SU940187A1 - Device for reading-out information from punched cards - Google Patents

Description

(5) DEVICE FOR READING INFORMATION WITH PUNCH CARD

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1 The invention relates to computing and can be used in high-speed data entry devices with punch cards.

There are known devices for reading information from punched cards containing a block of photodetectors connected to a column counter through a block of amplifiers-shapers, a generator of main sync signals connected through a logic element I to a second input of the counter of basic sync signals and a control unit 1.

In this device, when the cards pass through the card path, the punch card in the transporting rollers can slip, which makes the reading of the punch card columns synchronous. This leads to a distortion of the read information, and, accordingly, the reliability of the device operation decreases.

Also known are devices for reading information from punched cards.

containing a main sync pulse shaping unit, a photodetector block connected to an amplifier block whose outputs are connected to the inputs of an AND-IE element, an additional sync pulse shaping unit, the first OR element, the first AND element, the first input of which is connected to the output of the basic sync pulse shaping unit, and the output - with the first input of the first counter, the first input of the first element OR is connected with the output of the first counter, and the output with the first input of the second counter,, 5 the first input of the block forming additional These pulses are connected to the second inputs of the estimators and with the seventh output of the amplifier unit the second input is connected to the first output of the second counter and the first input of the control unit, the third input is connected to the second output of the second counter, the first input is connected to the third input of the first counter and the second input of the first element OR the second output is connected to the second input of the first element I and the second input of the control unit, the third input of the control unit is connected to the third output of the second counter, the fourth input is connected to the output of the AND-NES element, and the output is the output of the device 2 1.

The disadvantages of the known device are the lack of control elements for punched card breaks between perforations, which leads to loss of information and malfunction, as well as the tendency of the device to fail when the punched cards are distorted.

The purpose of the invention is to increase the reliability of the device.

The goal is achieved by introducing three OR elements into the device, a pulse shaper and a second AND element, the output of which is connected to the fifth input of the Control unit, the first input - with the output of the first counter, the second input with the second output of the additional sync pulse generation unit, the third input - with the output of the second element OR, and with the sixth input of the control unit, the inputs of the second element OR are connected to the inputs of the pulse former and with the output of the third and fourth OR elements, the first pulse former is connected to the third input of the first element is AND, the second output is with the fourth input of the additional sync pulse shaping unit, the inputs of the third and fourth OR elements are connected respectively to one outputs of the amplifier unit and to other outputs of the amplifier unit.

The drawing shows the block diagram of the device.

The device contains a block of 1 photodetectors, a block of 2 amplifiers, a block 3 of forming the main sync pulses, a block k of forming additional sync pulses, a block 5 of control, elements 6-10 OR, elements Ilr15 AND, element 16 AND-NOT, drivers 17 and 18 pulses, trigger 1 counters 20 and 21, drive mechanism 22 syncrod claim 23, light source 2, photo sensor 25 clock pulses amplifier 26 clock pulses.

The drive mechanism 22 is mechanically coupled to the synchro-drive unit of the formation of the main sync pulses.

Unit 5 of control contains in its composition two logical elements AND and one OR.

The device works as follows.

In the initial state, when the punch card in block 1 is absent, on all outputs of the block of amplifier shapers 3 a high voltage level (light. When moving) of the punch card in block 1, the front cut of the punch card darkens the photodetectors, while at the outputs of the block of amplifier shapers 2 low voltage level appears. When the photocell is darkened by the seventh position of the punched card, the low voltage level at the output of the amplifier-former of the fourth position of the block 2 fixes the beginning

0 punch cards, the seventh position was chosen because it is in the middle of the punch card and when the punch card enters block 1 with a skew, the photocell darkens to the seventh position corresponds to the beginning of the punched card on the line of positioning of the photodetectors of block 1 with a minimum deviation m, e. the middle of the front cut-off of the punch card is fixed, and by the voltage drop from the output of the amplifier of the seventh position of the block 2, a signal is generated that sets the trigger 19 to one state; resets the counter 20 basic sync signals and puts 21 initial columns 1111110 in counter 21 columns. This code is chosen based on the fact that at the distance from the front cut of the card to the first index position (the first column of the punch card), where the field for the placement of perforations, two imaginary columns are stacked, so by the time block 1 of the first column of the punched card appears under the photoelectric cells in the counter 2 | columns, code 0000000 is formed. When trigger 19 is set to a single state, a high voltage level appears at the single output of the trigger and at the inputs of logic gates 11-15. In the initial state at the inverse output of the imaging device 17 and, accordingly, at one of the inputs of the logic element 11 has

5th place is a high voltage level, so from the single output of the trigger 19 the passage of pulses is allowed, the synchrodisc 23 to the input of the counter 20 of the main sync signals from the output of the element 11, The output of the counter of the 20 basic sync signals is switched on the detector, which reacts to a certain estimate in the counter , and at the arrival of the synchrodynamic pulse counter 23 at the output of it and at the input of the element OR 6, a positive sync pulse appears, which from the output of element 6 goes to the counting input of the column counter 21. By the time Photo cells of the block of the first column of the punched card in the column counter 21 receive two clock pulses, while when the second clock pulse arrives, the column counter 21 is set to the state 0000000. When recording in the counter 21 columns of numbers from 0000000 to 1010000, i.e. when passing a block of 1 punch card columns from the 1st to the 80th under the photovoltaic cells, the info field of the card, i.e. The field of probing possible perforations) at the first output of the counter 21, there is a high voltage level, which is fed to the input of the element 12, permitting the formation of the sync signals from the perforations in the punched card by the additional sync signaling unit. If there are no punched holes in the punch card column, then all photocells in block 1 remain dark at all the outputs of the block of the shaping amplifiers 2 and at the inputs of the elements OR 7 and 8 there is a low voltage level, while the former 17 does not start. The output and the input element 12 And there is a low voltage level, which prohibits the formation of a sync pulse by the block k forming additional sync pulses. In this case, the sync pulses come from block 3. If there is at least one punch in the punch card column, the sync signal is generated from punching. If there is punching in the upper part of the punch card, the corresponding photocell is illuminated in block 1, a high voltage level appears at the corresponding output of the amplifier block 2 and at the input of element 7 OR (if there is punching at the bottom of the punched card at the entrance of element 8 or). The voltage drop from low to high from the output of element 7 OR (or element B OR) is fed to the input of the driver 17 and starts it. Forward exit for4. World 17 appears a high voltage level, on the inverse low level, which enters the input of the logic element 11 and prohibits the passage of pulses from the synchronous disk 23 to the estimator of the main sync signals 20. At the same time, a high voltage level from the direct output of the imager 17 is fed to the input element 12, not other inputs of which there is also a high level from the single output of the trigger 19 and the first output of the 21. columns and from the output of the element 12 comes to the input of the driver 18 and starts it. The positive sync pulse from the output of the imaging unit 18 is fed to the reset input of the main synchronizing signal 20, sets it to its original state and to the input of element 6 OR, from the output of which a positive pulse goes to the setup input of the estimator 21 speakers and increases its content by one ton. e. The counter 21 records the address of the read column of the punch card. Thus, during the operation of the generator 17, the formation of sync pulses from block 3 is prohibited and the sync pulse is generated from punching by the block of formation of additional sync signals. The duration of the Formational pulse pulse shaper 17 is determined by the punching time under the photocell of unit 1. The shaper 17 is triggered once for this column if there are punches in the upper part of the punched card (from the output of element 7 OR) or in its lower part {from the output of element 8 OR7. The duration of the generated pulse is chosen equal to the punching time under the photocell of block I, with a margin for permissible displacement of perforations in the limits of one column and for skewing of the punched card as it moves in the readout block /, thereby creating an additional offset. At the end of operation of the former 17, a low voltage level appears at its direct output and at the input of element And 12, and at the inverse output and at the input of element 11 it appears a high level of voltage that permits the passage of pulses

sync drive 23 to the input of the counter 20 of the main clock signals. If there are punches in the next column, the described sequence of operation of the device is repeated. If there are no punched punch cards in the next column, the shaper 17 does not start, the pulses from block 3 continue to flow to the counter input, 20 and upon receipt of ten pulses, a sync pulse is generated at the output of the counter 6 OR is fed to the input of the estimator 21 speakers and increases its content by one — the address of the column read is written to the column counter 21. The sequence described is repeated for all 80 columns of the punch card. The arrival of the 80th sync pulse writes the code 1010000 into the column counter 21. At the same time, the first output of the counter 21 shows a negative level of voltage that arrives at the input element I 12 and blocks the formation of additional sync signals, i.e. information field punch cards over, now with the clock pulses are formed sinhrodiska 23. On the range from the 80th column to the posterior cut punch cards disposed two imaginary column, so for the passage of punch cards from the 80th column to the end of the card are formed in three clock counter 21 columns the code of number 83 is recorded and a high voltage level appears at the third output of the counter 21 columns. At the same time, when the third sync pulse arrives, the rear section of the punch card opens the photo cells of block 1. All photo cells are illuminated (they are opened and all outputs of the block of power amplifiers 2 show a high voltage level, which from the third output of counter 21 goes to the fault input of trigger 19 and sets it back to its original state,

The device monitors the health of the work according to the following principle. By the moment of arrival of the 82nd sync pulse into the counter of 21 columns, all photocells of unit 1 should be darkened, i.e. on all the outputs of the block of amplifier-formers 2, on the inputs of elements 7 and 8 OR and their outputs on the inputs

element 9 OR, at its output and the inputs of elements 1 ,. 15 And there must be a low level, for example 1.

If at least one photocell is illuminated and this condition is not fulfilled, this means that either the input card is shortened, or the mechanism for feeding and transporting the punched card in block 1 is incorrectly adjusted and the card moves faster, or the circuit elements are faulty. In this case, the device operates as follows. When at least one photocell is exposed to light at one of the outputs of the block of amplifier shapers 2, a high voltage level appears, which through element 7 OR or element 8 OR enters input of element 9 OR and from its output - element 14 I. At the moment the arrival of the 82nd sync pulse at the input of the column counter 21 records the code of the number 82, and at its second output a high voltage level appears, which enters the input of the element 1 And generates a positive voltage level at its output, which, in turn, enters the ele COP 10 OR. At the output of the latter, a high voltage level appears, the device generates a fault short card signal and informs the computing system of a device malfunction. By the time the 83rd sync pulse arrives at the counter of 21 columns, all the photocells of unit 1 should be illuminated, i.e. on all the outputs of the block-formers 2 and on all the inputs of the element 16 AND-NOT must be a high level eg; eni

Claims (2)

If at least one of the photocells is obscured and. This condition is not fulfilled, it means that either the inserted punched card is elongated, or the mechanism for feeding and transporting the punched card is incorrectly adjusted, or the circuit elements are faulty. At the same time, the system operates as follows. If at least one photocell of block 1 turns out to be dark, then at the corresponding output of block 2 of shaper amplifiers a low voltage level appears that goes to one of the inputs of element 16, at the output of which, and at the input of zlemeite 13, a high voltage level appears. When the 83 rd sync pulse arrives in counter 21, a code of number 83J is recorded at the third output of counter 21 and at the second input of element 13, and a high voltage level appears, which through element 10 OR is fed into the system. The device generates a signal of failure, an elongated map and informs the system of a malfunction. U the operation of the device. In the proposed device, when reading information from punched cards, the control is carried out to break the jumpers between adjacent punches in different columns. If there is a gap on the punched card between adjacent punches, for example, in the top (or bottom of the card and there are no punches in the lower (or upper) part of the punched card in this column, the device detects a broken jumper and forms a computing system about it. The control is carried out as follows. Suppose that in the N-th column of the punched card there is a punching in the upper part and in the (M + 1) -th column there is also a punched, performed only in the upper part of the punched card (only six upper positions of the punched holes are punched mouths, and in the lower part of the punched card there are no punches (the six lower positions of the punched cards do not have perforations) and a jumper is broken between the punches in the Nth and N + 1th columns. When reading the Nth column, the occurrence of voltage drop low to high from the output of element 7 OR starts the shaper 1 from the inverse output of which a low voltage level prohibits the passage of pulses from the basic clock signaling unit 3. The blue pulse is generated by the k block to form additional sync signals and 21 columns are recorded in the counter. res N-th column. At the end of operation of the imaging unit 17, the sync signals begin to arrive from block 3. When the N + 1 column appears under the photocells of block 1, the former 17 does not start, since the output of element 7 OR has a high level of voltage (no jump the voltage drop required to start the former and the output of element 8 OR is a low voltage level, as there are no punch pads in the bottom of the punched card. 5 is fed to the input of the element 15. Since the shaper 17 does not work, a high voltage level from its inverse output is present at the input of element 11 I and allows the input of clock pulses to the input of the counter 20 basic clock signals from block 3. When ten pulses are received The output of the counter of the main sync signals 20 causes a high voltage level, which is fed to the input of element 15 I and forms a high voltage level at its output. From the output of element 15 and a positive level of voltage is applied to the input of element 10 OR, and from its output it is fed to the computing system, the device informs the system about the occurrence of a broken jumper. If at the bottom of the punch card there is at least one punching in the M + 1st column, then when a block of 1 N + 1 column appears under the photocells, element 8 OR appears at the output of a high voltage level and the former 17 is started. its inverse output appears a low voltage level, which enters the input of element 11 I and prohibits the passage of pulses from the block 3 of the main sync signals to the counter 20. From the direct output of the driver 17, a high voltage level allows the sync signal to be generated by the complement formation unit k nyh sync signals. Master clock counter 20 is reset to its original state. at the output and at the input of the element 15, the voltage level remains low - a failure signal at the output of the element 15 does not form and is not output to the system. When the jumpers are broken in the upper and lower parts of the punched card between adjacent columns, the device also generates a failure signal, as in this case, at the outputs of elements 7 and 8 OR high levels of voltage are constantly present and the driver 17 does not start. Thus, in the proposed device, the control is performed to break the jumpers between the perforations, thereby eliminating distortions and loss of information during its transmission to the computing system, i.e. in this case, the reliability of the device is improved. In the device, by introducing a shaper 17, which is triggered by a voltage drop either from the output of element 7 OR or from the output of element 8 OR and forms an artificially determined predetermined length of the punch signal in the column, the loss and distortion of the read information are eliminated when the punch card moves in block 1 sec by skewing (mechanical skew of punched cards or different sensitivity of photo cells and amplifiers-formers). In this case, if the punched card moves in block 1 with skewing, i.e. if the top row of punched holes Since the art is shifted relative to the bottom, for example, to the front cut-off of the punch card, a situation arises when the output of the corresponding position of the lower part in the block of the formers 2 is still high, corresponding to the presence of punching in the N-OH column, and at the output of the corresponding position of the upper parts of the punch card already appear high, corresponding to the presence of punching in the N + 1 column. The device works as follows. When the upper piercing of the Nth column of the punched card appears in the photoelectric cells, which appears first in this case, the former 17 starts up and, as previously described, the Nth column readout mode is organized, and the punched clock formed by the formation unit k In the 21 column counter, the address of the Nth column is displayed. Then shaper 17 finishes and regardless of whether the punching in the Nth column in the lower part of the punched card is completed or not, if there is a punched in the upper part of the punched card in the N + 1 column, the former 17 is restarted, the read mode is organized The N + 1 column and the counter 21 is entered into the address of the N + 1 column, and the information of this column enters the system without distortion. If in the next N + 1 st column of the punched card there are no punched holes and the piercing of the bottom of the punch card in the N th column has not ended, then, as described earlier, the former 17 does not start (there is no voltage drop from the outputs of elements 7 and 8 OR), the sync signal is generated from the sync disk and, if by the time the sync signal appears at the output of element 6 OR and at the input of element 15, the punch in the bottom of the punched card in the Nth column has not ended (with a significant misalignment of the punched card /, as described earlier, the device generates a signal A torn jumper and informs the system about it. Thus, the proposed device improves the reliability of reading information by eliminating data loss and distortion when the punch card is moving in a skewed reading unit. Use of the device reduces (approximately two times) the requirements on the perpendicularity of perforation of the card with respect to the line of photoelectric cells in the reading unit 1, on the selection of photoelectric cells and the adjustment of the shaping amplifiers, which allows in his. turn, to simplify the design of the mechanism for feeding and transporting punched cards in the readout unit, as well as simplifying the adjustment of the mechanical and electrical parts of the device, which leads to a decrease in labor intensity in the manufacture of the device and an increase in operating performance. The introduction of a split-start shaper from punching in the top or bottom of a punched card and a torn jumper control circuitry gives the device a number of significant advantages over the known ones. First of all, such a constructive solution allows one to read information from punched cards with a break in the jumpers between perforations in adjacent columns without distortion and losing it when reading if there are punctures in the upper and lower parts of the punched card. Such a punched card is read when the jumpers are broken as normally opened, without loss of information. It does not require duplication of the punch card and re-read it. If the card is only perforated in the upper part, and there are no punched holes in the lower part, then the device informs the system about the failure that has occurred, not allowing the information to be distorted. In addition, the device is less critical as compared to the known perforation of the punch card in the reader unit. When a punch card is moved in the readout block, a certain bias (mechanical or electrical) is allowed, and the device reads information without any distortion and loss. If the skew value goes beyond the permissible limits, a fault signal is generated in the device and the computer system is informed about the failure in the device. All this distinguishes the proposed device from the known. The technical and economic effect from the use of the proposed technical solution is to increase the reliability of reading information from a punched card. Claims A device for reading information from punched cards containing a basic sync pulse shaping unit, a photodetector block connected to an amplifier block, outputs of which are connected to the inputs of the NAND element, an additional sync pulse shaping unit, the first OR element, the first AND element, the first input of which connected to the output of the basic sync pulse shaping unit, and the output to the first input of the first counter, the first input of the first OR element connected to the output of the first counter, and the output to the first input the house of the second counter, the first input of the additional sync pulse shaping unit is connected to the second inputs of the counters and the seventh output of the amplifier block is the second input to the first output of the second counter and the first input of the control unit, the third input to the second output of the second counter, the first output is connected to the third the input of the first counter and the second input of the first OR element, the second output - with the second input of the first element AND and the second input of the control unit; the third input of the control unit is connected to the third output of the second counter, the third input is with the output of the NAND element, and the output is the output of the device, characterized in that, in order to increase the reliability of the device, three OR elements are introduced into it, a pulse shaper and a second AND element, the output of which is connected to the fifth input of the unit control, the first input - with the output of the first counter, the second input - with the second output of the additional sync pulse shaping unit, the third input - with the output of the second OR element and with the sixth input of the monitoring unit, the inputs of the second OR element are connected to the inputs, pulse impulse Together with the outputs of the third and fourth elements OR, the first output of the pulse generator is connected to the third input of the first element AND, the second output to the fourth input of the additional sync pulse shaping unit, the RFS of the third and fourth elements OR are connected respectively to the single outputs of the amplifier unit and other outputs of the amplifier unit. Sources of information taken into account in the examination 1. England patent number 1257196, cl. G 06 K 7/1, 1972. 2. USSR author's certificate number 537359. class. G About K 7/1, 1975 (prototype),