Electronic endoscope
First Claim
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1. A video-processor of an electronic endoscope, to which a video-scope, which includes an image sensor and a computer are connected respectively, an object image being formed on said image sensor, and said video-processor processing image-pixel signals corresponding to the object image that are read from said image sensor, said video-processor comprising:
- a video signal processor that generates digital video signals on a basis of the image-pixel signals and output the digital video signals to the computer; and
a first pulse generator for said video signal processor that feeds clock pulses to said video signal processor in accordance with a sampling frequency, such that the digital video signals are generated and output in accordance with the sampling frequency;
wherein the sampling frequency corresponds to a square-pixel frequency for the computer.
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Abstract
An electronic endoscope has a video-scope having an image sensor and a video-processor. The video-scope is connected to the video-processor, to which a computer system, having a display unit and a digital recorder, is connected. The image-pixel signals corresponding to an object image, formed on the image sensor, are read from the image sensor and processed to obtain digital video signals. The digital video signals are generated in accordance with a square-pixel frequency, which is a sampling frequency for the computer system. The digital video signals are fed to the computer system to display the object image on the display unit, and/or record the object image in the digital recorder.
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Citations
15 Claims
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1. A video-processor of an electronic endoscope, to which a video-scope, which includes an image sensor and a computer are connected respectively, an object image being formed on said image sensor, and said video-processor processing image-pixel signals corresponding to the object image that are read from said image sensor, said video-processor comprising:
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a video signal processor that generates digital video signals on a basis of the image-pixel signals and output the digital video signals to the computer; and
a first pulse generator for said video signal processor that feeds clock pulses to said video signal processor in accordance with a sampling frequency, such that the digital video signals are generated and output in accordance with the sampling frequency;
wherein the sampling frequency corresponds to a square-pixel frequency for the computer. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
a matrix circuit that transforms the digital R, G, B signals to digital luminance signals and digital color difference signals; and
a multiplexer that processes the digital luminance signals and the digital color difference signals so that multiple digital video signals are generated as the digital video signals.
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4. The video-processor of claim 3, said multiplexer generates the multiple digital video signals such that a ratio of a sampling frequency of the digital luminance signals and a sampling frequency of the digital color difference signals in the multiplexed digital video signals becomes “
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2”
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5. The video-processor of claim 4, wherein the clock frequency of clock pulses fed to said matrix circuit is the same as the square-pixel frequency, and the clock frequency of clock pulses fed to said multiplexer is two times the square-pixel frequency.
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6. The video-processor of claim 1, wherein a digital recorder for recording the object image as digital image data and a display unit for displaying the object image, which correspond to a computer video standard, are connected to the computer respectively, the digital video signals being fed to said digital recorder and said display unit via the computer.
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7. The video-processor of claim 3, wherein said video signal processor further includes a parallel/serial converter that transforms the multiple digital video signals to digital serial video signal to feed digital serial video signals to the computer, said first pulse generator feeding the clock pulses to said parallel/serial converter in accordance with the square-pixel frequency.
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8. A decoder in combination with said video-processor in claim 7, said decoder provided between said video-processor and the computer for feeding the digital R, G, B signals to the computer, said decoder comprising:
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a serial/parallel converter that transforms the digital serial video signals to the multiple digital video signals;
a demultiplexer that processes the multiple digital video signals so as to restore the digital luminance signals and the digital color difference signals;
an inverse matrix circuit that transforms the digital luminance signals and the digital color difference signals to the digital R, G, B signals; and
a second pulse generator for said decoder that feeds clock pulses to said serial/parallel converter, said demultiplexer and said inverse matrix circuit in accordance with the square-pixel frequency.
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9. A video-processor of an electronic endoscope connected to an image sensor and a processor, said video-processor comprising:
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a video signal processor that generates digital video signals on a basis of image-pixel signals and outputs digital video signals to the processor; and
a first pulse generator that feeds clock pulses to said video signal processor in accordance with a sampling frequency, such that the digital video signals are generated and output in accordance with the sampling frequency;
wherein the sampling frequency corresponds to a square-pixel frequency of the processor. - View Dependent Claims (10, 11, 12)
a matrix circuit that transforms the digital R, G, B signals to digital luminance signals and digital color difference signals; and
a multiplexer that processes the digital luminance signals and the digital color difference signals so that multiple digital video signals are generated as the digital video signals.
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12. The video-processor of claim 9, wherein a digital recorder for recording an object image as digital image data and a display unit for displaying the object image, which correspond to a computer video standard, are connected to the processor, the digital video signals being fed to said digital recorder and said display unit via the processor.
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13. A method of using a video-processor of an electronic endoscope connected to an image sensor and a processor, the method comprising:
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generating digital video signals on a basis of image-pixel signals and outputting digital video signals to the processor; and
feeding clock pulses to a video signal processor in accordance with a sampling frequency, such that the digital video signals are generated and output in accordance with the sampling frequency;
wherein the sampling frequency corresponds to a square-pixel frequency of the processor. - View Dependent Claims (14, 15)
transforming the digital R, G, B signals to digital luminance signals and digital color difference signals; and
processing the digital luminance signals and the digital color difference signals so that multiple digital video signals are generated as the digital video signals.
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Specification
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Current AssigneePentax Corporation (Hoya Corporation)
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Original AssigneePentax Corporation (Hoya Corporation)
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InventorsTakahashi, Akihiro, Iketani, Kohei
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Primary Examiner(s)Rao, Andy
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Application NumberUS09/664,829Time in Patent Office1,253 DaysField of Search348/65-76, 600/107-120US Class Current348/71CPC Class CodesA61B 1/04 combined with photographic ...H04N 7/183 for receiving images from a...
