SU918891A1 - Method of checking non-linear amplitude distortions of tv-set brightness signal receiving network - Google Patents

Description

The invention relates to electrical engineering and can be used in the adjustment of television receivers in conditions of mass production.

Closest to the proposed selection by technical nature is a method for monitoring non-linear amplitude distortions of the receiving path of a TV for a brightness signal, which consists in generating an input test signal of the receiving path by modulating the voltage of the carrier frequency; images with sawtooth pulses with a sinusoidal '·' 5 nozzle repeating from a frequency of lines, converting the test signal to the receiving path into video pulses, extracting voltage from the video pulses with a sinusoidal frequency, an adjustment carrying information about non-linear distortions, and displaying this information on the screen cathode ray tube [1]. 25

The disadvantage of the known method ⁵ is the low efficiency of control, due to the large number of operations carried out using measuring instruments. .

The purpose of the invention is to increase the efficiency of control.

This goal is achieved by the fact that according to the method for monitoring non-linear amplitude distortions of the television receiving path for a luminance signal, which consists in generating an input test signal of the receiving path by modulating the voltage of the image carrier frequency with sawtooth pulses with a sinusoidal nozzle, repeated with a line frequency, converting the test one _; ^: } the signal is received by the receiving path into video pulses, extracting a voltage from the video pulses carrying information on nonlinear distortion and displaying this information on the cathode ray tube screen, a sawtooth pulse voltage with a linearly changing amplitude is formed, the maximum value of which is equal to the maximum value of the envelope of the sinusoidal nozzle, with a constant '* with a speed corresponding to the vertical grid scale size convenient for reference, and a repetition rate equal to the frame rate, form in int vomited duration sawtooth wave voltage pulses mae3-scale grid, compared to the stored voltage of the sinusoidal envelope of the nozzle generated from past receiving channel video pulses with a sawtooth pulse voltage formed at the moment of equality quantized amplitude 'pulses to profess. they use the sum of these pulses and pulses of the scale grid to control the brightness of the kinescope and determine the amount of nonlinear distortion in percent by the position of the image of the amplitude characteristic, obtained as a set of points illuminated in rows, relative to the scale grid on the picture tube screen of the TV being tested.

The drawing shows a device that implements the proposed method.

The device consists of a TV 1, including a receiving path and a kinescope, a source 2 of the image carrier frequency, modulated by sawtooth pulses with a sinusoidal nozzle, repeating '25 • with a line frequency, a generator of 3 pulses of a large-scale grid, detector 4 of the envelope voltage of the sinusoidal nozzle, unit 5 for extracting and storing the maximum value βθ of the envelope of the sinusoidal nozzle, generator 6 of a sawtooth pulse voltage with an amplitude proportional to the maximum value of the og. a working sinusoidal nozzle, with a constant duration corresponding to a convenient vertical grid size report, and a repetition rate equal to the frame rate of the comparator 7, adder 8, and backlight pulse generator 9. 'The method is implemented as follows. <

Before starting the control, turn off the output of the image path of the tested TV 1 from the control electrode of the tube and. connect it to the input of the detector '4. Connect the output of the shaper 9 pulses to the control electrode of the kinescope! illumination, the input of the receiving path of the TV 1 is connected with the output of the voltage source 2 of the image carrier frequency. They turn on the power of all the units of the device and feed the test channel of the TV 1 with the test signal from the output of the source 2, and use a generator 3 to form a large-scale grid of dimensions convenient for reading. Then, using the detector 4, the envelope voltage of the sinusoidal nozzle is isolated, and with the help of block 5, the maximum value of the envelope of the sinusoidal nozzle is extracted and stored for the time N periods of the horizontal frequency used to form the vertical scale grid. The stored voltage of the maximum envelope is fed to the input of the generator 6, synchronized by frame and horizontal sync pulses. Pulses of a sawtooth> shape with a linearly varying amplitude, the maximum value of which is equal to the maximum value of the envelope of the nozzle, are removed from the output of the generator 6. The duration of the pulses of the generator 6 is set by the control signal from the output of the generator 3 pulses of the scale grid and is equal to the duration N periods of the horizontal frequency used to form the scale grid vertically. At moments of inequality of the output signal of the detector 4 of the envelope of the nozzle and the output signal of the generator 6, pulses occur at the output of the comparator 7, which are added to the pulses of the generator 3 'of pulses of a large-scale grid in the adder 8? The driver 9 pulses of illumination brings the level of these pulses to the signal level necessary to control the brightness of the tube. As a result, the picture of the envelope of the sinusoidal nozzle on the background of the coordinate grid is received on the picture tube screen of TV 1. The equality of the maximum values of the output voltages of the detector 4 and the generator 6 ensures equality. the size of the image of the maximum envelope and the size of the scale grid vertically, regardless of the spread of the transmission coefficient of the path of various TV sets.

Dependence is displayed on the tube screen

To _n = F (U), where To _n - the coefficient of nonlinear amplitude distortion;

U is the brightness level.

The magnitude of the nonlinear amplitude distortion at various brightness levels is determined by the position of the image points of the envelope relative to the marks of the scale grid. The vertical marks correspond to the values of non-linear amplitude distortions in percent, the horizontal marks correspond to the values of the sawtooth-shaped pulse levels at the input of the receiving path (i.e., the brightness levels) in relative units.

The proposed method allows to increase the efficiency of control of nonlinear amplitude distortions in mass production and reduce its complexity

Claims (1)

1. State All-Union Standard of the USSR 9021-78 (prototype).