SU830434A1 - Device for reading out information from punched cards - Google Patents

Description

(54) DEVICE FOR READING INFORMATION WITH PUNCH CARD

Claims (1)

The invention relates to automation and computing and can be used as a device for inputting information from punched cards. It is known a device for reading information from punched cards, which contains a block for connecting punched cards by an opposing method, connected to an amplifier unit, one of the outputs of which is connected to the first input of a counter of basic sync signals and connected to a column counter connected to the unit T ontrol 11 with the first element OR, connected to the output of the counter of the main sync signals, the second input of which is connected to the output of the element I, the first input of which is connected to the generator of the main sync signals, the block of formation of the reference sync signals, second element OR and NAND. At the same time, the inputs of the second element OR and the signal element are NOT connected to the corresponding outputs of the amplifier unit, the output of the second element OR is connected to the first input of the shaping unit of the reference sync pulses, to the second input of the AND element and to one of the inputs of the control unit, the other inputs are gb connected to the output of the INE element and to the first output of the block of formation of the reference clock signals. Other inputs of the reference clock unit are connected to the third input of the And element, as well as to the first element of the SchSch, and the second input of the block is connected to the output of the counter-columns 1. The disadvantage of this device is the low reliability of reading. The closest in technical essence and the achieved result to the proposed is a device containing a light source, optically connected with photodetectors connected to amplifiers of readout signals, whose outputs are connected to the first OR element and the NAND element, the second OR element, the inputs of which are connected to the input of the device and the first integrator, and the output is connected to a trigger. connected to the error signal conditioner and the series-connected element I, whose inputs are connected to the first to the clock generator, to the trigger and to the NOT element, the first counter connected to the first integrator and to the second clock generator, the third IGSh element connected to the second clock generator, and the second counter, connected to the first integrator, to the error signal former and to the second a sync pulse shaper connected to a trigger, and a read signal shaper 2 The disadvantage of such a device is its low reliability. The purpose of the invention is to increase the reliability of reading device information. The goal is achieved by the fact that it contains the second integrator, connected to the first SHS element, with the NO element, forms the second clock sync pulse generator and error signal generator, current amplifier, connected to the first synchro pulse generator and the light source, the third integrator connected to the element And-NOT with the error signal former, for. In this case, the inputs of the read signal generator are connected to the first counter, to the first IZH element and to the trigger, and the outputs are connected to the output of the device. The imp is a block diagram of the device. The device winds the first element OR 1, the element AND-NOT 2, the first driver 3 sync pulses, containing the synchrodisk 4, the illuminator 5, the photodetector 6 and the amplifier 7, the current amplifier 8, the light source 9, the photo-receivers 10, the amplifiers 11 read signals, the first The integrator 12, the second integrator 13 and the third integrator 14, the trigger 15, the element AND 16, the second element OR 17, the third element OR 18, the first 19 and second 20 counters, the element HE 21, the second driver of the sync pulse, the driver of the read signal 23 and the driver 24 of the signal errors, transport shaft 25 to 26 and the plane of motion but CITEL. The device works as follows. Switching on the drive of the device (not shown on the drawing) causes the rotation of the transport roller 25 and, accordingly, the synchro 4, formed 3 sync pulses. At the same time, a bunch of light from the illuminator 5 falls impulsively onto the photodetector 6, and at the output of the synchronization signal amplifier 7 current pulses appear, which, being amplified by 1 and the current amplifier 8, arrive at the input of the light source 9. The circumference of the transport roller 25 and the number of holes on the sync drive are chosen such that during the movement of one peroration in the plane of the carrier 26, the driver of the three clock pulses produces a plurality of current pulses at the input of the current amplifier 8. When the punch card is moved, its edge overlaps the beams of light directed from the source 9 of the light to the photodetectors 10. At this moment, the amplitude of the pulses and the pulse signals at the outputs of the devices II decrease sharply. At the moment when the front edge of the card intersects the light beams from the light source 9, a change in the level of the signal at the output of the integrator 12 series of pulses through the OR element 17 takes place at state 1 of the trigger 15. At the same time, the first counter, 19 and the second counter 20, on; Which is entered into the code of the initial state, the counter 19 through the element And G6 starts to receive pulses with. Former 3, By the time the light from the source 9 is read by the light of the first column of the punched card, two synchromesh signals arrive through the OR 18 element, which sets the column counter 20 to 0000000. In case of absence of sync signals in the punched card, the sync signals continue to come from shaper 3. If at least one punch appears in the column, then the sync signals start to be generated from the perforations themselves. At the output of the element OR I, a sequence of pulses is formed, corresponding to a sequence of light pulses perceived by anyone and photodetectors 10, and the output of the integrator 13 forms a signal that, through the element NOT 21, enters the input of the element 16, sets a ban for the passage of the pulse from the imaging unit 3 and through shaper 22 resets counter 19. In addition, this signal through the OR element 18 arrives at the counter of 20 columns. When subsequent information columns are scored, the sync signal generation process is repeated, and simultaneously with the sync signal generation, signals are generated that carry information from the output of amplifiers 11 to the read and control read registers (not shown), as well as information that compares on. these registers. Upon detection of perforations, the pulses from the output of an a. Element OR 1 are fed to the input of a shaper 23 of multiple readings. In this case, if, due to interference, there is a break in the sequence of pulses at the output of the element —OR 1, the corresponding pulses are generated by the counter 19 according to the counter code 00001 and 00010. The presence of the specified sequence of signals at the output of the generator 23 makes it possible to repeatedly read the information in each of the columns containing punching, thus accumulating information on the reliability of punching detection in the readable point of the information field of the carrier. This increases read reliability. When installed in 20 columns of code 82, all photodetectors 10 are darkened. If at least one of the photodetectors 10 turns out to be illuminated, then the element JS 1 and by the integrator I3 a signal is generated that is fed to the input of the imaging unit 24 and an error signal is generated at its output. In case of installation of code 83 columns in the counter, all photodetectors 10 are open. If at least one of them is closed, the AND-NOT element 2. and by the integrator 14 produces a signal that arrives at shaper 24, which in this case j also generates an error signal. Synchronization, readout and control circuits, in addition to triggering signals generated by the leading edge of a moving punch card, are received from an outside signal through the OR 17 element to the trigger input 15. At the same time, before running the punched card through the optical readout path amplifiers 11 and auto-tuning of the threshold levels for each of the photodetectors 10 depending on changes in the levels of supply voltages, degradation of the light sources of the photodetectors 10 and the dust level of the tract. The introduction of new assemblies and units, as well as new constructive connections, allows to significantly increase the reliability of the device. An apparatus for reading information from punched cards containing a light source optically coupled to photo detectors connected to readout signal amplifiers whose outputs are connected to the first OR element and the NAND element, the second OR element whose inputs are connected to the device input and to the first integrator, and the output is connected to a trigger connected to the error signal former, and the series-connected elements, the input of which is connected to the first sync pulse generator, to the trigger and to the element NOT, the meter connected to the first integrator and to the second clock generator, the third OR element connected to the second clock generator, and the second counter connected to the first integrator, to the signal conditioner and to the second inrush generator, connected to trigger, and the signal former, which, in order to increase the reliability of the device, contains a second integrator connected to the first element OR, with the element NOT, and the second synchrometer oimpulsov shaper error signal, a current amplifier, to the first podkhpochenny clock shaper and the light source, a third integrator coupled to the AND-NO element and emerging ° STUDIO error signal,