SU711624A1 - Optical recording apparatus - Google Patents

Description

The invention relates to the recording of information optically, in particular to the recording of television information on a rotating disk medium. A device for optical recording of information on a movable medium containing optically successively connected light sources, an optical modulator and a focusing lens, as well as optical tracking systems and a movable medium is known. A recordable signal source is connected to the optical modulator. The disadvantage of this device is the lack of power control of the recording receiver 1. The closest in technical terms to the invention is an optical recording device containing a light source, the output of which is optically coupled with an optical modulator, to which. A connected source is a recorded signal, a beam splitter mounted on the optical axis, optically coupled to a photodetector, the output of which is connected to the inverse input of a differential amplifier, the adjustable voltage source connected to the direct input of the latter, and the output of the differential amplifier connected to an optical modulator, a focusing lens, in the focal plane of which there is a movable information carrier and a system for controlling the position of the recording beam. A disadvantage of this device is that it does not eliminate the factors that reduce the quality of information recording. One of them is the noise of the light source - the laser, available in the frequency range in which the recorded signal is located. Another factor is related to the fact that when recording on a disc rotating at a constant frequency, the linear speed of the recordable track increases in proportion to its radius. In this way, the time of recording one unit of information and, accordingly, the energy per record of one unit of information changes. Since for a larger number of media types {photoresist, photographic materials, etc.) the changes in their structure caused by the impact of the recording beam depend on its energy, the change in the energy of the recording beam causes a deterioration in the quality of recording 2. The aim of the invention is to improve the recording quality. The goal is achieved by the fact that the beam splitter is mounted on the optical axis between the light source and the optical modulator, as well. The fact that a frame sync pulse counter and a digital-analog converter are connected in series to the source of the recorded signal, and the output of the latter is connected to an adjustable voltage source. The drawing shows a functional diagram of the proposed device. The light source (laser 1) is optically connected to the optical modulator 2, and the source of the recorded signal 3 is electrically connected to the latter. The beam splitter 4 lies on the optical axis between laser 1 and modulator 2. Semi transparent mirror 5, rotating mirror 6 and the focusing lens 7 are arranged in series on the optical axis. The focus of the lens 7 is on the disk storage medium 8, the Photodetector 9 is located outside the optical axis of the system and optically connected to the beam splitter 4. The output of the photoreceiver 9 is electrically connected to the inverse input of the differential amplifier 10. An adjustable source is connected to the direct input of the amplifier 1O voltage 11. The output of the differential amplifier 1O is connected to the optical modulator 2. The following system 12 is designed to accurately focus the lens 7. The axis of rotation of the disk 8 is the axis 13. The frame counter clock is on 14 is connected to the source of the recorded signal 3, and the output is connected to a digital-to-channel converter 15. The output of the latter is connected to an adjustable voltage source 11. The device operates as follows. The beam modulated by the information is focused by the lens 7 on the surface of the storage medium 8. As a result on the surface of the disk information carrier 8 a relief is formed corresponding to the recorded information. Physically, the recording process may consist, for example, in burning a metal film in certain places of a recorded track, either in a photopolymerisation of a photoresist layer on the surface of disk 8, or in other processes occurring under the influence of focused radiation. However, it is common for all of these processes that the recording quality determined by the signal-to-noise ratio will depend on the same ratio in the recording beam. The output voltage of the photoreceiver 9 repeats the noise of the light source. The difference between the voltage of the adjustable voltage source 11 and the photoreceiver 9 is amplified by the differential amplifier 10. The output voltage of the amplifier 10 contains the noise of the light source with the opposite sign from that of the photodetector. When controlling this voltage, modulator 2 will change its transparency so as to compensate for the noise of the light source. The frequency range in which the noise of the light source is suppressed includes the frequency range of the recorded signal. D / A converter 15 converts the discrete output voltage of the HR sync counter 14 to a smoothly varying voltage, the value of which depends on the number of HR sync pulses received from the source of the recorded signal 3. As during TV recording | These signals drive the disk 8 to rotate with a frame rate, with the result that one frame is located on one turn, the voltage at the output of the converter 15 varies in proportion to the radius of the recorded turn. Accordingly, the voltage of the controlled source 11 changes, and as a result, the power of the recording beam also changes, ensuring an optimal recording mode. The signal-to-noise ratio for a relatively low-noise L-38 laser is about 3 dB, while for an LG-44 laser it is much less. At the same time, the quality of the television image with a signal / noise ratio of about 40 dB is considered acceptable. Since

Claims (2)

Claim 1. An optical recording device containing a light source, the output ₃ θ of which is optically coupled to an optical modulator, to which a recorded signal source is connected, a beam splitter mounted on the optical axis, optically coupled to a photodetector, the output of which is connected to an inverse input of a differential amplifier, moreover, an adjustable voltage source is connected to the direct input of the latter, and the output of the differential amplifier is connected to the optical modulator, the focusing lens, in the focal plane otorrhea is movable carrier, the position information and the recording beam control system, characterized in that, in order to improve recording quality, a beam splitter installed on an optical axis between the light source and the optical modulator. 2. The device pop. 1, characterized in that the counter of frame sync pulses and: digital-to-analog converter are sequentially connected to the source of the recorded signal, and the output of the latter is connected to an adjustable voltage source.