SU1108506A1 - Process for recording and erasing information on electroluminiscent structure - Google Patents

Abstract

METHOD FOR RECORDING AND ERASING INFORMATION ON ELECTROPUMINESCENT STRUCTURE, which includes recording the formation of electroluminescent areas according to a given code and exciting them with an electric field, and when erasing it is applied to the structure of an electric field, characterized in that, in order to increase the reliability of the method by providing a multiple overflow, overlaying an electrical field, in order to increase the reliability of the method by providing a multiple overflow, overwriting it with an overfield. when recording, the formation of electroluminescent regions is produced by local heating of the electroluminescent structure, and when erasing to the structure apply an electric field opposite to the field to be recorded during recording, and at the same time heat the electroluminescent structure to a temperature not lower than the local heating temperature of the structure during information recording.

Description

f The invention relates to electronic engineering, in particular to optoelectronics, indicator and computer engineering. The known method of recording and reproducing information on the electroluminescent structure, which is based on the use of information masks, is that the information needed for storage is specified by an information mask (or a set of masks) with a code applied to them, and the information is played when excited electroluminescence in the regions of electroluminescent structures in the code (electrolaves of matrixes or other devices) C11. The disadvantage of this method is that it is not possible to change the recorded information. The closest to the present invention is a method of recording and reproducing information on an electroluminescent structure, including the formation, according to a given code, of electroluminescence regions and the excitation of them by an electric field. The recording is carried out by the technological formation of electroluminescent regions, i.e. in the process of manufacturing the electroluminescent structure itself. For this, a dielectric layer is applied inside the electroluminescent structure between the electrode and the electroluminor. The electrode is covered with a dielectric layer is not completely, but only in those places where according to a given code there should be non-luminous areas. The information written in this way is reproduced by applying voltage to the electroluminescent structure, as a result of which, in areas where there is no dielectric layer between the electrode and the electroluminator, there is a glow in the region where the layer is present 2. The disadvantage of this method is low reliability, due to the impossibility of repeated use of the same electroluminescent structure for recording information, since to change information it is necessary to destroy the dielectric layer. the old code, and apply it again to the corresponding version with the new code. Since this operation is technologically complex, it is easier to make a new structure for recording NORA information. The circuit of the invention is to increase the reliability of the method by ensuring that the same electroluminescent structure is used repeatedly for recording information, i.e. by providing rewriting information. The goal is achieved by the fact that according to the method of recording and erasing information in the electroluminescent structure, including when writing, forming electroluminescent areas according to a given code and exciting them with an electric field, and when erasing, applying an electric field to the structure, creating electroluminescent areas during recording is produced by local heating electroluminescent structure, and when erasing an electric field is applied to the structure opposite to the field applied when recording, and at the same time, the electroluminescent structure is heated to a temperature not lower than the local heating temperature of the structure when recording information. The drawing shows a device for implementing this method, a slit. The device is a layered structure comprising a cellulose substrate 1, metal electrodes 2, a polycrystalline film of electroluminophore 3, a conducting phase (copper sulfide) 4. The essence of the method lies in the fact that those areas of the electroluminescent structure where glow, heat contact (or other) way. At the same time, a voltage is applied to the structure electrodes. As a result, the conductive phase 4 diffuses over the electroluminescent 3 layer to the inside of the film layer 3 to the surface of metal electrodes 2. The temperature at the site where the electroluminescent region is formed must be at least some threshold determined by the properties of the conductive phase 4 and the thickness of the structure . Reproduce the information recorded in this way by applying a voltage to the structure, the magnitude of which should be sufficient to excite the glow. Glow occurs only in those areas of the structure in which diffusion of the conducting phase occurred as a result of heating. To erase previously recorded information, a voltage is applied to the electroluminescent structure, the polarity of which is the reverse polarity of the reproducing voltage, and simultaneously heated throughout the volume to a temperature not lower than the temperature at which the recording was made. As a result of this operation, the previously formed electrolyzing regions are destroyed due to electrotransfer in the conducting phase, the direction of which is opposite to the direction of diffusion that occurs during the recording of information. After cooling, the electroluminescent structure is ready to record new information, Example. Information on the proposed method is recorded and erased on an electroluminescent device, including a screen substrate 1, a system of apkminium (metal) electrodes made in the form of tracks arranged on one side of an electroluminescent layer (polycrystalline electroluminorophore film) 3, a layer of conducting phase 4. The conductive phase and the popcrystalline film of the phosphor 3 electr are applied by the method of vacuum thermal spraying. Recording (thermally stimulated formation of electroluminescent areas) is performed by heating the respective sections to D for 5 s with a voltage across the electrodes of 10 V. The recorded information is reproduced with a constant voltage of 20 V. Erasing the recorded information is performed by heating the structure throughout to 80 ° C with reverse polarities of a voltage of 10 V applied to the electrodes for 10 s. The listed operations are performed on one structure up to 50 times, i.e. The structure is used five times to record information. A comparison of the proposed and basic methods shows that the recording of information by thermally stimulated formation makes it possible to reuse the electroluminescent carrier for recording information, as opposed to its single use in recording information using hidden information masks. In addition, the proposed method allows the information mask to be eliminated as an element of the storage device, i.e. to simplify its design, to save the recorded information when disconnecting the voltage exciting the structure, to convert the information recorded as a result of the thermal effect into light signals, i.e. use structure as a transformative element.

Claims (1)

METHOD FOR RECORDING AND ERASING INFORMATION ON THE ELECTROLUMINESCENT STRUCTURE, including during recording the formation of electroluminescent regions according to a given code and excitation by an electric field, and during erasing, an application to the structure of the electric field, characterized in that, in order to increase the reliability of the method by ensuring multiple rewriting of information , when recording, the formation of electroluminescent regions is produced by local heating of the electroluminescent structure, and when erased, the butt An electric field opposite to that applied during recording is heated, and at the same time, the electroluminescent structure is heated to a temperature no lower than the temperature of local heating of the structure when recording information. ί