An image-reading device includes a plurality of image sensors, a starting signal generator and a signal timing regulator. Each image sensor reads images on a pixel basis and generating an image signal indicative of the image. The image signal is an analog signal. The starting signal generator genera
An image-reading device includes a plurality of image sensors, a starting signal generator and a signal timing regulator. Each image sensor reads images on a pixel basis and generating an image signal indicative of the image. The image signal is an analog signal. The starting signal generator generates starting signals at every predetermined time period. A sampling period for sampling the image signal is set within the predetermined time period. In response to the starting signal sequentially inputted to the image sensors, the image sensors read the image until the predetermined time period is expired. The signal timing regulator delays an input timing at which the starting signal is inputted to the image sensor so that the sampling periods for the plurality of image sensors are different from one another.
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1. An image-reading device comprising: a plurality of image sensors, each image sensor reading an image on a pixel basis and generating an image signal indicative of the image, each image signal having a sampling portion to be sampled during a sampling period, the image signal being an analog signal
1. An image-reading device comprising: a plurality of image sensors, each image sensor reading an image on a pixel basis and generating an image signal indicative of the image, each image signal having a sampling portion to be sampled during a sampling period, the image signal being an analog signal;a signal outputting unit configured to output a common trigger signal to each of the plurality of image sensors via a common signal line and output a master clock signal at every predetermined cycle period; anda signal timing regulator configured to input the master clock signal and output a plurality of regulated clock signals which are shifted from each other within the predetermined cycle period of the master clock signal, wherein each of the plurality of regulated clock signals is output to a corresponding one of the plurality of image sensors,wherein each of the plurality of image sensors is configured to output the image signal upon receiving the common trigger signal and the corresponding one of the plurality of regulated clock signals, such that the sampling periods for the plurality of image sensors shift from one another within the predetermined cycle period of the master clock signal. 2. The image-reading device according to claim 1, wherein the signal timing regulator delays the input timing such that a time span from a starting time of the earliest sampling period among the plurality of sampling periods to an ending time of the latest sampling period among the plurality of sampling periods is shorter than the predetermined cycle period of the master clock signal. 3. The image-reading device according to claim 1, further comprising an A/D converter that converts the image signal to digital signal. 4. The image-reading device according to claim 3, further comprising: a selector that outputs selected one of the image signals read by the plurality of image sensors; anda selector controller that controls the selector to sequentially output each image signal read by each image sensor during each sampling period. 5. The image-reading device according to claim 4, further comprising A-number sensor blocks, each sensor block including B-number image sensors that output 1st to Bth image signals respectively, wherein B-number selectors are provided, each selector including 1st to Ath input terminals and an output terminal,wherein an Nth selector outputs selected one of Nth image signals respectively read by the Nth image sensors of the A-number sensor blocks,wherein A and B represent integers, and N represents an integer equal to or greater than 1 and equal to or smaller than B. 6. The image-reading device according to claim 5, wherein B=3. 7. The image-reading device according to claim 6, wherein A=5. 8. The image-reading device according to claim 6, wherein the A/D converter has three input parts into which the image signals are inputted respectively, and converts the image signals input into three input parts to the digital signals separately. 9. The image-reading device according to claim 1, wherein the plurality of image sensor is arranged contiguously. 10. The image-reading device according to claim 1, wherein the plurality of image sensors is arranged linearly. 11. The image-reading device according to claim 1, wherein the image sensor is configured of an IC chip. 12. The image-reading device according to claim 1, wherein the image sensor is contact type. 13. An image-reading device comprising: a plurality of image sensors, each image sensor reading images on a pixel basis and generating an image signal indicative of the image, the image signal being an analog signal;a signal outputting unit configured to output a common trigger signal to each of the plurality of image sensors via a common signal line and output a master clock signal;a signal timing regulator configured to input the master clock signal and output a plurality of regulated clock signals which are shifted from each other within the predetermined cycle period of the master clock signal, wherein each of the plurality of regulated clock signals is output to a corresponding one of the plurality of images sensors, respectively; andan A/D converter configured to convert each image signal to a corresponding digital signal after a predetermined time has elapsed since each clock signal was input to each image sensor,wherein each of the plurality of image sensors is configured to output the image signal upon receiving the common trigger signal and the corresponding one of the plurality of regulated clock signals, such that the sampling periods for the plurality of image sensors shift from one another within the predetermined cycle period of the master clock signal. 14. An image-reading device comprising: a plurality of image sensors, each image sensor including a plurality of light-receiving elements and generating an image signal indicative of the image, the image signal being an analog signal;a trigger signal outputting unit configured to output a common trigger signal to each of the plurality of image sensors via a common signal line;a clock signal outputting unit configured to sequentially output a plurality of regulated clock signals for the plurality of image sensors which are shifted from each other within a predetermined cycle period, wherein each of the plurality of regulated clock signals is output to a corresponding one of the plurality of image sensors, respectively;a sampling chip configured to sample the image signal generated by the plurality of image sensors; anda sampling period setter configured to set, within the predetermined cycle period, a plurality of sampling periods such that the sampling chip samples the image signals generated by the plurality of image sensors sequentially within the predetermined cycle period,wherein the clock signal outputting unit is configured to output each of the plurality of clock signals at a timing related to corresponding one of the plurality of sampling periods,wherein each of the plurality of image sensors is configured to output the image signal upon receiving the common trigger signal and corresponding one of the plurality of regulated clock signals, such that the sampling period setter sets each of the plurality of sampling periods to shift from one another within the predetermined cycle period.
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이 특허에 인용된 특허 (19)
Suzuki Kenji (Kawasaki JPX), Accumulation time control apparatus.
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