SU1014035A1 - Method of recording and reproducing information onto form electroluminescent carrier - Google Patents

Description

The invention relates to electrical engineering, in particular optoelectronics, indicator and computational. technology. There is a known method of recording information based on the use of encoding masks as part of an elementary memory cell. The essence of this method lies in the fact that the necessary information is set by a mask (or by a set of masks in a cassette with code not applied to j in any way. The disadvantage of this method is the impossibility of rewriting information without a mask change. A method of recording information, including the use of a change in the electro-optical properties of an electroluminescent carrier, is also known. The method is based on the phenomenon of hysteresis of the electroluminescent characteristics of the carrier. The information is recorded as follows. the cell of the electroluminescent carrier can be in two stable states, which are characterized by two different levels of luminosity in and in. In a state of low brightness, the cell is transferred by applying a voltage to it not exceeding a certain threshold value (j. increasing the voltage above the threshold cell goes into another stable state, which is characterized by increased brightness in. In this state the cell will be until the voltage on it exceeds a certain value and U - and reducing the voltage Below, the cell goes back to its original state with a brightness of 2 The disadvantage of the known method is that when the voltage is turned off, the cell was in any of two stable states, it goes into a state with . there is a complete erasure of information. The purpose of the invention is to increase the reliability of the method by storing the recorded information when the excitation voltage is switched off in a short time. This goal is achieved by the fact that, according to the method of recording and reproducing information on an electroluminescent carrier, consisting of applying an electric voltage to an electroluminescent carrier, during recording, a constant voltage is applied to the carrier, and the magnitude and polarity of which provide high-resistance areas during reproduction, an alternating voltage is applied to the electroluminescent carrier. When a constant voltage of a certain polarity is applied to the memory cell, a high resistivity region is formed above the positive electrode of the carrier and a luminescence, electroluminescence, arises. The formation of the high-resistance region above the positive electrode of the carrier occurs due to the transfer of copper ions under the action of a constant field from the positive electrode to the negative one. The regions thus formed acquire the ability to electroluminesce in an alternating field, and the regions that are not formed do not radiate under the action of an alternating field. The reproduction of information is based on this property. Constant voltage playback is impossible, since in this case, when voltage is applied to the memory cell, it is necessary to preserve the polarity corresponding to the recording, i.e. need to know the recorded info. For reproduction, a sinusoidal voltage voltage of a certain frequency and amplitude is applied to the memory cell. As a result, luminescence occurs at the electrode with a formed high region. The recording of new information is carried out by a new formation of the structure by a constant voltage, as previously described. Thus, the operation of erasing old information is combined with the operation of recording new information. If the excitation voltage is turned off after the write operation, the recorded information is saved by keeping the high-resistance areas. Figure 1 shows the implementation of the write operation, i.e. the formation process of high resistance. areas and luminescence above the positive electrode of the carrier; 2, the information playback operation, i.e. the process of occurrence of luminescence under the action of a variable floor in a region specified according to the operation of recording. The carrier is made in the form of a structure having a cellulose substrate 1, metal electrodes 2, a layer 3 of the electroluminescent material Zw SW and, a layer 4 of active-. torus Cu 2, S and high-resistance region 5. Example. Information was recorded and reproduced on a thin-film electroluminescent Me-1i & -Co2 6-Me-Recorder. The formation of a high resistivity region 5 was produced by a constant voltage of 0-20V for 1 min. After the voltage was removed, the recorded information was reproduced by a variable sinusoidal voltage with an amplitude of 10–20 V and a frequency of 500–1000 Hz

.At the end of the two-hour break.

In those cases when it is necessary | 0хх а / 1вние recorded information

in a non-excited memory cell, the use of a known method is impossible, and the proposed method fully satisfies the requirement.

srig.2.

Claims (1)

157) METHOD FOR RECORDING AND PLAYING INFORMATION ON ELECTROLUMINES-j CENTRAL MEDIA, which consists in ί applying electric voltage to an electroluminescent medium, characterized in that, in order to increase the reliability of the method by storing information during a short-term voltage shutdown, a constant voltage is applied to the medium during recording whose magnitude and polarity provide education in; electroluminescent carrier of high-resistance regions, and when reproducing information, an alternating voltage is supplied to the electroluminescent carrier.