SU140121A1 - Method for measuring nonlinearity of line scan - Google Patents

Description

A known method for measuring the nonlinearity coefficient of sweeps in front of television tubes consists in designing the target of the test table, which is a system of equal bands, widths perpendicular to the rows, followed by measuring the time intervals between the video signal pulses. Izzgstn; Also the device for carrying out this method.

It is proposed to use in the device for measuring the nonlinearity coefficient by the method in which a system of bands perpendicular to the rows, a marker quartz generator 10p, is designed for the target to increase the measurement accuracy.

To determine the nonlinearity coefficient of a sweep line, a measurement is used of the pulse frequency of a video signal created by projecting onto the target of a transmitting television tube a system of transmitted black and white stripes of equal width perpendicular to the lines. To do this, the video signal from the channel output through the limiter in positive numbering is fed to the input of a push-pull frequency detector, the output voltage of which is proportional to the nonlinearity coefficient of the scan being studied, 1: stops the oscilloscope's vertical deflection to the input of the amplifier. The sweep of the latter is synchronized with the frequency of the sweep device under study. Simultaneously, from the output of the limiter, the frequency-modulated test signal is fed to the input of the mixer, where it is mixed with the signal from the marker crystal oscillator, the main frequency of which is a fraction of the average test pulse frequency and is determined by the required reading accuracy and maximum deviation of the test pulse frequency .

With the coincidence of one of the highest harmonics of the fundamental frequency of the quartz oscillator with the instantaneous frequency of the following pulses, test # 140121 2 -

A high voltage pulse is generated at the output of the mixer, which is then applied either to the input of the vertical deflection amplifier or to the oscilloscope tube modulator, creating either an amplitude or a peak on its screen.

Thus, on the oscilloscope screen, there will be observed a curve of change in the nonlinearity coefficient of the scanner device under study. The magnitude of the nonlinearity coefficient is counted directly from the number of calibrated marks placed along the curve from its point of intersection with the zero line to the point at which the measurement was taken. The null line is punctured on the oscilloscope screen during the reverse stroke of the scan under investigation when the frequency detector is locked with a dead-pulse. SUBSTITUTE is also fed to a modulating electrode or cathode of an oscilloscope tube to illuminate the zero line.

In order to eliminate the measurement error resulting from inaccurate installation of the test table on the targets of the transmitting tube, the harmonic of the marker generator, which is equal to the average frequency of the test video signal bands, is further enhanced so that the calibration marks corresponding to the frequency of this harmonic on the oscilloscope screen are significantly superior t rest. Before starting the measurement by zooming in the image of the test test table on the target of the transmitting tube, these enhanced intensity calibration marks are set at the intersection points of the curve of nonlinearity of the sweep with the zero line, which guarantees the accuracy of the installation of the test chart on the target of the transmitting tube.

Subject invention

Use in a device for measuring the nonlinearity coefficient of horizontal scanning of transmitting television tubes according to the method in which a target is designed to have a system of strips perpendicular to the rows of a marker quartz oscillator to improve measurement accuracy.