Imaging systems

US 4,008,371 A
Filed: 08/06/1975
Issued: 02/15/1977
Est. Priority Date: 08/08/1974
Status: Expired due to Term

First Claim

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1. In a scanning imaging system of an objective lens supported for forming a first image with radiation collected from an area of view and a scanning arrangement operable to scan radiation from said first image over a detector to form the scanned image the improvement of a collimating lens between the objective and a rotating parallel-faceted scanning element smaller than that required for the first image for forming from said first image a second enlarged image of said area thereby to direct the radiation collected from the area toward a collimating lens exit pupil of smaller aperture than the radiation collecting aperture and occurring within the rotational sweep of said smaller scanning element for deflection of said radiation onto said detector by said smaller scanning element rotatably passing between the collimating lens and its exit pupil.

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Abstract

Scanning imaging systems are described in which an image of a viewed area is scanned across a detector by a line and frame scanning arrangement including a rotatable faceted mirror drum which is of smaller size than hitherto as radiation going to and from the drum passes through an optical system of two elements separated by their focal length. For radiation passing to the drum the optical system can be an objective lens and a collimating lens to produce a small exit pupil within the circumcircle of the drum facets. The drum and a plane oscillatable mirror may both scan the viewed area image of collimated radiation across the detector to permit the generation of a sequential radiation intensity signal and recreate an image, which may be viewable by eye through the optical system, by scanning a beam of parallel light of intensity corresponding to the radiation signal.

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11 Claims

1. In a scanning imaging system of an objective lens supported for forming a first image with radiation collected from an area of view and a scanning arrangement operable to scan radiation from said first image over a detector to form the scanned image the improvement of a collimating lens between the objective and a rotating parallel-faceted scanning element smaller than that required for the first image for forming from said first image a second enlarged image of said area thereby to direct the radiation collected from the area toward a collimating lens exit pupil of smaller aperture than the radiation collecting aperture and occurring within the rotational sweep of said smaller scanning element for deflection of said radiation onto said detector by said smaller scanning element rotatably passing between the collimating lens and its exit pupil.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. In a system according to claim 1 a scanning element of a drum, some 50mm diameter and having between 12 and 20 facets, rotatable in operation to pass facets between said collimating lens and its exit pupil.
  - 3. In a system according to claim 1 for installation behind a thick protective layer the supporting of the objective at the outer side of the layer with a radiation path through the layer to the collimating lens and scanning element at the inner surface.
  - 4. In a system according to claim 1 a further oscillating scanning element operable in cooperation with the rotating element to provide a scan transverse to that of said scanning element of the radiation deflected onto the detector.
  - 5. In a system according to claim 4 a scan conversion arrangement of a light emitting device energisable sequentially with information from said detector to pass parallel light representing said scanned collected radiation through said further scanning element and said scanning element in turn to recreate a scanned image in said light of the area of view.
  - 6. In an imaging system according to claim 5 means to pick-up the recreated image and means to vibrate said pick-up means in dependence on vibration to which the system is subjected to reduce loss of resolution in the detected scanned radiation.
  - 7. In a system according to claim 4 a detector including a line of a plurality of elements and means responsive to the output of individual elements to coordinate the time displaced outputs of an element corresponding to the same part of the area of view and means to display the coordinated outputs as a scanned image of the area of view.

8. In a scanning imaging system including a scanning arrangement of a faceted mirror drum and a plane mirror operable to scan an image formed in a particular radiation across a detector sensitive to said radiation the improvement of supplying a sequential output signal of the scanned image from the detector to a light emitting element arranged to emit light sequentially in dependence on the intensity of radiation in the scanned image through a collimating lens for application as substantially parallel light to said plane mirror and a parallel-faceted mirror drum to recreate in light the image scanned in said radiation by the cooperative oscillation of the plane mirror and rotation of the drum scanning said light in two substantially perpendicular directions and providing means to view the image away from the vicinity of the drum including an objective lens and an eyepiece to reduce the angle subtended by the image recreated by the angular displacement of the facets of rotating drum.
- View Dependent Claims (9)
- - 9. In a system according to claim 8 an objective lens and a collimating lens to collect said radiation from a smaller angle of view than that of a drum facet and supply said radiation as substantially parallel rays through an exit pupil of the collimating lens falling within the circumcircle of the drum facets.

10. A scanning image conversion system including in a hand holdable assembly a rotatable image scanning drum having facets parallel to the axis of rotation and an oscillatable plane mirror aimable in cooperation with the rotation of the drum to scan an image in a selected invisible radiation of an area of view across a detector, means to generate light in dependence on the radiation intensity of said scanned image from radiation intensity information supplied over a single channel and supply said light as a parallel beam to said mirror and drum for scanning said beam to recreate the image for direct viewing by eye in visible light with the aid of a lens system including an element close to the drum with an entry pupil plane within the drum, to reduce the angle subtended by the recreated image.
- View Dependent Claims (11)
- - 11. A system avoiding to claim 10 including a further lens system selectively interposable between the drum and the area of view to enlarge the image of part of the area of view, the further lens system including an objective to collect radiation from the area and form a first image and a collimating lens to form a second enlarged image of said area radiation collected from said part of the area through a collimating lens exit pupil of smaller aperture than the radiation collecting aperture positioned within the circumcircle of the scanning drum.

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Current Assignee
EMI Ltd (Universal Music Group NV)
Original Assignee
EMI Ltd (Universal Music Group NV)
Inventors
Barron, Donald Robert
Primary Examiner(s)
Britton, Howard W.

Application Number

US05/602,412
Time in Patent Office

559 Days
Field of Search

178/7.6, 178/DIG. 8, 250/334, 350/6, 350/7, 350/285
US Class Current

348/203
CPC Class Codes

G02B 26/12 using multifaceted mirrors

H04N 3/08 having a moving reflector

Imaging systems

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Imaging systems

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