SU883932A1 - Photoelectric reading-out device - Google Patents

Description

one

The invention relates to the field of computer technology and can be used in devices for inputting information from perforating media into computers.

A photoelectric reading device is known, comprising a radiator and optically coupled photodetectors connected to the I 1 elements.

The disadvantage of the device is its lack of reliability due to the presence of two channels for converting analog values to discrete ones.

The closest technical solution to the present invention is a device comprising a radiator connected to an alternator and optically coupled to a photodetector connected to the input of an alternating current amplifier 2.

The purpose of the invention is to increase the reliability of a photoelectric reader.

The goal is achieved in that the photoelectric reader contains an additional photodetector, a voltage divider and a phase detector, the first input of which is connected to the output of an AC amplifier, the second input is connected to an alternator, the cathode of the additional photodetector is connected to one of the extreme points of the voltage divider , another extreme point of which is connected to the anode of the main photodetector, and its cathode and anode of the additional photodetector are connected to the midpoint of the divider. stress.

, FIG. 1 is a functional diagram of a single reading channel of a photoelectric reading device; FIG. 2 - time diagram of his work.

The device comprises an alternating current generator 1 connected to an emitter 2 made, for example, in the form of a light emitting diode, which is optically coupled through a perforating medium 3 to photo detectors 4 and 5 parallel to which voltage divider 6 is turned on - whose midpoint is through an AC amplifier 7 connected to one of the inputs of the phase detector 8, the other input of which is connected to the alternator. .

Claims (2)

The timing diagram shows signal plots: V (2J current change in the radiator 2 circuit; - voltage change at the input of AC amplifier 7; V / g - voltage change at the output of the AC amplifier and, accordingly, at the first input of the phase detector Torus 8.; - signal change on the output bus. 2 upper part of the time diagram, we conventionally depict a carrier section with perforation (non-hatched section). The photoelectric reading device works as follows. The reader 2, connected to the alternating current generator 1, continuously emits a luminous flux, the intensity of which varies with a sinusoidal law.When reading a section of the carrier that does not contain perforation, a portion of the luminous flux will reflect from the surface of the perforant 3 and fall on the photodetector 4, the part is absorbed by the perforating medium 3, and the part gets onto the photodetector 5. When reading a portion of the perforating medium 3 containing the perforations, almost the entire luminous flux falls on the photodetector 5. By moving the distance from the plane perfonositel photodetectors 3 to 4 and 5, as well as the selection of the resistor values used in the divider voltage is effected with setting an optimum threshold schi tyvani. In this device, the optimal adjustment will correspond to the case when the antiphase signals of the photoreceivers 4 and 5 mutually compensate each other at a point corresponding to the optimal threshold for the known statistical noise distribution characteristics of the perforant 3, the only point where the probability density of a false alarm is equal to the probability density signal failure. At the same time, in a particular case, there is the possibility of such an optimal readout threshold at which the amplitude of the total variable component of the signals from the photoreceivers 4 and 5, when reading a portion of the perforant 3 without perforation, is equal to the amplitude of the variable component of the signal from the photodetector 5, with reading the perforator area 3 containing the perforations, as shown in the plot. 2). Obviously, the indicated variable components of the signal taken at the point of unification of the photodetectors 4 and 5 of the transmitted light flux, when reading the perforated portions of the perforant 3 and non-perforated portions, will be out of phase. Through the amplifier 7, the alternating current in the device selects the variable component of this signal, and the phase detector 8, by comparing the phase of the signal at the output of the alternating current amplifier 7 with the phase of periodic oscillations at the output of the alternator 1, produces a signal at the output spike only case of equality of these phases. The device has a relay nature of the adjustment characteristic, since a change in the amplitude of the variable component of the signal does not entail a corresponding change in the signal magnitude on its output bus. The maximum steepness of the functional conversion of the recorded signals, which is related to the relay nature of the adjustment characteristic of the device, causes this device to react with a small degree to the floating of the optimal readout threshold. In addition, the sequential switching on of the photodetectors 4 and 5 reduces the influence of the ambient temperature on the magnitude of the signals at the point where the photodetectors 4 and 5 are combined. The technical and economic effect of the invention is to increase the reliability of reading information from perforating media. A photoelectric reading device comprising an emitter connected to an alternator and optically coupled to a photodetector connected to the input of an AC amplifier, characterized in that, in order to increase the reliability of the device, it contains an additional photodetector, voltage divider and phase signal. the detector, the first input of which is connected to the output of the AC amplifier, the second input is connected to the alternator, the cathode of the additional photodetector is connected to one of the extreme points of the voltage divider, the other extreme point of which is connected to the anode of the main photodetector, and its cathode and anode of the additional photodetector are connected to the midpoint of the voltage divider. Information sources, . taken into consideration during the examination 1. USSR author's certificate 378901, cl. G About K 7/14, 1973. 2. USSR author's certificate on application 2661290 / 18-24, cl. G About K 7/14, 1978 (prototype). lf  / jKossa - dddr / % ffi 6