SU842699A1 - Threshold former - Google Patents

Description

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The invention relates to the field of recognition of graphic images and can be used in devices for combining and encoding graphic information.

Known threshold devices comprising digital to analog converters connected to the voltage comparator, an analog adder having a reversible counter, podkpyuchenn1y to the first DAC, the sources of the reference voltages, triggers elements OR and liitsyu delay, wherein one of the comparator input is connected to the analog adder which is connected with the source of the reference voltage, and the output to the control trigger and through, the OR element to the second digital-to-analog converter and to the delay line, is connected to one input of down counter, whose other inputs are connected to the control flip-flop and through an additional zlementy Hilti - second DAC and the output of one of the voltage comparator is connected to formiruyuats «| trigger CQ.

These devices, due to the presence of digital-to-analog converters, do not provide high performance.

The closest technical solution to the present invention is a device for forming a video signal in a television automatic measuring device, comprising a first delay line connected in series and a threshold; z, a divider eg Keny, connected to

S control input of the threshold element, and the second delay line G

The disadvantage of the device is low accuracy.

The purpose of the invention is accuracy.

The goal is achieved by the fact that the analog driver connected to the control input of the threshold element and the second delay delay are introduced into the threshold driver containing the first delay line connected in series and the threshold element, and the second threshold element and the logical element is And, moreover, the element of the analog input is connected to the input of the first delay line, the output to the input of the voltage drop, and an additional input through the second delay line to the output of the main pore pulling element, wherein the further threshold: element. the input connect the nrn to the output of the analog memory element, and the output to the first input. a logic element and, the secondary input of which is connected to the output of the main horn element. Fig. 1 shows a functional diagram of a threshold shaper} in Fig. 2 — temporary voltage diagrams at its main points. The device (Fig. 1) contains a delay line}, a threshold element 2 with a controlled level of voltage, a voltage divider 3, a 4 delay line, an analog memory element 5, a second threshold element 6, and a logical element, and a delay line I output connected to the signal input of the threshold element 2, the input through element 5 of the analog memory and de xv | tv 3 voltage with the control input of the threshold element 2, the output of which: through the 4 delays is connected to the auxiliary input of element 5 of the analog memory, and output with logical input And th element 7, the other input of which is connected to the output of the threshold element 2. The apparatus operates as follows. The input of the threshold shaper receives a signal from the output of the photoelectric converter of devices for combining graphic information. The amplitude of this signal is memorized by element 5 of the analog signal and is expected to be output at its output until a drop in the signal at the output of the 4-element delay (signal Ujlt) appears. At the same time, the input signal U (t) is supplied by a delay element, at the output of which it appears to be untransformable, but delayed by a time approximately equal to the duration of the front of the input signal (time diagram Un (t.). Output signal of element 5 analog memory, the voltage divider 3 is reduced by exactly two times in amplitude. As a result, the output of the voltage divider 3 is the signal U (t), which is fed to the control input of the threshold element 2, while . Its signal input acts voltage U., (t) delayed in At the output of the threshold element 2, the signal U (t) is formed, which allows to restore the duration of the video pulses of the image being compared with high accuracy. The Up action level of the threshold element 6 is selected so that the signals from low-contrast images and various blots on the graphic carrier information does not reach it. Therefore, the threshold element 6 does not respond to such images. If the signal exceeds the threshold level U, then the output of the threshold element 6 produces pulses Ug-Ct), stepping on the input of the logic element U 7, simultaneously with the pulses U (t). The output signal U -, (t) of the threshold former (Fig. 1) appears only if the pulses Uy (t) and Ug (t) coincide in time. In the image reading process by the photoelectric converter, for example, by scanning, i.e. sweep transformation, the signal U (t) is obtained, the duration of the video pulse fronts of which depends on the size of the scanning spot and the angle of its encounter with the image line, and its amplitude on the image contrast. The signal U (t) is fed to the inputs of line I and analog memory element 5. The delay time of line 1 and 4 is equal to the duration of the fronts of the video pulses U (t), corresponding to the lithoM images with which the scanned spot meets at a right angle. This time is necessary to form the control voltage), which, after decreasing in amplitude by 2 times, should appear at the control input of threshold element 2 earlier and stop operating later than the input signal Ujf (t) at the signal input. In this case, the threshold element 2 is prepared to receive the signal

) and forms the fronts and lines U (t) exactly at the moments of transition of the pulses U (t) through the levels corresponding to half of their amplitude. The pulses generated in this way most accurately convey information about the width of the read lines. However, the pulses are not the output signal of the threshold driver, because they contain information about little contrasting images, which are various kinds of interferences (discoloration of the carrier, its defects, marks made with a pencil, various kinds of blots, repeated low contrast images, etc.). elimination of signals from low-contrast images, threshold element 2 and logical element AND 7 are used. The level of execution of threshold element 6 is chosen (Ur in Fig. 2), that the signal U (t) in the presence of small no noise is formed in the image. As a result, a pulse does not appear at the input of the logic element I 7, which allows the passage of a pulse U (t) to the output of the device. If the image lines are sufficiently contrasting, they result in a wide pulses, which pass to the output of the device pulses Ug (t) undistorted.

Thus, the proposed device makes it possible to record the duration of video pulses with high accuracy in a wide range of changes in the contrast of image lines. and eliminate low-contrast interference.

Claims (2)

1. Authors certificate of the USSR 437 14, cl. 6 06 K P / 00, 07.25.74. 2. USSR author's certificate 2323Yu, cl. H 04 N 7/02, 18.09.67 (prototype). t