors. The signals on the two lines can then be multiplexed to a single output line. The dual output lines enable fast signal output in either resolution mode.

Abstract: In a system and method for streak detection in a fixed imaging array digital scanning system, redundant information regarding individual lines of a scanned image collected by multiple discrete rows or sets of scanning sensors in the imaging array are compared. Stationary obstructions in the field of view of the imaging array are detected through this comparison which would otherwise appear repeatedly reproduced as streaks or lines in the reproduced output image.

Abstract: A photosensitive device, such as would be found in a digital scanner or camera, includes at least two sets of photosensors, the video signals from which are multiplexed together. While the two video paths are separate, before the multiplexing step, an offset correction process is carried out on each video path. After multiplexing, a final offset correction process is carried out to the combined signals, to remove offsets associated with the combined video path.

Abstract: In a photosensitive apparatus having photodiodes, such as a photosensor chip used in digital office equipment, a “fat zero” initial bias is injected on the photodiode. With every cycle of operation, a first fat zero is placed on the photodiode and then sampled. Then, a second fat zero is placed on the photodiode just before the integration of a light signal from an image being recorded. The light signal plus the second fat zero is transferred out of the photodiode and the sampled signal is subtracted therefrom, leaving only the light signal. The system obviates both fixed-pattern and some thermal noise within the apparatus.

Abstract: In a scanner for recording hard-copy images, the image moves relative to a sensor bar including three linear arrays of photosensors. For each small area in the image, the photosensor in one linear array records reflected light with a short exposure time, while each photosensor in the other linear arrays records reflected light with a longer exposure time. The “center of gravity” of the short exposure time is substantially aligned with a combined center of gravity of the two long exposure times.

Abstract: In an image sensor array, as would be used in an input scanner such as in a digital copier, an original image is moved relative to a linear array of photosites. Each photosite includes at least two wide photosensors, each of which extends substantially across the photosite along the array direction, and at least two narrow photosensors, which are arranged next to each other along the array direction. In one embodiment, the wide photosensors include primary-color filters and the narrow photosensors are clear-filtered.