SU373869A1 - ALL-UNION - 'PAT? H1GSH-1 [HNN' {G1y: ' - Google Patents

Description

one

The invention relates to the field of measurement technology, namely, to means of automatic information processing.

Transformers of graphically defined functions into a digital code are known, containing, in particular, a light source, a condenser, a slit diaphragm, a transparent carrier with an expanse width of functions, a fiber-optic converter (GP), a dissector, a driver-former, a sweep generator.

In order to increase the speed and accuracy of the conversion in the proposed device, a counter is connected to the output of the amplifier-maker, the zero inputs of which are through a delay line, and the single inputs through switches and an additional delay line are connected simultaneously to the output of a pulse shaper connected to the output of the sweep generator and to the pulse inputs keys to the second inputs of which are connected to the outputs of the counter.

The block diagram of the proposed Converter shown in the drawing.

The converter consists of three main parts: an optical system that serves to form a narrow parallel beam of rays, a scanning device, and electronic units designed to process information signals. In the optical unit

includes the light source /, condenser 2 and slit diaphragm 3. The scanning device contains a dissector 4, a fiber optic converter (GPM) 5, a sweep generator 6, a phase shifter 7 and deflecting coils 8. An electronic circuit for processing signals taken from the output of the dissector, consists of an amplifier-former 9, a subtracting counter 10, keys 11--14 of the code transmission, a driver 15 pulses and a set of switches (toggle switches) 16-19.

Fiber Optic Converter

serves to quantize the ordinate of the graph, transmitting and converting the light image of the ordinate into a form corresponding to the type of sweep of the dissector. At the entrance of the GPA, the optical fibers are laid close to each other and make up a straight line row - line 20. The number of fibers in the line is equal to the number of quantization quantizing points of the maximum ordinate. The output of the GPM forms a configuration corresponding to the type of sweep of the dissector, and has the form of an open ring 21. The fibers at the output of the GPM can be arranged around the ring in a sequence different from that of the input. When the total number of discrete elements (the number of fibers) is preserved, the quantization step at the output of the SPD can be increased or decreased with respect to the sweep shape and 3 size of the photocathode of the dissector. The output of the GPA is optically coupled to the dissector photocathode. The device also includes delay lines 22 and 23, transparent media 24 with screen recording. The drawing also shows the aperture 25, which is part of the dissector. The converter works as follows. Before reading, the media with a screen-like graphic function is placed between the GPA ruler and the slit diaphragm, and with the help of the switches, a binary number equal to the number of GPM discreteness elements is produced. The luminous flux, passage through a transparent 15 g g 1 ЖЧ .. section of the carrier falls on the ends of the optical fibers of the GPM, uncovered by the “screen of the graph,” and goes through separate optical fibers to the photocathode of the dissector. Here, forming an electronic image (row of points) 20 is focused and, under the influence of an accelerating field, is transferred to the plane of the diaphragm of the dissector, in which a narrow slit is provided. As a result of the rotation of the electromagnetic field, electrons from each image element will alternately pass through the slit and enter the second part of the dissector, the electron multiplier. From the anode of the multiplier, the signals go to the amplifier, where pulses of 30 are generated from them, following into the counter. The gap in the GPA ring is the inactive region necessary to form a pulse in the former at the beginning of each sweep period35. This pulse is sequentially received in time: on the keys for transmitting the code; through the delay line 22 to the zero inputs of the counter trigger for resetting it to the zero position; through delay lines 22.40 4 23 and switches to the single inputs of the counter, in order to write into it before the start of the count a number equal to the number of discrete elements of the SPD. In the process of scanning the dissector, a number equal to the number of illuminated elements of the SPD will be subtracted from the number pre-recorded into the counter, and therefore the number equal to the number of darkened elements of the GPA and corresponding to the ordinate value at the given point of the wide screen will remain in the counter. The result of the conversion through keys is taken before the start of the next sweep. mt GTSRM metichrppr. before MCI isolation, no Graphically defined functions converter into a digital code containing a light source, a condenser, a slit diaphragm, in front of which a transparent carrier with a wide recording of functions is arranged, on the other side of which there are rows of optical lines fiber-optic converter, and the opposite ends are located at the input of the dissector connected to the amplifier-former; a sweep generator, the output of which is connected via a phase shifter to the diverting coils of the dissector, characterized in that, in order to increase the accuracy and speed of the conversion, a counter is connected to the output of the shaping amplifier, the zero inputs of which are through the delay line, and the single inputs through switches and an additional the delay line is connected at the same time to the output of the pulse generator connected to the output of the sweep generator and to the pulse inputs of the keys, to the second inputs of which the outputs of the counter are connected.

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