Image reading apparatus having a function for correcting dark signals generated in a photoelectric conversion element

US 5,278,658 A
Filed: 05/14/1991
Issued: 01/11/1994
Est. Priority Date: 05/15/1990
Status: Expired due to Fees

First Claim

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1. An image reading apparatus comprising:

a photoelectric conversion element which has a plurality of cells, each cell generating an image signal including a photoelectric conversion signal corresponding to an amount of light incident thereto and a dark signal based on a dark current generated therein, said plurality of cells including shielded cells which are optically shielded so that each shielded cell outputs an image signal including only a dark signal;

dark signal data generating means for generating dark signal data for each cell of said photoelectric conversion element under a no-exposure condition in which there is no light incident to said photoelectric conversion element, said dark signal data corresponding to a ratio of a pixel data signal output from each cell under the no-exposure condition to a first reference dark signal which is obtained based on dark signals output from the shielded cells under the no-exposure condition;

dark signal data storage means, coupled to said dark signal dark generating means, for storing the dark signal data for each cell of said photoelectric conversion element;

dark signal component generating means for generating a dark signal component for each cell of said photoelectric conversion element under an exposure condition in which a light is incident to said photoelectric conversion element, said dark signal component corresponding to a product of said dark signal data stored for each cell in said dark signal data storage means multiplied by a second reference dark signal which is obtained based on the dark signals output from the shielded cells under the exposure condition; and

dark signal removing means, coupled to said dark signal component generating means, for removing the dark signal component generated for each cell by said dark signal component generating means from an image signal obtained for each corresponding cell of said photoelectric conversion element under the exposure condition,wherein said image reading apparatus outputs the image signal from which the dark signal component is removed for each cell of said photoelectric conversion element.

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Abstract

An image reading apparatus includes a photoelectric conversion element which has a plurality of cells, the plurality of cells including shielded cells which are optically shielded so that each shielded cell outputs only the dark signal, a dark signal data generating system for generating dark signal data for each cell of the photoelectric conversion element, the dark signal data corresponding to a ratio of an image signal output from each cell under a no-exposure condition to a first reference dark signal which is obtained based on the dark signals output from the shielded cells under the no-exposure condition, a dark signal data memory for storing the dark signal data for each cell, a dark signal component generating system for generating a dark signal component for each cell, the dark signal component corresponding to a product of the dark signal data for each cell multiplied by a second reference dark signal which is obtained based on the dark signals output from the shielded cells under the exposure condition, and a subtracter for subtracting the dark signal component from an image signal obtained for each corresponding cell under the exposure condition.

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12 Claims

1. An image reading apparatus comprising:
- a photoelectric conversion element which has a plurality of cells, each cell generating an image signal including a photoelectric conversion signal corresponding to an amount of light incident thereto and a dark signal based on a dark current generated therein, said plurality of cells including shielded cells which are optically shielded so that each shielded cell outputs an image signal including only a dark signal;
  
  dark signal data generating means for generating dark signal data for each cell of said photoelectric conversion element under a no-exposure condition in which there is no light incident to said photoelectric conversion element, said dark signal data corresponding to a ratio of a pixel data signal output from each cell under the no-exposure condition to a first reference dark signal which is obtained based on dark signals output from the shielded cells under the no-exposure condition;
  
  dark signal data storage means, coupled to said dark signal dark generating means, for storing the dark signal data for each cell of said photoelectric conversion element;
  
  dark signal component generating means for generating a dark signal component for each cell of said photoelectric conversion element under an exposure condition in which a light is incident to said photoelectric conversion element, said dark signal component corresponding to a product of said dark signal data stored for each cell in said dark signal data storage means multiplied by a second reference dark signal which is obtained based on the dark signals output from the shielded cells under the exposure condition; and
  
  dark signal removing means, coupled to said dark signal component generating means, for removing the dark signal component generated for each cell by said dark signal component generating means from an image signal obtained for each corresponding cell of said photoelectric conversion element under the exposure condition,wherein said image reading apparatus outputs the image signal from which the dark signal component is removed for each cell of said photoelectric conversion element.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. An image reading apparatus as claimed in claim 1, wherein said dark signal data generating means comprises;
    - first means for generating the first reference dark signal based on the dark signals from the shielded cells under the no-exposure condition,second means for generating the ratio of the image signal output from each cell under the no-exposure condition to the first reference dark signal generated by said first means,wherein the ratio generated by said second means corresponds to the dark signal data.
  - 3. An image reading apparatus as claimed in claim 2, wherein said first means generates the first reference dark signal based on an average of the dark signals output from the shielded cells under the no-exposure condition.
  - 4. An image reading apparatus as claimed in claim 2, where in said first means generates the first reference dark signal based on the dark signal output from a representative cell which is selected from the shielded cells.
  - 5. An image reading apparatus as claimed in claim 1, wherein a first time required for generating the image signal for each cell under the no-exposure condition is longer than a second time required for generating the image signal for each cell under the exposure condition.
  - 6. An image reading apparatus as claimed in claim 1, wherein said dark signal component generating means comprises;
    - first means for generating the second reference dark signal based on the dark signals from the shielded cells under the exposure condition,second means for generating the product of the dark signal data for each cell multiplied by the second reference dark signal generated by said first means,wherein said product generated by said second means corresponds to the dark signal component for each cell.

7. An image reading apparatus comprising:
- a photoelectric conversion element which has a plurality of cells, each cell generating an image signal including a photoelectric conversion signal corresponding to an amount of light incident thereto and a dark signal based on a dark current generated therein, said plurality of cells including shielded cells which are optically shielded so that each shielded cell outputs an image signal including only a dark signal;
  
  an analog-digital converter, coupled to said photoelectric conversion element, for converting the image signal for each cell of said photoelectric conversion element based on a reference signal into digital data;
  
  dark signal data generating means for generating dark signal data for each cell of said photoelectric conversion element, said dark signal data generating means comprising,a) first supply means for supplying a pixel data signal for each cell of the photoelectric conversion element to said analog-digital converter, said pixel data signal being obtained for each cell under a no-exposure condition in which there is no light incident to said photoelectric conversion element, andb) second supply means for supplying a reference dark signal to said analog-digital converter, said reference dark signal being obtained based on the dark signals output from the shielded cells under the no-exposure condition so that the digital data output from said analog-digital converter corresponds to a ratio of the image signal for each cell to the reference dark signal, said digital data being used as the dark signal data;
  
  dark signal data storage means, coupled to said analog-digital converter, for storing the dark signal data output for each cell from said analog-digital converter;
  
  dark signal component generating means for generating a dark signal component for each cell of said photoelectric conversion element, said dark signal component generating means comprising,a) first means for generating reference dark signal data based on the digital data output from said analog-digital converter when the dark signals for the shielded cells and a predetermined reference signal are supplied to said analog-digital converter under the exposure condition, andb) second means for generating a product of said dark signal data stored for each cell in said dark signal storage means multiplied by the reference dark signal data generated by said first means, said product being used as the dark signal component; and
  
  dark signal removing means, coupled to said dark signal component generating means, for removing the dark signal component generated for each cell by said second means from the digital data output from said analog-digital converter when the image signal for each corresponding cell is supplied to said analog-digital converter,wherein said image reading apparatus outputs the image signal data from which the dark signal component is removed for each cell of said photoelectric conversion element.
- View Dependent Claims (8, 9, 10, 11, 12)
- - 8. An image reading apparatus as claimed in claim 7, wherein said first means of said dark signal component generating means has calculating means for calculating an average data of the dark signals for shielded cells of said photoelectric conversion element, said average data being used as the reference dark signal data.
  - 9. An image reading apparatus as claimed in claim 7, wherein said photoelectric conversion element has dummy cells, each dummy cell having no photosensitive portion, and wherein said reference signal supplied to said analog-digital converter has an upper reference signal and a lower reference signal, said upper reference signal being generated based on output signals from said dummy cells of said photoelectric conversion element.
  - 10. An image reading apparatus as claimed in claim 7, wherein said second supply means of the dark signal data generating means has means for generating the reference dark signal based on an average of the dark signals output from the shielded cells under the no-exposure condition.
  - 11. An image reading apparatus as claimed in claim 7, wherein said second supply means of said dark signal data generating means has means for generating the reference dark signal based on the dark signal output from a representative cell which is selected from the shielded cells.
  - 12. An image reading apparatus as claimed in claim 7, wherein a first time required for generating the image signal for each cell under the no-exposure condition is longer than a second time required for generating the image signal for each cell under the exposure condition.

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Current Assignee
Ricoh Company Limited
Original Assignee
Ricoh Company Limited
Inventors
Takase, Osamu
Primary Examiner(s)
Razavi, Michael T.
Assistant Examiner(s)
Ho, Tuan V.

Application Number

US07/699,597
Time in Patent Office

973 Days
Field of Search

358/209, 358/213.15, 358/213.16, 358/213.17, 358/213.18, 358/167, 358/177, 358/461, 358/463, 358/466
US Class Current

348/243
CPC Class Codes

H04N 25/63 applied to dark current

H04N 25/701 Line sensors

Image reading apparatus having a function for correcting dark signals generated in a photoelectric conversion element

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Image reading apparatus having a function for correcting dark signals generated in a photoelectric conversion element

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