SU1192166A1 - Aperture corrector - Google Patents

Abstract

AERTURAL CORRECTOR containing serially connected first and second delay lines, the outputs of which are connected to the first and second inputs of the vertical aperture correction signal generator, the third input of which is connected to the input of the aperture corrector, and the output to the first input of the first adder, the second input of which is connected with the switch output, the output of the horizontal distortion corrector is connected to the first input of the switch, with the input of the first delay line being the aperture input corrector, characterized in that, in order to improve the accuracy of correction by reducing noise noise, a high-pass filter, an inverter, second and third adders, and a video signal analyzer whose output is connected to the control input of the switch, the first input of the third adder is connected to the output the first delay line, with the input of the horizontal distortion corrector and the first one: with the input of the second adder, the second input of the third adder is connected to (L the first input of the first adder and through the series-connected filter the upper frequencies and the inverter - with the second input of the switch, and the output with the input of the video signal analyzer-a, the output of the first adder is connected to the second input of the second adder. with O5 O5

Description

The invention relates to communication technology and can be used in television and photolegeraphy. The purpose of the invention is to improve the accuracy of correction by reducing the noise level. FIG. Figure 1 shows a structural electrical aperture correction circuit; in fig. 2 - timing diagrams explaining the operation of the device, with a fragment of the video signal having differences like fronts, as well as the type of a single part, a signal of vertical aperture correction, the output signal of the video analyzer. The aperture corrector contains the first and second 2 delay lines connected in series, the outputs of each of which are connected, respectively, with the first and second inputs of the former 3 of the vertical aperture correction signal, the third of which is connected to the input of the aperture corrector, and the output to the first input of the first adder 4, the second input of which is connected to the output of the switch 5, and the output to the first input of the second adder 6, the second input connected to the output. the first delay line 1 and through the horizontal distortion corrector 7 to the first input of the switch 5, the control input which is connected to the output of the video signal analyzer 8, the first input of the third adder 9 is connected to, the output of the first delay line 1, the second input is connected to the first the input of the first adder 4 and through the series-connected high-pass filter 10 and the inverter I1- with the second input of the switch 5, and the output to the input of the analyzer 8 I video signal. Aperture corrector works as follows. The video signal is fed to the first 1 and second 2 delay lines connected in series, each of which delays the length of the television line. Delayed by one, two lines, as well as undelayed video signals are fed to the inputs of the imaging unit 3. Corrector 7 horizontal distortions NII forms from the delayed input video signal a signal of the horizontal aperture corrections to the first input of the switch 5. fine details) in the output of the third adder 9. This signal is the sum of the delayed original video signal and the vertical aperture correction signal of When fine-grained components are detected, switch 5 transmits the signal of corrector 7 to the first adder 4 by the control signal from the analyzer 8. In the first adder 4, the signals of vertical and horizontal aperture correction are mixed. Thus, at the output of the first adder 4, in the mode of transmitting the fine-structured components of the video signal, a full (two-dimensional) aperture correction signal is generated. This signal is mixed in the second adder 6 with the delayed source video signal, performing a two-dimensional correction of the aperture distortion of the original video signal. In the absence of fine-structured components Yush 1x in the output signal of the third adder 9, the analyzer 8 generates a control signal at the input of the switch 5, according to which the signal of the corrector 7 does not reach the first adder 4. At the same time, the fluctuation noise present in the horizontal correction signal does not reach the output devices. The compensation of the fluctuation noise coming from the generator 3 is carried out as follows. If there are no fine-structured components in the signal, the switch 5 switches to a signal transmitted by the filter 10 and the inverter 11 from the vertical aperture correction signal by the control signal from the analyzer 8. The signal at the output of the high-pass filter 10 is the extracted high-frequency components of the noise. At the output of inverter 11, these components are antiphase with respect to the components present at the output of shaper 3. In the first adder 4, the summation of the antiphase noise components and their suppression occurs. Thus, the portions of the vertical aperture correction signal that do not have a tone311

kostrukturnyh. the components are filtered out from high-frequency fluctuating noise, which improves the quality of the television image. At the same time, the high potential of the control signal corresponds to the presence of fine structure components in the original signal or the signal of the vertical aperture correction. In this case, a two-dimensional aperture correction is performed. The low potential of the control signal corresponds to the absence of fine-structure components. In this case, the horizontal correction (along the television line) is not performed and, in addition, noise is suppressed in the vertical signal 6. four

aperture correction scale. Thus, in the correction signal at the output of the first adder 4, the fluctuation noise contained in the two-dimensional aperture correction signal is significantly reduced. Indeed, the noise in the horizontal aperture correction signal is eliminated by applying this signal through the switch only at the times when the analyzer 8 fine structured signal components are detected. The noise in the vertical aperture correction signal is reduced by subtracting in the first suimmatr 4 the high-frequency part of the vertical aperture correction signal.

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Claims (1)

APERTURE CORRECTOR, containing the first and second delay lines connected in series, the outputs of each of which are connected respectively to the first and second inputs of the vertical aperture correction signal shaper, the third input of which is connected to the input of the aperture corrector, and the output to the first input of the first adder, the second input of which is connected with the output of the switch, the output of the horizontal distortion corrector is connected to the first input of the switch, while the input of the first delay line is the input of the aperture correction torus, characterized in that, in order to increase the correction accuracy by reducing noise, a high-pass filter, an inverter, a second and third adders and a video analyzer are introduced into it, the output of which is connected to the control input of the switch, the first input of the third adder is connected to the output of the first delay lines, with the input of the horizontal distortion corrector and the first input of the second adder, the second (g input of the third adder is connected to the first input of the first adder and through a series-connected high-pass filter and an inverter with a second input of the switch, and the output with the input of the video analyzer, the output of the first adder connected to the second input of the second adder. 1192Ί66