SU417812A1 - - Google Patents

Description

The invention relates to input devices for graphic information in the digital computer.

Graphic information reading devices are known that contain optically coupled cathode-ray tube, an optical system with lattices and photomultipliers connected to amplifiers-formers, one of which is connected to the indicator unit through the assembly circuit, and the other two through valves Condominiums are connected to counters of coordinates, a trigger, a delay line, and a button.

However, such devices have a low accuracy of measurement of coordinates due to the non-uniform speed of the scanning beam of the device. The latter is due to the fact that the frequency of the synchronizer of the television system and the frequency of the generator IM pulses are unsynchronized (only the start of the pulse generator x is synchronized), as well as the low aperture capacity of the photo sensor (light pen).

The proposed device differs from the known ones in that an electronic pointer unit is inserted into it, connected to amplifiers, and, with the assembly circuit and through a button, with a zero input thrunger, whose single input through the delay line is connected to the input of the assembly circuit, and the output is to the control input of the valves.

This allows to increase the accuracy of the device.

The block diagram of the reading device G; the raffle information is shown in the drawing. It includes an electron-beam tube 1, a lens 2, an image 3, a condenser 4, a photoelectric wye amplifier 5, and an amplifier-shaper 6 video pulses of the image. The output of the amplifier-former b is connected to the input of the indicator unit 7 through the circuit 8 of the assembly. The pulse shaper of the reference lattice .v contains a translucent mirror 9, a servant 1, it for splitting the light source of a CRT, a reference lattice 10, a condenser 11,

photomultiplier 12, amplifierformer 13. The pulse grinder of the reference lattice y has a translucent mirror 14,, the reference lattice 15, condenser 16, photomultiplier 17, amplifier shaper 18. The outputs of the inverter 13 and 18 are connected to the inputs of the electronic pointer unit 19. The output of the amplifier -form 1rovater 13 is connected to the counting input cneiMHKa .Vj 20 through an AND 21,

the output of the driver 18 - with the counting input / Vj 22 through the circuit "P 23. The second inputs of the circuits" And 21 and 23 are connected to the time; decisive output of the control trigger 24, the single input of which is connected to the output

block 19 of the electronic pointer; delay lines 25 and 26; and the zero input - to the same output of block 19 via button 27. Block 19’s output is connected to block 7 input through assembly circuit 8, n outputs Xi 20 and n outputs of the counter yj 22 are received by the pairedcoftcTiBO device. A raster from the screen of the electric beam receiver (PLT) 1 through the lens 2 is projected onto the image plane 3. The light SOUTiK, the latex image, is collected by the condenser 4 on the photocathode of the photomultiplier 5. The output C; the drive of the latter is amplified, formed by the shaping amplifier 6 and One of the first outputs of the assembly circuit 8 is supplied to the modulator of the receiving CRT of the indicator unit 7. The rasters of the CRT 1 and the CRT of the block 7 are synchronized. Using translucent mirrors 9, 14, the raster from the screen of the CRT 1 is projected onto the reference lattices 10, 15. The reference lattices are used to accurately measure the coordinates of the beam of the CRT 1, which eliminates the linear sweep. With the help of condensers 11 and 16, the light fluxes are collected on photocathodes of photomultipliers 12 and 17. The output signals of photomultipliers are amplified and shaped by amplifiers-formers 13 and 18. At the output of the amplifier of form 13, video pulses are generated that quantize the x axis. The number of quantization stuns is determined by the number of scratches on the reperpo lattice. Similarly, the output video pulses, the quantized y-axis, are organized at the output of the amplifier 18. The video pulses with the output of these blocks are fed to the inputs of the electrical installation unit 19 and the pointer. An electric pointer unit allows you to receive a backlight pulse in order to organize a spot light indicator on the screen of the indicator unit. The light place indicator can be organized by analog or discrete circuits that perform the function of coordinate anchoring reference and current coordinates. The output signal of the electronic pointer unit through the assembly circuit enters the modulator of the receiving CRT of the indicator unit. The operator, by moving the spot light to the image points of interest, measures their coordinates. The coordinates are fixed in the meters Xi and yi when the button 27 is closed by the operator. In this case, the output impulse of the electronic pointer unit is fed to the zero-input trigger and prohibits the passage of video pulses from formulators-1) through the gates to counters Xi and j. The same impulse through the delay line 25 conducts the issuance of the coordinates X and Y and obuleii both counters, and through the delay delay 26 it sets the trigger to a “similar state. BACKGROUND OF THE INVENTION A device for reading graphic information containing ontically coupled cathode-ray tube, optical system with reference gratings and photomultipliers connected with amplifiers-formers, one of which is connected to the indicator unit through the assembly circuit, and the other two coincidence gates are connected to counters, coordinate coordinates, trigger, delay line and button, which means that, in order to improve the accuracy of the device, an electronic pointer unit is inserted into it; nny with amplifiers shaper-E, with the assembly scheme and through button - with a bullet input latch unit the input of which is connected via a delay line to the input circuit assembly, and the output - to the control input of the coincidence gates.