DE1280291B - Circuit for adjusting the hue of an image produced by a PAL color television signal - Google Patents

Description

Circuit for adjusting the hue of a PAL color television signal generated image In the PAL color television system is independent of phase errors in the transmission path and phase counters of the reference carrier used for demodulation always reproduced the correct color. In some cases it is desirable to make the hue different from the true hue adjustable, 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 a special one Illumination arise during the recording.

In the NTSC system, it is known to change the hue with a Phase rotator the phase of the modulated color carrier that determines the hue or change the phase of the burst signal. One such hue setting is not possible with a PAL color television signal. A subsequent change in the phase of the modulated color subcarrier by a certain amount would be included in the PAL receiver Delay line registered as an error and by the action of the PAL receiver removed again so that the hue remains unchanged.

To adjust the hue of a PAL signal, it is known (German Auslegeschrift 1178 892) to provide means for changing the amplitude of the two color signals or color difference signals in opposite directions. 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 splitting circuit. A color change by influencing the complex color carrier is not possible with this.

It is also suggested to change the chromaticity of one of one PAL color television signal generated image a color subcarrier frequency subject to the PAL switching Voltage with selectable amplitude and phase as additional voltage for the modulated PAL color carrier to add. This circuit is primarily for the studio or broadcast side intended.

Another proposed solution is the modulated color carrier guided by phase rotators, their phase rotation from line to line between two Values can be switched from a fixed value to about the same, adjustable Amount deviate in the opposite phase rotation direction.

The invention is based on the object of switching the hue in a PAL color television signal, which is characterized by great simplicity and is also suitable for a PAL color television receiver.

The invention is based on a circuit for adjusting the hue of a picture generated by a PAL color television signal by influencing the color carrier available in a first, direct channel before the color demodulation and consists in that the modulated color carrier in a second channel has a 901 phase rotator and passes through a phase switch that switches from line to line by 1800 and is added in an adder stage as an additional carrier to the modulated color carrier in the first channel in a push-pull circuit with adjustable amplitude and polarity.

The circuit according to the invention only requires a small amount of circuitry Expenditure. It can easily be added to an existing circuit at a later date will. A demodulation or a splitting of the color carrier into its two Components are not required because the Komple.xe modulated color carrier itself is influenced in the sense of a change in color.

The invention is explained in more detail below with reference to the drawing.

F i g. 1 shows a pointer diagram for explaining the mode of operation; F i g. 2 shows a basic circuit diagram of the invention, FIG. 3 shows a practical embodiment and FIG. 4 shows a vector image to explain a further development of the invention.

In the figures, F denotes the modulated color carrier shown as a pointer and F + denotes the switched, complex conjugate color carrier.

F i g. 1 shows the modulated PAL color subcarrier F of line 1 and the complex conjugate color subcarrier -F + of the temporally following line 2, which is reversed according to the PAL system in a mirror -inverted manner to the axis U. The hue produced by this color subcarrier in the image is given by the angle o # . To change the hue, the color carrier F is now rotated by 901 in phase in a second channel, creating an additional carrier E ", which is added to the color carrier E with a reduced, adjustable amplitude. This creates a new color carrier E"""which has a different phase angle with respect to the U axis and therefore represents a different hue. In line 2, the color carrier F + in the second channel is rotated again by 9011, which initially creates the color carrier 1, which is shown in dotted lines. This is switched with a 1801 phase switch, which is effective in every second line in time, in the phase 'by 180' , so that an additional carrier E + ".,. Is created, which converts the color carrier E + into a color carrier E +"". Since the two color carriers E and E + are rotated in opposite directions according to the invention, a real change in information occurs, which represents a change in color and is not eliminated again as an error in the PAL Erupfänger with delay line.

In Fig. 2, the modulated color carrier E or F + is fed from a terminal 2 via a line 3 to an adder 4, the output of which is connected to a color demulator 5 , which supplies the demodulated color signals BY and RY for image reproduction at two terminals. According to the invention, the modulated color carrier is fed via a line 6 to a second channel which contains a 901 phase rotator 7 and a 1801 phase switch 8 which is actuated by a generator 9 by a switching voltage 10 at half a line frequency. The output voltage of the phase switch 8 reaches a push-pull circuit 11, from which an additional color carrier with adjustable amplitude and polarity is fed to the adder 4 via a line 12. The phase rotator 7 rotates the color carrier E according to FIG. 1 to 90 ", during the phase switch (g line 2 in F i. 1) 8 in each time second line, the phase of the auxiliary color carrier 180 switches'. The push-pull circuit 11 makes it possible the additive color carrier with adjustable amplitude and polarity to that of the line 3 incoming color carrier E or F + , so that at the output of the adder 4 there is a color carrier E "" influenced in the sense of a changed color tone, which thus delivers other color signals at the output of the demodulator 5 , which cause a different color tone in the displayed picture For example, if the wiper of the push-pull circuit 11 is in the middle, no additional color carrier is fed to the adder 4 via the line 12, so that the color carrier and hue remain unaffected . 1 is changed, i.e. the ink carrier-E - is shifted more in the direction of the axis iV. If, for example, the grinder is moved to un ten moves, the phase of the additional voltage in FIG . 1 in all lines so that the color carrier E or E + in all lines in the opposite direction as in FIG. 1 is shifted in phase, i.e. H. in the direction of the axis U. The polarity reversal can also be achieved by reversing the polarity of the switching voltage 10 , because then in FIG. 1 the pointer 1 not, but the pointer E "". rotated 180 '. The generator 9 is synchronized in a known manner, for example by line sync pulses and the phase-switched color sync signals. F i g. 3 shows a practical embodiment. The color carrier at terminal 2 is amplified in a transistor stage 13 . The 901 phase rotator 7 is an all-pass filter and the 1801 phase switch 8 is a push-pull transformer 14 with two diodes 15, 16. These diodes are alternately conductive and non-conductive controlled by anti-phase, half-line frequency switching voltages 10a and 10b from terminals 15, 16. A transistor 17 is used as the adding stage 4, at the base of which the modulated color carrier from line 3 and the additional color carrier from line 12 are added. The color carrier E "", which has been influenced in the sense of the changed color, is available at a terminal 17.

Fig. 1 shows that when the hue is changed, there is a slight increase in the amplitude of the color carrier, i.e. H. an increase in color saturation occurs. In general, this change in color saturation will be insignificant because usually only slight phase changes are necessary for the change in color tone. This change in amplitude can be eliminated by adding to the modulated color carrier an additional color carrier which is in phase with the modulated color carrier and has an amplitude such that the amplitude of the color carrier remains unchanged during the hue setting.

Another possibility for keeping the color saturation constant is explained with reference to FIG. F i g. 4 again shows in a phasor representation the color sync signal 20, which is switched from line to line in phase mirror-inverted to the axis U by ± 451. If the circuit according to the invention for adjusting the hue is also effective on the color sync signal, i. H. for example the circuit in FIG. 2 and 3 , the color sync signal is also supplied, according to FIG. If an automatic color gain control (ACC) is provided after the circuit according to the invention for color adjustment, then the phase-shifted and amplitude-increased color sync signal 22 is evaluated in this. Since this now has a greater amplitude, the gain of the color carrier is regulated down, so that the increased amplitude of the color carrier according to FIG. 1 is eliminated.

In the F i g. 2 and 3 , the additional color carrier is fed to the modulated color carrier in the color channel. It is also possible to add the additional color carrier to the composite color video signal. A bandpass filter is then provided in the second channel, which only allows the color subcarrier frequency to pass through for the purpose of obtaining the additional color subcarrier. If the 180c 'phase changeover is dispensed with, the circuit according to the invention can also be used for setting the hue in an NTSC color television receiver or studio.

Claims (2)

Claims: 1. Circuit for adjusting the hue of a picture generated by a PAL color television signal by influencing the color carrier available in a first, direct channel before the color demodulation, characterized in that the modulated color carrier (, F E +) in a second channel is a 901 -Phase rotator (7) and a phase switch (8) switched from line to line by 180c> and in a push-pull circuit (11) with adjustable amplitude and polarity as an additional carrier (F.,. "".) The modulated color carrier in the first channel ( 3) is added in an adder stage (4) (Fig . 2). 2. A circuit according to claim 1, characterized in that the additional carrier is added to the composite color video signal. 3. A circuit according to claim 1, characterized in that in addition to the modulated color carrier in the first channel an additional carrier in phase with the modulated color carrier is added with such an amplitude that the amplitude of the modulated color carrier remains unchanged in the hue setting. 4. A circuit according to claim 1, characterized in that the hue setting is also effective for the color sync signal and takes place before an automatic color gain control (ACC). 5. A circuit according to claim 1, characterized in that the hue is adjusted in a PAL color television receiver. 6. A circuit according to claim 1, characterized in that it is used, dispensing with the line-frequency 1801 phase switch (8), to adjust the hue in an NTSC signal. Documents considered: German Auslegeschrift No. 1178 892.