SU968831A1 - Method and apparatus for photoelectric readout of optically contrast marks - Google Patents

Description

The invention relates to computing and can be used in devices for reading information.

A known method and device for reading information from a perforated carrier, the essence of which is 6 is that the luminous flux is additionally modulated, converted into an electrical signal, compared with the modulating signal and judged by the result of the comparison the availability of information ζ 1].

A disadvantage of this device is that the interference, correlated with the modulating signal, freely passes to the output of the comparing device and is perceived as informational, signals, which reduces the reliability of the reading.

It is also known a photoelectric reading device containing a series-connected source of high-frequency electrical signals, an amplifier and a light source, a photoreceiver connected to a resonant amplifier, and a threshold element, the output of which is the output of the device.

2

A method for reading information is implemented in this device, which means that optically the plant tags from the information carrier are read optically by forming a light flux with constant and high frequency variable components of the light signal modulation, transforming it into a main electrical signal and extracting high frequency oscillations [2 ).

However, the known device and the method implemented in it has insufficient accuracy of reading.

15 due to the fact that the change in carrier properties, such as transparency, paper tape leads to an increase in signal at the output of the resonant usilite_ _n and A may trigger the threshold device.

The aim of the invention is to improve the reliability of reading information and reliability of the device.

This goal is achieved by

25 that simultaneously with the luminous flux

form an electromagnetic signal coherent with the variable component of the luminous flux, convert it into an additional electrical signal,

30 mix it with the main electric

968831

four

With this signal, the received signal is detected, compared with the threshold signal, and the availability of information is judged by the result of the comparison.

The device for implementing the proposed method contains a frequency 5 detector, a source and a receiver of electromagnetic signals connected respectively to a light source and a photodetector, the input of a frequency detector is connected to the output of a resonant Southamp amplifier, and the output is to a threshold element.

The drawing shows a functional diagram of the device.

The device contains a generator 1, 5

amplifier 2, light source 3, electromagnetic signal source 4, information carrier 5, photodetector 6, electromagnetic signal receiver 7, resonant amplifier 8, frequency detector 9, threshold element 10, device output 11.

The essence of the proposed method and device for reading optically contrast marks is that the high frequency signal from generator ²⁵ through amplifier 2 acts on the source 3 of the light and the source 4 of the electromagnetic radiation, the light passing through the carrier 5 of information is converted into electric This signal is a photodetector, to which an additional signal from the receiver of electromagnetic waves is also supplied. As a result of the interaction of these signals, a frequency-modulated signal is produced at the output of a non-linear 35 photodetector element, which is extracted by a resonant amplifier 8 and fed to a frequency detector 9, the output of which will produce 40 from the field of view of the photodetector, and then the threshold element 10 generates output information pulses that coincide with the passage of information labels in the field of view of photodetectors.

Technical and economic effect of the use of the present invention is to improve the reliability of reading due to the fact that> frequency-modulated signal from the output of the photodetector serves to the frequency, where it is limited in amplitude, which allows to eliminate interference associated with possible local defects of the carrier, as well as the effect of carrier scatter on transparency is eliminated, since the device responds only to a change in the signal frequency at the photodetector output, and not to the signal amplitude.

Claims (2)

The CMM signal, the received signal is detoxified, compared to the thresholds of the signal and, judging by the comparison result, information is available. A device for implementing the proposed method comprises a frequency detector, a source and a receiver of electromagnetic signals connected respectively to a light source and a photodetector, the input of the frequency detector is connected to the output of a resonant amplifier, and the output to a threshold element. The drawing shows the functional diagram of the device. The device contains a generator 1, an amplifier 2, a light source 3, an electromagnetic signal source 4, an information carrier 5, a photo receiver 6, an electromagnetic signal receiver 7, a resonant amplifier 8, a frequency detector 9, a threshold element 10, an output 11 of a device. The essence of the proposed method and device for reading optically contrasting tags is that the high frequency signal from generator 1 through amplifier 2 affects the source 3 of the light and the source 4 of electromagnetic radiation, the light transmitted through the information carrier 5 is converted into an electrical signal by the photoreceiver. The rum is also supplied with an additional signal from the receiver of electromagnetic waves. As a result of the interaction of these signals on the nonlinear element of the photodetector, a frequency-modulated signal is formed at the output, which is extracted by the resonant amplifier 8 and fed to the frequency detector 9, at the output of which signals appear positive at the moments corresponding to the appearance of the label and negative when leaving this label from the photoreceiver's field of view, and then the threshold element 10 generates output information pulses coinciding with the passage of informational tags in the field of the photodetector review. The technical and economic effect of using the present invention is to improve the reliability of the readout due to the fact that the frequency-modulated signal from the output of the photodetector is fed to the frequency, where it is limited in amplitude, which allows you to eliminate interference associated with possible local carrier defects. and also eliminates the influence of carrier scatter on transparency, since the device responds only to a change in the frequency of the signal at the output of the photodetector, and not to the amplitude of the signal. Claim 1. Spread photoelectric readout of optically contrast labels with an information carrier by forming a light flux with a constant and high-frequency variable modulating the light signal, converting it into a main electrical signal, and extracting high-frequency oscillations, so much and more. and ift so that, in order to increase the reliability of reading information, simultaneously with the luminous flux, an electromagnetic signal is generated that is coherent with the variable component of the luminous flux , T .preobrazuyu of an additional electrical signal mixed with the basic electrical signal obtained signaldetektiruyut, compare it with a threshold signal and the comparison result is judged on the availability information. 2 An apparatus for carrying out the method of claim 1, comprising a series-connected source of high-frequency electrical signals, an amplifier and a light source, a photodetector connected to a resonant amplifier, a threshold element whose output is an output of the device, characterized in that, in order to increase the reliability of the device It contains a frequency detector, a source and a receiver of electromagnetic signals connected respectively. with a light source and a photodetector, the input-frequency detector is connected to the output of a resonant amplifier, and the output - with a threshold element. Sources of information taken into account in the examination 1. US patent 4150783, cl. 235-458, publ. 1979 2. Japanese Patent 49-30375, cl. 97 (7) In 23, published. 1968 (prototype). eleven