DE1280289B - Circuit for setting the color tone in a PAL color television set - Google Patents

Description

Circuit for adjusting the color tone in a PAL color television set The PAL color television system is independent of phase errors in the transmission path and phase errors of the reference carrier used for demodulation always the correct one Color tone reproduced. In some cases, however, it is desirable to change the color to make it adjustable to deviate from the true hue, for example according to the subjective Perception of the viewer or to remove unwanted color tones, for example by scanning special color films or by special lighting in the Recording arise.

In the NTSC system, it is known to change the hue with a Phasendreher the phase of the color carrier that determines the color tone or the phase of the To change the color sync signal. Such a hue adjustment is with a PAL color television signal not possible because the phase of the modulated color carrier in the PAL receiver changes with delay line is registered as an error and averaged out, so that the hue remains unchanged.

To adjust the hue in a PAL color television receiver, it is known (German Auslegeschrift 1178 982), means for changing the amplitude of two color signals or color difference signals in opposite directions, z. B. (R - Y) and (B - Y) . In this case, however, the color carrier must first be demodulated or split into its two color carrier-frequency components in a PAL delay time split. A color change by influencing the complex modulated color carrier is not possible with this circuit.

It is also proposed (patent application T 34090 VIIIa / 21a1) for Change the chrominance of an image produced by a PAL color television signal Color subcarrier-frequency voltage with selectable amplitude, subject to PAL switching and add phase as additional voltage to the modulated PAL color carrier. These Switching is primarily intended for the studio or transmission side.

The invention is based on the object of a simple circuit to adjust the hue in a PAL color television set, which in the Construction is simple and is also suitable for a PAL color television receiver.

The invention is based on a circuit for adjusting the hue of the reproduced picture in a PAL color television set by influencing the Phase of the modulated color carrier which, after demodulation, is used for image reproduction provides color signals used, and consists in that the modulated color carrier is guided via phase rotators, their phase rotation from line to line between two values can be switched, which can be set from a fixed value to approximately the same Deviate amount in opposite phase rotation device.

An advantage of the invention is that the change in color tone of the Image can be done by influencing the complex modulated color carrier. Additional voltages with a frequency of color subcarriers are not required because only the phase of the modulated color carrier is influenced: Also an amplitude falsification of the color carrier, which would cause a change in color saturation, does not occur.

The invention is explained with reference to the drawing. F i g. 1 shows a phasor diagram to explain the mode of operation of the invention, FIG. Figure 2 shows a block diagram of the invention; F i g. 3 shows curves to explain the mode of operation of a further development of the invention; F i g. FIG. 4 shows a further exemplary embodiment of the invention which is based on FIGS. 5 will be explained. According to FIG. 1 and 2, the modulated color carrier F and the complex conjugate color carrier F + switched over according to the PAL color television system are located at a terminal 1, alternating line by line. This color carrier is fed to the input of a line-frequency switch 2, the two outputs of which are connected via phase rotators 3 and 4 to inputs of an adder 5, at whose output terminal 6 there is a color carrier "influenced in the sense of a changed color tone. The switch 2 is activated by an F" @ "or F" +, generator 7, which is actuated at a line rate by line sync pulses and the color sync signals, actuated at a line rate by a half-line frequency switching voltage 8. The mode of operation of the invention is as follows: In line 1, switch 2 has the switch position shown, so that modulated color carrier F reaches adder 5 and output terminal 6 via phase rotator 3. The phase rotator 3 now causes a phase rotation in the positive direction by the angle 99, so that the terminal 6 in FIG. Color carrier shown 1 F """is formed which at the angle (p with respect to the color carrier F is rotated, and thus represents a different hue. During this time passes through the phase rotator 4 to the adder 5 no voltage. During the line 2 is the switch 2 in the lower position, so that the color carrier F + passes through the phase rotator 4 to the adder 5, the phase rotator 4 also causes a phase rotation through the angle 97, but now in the opposite direction. (- p) the ink carrier F + in accordance with F i. g. 1 is thus converted in phase to a color carrier F, 1 + "u. Since the color carriers F and F + are phase-shifted in opposite directions, a real change in phase information is brought about, which corresponds to a change in color tone and is included in the PAL color television receiver Delay line is not eliminated as a phase error In the example shown, the proportion of color B - Y is reduced and the proportion of color R - Y is increased Rotators with positive and negative phase shift can be achieved by concentrating circuit elements, e.g. B. build coils, capacitors and resistors. The setting of the phase rotators 3, 4 is carried out with a common control button 8 in synchronism in such a way that the phase rotators 3, 4 cause a phase rotation of the same size but in the opposite direction. In the zero position, the phase rotators 3, 4 do not cause any phase rotation, so that the color carrier F or F + reaches the adder 5 essentially unchanged and there is no change in color tone.

It can be useful to simplify the construction of the phase rotator be, both phase rotators have the same basic phase rotation, for example an integer Multiples of 2z to give the color subcarrier frequency, and when setting the phase rotation to increase the first phase rotator and to decrease that of the second phase rotator.

This solution is shown on the basis of FIG. 3 explains that for the circuit structure according to F i g. 2 applies. When the setting knob 8 is in the zero position, both phase rotators 3, 4 cause the same phase rotation of n # 2n (n - = whole number), which thus defines the color carrier F or F + in FIG. 1 bring it back into the phase position shown and have no influence on the color tone. It is assumed that the ink carrier F is rotated in the positive direction (counterclockwise) by h - 2n back into the original position and the ink carrier F + is also rotated in the positive direction by n # 21r into the position shown. When the setting button 8 is actuated, the phase rotation of the phase rotator 3 is now increased compared to the value n-2n. This means that the color carrier F is further rotated by the angle + qp in the positive direction (counterclockwise) and a color carrier F "," is created. In synchronism, the phase rotation of the phase rotator 4 is reduced, so that the color carrier F + is rotated back clockwise by the angle cp and the color carrier F, 1, arises, as in FIG. 1 is shown.

The basic phase shift according to FIG. 3 does not need n - to be 2n, but can also be an integer multiple of 27t, if the phase of the reference carrier is adjusted accordingly during demodulation. The basic phase rotation can also be 180 °, in which case the hue is not adjusted the two pointers Fund F + in F i g. 1 would be reversed by 180 °.

F i g. 4 shows an exemplary embodiment with only one phase rotator 13. The color carrier is fed from terminal 1 via a transistor amplifier 9 to a phase rotator 13 , which consists of series inductances 10 and transverse capacitances, which are formed by capacitance diodes 11. The capacitance diodes 11 are biased in the reverse direction by the voltage drop across a resistor 12. The color carrier at the output of the phase rotator 13 is fed via an amplifier 14 to the terminal 6 , where the color carrier F "e" or FI, which has been changed in the sense of the changed hue, is located. The cathodes of the capacitance diodes 11 are fed by the wiper of a potentiometer 15, which is fed with the half-line frequency switching voltage 8 from the generator 7, via a capacitor 16 with the half-line frequency switching voltage 8 with adjustable amplitude.

The mode of operation of this circuit is illustrated in FIG. 5 explained. When the wiper of the potentiometer 15 is in the lower position, the. Capacitor 16 has no shaft voltage 8 on the capacitance diodes 11, which are then biased with a constant DC voltage. The phase rotator 13 then effects a constant phase rotation cpo, which is, for example, equal to n # 2n. This phase rotation, which is the same in all lines, does not change the color tone. At the point in time t 1, the slider is adjusted upwards, so that a switching voltage 8 is applied to the capacitance diodes 11. During line 1, the capacitance of the capacitance diodes 11 is increased by the switching voltage 8, so that the phase rotation by the value 99 to the value po -j- 99 according to FIG. 1 is increased and the ink carrier F is rotated by the angle -f-99 in the positive direction according to FIG. 1. In the next line is performed by the switching voltage 8 is a reduction in the capacity of the varactor diode 11 and therefore a reduction of the phase rotation of angle 99 to the value 990 - 9a, so that now in accordance with F i g. 1 the ink carrier is rotated in the opposite direction. The switching voltage 8 can, for. B. in a PAL color television receiver to control the PAL switch already existing half-line frequency switching voltage.

Claims (9)

Claims: 1. A circuit for adjusting the color tone of the reproduced picture in a PAL color television set by influencing the phase of the modulated color carrier which, after demodulation, supplies the color signals used for the picture display, characterized in that the modulated color carrier (F, F +) has a phase rotator ( 3, 4; 13) whose phase rotation can be switched from line to line between two values that differ from a fixed value (0, 99o) by approximately the same, adjustable amount (+ p, -p) in the opposite phase rotation direction. 2. A circuit according to claim 1, characterized in that the modulated color carrier (F, F +) is guided with a switch (2) alternately line by line via a first and a second phase rotator (3, 4) whose phase rotations are synchronized to the two from Fixed value deviating values (+ T, -g9) can be set (Fig. 2). 3. A circuit according to claim 1, characterized in that the modulated color carrier (F, F +) is constantly guided via a phase rotator (13), the phase rotation of which from line to line between the two values deviating from the fixed value (99o + 9p, 99, - 99) is switchable (Fig. 4). 4. A circuit according to claim 3, characterized characterized in that the phase rotator (13) is electronically controllable, the phase rotation contains determining reactances, the bias of which by an adjustable in amplitude half-line frequency switching voltage (8) is controlled (Fig. 4). 5. Circuit after Claim 4, that the electronically controllable reactances which determine the phase rotation Capacitance diodes (11) are. 6. Circuit according to claim 1, characterized in that that the fixed value is equal to zero. 7. A circuit according to claim 1, characterized in that the fixed value is equal to n # 27c, based on the color subcarrier frequency. B. Circuit according to Claims 2 and 7, characterized in that, when setting the hue, the phase rotation of the first phase rotator (3) is increased and that of the second phase rotator (4) is reduced by the same amount (cp). 9. Circuit according to claim 1, characterized in that the switching of the phase rotation in a PAL color television receiver with the half-line frequency switching voltage used to control the PAL switch he follows. Documents considered: German Auslegeschrift No. 1178 892.