DE2165003A1 - CIRCUIT ARRANGEMENT FOR CORNER CONVERGENCE ERROR CORRECTION IN THREE-BEAM SCREENS - Google Patents

Description

Circuit arrangement for corner convergence error correction in three-beam picture tubes The invention relates to a circuit arrangement for corner convergence error correction with three-beam picture tubes.

With three-beam picture tubes with two diametrically on the neck of the picture tube oppositely arranged line deflection sub-coils are the electron beams so focused on the screen that they converge in the plane of the shadow mask and color triples on the screen corresponding to the arrangement of the phosphor dots depict. With the known three-beam tubes with dynamic readjustment of the convergence and pillow rectification, it is possible to create an image that corresponds to the original without any color deviation to avoid due to incorrect illustration. With three-beam picture tubes with larger Deflection angles, e.g. 10o, are difficult to achieve just by distributing the windings in the Partial coils to achieve a deflection field in which aberrations in the image corners are avoided when taking into account a "landing reserve" for the color unit. To correct the corner convergence errors, it is known in such arrangements, to connect the two line deflection coils in series and in the center tap convergence currents feed in such a way that they add to the deflection current in a coil and in subtract from the other coil. This preserves the deflection field in the cross-sectional plane a trapezoidal shape showing the corner flaw by twisting and compensates for an uneven shift in the groups of rays in the corners of the image. This known "differential current generator" requires one with two deflection generators relatively large effort. A differential current control is used to correct the corners of the vertical lines extremely difficult in the vertical deflection coils. That is why these errors corrected via a special radial convergence.

The radial corner convergence is in principle achieved by modulating the on the horizontal convergence coils standing line-frequency voltage with a frame rate Causes tension. This modulation requires such control of the source resistance the line-frequency control voltage that this both increases and decreases can be. It is known (TELEFUNKEN speaker 54/19, page 40 Fig. 4) for this Control two derived from a push-pull winding of the vertical deflection transformer exploiting out-of-phase voltages.

However, such voltages are not always available, e.g.

then not if the vertical deflection circuit is "ironless" is because normally only single-phase sawtooth voltages are available there.

The invention is based on the object of a setting and / or Control of the radial corner convergence even without using a push-pull winding to achieve.

The invention consists in that between the base and emitter electrodes of the transistors two potentiometers connected in parallel with a grounded tap are switched on that the wiper of the potentiometer via diodes with a source a single-phase vertical frequency sawtooth voltage are connected, and that the Diodes are polarized in such a way that in each potentiometer pair a slider matches the first The leading half corresponding part of the sawtooth voltage and the other wiper receive the part of the saw tooth tension corresponding to the second half of the

To explain the invention in more detail, an exemplary embodiment is given below described on the basis of the drawing. This shows in Fig. 1 a simplified known one Circuit for corner convergence correction with generation of a two-sided modulation voltage by push-pull winding Fig. 2 shows a circuit for obtaining the two-sided modulation voltage from single-phase sawtooth voltages and shunt control.

In Fig. 1 is a circuit for dynamic correction of convergence of the red and green and blue cathode rays of a shadow mask type color picture tube shown, the a pair of transistors 1,2 with upstream driver transistors 3.4 has. The base electrodes of the pair of transistors 1, 2 are via a potentiometer 5 and the base electrodes of the two driver transistors 3, 4 via a potentiometer 6 connected to each other.

The transistors 1,2,3,4 are provided with emitter resistors 7,7a, 8,8a, to ensure the operating point stability. In the collector circuit of each of the two Transistors 1.2, a convergence solenoid 9 or -10 is turned on, the one Capacitor 11 or 12 is connected in parallel. The convergence solenoids 9,10 are part of each resonant circuit, which is controlled by a resistor 13 or 14 is damped. The wiper of the potentiometer 6 is via a diode 18 with the Slider connected to a potentiometer 19, which is in series with a capacitor 20 and a resistor 21 connected between a sawtooth voltage source 22 and ground is. On the wiper of the potentiometer 19 there is therefore an approximately parabolic rising Sawtooth voltage available, the amplitude of which depends on the position of the grinder. Of the The wiper of the potentiometer 19 is additionally via resistors 23,24 with a Source of approximately constant voltage connected, with which the opening point of the diode 18 and the operating point of the transistors 3, 4 is adjustable. The wiper of the potentiometer 5 is over a diode 25 with the tap of a potentiometer 26 and connected via a further diode 28 to a source of retrace pulses. The potentiometer 29 is in series with a capacitor 27 between ground and cathode the diode 29 is switched on.

In the circuit described so far, the sawtooth voltage is applied from the wiper of the potentiometer 19 to the diode 18, which only lets through the positive part. This part, which is assigned to the second upstream part (right half of the picture), is included one of the wiper position of the potentiometer 6 and the input network corresponding Amplitude distribution to the base electrodes of the driver transistors 3, 4 and causes after further amplification in the transistors 1,2 in the convergence solenoids 9 and 10 correspondingly increasing currents in the form of a parabolic. At the end of the outward run or at the zero crossing of the trailing edge, the transistors 1, 2, 3, 4 are blocked and so the flow of current in the convergence magnet coils 9,10 interrupted so quickly that the stored magnetic energy in turn causes a current flow, its The procedure corresponds to the dimensioning of the resonant circuit 9, 11, 13 or 10, 12, 14. The current due to the stored energy charges the capacitor and causes a parabolic decaying current curve in the convergence coil, the one in the first trailing part drops to zero approximately in the middle of the line. This flow of current is already an extensive one Approximation to the desired correction process (basic correction). To achieve For an optimal correction, the wiper of the potentiometer 5 receives an additional pulse current which is obtained from the line retrace pulses. This additional pulse stream increases the energy content of the oscillating circuit 9, 11, 13 or 10 during the return, 12,14 and changes the curve shape of the current with the help of the RC elements 29,27 in the first leg.

For corner convergence correction in this known circuit, the Connection points A and B of the diodes 18,25 with the i'oentiometers 5,6 with each the collector electrode of each transistor 30.31 in common emitter circuit connected, their base electrodes connected to two potentiometers 32,33 and 34,35 respectively are. As each of these potentiometers have rectifiers 36,37,38,39 with the ends a push-pull winding of the vertical deflection transformer is connected, are the Transistors 30,31 controllable in both directions. They thus form a controllable one Shunt at points A, B of the convergence circuit.

Fig. 2 shows a circuit according to the invention with the same output voltage the corner convergence circuit for the terminals A, B, but with the acquisition of this Modulation voltage from a single-phase sawtooth voltage. This is done through two potentiometers 40, 41 and 42, 43 connected in parallel with a grounded center tap 44,45,44a, 45a connected between the base and emitter electrodes of the transistors 30,31 are. The single-phase sawtooth voltage is applied to the potentiometer sliders 46, 47, 46a, 47a supplied via diodes 48,49,50,51 such polarity that with each potentiometer pair 40.41 or 42.43 one potentiometer the first and the other potentiometer the second half of the feed is fed. Depending on the position of the potentiometer wiper the sawtooth voltage is fed to the base or emitter electrode and so the internal resistance of this transistor increases or decreases. That way you can with the four potentiometers 40 - 43 the convergence in each corner area after both Directions can be varied.

The invention is not limited to circuits in which - how in Fig. 1 - the convergence currents generated according to the principle of energy recovery will. Rather, the circuit according to the invention is also used in amplifier convergence circuits applicable, as for example in the magazine Valvo "Development Communication" November Described in 1969 about deflection and correction shells for the 1100-color picture tube are.

The circuit is also a corner convergence of the blue-radial convergence suitable.

Claims (2)

P a t e n t a n s p rü ch e 1. Circuit arrangement for corner convergence error correction at Three-beam picture tubes, in which a line-rate convergence voltage with a frame rate voltage can be modulated in both directions, characterized in that that between the base and emitter electrodes of the transistors (30,31) two in parallel switched potentiometer (40,41,42,43) with grounded tap (44,45,44a, 45a) switched on are that the wiper (46,47,46a, 47a) of the potentiometer (40,41,42,43) via diodes (48,49,50,51) with a source of single-phase vertical frequency sawtooth voltage are connected, and that the diodes (48,49,50,51) are polarized so that in each potentiometer pair (40,41 and 42,43) a grinder the part corresponding to the first half of the barrel the sawtooth tension and the other wiper the one corresponding to the second half of the trace Part of the sawtooth voltage receives. 2. Circuit arrangement according to claim 1, characterized in that the transistor switched on as a controllable shunt to the input of the convergence circuit is. Blank page