SU1352435A1 - Recording device - Google Patents

Abstract

The invention can be used to register images in high-precision systems. The purpose of the invention is to increase the accuracy of registration. The radiation of the laser 6 through the lens 5, the translucent mirror 4 and the deflector 3 enters the film 1 and begins to expose the portion of the film corresponding to the first image element. Part of the flow is beaten off using a semitransparent mirror 4 to the input of the photoreceiver device 9, where it is converted into an electrical signal fed to the input of the integrator 10. At the same time, the analog frequency to digital converter 10 supplies the clock frequency from the generator 17 and converts the signal to a parallel code. The exposure process continues until the current value of the parallel code is comparable to the value of the code set at the outputs of the gamma corrector 13. After that, the output of the comparison circuit 12 produces the signal "1, which, having passed the OR 20 circuit, sets the trigger to “O on the second and“ 1 on the first outputs, which turns off the AND 8 circuit and turns off the laser 6. 1 Il. (L / Sana / 1 // raelen and Channel CSH3U OO cd ko 4: CO sd Synchronization channel

Description

The invention relates to television technology and can be used to register images in high-precision systems.

The purpose of the invention is to increase the accuracy of registration.

The drawing shows a block diagram of the device.

The recording device contains sequentially placed photographic film 1 installed in node 2 of the broach, deflector 3, translucent mirror 4, lens 5 and laser 6. The output of element 8 is connected to laser 6 through amplifier 7. Photoreceiver 9 is connected by output to one input of integrator 10 with a reset, the other input of which is connected to one trigger output 11.

The device also contains a comparatively connected circuit 12, a gamma corrector 13, a first analog-to-digital converter (ADC) 14, a video amplifier 15, a driver of 16 clock pulses and a master oscillator 17. A block 18 is connected to one of the outputs of the synchronizer 16 of the clock pulses and the input of the deflector 3 sweep. The device also has a second ADC 19 associated with the integrator 10, the comparison circuit 12, and the trigger 11.

The registration device works as follows.

The signal "1, which passes through the element OR 20, is fed to the first input of the trigger 11 (R input) and is set to the state" O on the second output (Q output) and the state "1 on first exit (Q-out).

Thus, after switching on and supplying the specified signal to the input of the control channel, element 8 is turned off by the signal "O, and the capacity of the integrator 10 with a reset is depleted by the signal" 1 from the corresponding outputs of the trigger 11. When the synchronization channel is fed to the synchronization channel, synchronization of the signals generated by the shaper 16 sync pulses from the signal received at the first input from the output of the master oscillator 17. At the first output of the shaper 16 sync pulses are generated horizontal sync pulses The pulses, under the action of which, in the sweep unit 18, a control action is generated for the deflector 3, which ensures that the laser beam 6, focused by the objective 5, is deflected over the film 1. The film 1 is pulled across the frame by the node 2. At the second output of the clock generator 16, a sequence of sampling pulses is produced with a frequency corresponding to

following elements of the Image, each of which triggers an ADC 14. Under the action of the indicated pulses, a fast conversion of the reference signal of the input signal into a parallel code is performed. The input signal is fed to the A / D converter 14 from the communication channel after passing the video amplifier 15. The said parallel code passes through a digital gamma corrector 13, in which a parallel code conversion is performed so that the non-linearity of the gamma characteristic of the film is corrected according to a certain law, which is predetermined is recorded in the gamma corrector 13. At the same time, the signal "Goat. data from

the output of the A / D converter 14, which is fed to the counting input of the trigger 11 (input 2), the trigger 11 switches to the state "O on the first and" 1 on the second outputs. Since at the same time the signal at the first output of the imaging unit 16 of synch pulses is corresponding to the level "1", element 8 is switched on and switched on through amplifier 7 to laser 6. radiation from laser 6 through lens 5, semi-transparent mirror 4 and deflector 3 to photo film 1 and

begins to expose a portion of the film corresponding to the first image element. A portion of the flux emitted by the laser 6 is beaten off with the help of a semitransparent mirror 4 to the input of the photodetector device 9, where it is converted into an electrical signal which is fed to the first input of the integrator 10 with a reset. Since the capacity of the integrator 10 with the reset was previously discharged by a signal from the control channel, the integrator 10 with the reset begins to integrate the incoming signal to it, starting with zero. At the same time, the ADC 19 (at the input of the “Tact”) is supplied with the clock frequency from the output of the master oscillator 17, therefore the specified ADC begins the conversion of the incoming

from the output of the integrator 10 with a signal reset and provides multiple, within each sampling interval, the conversion of the signal into a parallel code. The process of exhibiting this item

lasts as long as the current value of the parallel code at the outputs of the A / D converter 19 does not compare with the value of the code set at the outputs of the gamma corrector 13. When this equality is reached, the output of the "1" is generated, which passed the OR 20 element, sets trigger 11 back to the “On” state at the second and “1” at the first output. This state, in turn, turns off the AND 8 element, which causes the laser 6 to be turned off. The process of exposing this image element ends and the charge accumulated on the integrator 10 coax is reset.

reset, drive it to zero initial conditions to ensure normal operation in the subsequent cycle. The device waits for the arrival of the next sampling pulse from the second output of the driver 16 clock pulses, and the cycle repeats. During the reversal of the deflector 3, when moving to the next line, the laser 6 is turned off, since the signal "1."

Claims (1)

Invention Formula A recording device containing sequentially placed along the beam a film installed in the node of the broach, a deflector, a lens, a laser, as well as an amplifier, an element, a master oscillator, a comparison circuit, a gamma equalizer, an analog-digital converter, a video amplifier, a sync pulse generator and a scanner, while the laser input through the amplifier is connected to the output of the element I, the first inputs of the comparison circuit are connected to the n outputs of a gamma corrector, the corresponding n inputs of which are connected to the analog outputs of the outputs q rovogo transducer input through a video amplifier connected to the communication channel, and the oscillator output is connected to a first input of the clock, the first output kotoRedaktor A. Check Ogar 5272/46 VNIIPI USSR State Committee for Inventions and Discoveries 113035, Moscow, Zh-35, Raushsk nab. 4/5 Production and ioligraphic enterprise, Uzhgorod, ul. Design. four The second output is connected to the start input of the analog-digital converter, characterized in that, in order to improve the recording accuracy, a semitransparent mirror is inserted between the lens and the deflector, the photodetector, the integrator with the reset, the second analog -digital converter, trigger and Q element OR, and the output of the photodetector is connected to the first input of the integrator with a reset, the second input connected to the first output of the trigger, and the output to the input of the second analog-digital converter, n outputs of which are connected to the corresponding n second inputs of the comparison circuit, the output of the circuit the comparison is connected to the first input of the OR element, the second input connected to the control channel, and the output of the OR element is connected to the first input of the trigger, and this second input of the trigger is connected to the ready output of the first scarlet-digital converter, and an output latch coupled to the first input of the AND gate, a second input connected to the output of the first clock, the second v.chod which is connected to the synchronization channel, and the output of the master oscillator is coupled to clock inputs of analog-digital converters. five Compiled by A. Chistov Tehred I. VeresKorrektor I. Erdsine Circulation 522Signature