Imaging system having extended useful latitude

US 7,423,679 B2
Filed: 12/20/2002
Issued: 09/09/2008
Est. Priority Date: 12/20/2002
Status: Active Grant

First Claim

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1. An image sensor comprising:

an array of photosensors and an array of micro-lenses with each micro-lens confronting a group of more than one of the photosensors and concentrating light striking each micro-lens onto less than all of the confronted photosensors, so that said concentrating focuses the light striking the micro-lens so as to direct a portion of the light that would have traveled to photosensors in a residual image area onto selected photosensors located in a concentrated image area so that said selected photosensors receive enhanced exposure thereby increasing their effective sensitivity, and so that other photosensors in the group of photosensors associated with the micro-lens that are outside of the concentrated image area and that are located in the residual image area receive a reduced exposure thereby reducing the effective sensitivity of the other photosensors of the group;

wherein said image sensor provides a output signals from which at least two images can be derived that are representative of a pattern of light incident on the array photosensors, said at least two images comprising at least a concentrated light image that can be derived from signals generated by the selected photosensors and a residual image that can be derived from signals generated by the other photosensors.

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Abstract

The invention provides an image sensor that has an array of photosensors and an array of micro-lenses with each micro-lens confronting more than one of the photosensors and concentrating light striking each micro-lens onto less than all of the confronted photosensors so that selected photosensors receive a greater exposure than other photosensors.

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12 Claims

1. An image sensor comprising:
- an array of photosensors and an array of micro-lenses with each micro-lens confronting a group of more than one of the photosensors and concentrating light striking each micro-lens onto less than all of the confronted photosensors, so that said concentrating focuses the light striking the micro-lens so as to direct a portion of the light that would have traveled to photosensors in a residual image area onto selected photosensors located in a concentrated image area so that said selected photosensors receive enhanced exposure thereby increasing their effective sensitivity, and so that other photosensors in the group of photosensors associated with the micro-lens that are outside of the concentrated image area and that are located in the residual image area receive a reduced exposure thereby reducing the effective sensitivity of the other photosensors of the group;
  
  wherein said image sensor provides a output signals from which at least two images can be derived that are representative of a pattern of light incident on the array photosensors, said at least two images comprising at least a concentrated light image that can be derived from signals generated by the selected photosensors and a residual image that can be derived from signals generated by the other photosensors.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The image sensing system of claim 1, wherein each micro-lens confronts at least two photosensors.
  - 3. The image sensor of claim 1, wherein the concentration of light by the micro-lenses enables an exposure increase of at least 0.15 log E at said selected photosensors relative to the exposure available to the same photosensors in the absence of said micro-lenses.
  - 4. The image sensor of claim 1, wherein the concentration of light by the micro-lenses enables an exposure increase of less than 2.0 log E at the selected photosensors relative to the exposure available to the same photosensors in the absence of said micro-lenses.
  - 5. The image sensor of claim 1, wherein the micro-lenses enable a latitude increase of at least 0.15 log E for said image sensor as compared to the latitude for the photosensors of the image sensor available in the absence of said micro-lenses, with the latitude of the micro-lens assisted image sensor being determined based upon a lower end latitude defined by a lower end of the latitude of the concentrated image and an upper end of the latitude of the residual image.
  - 6. The image sensor of claim 1, wherein the micro-lenses enable a latitude increase of less than 3.0 log E for said image sensor as compared to the latitude for the photosensors of the image sensor available in the absence of said micro-lenses, with the latitude of the micro-lens assisted image sensor being determined based upon a lower end latitude defined by a lower end of the latitude of the concentrated image and an upper end of the latitude of the residual image.
  - 7. The image sensor of claim 1, wherein the micro-lenses confront at least 50 percent of the photosensors.

8. A method for using an array of photosensors to capture an image of a scene comprising the steps of:
- focusing light from the scene at the array of photosensors;
  
  concentrating light focused at groups of more than one of the photosensors onto less than all of the photosensors of each group, so as to direct a portion of the light that would have traveled to photosensors in a residual image area onto selected photosensors located in concentrated image areas so that said selected photosensors receive enhanced exposure thereby increasing their effective sensitivity, and so that other photosensors in the group of photosensors associated with the micro-lens that are outside of concentrated image area and that are located in the residual image area receive a reduced exposure thereby reducing the effective sensitivity of the other photosensors of the group;
  
  extracting image information from the photosensors of each group, said extracted image information including information extracted from selected photosensors from each group and from other photosensors from each group; and
  
  forming an image using the extracted image information.
- View Dependent Claims (9, 10, 11)
- - 9. The method of claim 8, wherein image information extracted from the photosensors in each group receiving concentrated light is used to form the image.
  - 10. The method of claim 8, wherein image information is extracted from the other photosensors is used to form the image.
  - 11. The method of claim 8, wherein image information is extracted from the photosensors receiving concentrated light and the other photosensors is used to form an image.

12. An image sensing method for capturing an image using an image sensor that has photosensors, the method comprising the steps of:
- focusing light from a scene onto a plurality of micro-lenses optically interposed between a primary lens enabling said focusing and a group of the photosensors,focusing the light striking the micro-lenses so as to direct a portion of the light that would have traveled to photosensors in a residual image area onto selected photosensors located in concentrated image areas so that said selected photosensors receive enhanced exposure thereby increasing their effective sensitivity, and so that other photosensors in the group of photosensors associated with the micro-lens that are outside of concentrated image area and that are located in the residual image area receive a reduced exposure thereby reducing the effective sensitivity of the other photosensors of the group;
  
  extracting image information from photosensors within the concentrated image areas and from the photosensors outside the concentrated image areas; and
  
  reconstructing a likeness of the original scene from the extracted image infonnation, such that under low exposure conditions, scene information is determined based upon image conditions at the selected photosensors in concentrated image areas, and such that under high exposure conditions, scene information is determined based upon image conditions at the other photosensors in the residual image areas.

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Current Assignee
Omnivision Technologies Incorporated (Will Semiconductor Co., Ltd. Shanghai)
Original Assignee
Eastman Kodak Company
Inventors
Szajewski, Richard P., Irving, Lyn M.
Primary Examiner(s)
Ye; Lin
Assistant Examiner(s)
Henn; Timothy J

Application Number

US10/326,455
Publication Number

US 20040119104A1
Time in Patent Office

2,090 Days
Field of Search

348/335, 348/340, 348/362, 348/294, 348/302, 348/308, 348/218.1, 348/239, 250/208.1
US Class Current

348/308
CPC Class Codes

H01L 27/14627   Microlenses

H04N 23/70   Circuitry for compensating ...

H04N 25/00   Circuitry of solid-state im...

H04N 25/585   with pixels having differen...

H04N 3/155   Control of the image-sensor...

Imaging system having extended useful latitude

First Claim

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Imaging system having extended useful latitude

First Claim

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Abstract

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Specification

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