DE2741012C2 - Circuit for east-west pillow correction in a color television receiver - Google Patents

Description

In the case of a color television receiver, it is known that what is known as a color television receiver is created without special corrective measures East-west pillow flaw, d. H. the image width is. at the top and bottom of the picture opposite the Center too big. It is known to eliminate this error (Funkschau 1966, issue 22, pages 689 to 690), the line deflection current increases in amplitude by a vertical frequency correction voltage modulate so that its amplitude is reduced at the top and bottom of the picture. The modulation of the Line deflection can be done with passive components such as a transducer or by additional other modulators are made.

The sawtooth-shaped vertical frequency voltage derived from the vertical deflection circuit must are processed in the process. It must first be converted into a parabolic correction voltage, be adjustable for setting the correction amplitude and for controlling a Modulator necessary amplitude and power can be amplified.

In a known circuit (Telefunken color television receiver with chassis 712) a pincushion equalization amplifier is used for this provided with a total of four transistors. In this amplifier the amplitude the correction voltage, i.e. the amount of cushion correction, is set by a potentiometer that is between two transistor stages of the amplifier.

In addition, the operating point of a transistor stage can be set with a further potentiometer. Through this the correction voltage can be shifted in its DC voltage position. This option is used to Cessation of the line abortion. Because these settings must be independent of one another, a large number of components are required.

The object of the invention is to reduce the circuit complexity for such a circuit Preparation of the correction tension for the east-west pillow correction to reduce.

This object is achieved by the invention described in claim 1. Advantageous further training of the invention are described in the subclaims.

A circuit for correcting pincushion distortion in the horizontal direction has also been proposed (older German patent 26 40 785), in which with an integration stage in the form of a Miiler-Iniegrator a sawtooth voltage is converted into a parabolic voltage. The parabolic correction voltage seibsi is there by adding the voltage obtained in the integration stage with one in one Cosine generator obtained from vertical-frequency pulses cosine-shaped voltage. The task of setting the correction amplitude and the line amplitude separately using simple means to effect is not dealt with there, nor is it resolved.

A single-stage amplifier for east-west pillow correction is also known (DE-OS 24 24 174, in particular FIG. 3). This amplifier is designed as a magnetic amplifier. There, a change in the curve shape of a parabolic voltage in the trace center is achieved with a threshold circuit forming diode in the base circuit of a transistor, which is only conductively controlled by the control voltage during the trace center. This known circuit also contains neither a setting option for the DC voltage level of the correction voltage and thus the image width, nor a setting option for the alternating voltage gain for the purpose of changing the correction amplitude.
There is also a single-stage amplifier for generating a parabolic correction voltage known (Radio Mentor Elektronic, 1969, Issue II, pages 760-762, especially Figure 18), in which both the AC voltage negative feedback and the operating point with an adjustable resistance in the emitter circuit of the Amplifier transistor are adjustable. In this circuit, however, in contrast to the present invention, the AC voltage gain and the operating point of the transistor cannot be set independently of one another. When setting the mentioned resistance in the emitter circuit, both the operating point and the alternating voltage gain of the transistor change. In addition, this circuit does not contain any components which cause negative feedback from the collector to the base of the transistor.

The circuit according to the invention offers several advantages over the circuit in the chassis 712, First of all, in the context of the task at hand, several components, namely a total of about 1 Saved transistor, 6 resistors and 2 capacitors. Furthermore, the available operating voltage be better exploited. In the known circuit, the correction voltage is applied to the first fixed setting for both transistor stages of the amplifier

and can therefore only have a certain amplitude with regard to scatter. About this amplitude In addition, there is no further setting in the following circuit with the adjustable potentiometer possible. In the circuit according to the invention, on the other hand, both settings are made before and in conjunction with the first amplifier stage, which is directly connected to that derived from the vertical deflection circuit and shaped correction voltage is fed. This makes it possible to use the operating voltage Better use of the specified amplitude range for the correction voltage, as there are component tolerances can be compensated for by the setting reserves. Another advantage is that through the Adjustment of the alternating voltage negative feedback at the same time as the amplitude also changes the shape of the curve Correction voltage at the output of the amplifier is changed. This change in correction voltage takes place just in such a way that it is adapted to the practical needs for the correction. This will be done in the following explained

The circuit for pillow correction is generally designed as a module around this module as possible To be able to use extensively, there is a desire that with the same module besides the known 20-AX system, other deflection systems with regard to the OW cushion error can also be corrected. So are z. B. Japanese deflection systems, origin with significantly different pillow defects. If z. B. in the 20-AX system performs the equalization with a parabolic correction voltage, see above if a residual error remains, in which there is a constriction in the center of the image This corresponds to a 100 Hz oscillation, whose zero crossing is at the top and bottom of the screen and their maxima in the top and bottom lower third of the picture and in the middle of the picture. For the AX-Sysiem this residual error is to be eliminated therefore a parabola with a higher exponent is necessary. Is now with this circuit z. B. a If the Japanese deflection system is controlled, a residual error remains, the phase position of which is reversed to the residual error of the 20-AX system there is then a bulge in the center of the screen and a formation of lobes visible at the top and bottom of the picture. This error can be eliminated in itself, by using diodes to amplify or weaken the amplitude value in a given range (DE-OS 24 24 174). However, this solution requires an im If necessary, a plug-in adapter circuit that restricts the compatibility of the modules. The inventive The circuit adapts itself automatically to the setting of the correction amplitude changed conditions for the residual errors. The fact that Japanese Deflection systems only about a third of the correction amplitude like the 20-AX system. Since in the circuit according to the invention, the east-west correction amplitude is changed by changing the negative feedback, the exponent of the parabolic function can also be changed can be influenced and thus an amplitude-dependent adaptation to eliminate the residual error described can be achieved.

The invention is explained using the drawing using an exemplary embodiment. In it shows.

1 shows a block diagram of the deflection circuit with the amplifier according to the invention in principle Representation and

F- i g. 2 shows a practically tested embodiment for the amplifier according to the invention.

F i g. I shows a deflection circuit for a color television receiver. The picture tube 1, the line deflection circuit synchronized by line sync pulses 2, are shown 3, the line deflection coils 4, the vertical deflection circuit synchronized by vertical sync pulses 5 6 and the vertical deflection coils 7. The modulator 8 is in the circuit of the line deflection current switched on, which modulates the amplitude of the line deflection current in the sense of the east-west pillow correction. The modulator 8 is supplied by a vertical frequency parabolic correction voltage 30 from the output terminal 9 of the amplifier 10 controlled at its input terminal 11 by the vertical deflection circuit 6 a vertical frequency sawtooth voltage 12 is applied. The single-stage amplifier 10 has a adjustable AC voltage negative feedback, with which the pure AC voltage gain without shifting the DC voltage level of the signal at terminal S can be adjusted. With this setting, the desired pillow correction can be set. In addition, the operating point of the amplifier 10 and thus the DC voltage level of the signal ar; of terminal 9 adjustable. This adjustable DC voltage, which is superimposed on the alternating voltage, also acts as a modulating voltage on the modulator 8 and the Amplkjde of the line deflection current, so that the line deflection amplitude is independent of the measure of the The ability of the modulator 8 to adjust the amplitude of the line deflection current is adjustable is used here statically for setting the line deflection amplitude

F i g. 2 shows the structure of the amplifier 10. The voltage 12 is connected to the capacitor 13 and the Diode 14 clamped with its positive tip to the voltage on potentiometer 15. By Setting this voltage by means of the potentiometer 15 can adjust the voltage 12 in terms of DC voltage be moved. Due to the galvanic connection via the resistors 17, 21 to the base As a result, transistor 27 also becomes the operating point of transistor 27 and thus the DC voltage level of the Correction voltage 30 shifted at terminal 9. The amplitude of the voltage 30 does not change. The line deflection amplitude can therefore be adjusted with the potentiometer. The resistor 16 is used as a series resistor. The amplifier with the transistor 27 as the amplifier element also contains a DC voltage negative feedback Via the resistors 20, 19, 21. The capacitors 18, 22 also produce a Phase rotation causes. The adjustable resistor 23 is used to correct trapezoidal errors.

The adjustable alternating voltage negative feedback is through the capacitor 24 and the potentiometer 26 jebi'dfct, which together with the resistor 25 den Working resistance of the transistor 27 forms. When moving the tap of the potentiometer 26 in In the direction of the collector of the transistor 27, the negative feedback is increased and thus the amplitude the correction voltage 30 at the terminal 9 is reduced. Due to the phase-shifting properties of the negative feedback networks the curve shape also changes in the described manner in the desired catfish of the parabola-shaped correction voltage 30. The transformation of the sawtooth-shaped voltage 12 into the parabolic voltage 30 occurs through the integrating networks provided in the signal path. The capacitor 24 is also used for the

Integration of the voltage, and / was called a Miller capacitor with the gain of the transistor 27 increased capacitance.

With a practically proven exemplary embodiment had the components of the circuit according to FIG. 2 following values.

«16 =
«17 =

«20 =

2.5 kn

ίο kn

33 kn 8.2 kn

12 "kn

«21 = 68 kii R 23 = 25 kn K 25 = 2.7 kn ff 26 = ίο kn Γ 13 = Li C18 = 1.15 μΡ Γ22 = 0.22 JiF C 24 = 0.033 JiF

Diode 14 = type IN4I48 Transistor 27 = type BC237B

1 sheet of drawings

Claims (3)

Patent claims: 1. Circuit for east-west pillow correction in a color television receiver, in which a vertical frequency Sawtooth voltage (12) is fed to an amplifier (10) which has the amplitude of the Line deflection current modulating vertical-frequency, parabolic correction voltage (30) emits and its AC voltage gain for changing the correction amplitude and its operating point for changing the line amplitude independently adjustable from each other, characterized by the following features: a) The amplifier (10) contains a transistor stage with a transistor (27) and phase-rotating AC negative feedback networks (24, 26; 18-23) including Miller capacitors (18,24) for integration. b) For setting the amplitude and at the same time setting the curve shape of the correction voltage (30) contains the alternating voltage negative feedback a Miller capacitor (24) between an adjustable tap of the Collector working resistance (25, 26) and the base of the transistor (27). 2. Circuit according to claim 1, characterized in that that the adjustment of the operating point which takes place to change the line amplitude Change of the clamping potential of a clamping circuit (13-15) for the amplifier (10) supplied Sawtooth tension (12) takes place. 3. Circuit according to claim 1, characterized in that the amplifier (10) is provided with a DC voltage negative feedback (19-21) .