SU676968A1 - Information recording and reproducing apparatus - Google Patents

Description

one

The invention relates to a technique for recording information on deformable layers by an electrophotographic method.

A device for recording optical information on deformable layers with a transverse electric field 1 is known. This device comprises a transparent substrate coated with a conductive layer on which a deformable layer is applied. At a distance of 20-30 µm from the free surface of the deformable layer, a control unit is placed consisting of a glass plate pierced with metal fibers, on both sides of which a perforated electrode is applied, a photoconductor layer and an active resistance layer.

This device has a complicated manufacturing technology, which is determined by the presence of a metal fiber plate, both surfaces of which are covered with perforated electrodes and layers of photoconductor and active resistance.

The aim of the invention is to simplify the manufacturing technology and increase the reliability of operation of an optical image converter with a transverse electric field.

This goal is achieved by consecutively applying a transparent electrode, a photoconductor layer, an active resistance layer and a perforated electrode, and two voltage sources are connected between the upper transparent electrode and the perforated electrode, as well as between the lower transparent electrode and the perforated electrode.

Due to these features, there is no metal fiber washer with layers applied on both surfaces. The top plate of the converter with the coating on one side can be made, for example, by successive spraying of the respective layers. This allows for simpler manufacturing technology and improved reliability.

FIG. 1 shows a converter circuit; in fig. 2 shows section A-A in FIG. one.

A plate 4 with successively applied transparent electrode 5, photo layer 6, active resistance layer 7, and perforated electrode 8 is placed above transparent substrate 1 with transparent electrode 2 and deformable layer 3 at a distance of 5-30 µm. A voltage source is connected to electrodes 5 and 8 f / i, and a voltage source is connected to electrodes 8 and 2 by projecting an image on a photo layer 6, in the light areas the resistance of the photo layer is small compared to the layer of activation resistance and the main part of the voltage of the source t / i is applied to active resistance layer. The active resistance layer is quite thin compared with the size of the holes in the perforated electrode. Consequently, in the center of the holes of the perforated electrode located under the illuminated areas of the photoconductor, a voltage close to f / i will act on the surface of the active resistance layer. By moving to the edge of the hole, the voltage on the surface of the active resistance layer decreases to zero. This achieves a transverse modulation of the electric field in the plane of the perforated electrode. In the unlit areas of the photonic layer, its sonic resistance is large compared with the layer of active deconductivity and the main part of the voltage Ui is applied to the layer of the photo-actor. In the center of the holes of the perforated electrode on the surface of the active resistance layer, the voltage will be close to zero, which leads to the absence of modulation of the electric field. Thus, in the plane of the perforated electrode, a transversely modulated electric field acts, the magnitude of which modulation depends on the illumination level of the photonic layer. The electric field, acting on a deformable layer, causes the formation of a relief of its free surface, the depth of which is determined by the magnitude of the modulation of the electric field. The use of a perforated electrode should exclude electrical and optical rasters. Reading the recorded information is carried out by reflecting both coherent and incoherent light flux from the surface of the deformable layer. The use of the described device will allow reducing the costs of creating and operating devices for selecting optical information processing with an input optical signal, simplifying the manufacturing technology and increasing the reliability of their work. Formula and 3 rims and a device for understating and reproducing information, containing a transparent base with a transparent electrode sequentially deposited on it and a deformable layer, a plate with a sequentially deposited electrode and a photo semiconductor layer, a perforated electrode placed on the active resistance layer, and two voltage sources, one of which is connected to the perforated and transparent electrodes, and the other to the perforated and plate-deposited electrodes, characterized in that, in order to simplify the process producing the Enhance and reliability, and plate applied thereto and the solid electrode is made transparent, and an active layer deposited directly on the resistance layer fotonoluprovodnikovy. Sources of information taken into account in the examination 1. USSR author's certificate Luo 271585, cl. G PS 11/46, 1969.