SU1133691A1 - Device for correcting non-linearity of horizontal scan - Google Patents

Abstract

A DEVICE FOR CORRECTING A NONLINEARITY OF A LINE SCAN, containing a serially connected frequency multiplier that, in order to improve the accuracy of the correction of nonlinearity of the horizontal scan, a serially connected key was entered into it, a controlled oscillator, a phase detection p and an analog-to-digital converter, the output of an analog-to-digital converter is connected to the second input of the memory unit, the information input of the key is connected to the second input of the phase detector and is the input of the video signal, the control input of the key is connected to the generator code of the trigger pulses, and the third memory block input is the write enable signal input.

Description

The invention relates to television technology and can be used in line-level scanning of color television cameras. A device for correcting the nonlinearity of the horizontal scan contains a series-connected signal generator of a sawtooth-shaped parabola formation unit and the total output of which is the output of the device, the parabola blockforming input is connected to the input of the S-correction signal shaping unit whose output is connected to the second adder input, the third the input of which is connected to the BTOpbJM generator output of a sawtooth waveform. The disadvantage of this device is low correction accuracy. The closest to the invention in terms of technical significance is a device for correcting nonlinearity of line scanning, which contains a sequentially connected frequency multiplier, a time interval converter — a code, a memory block, and a digital-analog converter, the output of which is the output of the device, as well as a television camera, the output of which is connected to the input of the selector of the limiter, the output of which is connected to the second input of the time converter - code, driver of trigger pulses,. first input cat The first is connected to the input of the frequency multiplier and is the input of horizontal sync pulses, the second input is the input of frame sync pulses, the first output is connected to the input of the control unit of the test table, and the second OUTPUT is with the second input of memory 2, However, in the known device the accuracy correction of line scan nonlinearity is insufficient. The aim of the invention is to improve the accuracy of line nonlinearity correction. This goal is achieved in that a device for correcting nonlinearity of line scanning comprising a serially connected frequency multiplier, a memory unit and a digital-analog converter, the output of which is the output of the device, as well as a driver for triggering pulses, the input of which is connected to the input of the frequency multiplier and input line sync pulses, entered in series key, controlled oscillator, phase detector and analog-to-digital converter, and the output analog-digital The converter is connected to the second input of the memory unit, the information input of the key is connected to the second input of the phase detector and is the video signal input, the control input of the key is connected to the output of the trigger pulse generator, and the third input of the memory unit is the input of the write enable signal. Fig. 1 shows a structural electrical circuit of the device for horizontal scanning linearity; 2 shows timing diagrams for his work. The device (Fig. 1) contains a starting pulse generator 1, a key 2, a controlled generator 3, a phase detector 4, an analog-to-digital converter (A / D converter) 5, a frequency multiplier 6, a memory unit 7, and a digital-to-analog converter (D / A converter) 8. Device works as follows. Assume that the horizontal deflection current (Fig. 2a) is non-linear and needs to be corrected. In this case, the third input of memory block 7 receives the recording resolution signal, and at the first input there are pulses from a frequency multiplier 6, the number of which determines the recording frequency of the correction signal samples, which is then read, and through the DLC 8 enters the input of the horizontal deflection amplifier, a television camera for correction. The correction signal is generated as follows. On the key information entry. 2 and the second input of the phase detector 4 receives a video signal (FIG. 2S), for example, 5 from a test table containing vertical bars. Lower-order sync pulses trigger a frequency multiplier 6, the output of which serves to address memory block 7, as well as a trigger pulse generator 1 that generates a pulse of short duration corresponding to the initial portion of the forward master scan (Fig. 2B). Under the influence of this impulse, a key 2 is opened, transmitting the video signal into

the form of a package of sinusoidal oscillations at the input of a controlled oscillator 3 (Fig. 22), which is synchronized with this packet of oscillations (Fig. 2q). During the pulse (Fig. 2S), a signal with the same frequency and phase is present at both inputs of the phase detector 4, with the result that the voltage at its output is zero (time point 0-t, in Fig. 2e). After locking the key 2, the second signal of the phase detector 4 receives a video signal, the phase of which begins to change relative to the phase of the generator 3 due to the nonlinearity of the horizontal scanning of the television camera, as a result of which an error appears at the output of the phase detector 4 (Fig. 2e) time), which is discrete with the interval determined by pulses from frequency multiplier 6 (Fig. 2: K), is recorded in memory block 7, from where it is then read in each horizontal sweep period and fed to the amplifier through the DAC 8

the horizontal deflection of the television camera in the form of a stepwise correction signal (FIG. 21), which, summing up with the deflection signal (FIG. 2d |), provides a linear form of horizontal scanning current after the correction (FIG. 2c).

The information from the memory block 7 is read continuously during the operation of the television camera, and the recording, as necessary, during camera setup.

Improving the accuracy of line nonlinearity correction by the proposed device is achieved by eliminating the systematic error due to the initial phase mismatch and frequency of the compared signals, which is achieved by inserting a key. and controlled generator. In addition, the operation of the device is not affected by random errors associated with the mutual shift and misalignment of the test-table and the raster of the television camera.

Claims (1)

DEVICE FOR CORRECTION OF NONLINEARITY OF LINEAR SCAN, containing series-connected frequency multiplier, a memory unit and a digital-to-analog converter, the output of which is the output of the device, as well as a driver of triggering pulses, the input of which is connected to the input of the frequency multiplier and is the input of horizontal sync pulses, characterized in that , in order to improve the accuracy of correction of nonlinearity of horizontal scanning, series-connected key, a controlled generator, a phase detector and logo-to-digital converter, the output of the analog-to-digital converter is connected to the second input of the memory block, the information input of the key is connected to the second input of the phase detector and is a video signal input, the control input of the key is connected to the output of the generator for § triggering pulses, and the third * input of the memory block is the input of the write enable signal. f Fig 7> 1 1133691 2