SU1647696A1 - Device for image forming - Google Patents

Abstract

The invention relates to devices for imaging a light modulated cathode ray tube (SELT) from a target. The aim of the invention is to improve the image quality by increasing the time to maintain its contrast. A device for obtaining an image contains a projection readout unit, including a precise radiation source (AI) 1, located in the focal plane of the projection lens (PO) 2, crossed floor 3, reflecting SELT with target 4, and also screen 5. whose axis is parallel to the AI axis and symmett

Description

The invention relates to technical physics and can be used in real-time processing and storage devices for optical information using a light-modulating cathode ray tube (CRT).

The aim of the invention is to improve the image quality by increasing the time to maintain its contrast.

The drawing shows the optical layout of the device described.

The imaging device contains a projection readout unit, comprising a point source of radiation 1, located in the focal plane of the projection object 2, crossed floor 3, reflecting the light-modulating CRT with target 4, as well as the screen 5, which axis is parallel to the axis of the radiation source and symmetrical relative to the optical axis of the projection lens.

The device works as follows.

The radiation from the source 6, which includes the DKSSh-120 lamp and the mirror capacitor, is collected at the P0b point of the focal plane of the projection lens 2, forming at this point a point source of radiation 1. The point Rob is shifted relative to the optical axis of lens 2 by a distance A S tg a, where S is the distance between the target 4 of the CRT and the projection lens 2; a is the angle of incidence of the beam on a CRT. Then, the radiation is collimated by part of lens 2 and takes place through polaroid 3. Collimated radiation, in which the oscillation plane of the electric vector is parallel to the plane of the drawing, is sent to target 4 of the reflecting CRT of the TITUS type. The collimated radiation falls on the target 4 at a certain angle a. This angle is chosen from the condition of the greatest image contrast and the smallest distance (S) from projection lens 2 to target 4. At a 8 °, the image contrast is 60: 1 (for a crystal with a thickness of 0.25 mm and radiation with a wavelength of A 550 mm) . By reducing the angle a, the contrast can be increased to 400: 1. On the target 4, which is located perpendicular to the optical axis of the lens 2, a reconstructed image arises, recorded by an electron beam in advance. This image is projected by a part of the projection lens 2 onto the screen 5, and the polaroid 3, crossed with the previous polaroid, passes in the direction of the screen those rays whose electric vector oscillates in a plane perpendicular to the plane of the drawing.

In the described device, the time of preservation of the image contrast on the target of a CRT is 10-12 minutes with an image brightness on the screen of 50 lx. For 10-12 minutes, the operator will be able to analyze, for example, aerial photography frame and make the necessary measurements.

Claims (1)

Claims An image acquisition device comprising a light-modulating cathode-ray tube with a target that works on reflection, and a projection readout unit, comprising a projection lens disposed coaxially with the target, as well as a light emitting source, crossed fields and a screen, characterized in that In order to improve the quality of the resulting image by increasing the time to maintain its contrast, the radiation source is dotted and located in the focal plane of the projection lens, with Thus, the axis of the light source and the axis of the screen are located in the same plane parallel and symmetrically with respect to the optical axis of the projection lens.