DE2058611A1 - Circuit arrangement for correcting the horizontal linearity in television display devices - Google Patents

Description

Circuit arrangement for correcting the horizontal linearity in Television playback devices The invention relates to a circuit arrangement for correction the horizontal linearity in television display devices, especially in 110 ° deflection tubes, in which a capacitor for tangent equalization in the horizontal deflection circuit in series is switched.

The radius of curvature of a screen is generally greater than the distance of the deflection coils from the center of the screen. Hence when you get a constant voltage is applied as the deflection voltage during the line trace, which corresponds to a linear increasing deflection current, a so-called tangent distortion, at the deflection speed of the electron beam which is dependent on the deflection angle on the screen, the image is compressed in the middle and stretched at the edges appears. This image error can for the most part be known per se so-called tangent capacitor, which is in series in the deflection circle, balanced will.

A parabolic voltage is applied to this tangent capacitor, which has the effect that in the deflection coils an approximately S-shaped, in relation to the center of the image symmetrical deflection current is induced. This measure is common Television tubes, especially with the 90 ° picture tube for a symmetrical correction of the deflection current sufficient.

As a result of the resistance losses in the deflection transformer and in the deflection circuit an asymmetrical one that is proportional to the deflection and thus to the trace time appears Deflection error, which results in an unsymmetrical distortion of the image. For correction this asymmetrical image error is known as linearity regulator, which causes a voltage drop compensate due to Ohn's losses. They are also used for this purpose Circuits known in which a voltage generated via an auxiliary winding and an oscillating circuit a correction current directed opposite to the deflection current operates in the distraction circle. However, these measures only allow corrections in principle of asymmetrical picture distortions or asymmetrical corrections of symmetrical Image distortion, but not symmetrical corrections of symmetrical Bi: 'd distortions.

The invention is based on the object by means of a circuit arrangement an additional correction for the symmetrical one to the correction with the tangent capacitor To produce image distortion. This is for high quality televisions and in particular for picture tubes with large deflection angles (1100) of particular importance.

According to the invention, this is achieved in a simple manner by that in parallel with the capacitor for the tangent equalization, a second capacitor and an inductance connected in series with the second capacitor is placed, wherein the one from the capacitor and from the second capacitor and the Inductance on the other hand formed resonant circuit is tuned in such a way that the applied to the capacitor The voltage curve is symmetrical to the center of the picture Corrective component received. It is particularly advantageous if the said resonant circuit to about the third harmonic of the line trailing as a half oscillation, accordingly matched approximately the second harmonic of the fundamental with line frequency is.

The total deflection time minus the Time for the rewind to understand. The named third harmonic then has a fundamental oscillation whose half period corresponds to the line trace time. So are three semi-oscillations of the third harmonic mentioned in the trace time contain. The phase of the harmonics mentioned is selected in such a way that a Maximum of the harmonics added to the vertex of the parabolic voltage.

Using the biguren, the invention and its mode of action is exemplified explained in more detail, FIG. 1 showing the course of the linearity deviations over the Screen width in percent for the various corrective measures.

Fig. 2 shows the schematic circuit arrangement according to the invention and 3 shows the voltage curve on the tangent capacitor without and with the inventive Measure shows.

In Fig. 1 are the deviations in linearity from the zero line shown in percent depending on the screen width divided into 14 fields. The solid curve 11 indicates the linearity curve over the width of the image, if only the tangent capacitor is connected as a correction element in the deflection circuit is. The curve shows a strong deviation from linearity, especially on Screen edge.

With an appropriately dimensioned linearity controller of the known In principle, you only get a correction of the linearity curve of curve 11 on one side of the screen, so an unbalanced correction like it the course of curve 12 in FIG. 1 shows. Curve 13 of FIG. 1 finally gives the improved and symmetrical achieved due to the Schsitungsanordnung according to the invention corrected linearity curve again.

In Fig. 2, the Schal.tungsprinzip is shown according to the invention. The secondary winding 2 of the deflection transformer 1 is with one end to the Deflection unit connected directly. The other end of the secondary winding 2 st over one Linearity controller 4 and the tangent capacitor 5 to the other connection of the deflection unit 3 laid. The linearity regulator 4 is a resistor 5 (1.5 k) and the tangent capacitor 6 (300 nF) a capacitor 7 (47 nF) and an inductor 8 (0.6 mH) in series are connected in parallel.

placed.

in the absence of the capacitor 7 and the inductance 8 arises across the capacitor 6 the known parabolic voltage for tangent equalization, as shown in Fig. 3, curve 31, and with which a linearity curve according to curve 11 of FIG. 1 is achieved.

According to the invention, the circuit elements 6, 7 and 8 now form a parallel resonant circuit, this resonant circuit is on a harmonic of the line frequency matched, the resistance of the resonant circuit becomes large for this harmonic.

This means that above the capacitor 6 except for the parabola.

voltage according to FIG. 3, curve 31 an additional voltage component occurs with the frequency of a harmonic of the line frequency, which is the parabolic voltage superimposed.

In this way it is possible to measure the parabolic voltage on the capacitor 6 to be modified in such a way that the correction of the symmetrical linearity is essential can be improved.

Using the above-mentioned special dimensioning example of the Elements 6, 7 and 8 and with reference to FIG. 3, this should be clarified again. The parallel resonant circuit corresponds to the values for elements 6, 7 and 8 approximately on the third harmonic of the parabola as a half-oscillation, that of about the second More harmonious. corresponds to the fundamental oscillation with line frequency, tuned. Through this this circle represents a high resistance for this frequency, so over the capacitor 6 builds up a voltage, as indicated in FIG. 3, curve 33 is. By superimposing the parabolic voltage and the voltage according to the curve 33 results in a resulting, corrected parabolic voltage, as shown in FIG. 3, curve 32 is shown in dashed lines. With this modified parabolic voltage is obtained a deviation of the linearity according to curve 1 in Fig.1.

From this it can be seen that the correction is particularly important for the picture cattle the raster distortion could be significantly improved Patent claims:

Claims (2)

Claims: 1. Circuit arrangement for correcting the horizontal Linearity in TV playback devices, especially in 110 ° deflection tubes, in the a capacitor for tangent equalization connected in series in the horizontal deflection circuit is, characterized in that in parallel with the capacitor (6) for the tangent equalization a second capacitor (7) and one connected in series with the second capacitor (7) Inductance (8) is placed, the one from the capacitor (6) on the one hand and formed from the second capacitor (7) and the inductance (8) on the other hand The parallel resonant circuit is tuned in such a way that the one applied to the customer station (6) Voltage curve, a correction component that is symmetrical to the center of the image is given. 2.) Schaltungsanorlnung according to claim 1, characterized in that from the capacitor (6) on the one hand and from the second capacitor (7) and the inductance (8) on the other hand formed parallel resonant circuit to an almost harmonic harmonic of the line trace as a Ralb oscillation, preferably on about the third harmonic of the line trace as a half oscillation, accordingly about the second harmonic of the fundamental oscillation with line frequency is.