DE2009530B2 - Dynamic horizontal focussing circuit for colour television receiver - has two setting potentiometers between mag. coils two drive transistors - Google Patents

Abstract

The dynamic horizontal focussing circuit, for colour television receivers has two potentiometers to set the focussing. The red and green focussing coils are each coupled to a transistor driven by a second transistor cross-coupled to both focussing coils. The first potentiometer is connected between the emitters of the two emitter-follower drive transistors; and the second potentiometer is coupled between the biassed bases of the same two transistors. The setting circuit allows the focus to be adjusted independently during both the first and the second parts of the sweep period and to increase the range of this adjustment.

Description

In a color television receiver with a picture tube with three electron beams for the colors red and green. As is well known, additional funds are required to reduce the convergence of the electrical radiation on the blue Cause screen, d. H. make sure at all On the screen the three electron beams hit the color points of the same color triplet. For this it is known (DT-PS 10 13 690), each of the three electron beams an electromagnet with convergence coils to be assigned, which acts on the pole pieces arranged inside the tube and for each of the beams separate, individually adjustable convergence correction magnetic fields generated.

The convergence coils of these magnets have to be fed with an approximately parabolic correction current for the horizontal convergence, i.e. for the coverage of three matching vertical color lines R, G, B , which drops from the beginning of the line to the middle of the line to about zero and then to the end of the line again increases in a parabolic manner.

It is known (DT-AS 12 79 722), each of the convergence coil via a diode only during the second Hin !? Γ: Should a sawtooth voltage be applied, the one in the convergence coil is roughly parabolic increasing electricity generated. The convergence coil becomes one by means of connected components Tuned resonant circuit that the current flowing in the second half of the trace after a kind of energy recovery during the first half of the trace, an approximately parabolic falling current in the convergence coil generated. By adjusting the amplitude of the applied sawtooth voltage, the Convergence during the second half of the trail and, to a lesser extent, during the first half of the trail set. For additional adjustment of the convergence during the first half of the route independently from the second half of Hinlaaf it is known that the Convergence coil on during the line retrace time additional pulse, adjustable in amplitude, ins special to apply a return line pulse. With With this pulse, the parabolic current can be adjusted during the first half of the trace.

With a known circuit of this type (circuit proposal »convergence circuit for 90 ° and 110 ° color picture tubes «from Siemens from 6/8/1969) a pair of transistors in common emitter circuit is provided a convergence coil for red and green is switched on in each of the collector circuits. the The bases of the two transistors are connected to one another via two parallel potentiometers. At the wiper of the first potentiometer is the mentioned pulse that occurs at the beginning of each line and to the Sniper of the second potentiometer during the second half of the trace that conducts the Tiansistors controlling sawtooth voltage applied. The first potentiometer then essentially adjusts the current during the first half of the path and with the second potentiometer the current during the second half of the path set.

This known circuit still has the following after parts. Because the two potentiometers are connected in parallel to each other Lind, there is a mutual influence of the two attitudes. If z. B. the convergence during the first half of the journey. so in the left half of the picture, is set, changes to undesirable ter way the convergence during the second half of the route. so in the right half of the picture, or vice versa returns. Such an influence is undesirable because it requires multiple mutual readjustments and you want to adjust the convergence in the two halves of the image as independently of one another as possible. The potentiometers connected in parallel also limit the setting range because they are between the bases the value of their parallel connection is effective. If one were to increase the resistance value of the potentiometer, a larger amplitude of the applied voltages would be required, especially for the sawtooth voltage is usually not readily available.

The invention is based on the object of developing the known circuit described last so that that the settings of the convergence during the first and during the second half of the trace im are essentially independent of one another and the setting ranges are increased.

This object is achieved by the one described in claim 1 Invention solved. An advantageous embodiment of the invention is specified in claim 2.

The circuit according to the invention achieves several advantages at the same time. Through the separation the two potentiometers in such a way that they are connected to the bases of different transistors, the unwanted mutual influence is avoided, since now the two potentiometers through the driver transistors are decoupled from one another. The convergence can then occur during the first half of the outward journey, that is, in the left half of the picture and that during the second half of the journey, that is, in the right half of the picture can be set largely independently of each other. The fact that in each case between two bases of the Transistors only have one potentiometer, there is no unwanted load from the other potentiometer as with the known circuit. Thereby the adjustment range for both supplied voltages, i. H.

both halves of the picture, heightened

Since the sawtooth signal is passed through the driver transistors in the circuit according to the invention, created an additional reinforcement for this. This is advantageous because the sawtooth voltage S In the receiver there is usually only a limited amplitude available for the at the beginning of the line the pulse applied to the transistor pair, this amplification is not effective. But this is not the case either required, because such a pulse as a flyback pulse is always the flyback transformer with sufficient Amplitude can be taken.

For a more detailed explanation of the invention is given below an embodiment described with reference to the drawing. This shows in '5

F i g. 1 the circuit according to the invention.

F i g. 2 a correction curve profile.

In Fig. 1 shows a circuit for the dynamic correction of the convergence of the red and green cathode rays of a color picture tube of the shadow mask type which has a transistor pair 1, 2 with upstream driver transistors 3.4. The base electrodes of the transistor pair 1. 2 are connected to one another via a potentiometer 5 and the base electrodes of the two driver transistors 3, 4 via a potentiometer 6. The transistors 1, 2, 3, 4 are provided with load resistors 7,7a, 8, Sa in order to ensure the setting of the operating point. In the collector circuit of each of the two transistors 1, 2 a convergence magnet coil 10 or 9 is switched on, to which a capacitor 12 or 11 is connected in parallel. The convergence magnet coils 9, 10 are each part of an oscillating circuit that is damped by a resistor 13 and 14, respectively. With RC elements 15a, 16a, 17a or 156, 166, 176 in the emitter circuit of the transistors 1, 2, a negative feedback can be achieved. The wiper of the potentiometer 6 is connected via a diode 18 to the wiper of a potentiometer 19 which is connected in series with a capacitor 20 and a resistor 21 between a sawtooth voltage source 22 and ground. An approximately parabolic increasing voltage is therefore available at the wiper of the potentiometer 19, the amplitude of which, and thus the steepness, depends on the wiper position. Dt-r slider of potentiometer 19 is also connected via resistors 23, 24 to a source of approximately constant voltage, with which the opening point of diode 18 and the operating point of transistors 3, 4 can be set Tapping of a potentiometer 26 and connected to ground via a capacitor 27. The potentiometer 26 is connected between ground and - via a resistor 28 - a source of line return pulses

In the circuit described so far, the sawtooth voltage comes from the wiper of the potentiometer 19 to diode 18, which only lets through the positive part. This one, assigned to the second upstream part (right half of the picture) Part arrives with a position corresponding to the wiper position of the potentiometer 6 and the input network 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 magnet coils 9 and 10, correspondingly parabolic increasing currents, as in FIG. 2 for a convergence solenoid shown at the end of the Transistors 1, 2, 3, 4 are blocked and so are the trailing edge or at the zero crossing of the trailing edge Current flow in the convergence magnet coils 9, 10 interrupted so quickly that the stored magnetic Energy in turn causes a current flow, the course of which determines the dimensioning of the oscillating circuit 9, 11, 13 and 10,12,14 respectively. The currents due to the stored energy charge the capacitors 11, 12 and thereby cause parabolic decay Current runs in the convergence coils 9, 10, which in the first trace part drop to zero approximately in the middle of the line. This current flow already represents a close approximation of the desired correction process (Basic correction). To achieve an optimal correction, the wiper of the potentiometer 5 is supplied with an additional pulse current which is obtained from the line retrace pulses. This additional pulse stream increases the energy content of the oscillating circuits 9, 11, 13 or 10, 12, 14 and changes it during the return thus the curve shape of the current in the first trailing part.

Because the two control signals (sawtooth and Additional impulse) via the potentiometers 5, 6, which act as balance controls - with which the vertical lines of "red" and "green" are made to coincide - is a linear distribution of the control currents for red and green possible depending on the slider position of the balance controller 5, 6.

1 sheet of drawings

Claims (2)

Patent claims: 1. Circuit for setting the dynamic horizontal convergence in a color television receiver with a transistor pair in common emitter circuit. in each of their collector circles there is a convergence coil and between their bases two parallel-connected Potentiometer lie, with the wiper of the first potentiometer at the beginning of the line Impulse and that of the second potentiometer during the second half of the increase both transistors Conductive controlling sawtooth current is supplied and the convergence coils through connected Components are tuned in the resonance frequency so that in the second half of the trace in Energy stored in the convergence coils during the first half of the trace in the convergence coils generates a current falling to zero, characterized in that each of the Transistors (1,2) of the transistor pair a driver transistor (3. 4) is connected upstream. and that the first potentiometer (5) between the bases of the transistor pair (1. 2) and the second potentiometer (6) between the bases of the driver transistors (3. 4) lies. 2. Circuit according to claim 1, characterized in that that the driver transistors (3, 4) are connected as emitter followers. 30th