SU877582A1 - Device for photoelectric reading of data - Google Patents

Description

(54) DEVICE FOR PHOTOELECTRIC READING INFORMATION

one

The invention relates to computing and can be used for photoelectric reading of information from perforating media.

Photo reading devices are known that contain amplifiers, a light source that is optically coupled to a photo receiver, which is associated with the driver time, which limits the signal duration, the signals from the photoreceiver, and the driver time, which are outputted by . Signal presence signal 1.

The disadvantage of these devices is the low reliability of the device when reading from a carrier that has scratches on the information marks.

The closest technical re-. The proposed device is a reader and, for example, punched cards containing an amplifier, a storage element, a light source optically coupled to a photoreceiver, a strobe signal generation unit, an information signal width determining unit, a sample comparison unit, the input connected to the output of the unit determining the width of the information signal, one input of which is connected to the output of the photodetector, and the other to the output of the gate signal generating unit 2.

The disadvantage of this device is that, in the presence of lint at the beginning or end of the perforations in the perfusion medium, malfunctions in the operation of the comparison unit may occur,

10 this device enters the classic photoelectric reading mode, which reduces the likelihood of a correct reading.

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

The goal is achieved by the fact that a device for photoelectric information reading, containing an amplifier, a storage element, a light source, optically coupled

20 with a photodetector, a reading signal duration detection unit, the first output of which is connected to the first input of the comparison unit, the output of which is the device output, the first input of the reading signal duration determining unit is connected to the first input of the device, the second input is connected to the first photodetector outputs and cumulative

30 elements, the second outputs of which are connected to a shunt of zero potential, the first output of the light source is connected to the power bus, and the second is connected to the output of the amplifier, And, element is introduced. the threshold element, the key connected to the power bus, the control input (which is connected to the first input of the device, the first output to the photodetector and the storage element, and the second to the threshold element whose output is connected to the second input of the comparator unit, the second output of the determination unit the duration of the readout signal is connected to the first input of the element I, the second input of which is connected to the second input of the device and the output to the amplifier. The drawing shows the functionality of the device circuit. information flashing contains light source 1, information carrier 2, photodetector 3, storage element 4, key 5, amplifier 6, threshold element 7, block 8 for determining the duration of the read signal, which contains trigger 9, counter 10, delay line 11 and threshold element 12 , comparator unit 13, element 14, first device input 15, device second input 16, device output 17. The device operates as follows. In the initial state, the counter 10 is in the zero state, the trigger 9 is in the state. This unit 13 comparison does not respond to falls short of the threshold element control pulses. When the sync pulse arrives at the first input 15 of the device, the key 5 opens and the storage element 4 is charged. Go to the delay line 11, the time fj is sufficient for accumulating element 4, the synch pulse arrives at the trigger input and puts it into the state O, which leads to the appearance of a permitting level at the input of element I 14, connected to the output of trigger 9. And the read pulses do of the second input 16 of the device pass through a circular element And 14 to the input of amplifier b, the output current of which passes through source 1 light emitting at these pulses of light. During exposure to light pulses, the photodetector 3 conducts electrical current, which leads to the discharge of the storage element 4. The 11 voltage on the storage element 4 acts on the threshold element 12 when it decreases to a threshold value, the signal level at the output of the threshold element is measured 12, under the influence of which the flip-flop 9 is transferred to the state, at the trigger output there appears a inhibitory potential, applied to the input of the element And 14. The device is disconnected from the second, input 16, the light source 1 stops radiating the teaching of light. The number of pulses, under the influence of which the accumulative element 4 is discharged, is counted by the counter 10. The required number of pulses for discharge of the accumulative element to the threshold level depends on the intensity of the light flux acting on the photodetector 3. shown) placed between the light source 1 and the photodetector 3, therefore, in the presence of punching, the number of pulses needed is several times less. In addition, the number of pulses in either case is different due to the presence of villi in the perforations and due to a change in the transparency of the perforant. According to the status of the outputs of the counter 10, the comparator block 13 determines the presence of punching in the perfusion medium. The output of pulses in the presence of perforation occurs when a pulse arrives from the threshold element 7. Threshold element 7 generates control pulses when a synchro pulse device arrives at the first input 15, which opens the key 5, and from its output at the input of the threshold element 7 pulses proportional to the charge current of the storage element 4. If the number of discharge pulses is less than K, but more than that, when a pulse arrives from threshold element 7, an output 17 is given a pulse ,. indicating the presence of punching. If the number of discharge pulses is greater than K or equal to O, then when the next synchronization pulse is applied to the input, the output 17 remains at zero level. If there is no punching, when using a perforant with very low transparency, overflow of counter 10 may occur, then the transfer impulse of counter 10 transfers trigger 9 to the state at the output of which the inhibitory potential is established and the light pulses are terminated 0, therefore, a block of 13 comparison generates a no punching signal. In this case, it may be that the cumulative element 4 is discharged insignificantly, and the pulse at the output of the key 5 at the next charge of the cumulative element 4 is less than the threshold level of the threshold element 7, and the control pulse for the comparison unit 13 is not generated at its output, which Others

Claims (1)

The claims - 15 A device for photoelectric information reading, comprising an amplifier, a storage element, a light source optically coupled 20 to a photodetector, a read signal duration determining unit, the first output of which is connected to the first input of the comparison unit, the output of which is the output of the device, 25 the first input of the signal duration determining unit the reader is connected to the first input of the device, the second input is connected to the first outputs of the photodetector and storage element, the second outputs of which are connected to the bus zero potential, the first output of the light source is connected to the power bus, and the second to the output of the amplifier, characterized in that, in order to increase the reliability of the device, it contains an And element, a threshold element, a key connected to the power bus, the control input of which is connected to the first the input of the device, the first output with a photodetector and a storage element, and the second with a threshold element, the output of which is connected to the second input of the comparison unit, the second output of the unit for determining the duration of the read signal is connected to the first the course of the element And, the second input of which is connected to the second input of the device, and the output to the amplifier.