SU1490661A1 - Device for recording and playback of information from disk magnetic carrier - Google Patents

Abstract

The invention relates to an optoelectronic instrument making device, in particular, to devices for recording and reproducing information from a disk optical carrier, and can be used in laser sound and video players. The aim of the invention is to improve the quality of the reproduced information while simplifying the device. The goal is achieved by eliminating the effect of the reflected radiation component on the radiation source and interference noise by means of an incident and reflected beam separation unit, which is a plate with a photodetector layer, installed in the incident beam, and two mirrors attached to the plate on the reverse side. In addition, the separation unit of the incident and reflected beams allows the operation of the device according to the method of three spots, and the diffraction grating, the beam-splitting polarization element and the quarter-wave plate are excluded from the scheme. 3 il.

Description

The invention relates to optical-electronic instrument making, namely, devices for recording and reading information by optical means, and can be used mainly in laser video and sound players, as well as in computer systems with optical memory and optical-electronic information processing.

The aim of the invention is to improve the quality of reproducible information by eliminating the influence of the specular component of the reflected radiation on the radiation source and the interference noise while simplifying the device.

Fig. 1 shows the optical scheme of the device proposed; in fig. 2 - principle of focus tracking; Fig. 3 shows a beam separation unit, an exemplary embodiment.

The device contains a coherent radiation source 1, a collimating lens 2, a block 3, including mirrors 4 and 5 and an information photoreceiver 6, a focusing lens 7, an information carrier 8, photo focus receivers 9 and 10, and focus mirrors 11 and 12

photodetectors 13 and 14 track tracking.

The unit 3 is designed to register the signal reflected from the optical medium 8 by the information photoreceiver 6, to eliminate the specular component of the light radiation information reflected from the carrier 8, to the coherent radiation source 1 and reduce the interference noise, as well as to form additional mirrors 11 and 12 three spots of light on the information carrier 8.

Unit 3 consists of a plate, having a cross-sectional shape of a semicircle with a radius equal to the radius of the collimating lens, installed perpendicular to the light beam between the collimating lens 2 and the focusing lens 7 (Fig. 3), on one side of which (facing the focusing lens) lens) is applied a photosensitive (light sensitive) layer of matter matched in spectral sensitivity with the wavelength of the coherent radiation source 1, and two mirrors are attached to the opposite side, outputting the incident The emission radiation is respectively up and down relative to the main optical axis.

The photodetectors 9 and 10 of focus tracking serve to register the focus tracking error signal. The maximum spectral sensitivity of the photosensitive layer of photodetectors should correspond to the wavelength of the coherent radiation source.

The device works as follows.

The light beam of the coherent radiation source 1 is collimated by the lens 2 and, the passage through the focusing lens 7, hits the information carrier 8, the information layer of which is aligned with the image plane of the focusing lens

At the same time, a part of the flow falling on the mirrors 4 and 5 of the block is reflected respectively on the mirrors 11 and 12, and from them to the focusing lens 7. At the same time, three spots are formed on the information layer of the information carrier 8: one is central.

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located on the optical axis of the device, and two lateral, symmetrically located relative to the optical axis of the device.

The central radiation spot reads information from the information carrier 8, and the two side spots ensure the maintenance of the central spot on the information track, i.e., a three-point track track is carried out, which is implemented as follows.

Block 3 Rotates around the optical axis so that the side spots are shifted to the right and left relative to the track by an angle fi arctg d / 1, where d is the diameter of the emission spot, 1 is the linear offset value of the side spot relative to the central spot. This angle is.

Modulated information carrier - light beams are reflected from the carrier 8 of information and collected by the focusing lens 7, then the central beam falls on the information photodetector 6, and the side - respectively on the photodetectors 13 and 14 track the track.

Thus, the device with the help of block 3 and mirrors 11 and 12 ensures the functioning of the device according to the method of three spots.

Tracking the focus (Fig. 2) is implemented as follows.

In the case of exact alignment of the information layer of the Information Carrier 8 with the image plane of the focusing lens 7, the reflected beam is strictly parallel to the incident beam and never goes beyond the limits of the main optical axis. If the information layer of the information carrier 8 is located beyond the image plane of the focusing lens 7, a part of the reflected beam extends beyond the main optical axis and falls on the photodetector 9, and the larger the information layer from the image plane to get on this photoreceiver beam focusing lens. In the event that the information layer of the information carrier is located in front of the image plane of the focusing lens, a part of the reflected beam is proportional to the magnitude of the informational displacement

The information carrier layer from the image plane of the focusing lens gets onto the photodetector 10. Let us consider in more detail the operation of unit 3 in the information reading mode. Since the cross section of unit 3 has the shape of a semicircle with a radius equal to the radius of the collimating lens, with the center of the semicircle located on the optical axis of the collimating lens - the focusing lens and located during the collimated lens 2 of the light beam of the coherent radiation source 1, the passage to the focusing lens the part of the light beam not delayed by block 3, which after reflection from the information carrier again falls on the focusing lens and then on that part of the light channel that leads to the information The photodetector 6 of unit 3, while the part of the light channel through which the light beam from the coherent radiation source hits the focusing lens, remains free from reflected radiation.

Thus, the coherent radiation source is completely protected from the specular component of the radiation reflected from the information carrier.

In recording mode, the device operates similarly to the playback mode in terms of the formation of light beams, tracking the focus and tracking the track on which the information signal is recorded, located on the information carrier 8.

The difference in the recording and reproducing modes is that in recording mode it is necessary to produce, for example, amplitude modulation of uninterrupted radiation emitted from coherent radiation source 1, therefore amplitude modulation of uninterrupted radiation emitted from coherent radiation source 1 can be eliminated exist in the proposed device by any of the known methods and devices, for example, using an acoustic modulator or by modulating the power supply, which is used to flood the source of 1 coherent radiation Cheney.

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The invention's inventive Device for recording and reproducing information from a disk optical carrier, comprising optically coupled radiation source, collimating and focusing objectives, a system for separating incident and reflected beams, and generating a three-point track tracking signal and a photo-receiving System, including focus tracking photoreceivers, removing the information signal and track tracking signals, characterized in that, in order to improve the quality of reproduced information by eliminating the mirror component of the reflected radiation on the radiation source and the interference noise while simplifying the device, the system of separation of the incident and reflected beams and the formation of a three-point tracking signal track is made in the pcb of a plate rigidly interconnected with a photosensitive layer deposited on it from the focusing side lens and two mirrors facing the collimating lens, arranged to each other, mirror planes at an angle from 180 ° to each other the non-perpendicular optical axis of the device

and perpendicular to the plane developed relative to the plane passing through the axis of the track and the optical axis of the device at an angle of 1 to 7, and the line of intersection of these planes parallel to the optical axis of the device and two additional mirrors optically connected to the radiation source and photoreceivers tracking path and located in the course reflected from the mirrors of the block of rays and made outside the main beam of radiation, while one of the photodetectors tracking the focus is located in the plane of the focusing lens and developing Turns tangentially to the front reflected from the information carrier lug1a, and the other between the collimating and focusing lenses of the scatter optical axis of the device a distance of 5 b, where a is the distance from the center of the optical axis to the photo-prism, b is the radius of the collimated lens .

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Editor Ac Lezhnina

Compiled by V. Arkhipov Tehred L. Oliynyk

Proofreader S. Shekmar

Claims (1)

claims A device for recording and reproducing information from a disk optical medium, containing optically coupled radiation source, collimating and focusing lenses, a system for separating incident and reflected beams and forming a three-point track tracking signal and a photodetector system, including focus tracking photodetectors, and information signal and tracking signals for tracking a track, characterized in that, in order to improve the quality of reproduced information by eliminating the effects of mirrors a component of reflected 2 ° radiation to a radiation source and interference noise while simplifying the device, the system for separating incident and reflected beams and generating a three-track track tracking signal is made in the form of a block of rigidly connected plates with a photosensitive layer applied to it from the focusing lens 30 and two mirrors facing the collimating lens, located to each other, mirror planes at an angle other than 180 °, each of which neperpendi ₃₅ angles to the optical axis of the device and perpendicular to the plane unfolded relative to a plane passing through the axis of the tracks and the optical axis of the device, an angle 1 - 7 and 40 the line of intersection of these planes parallel to the optical axis of the device, and two additional mirrors, optically coupled to a light source and photodetectors ₅ slezhe4 Nia for track and arranged in the beam reflected from mirror unit and made outside the main radiation beam, wherein the one of photodetectors tracking foku5θ races catfish laid in the plane of the focusing lens and rotated tangentially to the front of the beam reflected from the information carrier, and the other between the collimating and focusing55 lenses parallel to the optical axis of the device at a distance a b, where a is the distance from the center of the optical axis to the photodetector, b is the radius of the collimating the lens.