DE2010814A1 - Circuit for the correction of pillow distortions in the vertical direction (N S) in cathode ray tubes with wide angle deflection - Google Patents

Description

Circuit for correcting pincushion distortions in the vertical direction (N-S) in cathode ray tubes with wide angle deflection The invention relates to a Circuit for correcting pillow distortions in the vertical direction (north-south) for cathode ray tubes with wide angle deflection, especially for color television receivers.

It is known the pincushion distortion in color television receivers to eliminate by means of a transductor from the line and image deflection pulses derives a correction voltage. However, transducers are sufficient for larger corrections often not off.

A circuit is also known (VALVO information on color television receiver technology, Page 23) in which a) the vertical deflection current is essentially parabolic, line-frequency correction current with an amplitude dependent on the vertical deflection is superimposed, b) the correction current by means of a tuned to the line frequency Parallel resonance circuit is obtained, which is at the junction of two of one Potentiometer bridged capacitors connected by line flyback pulses periodically charged via rectifier, e) the tap of the potentiometer is connected to a source of vertical frequency sawtooth currents. With this well-known Circuit, the parabola required per se is approximated by a cosine shape, which brings a considerable reduction in effort.

As a result of this deviation, however, horizontal lines (especially clearly visible at the lower and upper edge of the picture) not exactly straight, but as light written wavy lines. Considerations, the correction variable supplied to the steering coil Influencing by a suction circuit towards mass, could not be satisfactory so far Bring results. The main cause of this failure could be that the correction voltage at the decisive for the phase of the correction oscillation Apart from the line-frequency fundamental wave, the coil contains practically no harmonics, which could be influenced by a series resonance circuit. The invention is based on the task of a circuit for correcting the remaining Indicate ripple. The invention consists in that in series with the parallel resonant circuit another parallel resonant circuit is connected and that the further parallel resonant circuit is tuned so that an extreme value of the excited oscillation is approximately in the middle of the line and the period of oscillation is approximately equal to the time interval between two pixels is the greatest vertical deviation from the ideal course of a line.

To explain the invention in more detail, an exemplary embodiment is given below described with reference to the drawings. These show in Fig. 1 a circuit according to of the invention FIGS. 2, 3 and 4 curves to explain the mode of operation of the invention.

Fig. 1 shows a vertical deflection circuit having a vertical output tube 1, in the anode circuit of which the primary winding of a vertical output transformer 2 is switched on is. Deflection coils 3 are connected in the secondary circuit of the vertical output transformer 2 and a series resonant circuit 4 which is tuned to the line frequency. the the side of the deflection coils facing away from the secondary winding of the vertical output transformer 2 is via an inductance 5, the so-called phase coil, with Nasse or a sur Adjustment of a picture shift serving DC voltage source connected.

A correction current is applied to the deflection coils 3 of this circuit fed in; to correct pincushion distortion in the vertical direction. The correction current is an essentially line-frequency, parabolic current with an amplitude which is proportional to the vertical deflection. In the circuit shown in FIG the parabolic shape of the correction current is approximated by a cosine shape. this happens through a parallel resonance circuit 6, which is connected to the tap 7 of two capacitors 8 and 9 is connected via diodes 10 and 11 and resistors 12 and 13, respectively are connected to sources 14 and 15 of positive and negative return pulses, respectively. Parallel to the capacitors 8,9 which are also replaced by the resistors 12,13 The series connection of three resistors 16,17,18 lies with the one in the middle Resistor 18 is designed as a potentiometer. The tap of the potentiometer 18 is at a source of vertical frequency sawtooth voltage with the insertion of a RO circuit 20.21. A potentiometer is located parallel to the parallel resonance circuit 6 22, 23 whose tapping via a resistor 24 is connected to the control electrode circuit of an amplifier circuit 25 is supplied, the output current of which is fed into the deflection coil circuit via a coupling capacitance 26 3 is fed in. The mode of operation of the circuit described so far is in the brochure "Information about color remote receiver technology" from VALVO in detail described. This circuit has the disadvantage that it approximates a parabolic Correction current through a cosine shape still has a ripple of the lines in particular at the top and bottom of the picture. This is where the invention comes in, in which in series A further parallel resonance circuit 27 is switched on to the parallel resonance circuit 6 whose dimensioning is chosen so that an extreme value of the excited SchwinguMg lies approximately in the middle of the line and the ßchwinwgsdauer approximately equal to the time interval of two pixels is the greatest vertical deviation from the ideal course of a line.

The resonance circuit 6 is tuned to the line frequency and generated via the amplifier and at its output through the coupling capacitor 26 and the phase coil 5, the series resonance circle formed the basic correction for the pincushion distortion. The second Parallel resonance circuit 27 is tuned so that he the prevents remaining ripple, in a practically tested embodiment this is the case when tuning to 36 KHz if the line frequency is 15 625 Hz is. The fact that 36 KHz is not a whole multiple of the line frequency, it seems surprising that the excitation does not take place in resonance. This is likely be due to the fact that the duration of the echo has an influence here. to When dimensioning the circuit, it is particularly important to ensure that the circuit is attenuated is harmful because it oscillates freely for 22 and an excessive drop in amplitude of the second vibration makes itself so noticeable that the left and the right Half of the image show differently good corrections.

Fig. 2 shows an ideal course of the north-south correction current.

a fairly exact parabola for the correction current is shown here. 3 shows the cosine-shaped correction current used in the known circuit vad Fig. 4 shows the cosine-shaped correction current and the additional correction current composite total correction current as it is in the circuit according to the invention is fed to the deflection coils.

Claims (1)

Patent ta n s P r UC h Circuit for correcting pincushion distortions in the vertical direction (North-South) for cathode ray tubes with wide-angle deflection, where a) the vertical deflection current an essentially parabolic, line-frequency correction current with one of the vertical deflection-dependent amplitude is superimposed, b) the correction current obtained by means of a parallel resonant circuit tuned to the line frequency at the connection point of two coupling elements bridged by a potentiometer is connected to which line return pulses are periodically fed via rectifiers c) the tap of the potentiometer to a source of vertical frequency sawtooth currents is connected, characterized in that in series with the parallel resonant circuit (6) a further parallel resonance circuit (27) is connected and that the further parallel resonance circuit (27) is tuned so that an extreme value of the excited oscillation is approximately in the middle of the line and the period of oscillation is approximately equal to the time interval between two pixels is the greatest deviation from the ideal course of a line.