ONE-DIMENSIONAL LIGHT-RECEIVING SENSOR

PURPOSE:To obtain a high signal-to-noise ratio with a small quantity of light, by arranging a plurality of light-receiving element arrays in the direction Y, and transferring charges stored in light-receiving elements in each light-receiving element array under the irradiation of light scanning in t...

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1. Verfasser:	SASANO AKIRA
Format:	Patent
Sprache:	eng
Schlagworte:	BASIC ELECTRIC ELEMENTS ELECTRIC COMMUNICATION TECHNIQUE ELECTRIC SOLID STATE DEVICES NOT OTHERWISE PROVIDED FOR ELECTRICITY PICTORIAL COMMUNICATION, e.g. TELEVISION SEMICONDUCTOR DEVICES
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creator	SASANO AKIRA
description	PURPOSE:To obtain a high signal-to-noise ratio with a small quantity of light, by arranging a plurality of light-receiving element arrays in the direction Y, and transferring charges stored in light-receiving elements in each light-receiving element array under the irradiation of light scanning in the direction Y to the corresponding light-receiving elements in the next array in synchronization with the light scanning. CONSTITUTION:A plurality of light-receiving element arrays in each of which a multiplicity of light-receiving elements 1 are arranged in the direction X are juxtaposed in the direction Y, while corresponding light-receiving elements in respective arrays are electrically connected with a charge transfer path 2, respectively, to constitute a one-dimentional light-receiving sensor. The figures I-IV indicate the numbers of light-receiving element arrays. Each charge transfer path 2 transfers signal charges stored in each of the light-receiving elements 1 to the corresponding light-receiving element in the adjacent array. When the rate of transferring charges is synchronized with the rate of moving an image, signal charges are accumulated progressively and, consequently, a quadruple quantity of signal charges can be obtained from the array IV.
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CONSTITUTION:A plurality of light-receiving element arrays in each of which a multiplicity of light-receiving elements 1 are arranged in the direction X are juxtaposed in the direction Y, while corresponding light-receiving elements in respective arrays are electrically connected with a charge transfer path 2, respectively, to constitute a one-dimentional light-receiving sensor. The figures I-IV indicate the numbers of light-receiving element arrays. Each charge transfer path 2 transfers signal charges stored in each of the light-receiving elements 1 to the corresponding light-receiving element in the adjacent array. 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CONSTITUTION:A plurality of light-receiving element arrays in each of which a multiplicity of light-receiving elements 1 are arranged in the direction X are juxtaposed in the direction Y, while corresponding light-receiving elements in respective arrays are electrically connected with a charge transfer path 2, respectively, to constitute a one-dimentional light-receiving sensor. The figures I-IV indicate the numbers of light-receiving element arrays. Each charge transfer path 2 transfers signal charges stored in each of the light-receiving elements 1 to the corresponding light-receiving element in the adjacent array. 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CONSTITUTION:A plurality of light-receiving element arrays in each of which a multiplicity of light-receiving elements 1 are arranged in the direction X are juxtaposed in the direction Y, while corresponding light-receiving elements in respective arrays are electrically connected with a charge transfer path 2, respectively, to constitute a one-dimentional light-receiving sensor. The figures I-IV indicate the numbers of light-receiving element arrays. Each charge transfer path 2 transfers signal charges stored in each of the light-receiving elements 1 to the corresponding light-receiving element in the adjacent array. When the rate of transferring charges is synchronized with the rate of moving an image, signal charges are accumulated progressively and, consequently, a quadruple quantity of signal charges can be obtained from the array IV.</abstract><oa>free_for_read</oa></addata></record>
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subjects	BASIC ELECTRIC ELEMENTS ELECTRIC COMMUNICATION TECHNIQUE ELECTRIC SOLID STATE DEVICES NOT OTHERWISE PROVIDED FOR ELECTRICITY PICTORIAL COMMUNICATION, e.g. TELEVISION SEMICONDUCTOR DEVICES
title	ONE-DIMENSIONAL LIGHT-RECEIVING SENSOR
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