DE1487158A1 - Demodulation circuit for color television signals - Google Patents

Description

Demodulation circuit for color television signals (addendum to patent application T 23.282 VIIIa / 21a1) The invention relates to a demodulation circuit for color television signals of a transmission system in which a color carrier with two color signals is simultaneously modulated with respect to two mutually perpendicular modulation axes with a suppressed carrier, and in which to reduce the effect of phase errors, a modulation axis is switched by 180o in every second line.

The invention according to claim 3 - 4 of the main patent consists in that for demodulation in the receiver the modulated color carrier signal with a delay line delayed by one line and in two adding stages to form the undelayed signal is added or subtracted with such a phase that in each stage the Parb signal corresponding to a modulation axis is canceled. Such a circuit is commonly referred to as a "runtime demodulator". The present The invention is based on the object of finding a circuit arrangement with which the precise setting of the phase condition is possible in a simple manner.

The invention consists in that for fine adjustment of the phase one of the signals fed to the adding stages is fed to an all-pass filter with a phase shift of exactly or about 90o for the color subcarrier frequency, and that the voltages from the input and output of the all-pass filter with a variable amplitude ratio to one in phase around 900 variable voltage are composed, which is fed to the adder stages.

In one embodiment of the invention is input to output of the all-pass, a resistor is switched, at whose adjustable tap the in the phase adjustable voltage is removed. This increases the resistance one end the color carrier signal with a certain phase and at the other end with fed to a phase offset by 90o. At the tap of the voltage divider can be any ratio between these two voltages offset by 90o be tapped. The tapped voltage thus alters its phase position as a whole at 90o. It is also possible to connect several 90o all-passes in series. then a phase change over a multiple of 900 can be achieved. The all-pass is preferably in series with the delay line, because then the setting-the Phase is possible for both adding stages at the same time.

The invention is explained in more detail below with reference to the drawings In Fig. 1 the invention is applied to the so-called transit time demodulator shown according to the main patent.

Fig. 2 shows the associated vector diagram.

In Fig. An all-pass circuit for a phase rotation by 1800 is shown.

Fig. 4 shows another vector diagram for explanation. Fig. 5 and show two further exemplary embodiments and FIG. 7 shows a vector diagram for explanation of FIG. 6.

In fing. 1 the color carrier signal, which is modulated line by line alternately with the signals Q -r jI and Q, -jI, is sent from a terminal 1 once via a 180 ° phase shift element 2 and once izt; (: r ciw: @. @: itunt "z heidiershel4. 4 and 5 supplied. The The color carrier signal also reaches an all-pass 7 with a phase shift of 90o for the color carrier via a delay line 6 with a delay of one line. The all-pass 7 is terminated with resistors 8 and 9 and bridged with a resistor 10. At an adjustable tap 11 of the Resistor 10, the color carrier is removed and fed via lines 12 and 13 to the adders 4 and 5. At the output of the adder 4, the signal + 21, -2I, + 21 color subcarrier frequency and at the output of the adder 5 in alternating line-by-line arises according to the function of the transit time demodulator every line the signal + 2Q, also color subcarrier frequency.

2 shows how two color carrier voltages A and jB, which are phase-shifted by 90 ° with respect to one another, are put together in the resistor 10. Depending on the setting of the tap 11, different color carrier voltages F1 to F7 are picked up at the tap 11, the amplitude of which changes slightly. With additional circuit means, for example an AC voltage stabilization circuit, the amplitude can be kept constant when the phase is set. In the l illl @ ell Hlldstellung, de s l11) E; ri fl'e: @ 11 becomes for example I! 1 (K1 '1'ei lil (:; l dl- (.':; L) iallllllll ;; Continuous phase adjustment possible over an angular range of 90o.

In FIG. 3, two goo all-passes 7 and 7t are connected in series, and the two ends of the series circuit are connected by the resistor 10. The connection point of the two all-passes is connected to the center of the resistor 10 . The color carrier signal is fed to the all-pass from the delay line 6 via a terminal 14 and taken from the tap 11 at a terminal 15. With this circuit, a phase rotation over an angle of 180o is possible.

In the left end position of the tap 11 the phase rotation is 0 degrees, in the middle position 90 degrees and at the right stop 1800.

4 shows the four vector fields for the color carrier signal. With the all-pass filter according to FIG. 1, the color carrier signal can be rotated within quadrant I or, by means of an additional phase rotation element of 1800, within quadrant III. With the series connection of the all-pass filters according to FIG. 3, a phase rotation over two quadrants, for example I and II, is possible. Four all-passes of 90o each can be switched one behind the other. The resistor 10 then lies between the two ends of this series circuit, and the connection points of the all-pass filters are connected to equidistant fixed taps of the resistor 10. With such an arrangement, a phase rotation over an angle of 360o is possible. The all- pass must be dimensioned broadband so that they cause a constant phase rotation for the color carrier and its side bands. The all-pass does not necessarily have to be in series with the delay line 6. It can also be switched on in one of the other ways to the adding stages. For example, an all-pass filter for adjusting the phase can be located between the phase shift element 2 and the adding stage and in the line 3.

Fig. 5, in which the same switching elements as in Fig. 3 are provided with the same reference numerals, the all-pass 7 is terminated at both ends with resistors 16, 17, at which voltages adjustable in amplitude are taken and two transistor wires 18, 19 are fed that work on a common working resistance of 20. By setting the resistors 16, 17, the desired amplitude ratio of the two voltages at the transistors 18, 19 and thus the desired phase of the color carrier-frequency voltage occurring at the output terminal 15 as a result of the addition can be set. In Fig. 6, in which the same parts as in Figures 3 and 5 are again provided with the same reference numerals, the output voltage between the adjustable tap 11 of the resistor 10 and the connection point of the two all-pass filters 7 and 7 'is taken. With this circuit it is possible to make the phase of the voltage at terminal 15 adjustable over an angle of 1800. This is explained in more detail in FIG. 7. The voltage generated at terminal 15 is made up of a component U1 and a voltage U2 or -U2. The voltage U1 is taken from the transformer 21 according to FIG. 6 and remains constant in amplitude and phase. In the left end position of the wiper 11, the voltage + U2, which is at terminal 14, is added to this voltage, and in the right end position of the wiper 11 a voltage - U2, which is at the right end of the second all-pass 7 '. This means that voltages with the phase position between + U2 and -U2 can be removed from the wiper 11.

Claims (1)

P atent claims 1. Demodulation circuit for color television signals of a transmission system, in which a color carrier with two color signals is simultaneously modulated with respect to two mutually perpendicular modulation axes with a suppressed carrier, and in which one modulation axis is switched by 180o in every second line to reduce the effect of phase errors , whereby for demodulation in the receiver the modulated color carrier signal is delayed by a line duration with a delay line and added or subtracted in two adding stages to the undelayed signal with such a phase that in each stage the color signal corresponding to a modulation axis is canceled out, according to patent application T 23 282 VIIIa / 21al, characterized in that for fine adjustment of the phase one of the signals fed to the adder stages (4, 5) is fed to an.Allpaß (7) with a phase rotation of exactly or ett4a 900 for the color carrier frequency, and that the voltage from the input and output of the all-pass (7) with changeable Arrtpl.i tudeilv (@ i, liäl tiiis ziz one in the phase around 90o verinder - baren;, F) arirtttnf; ;: u:.> a @ nm @ ° n @ are reset, the adding stage 01, `i 1 ztzgc @ I ülii't. will. 2. Demodulation circuit according to claim 1, characterized in that a resistor (10) is connected from the input to the output of the all-pass filter (7) and the voltage, which can be changed in phase, is taken from an adjustable tap (11) of the resistor (10) (Fig. 1). 3. Demodulation circuit according to claim 1, characterized in that several all-pass filters (7.7 t) of 900 phase rotation each are connected in series, that the resistor (10) lies between the two ends of the series circuit, and that the connection points of the all-passes (7.7t) are connected to fixed taps of the voltage divider (10) (Fig. 3). @ +. Demodulation circuit according to claim 3, characterized in that two 90o all-pass filters (7.7 t) are connected in series, and that the phase-changed voltage between the connection point of the two all-pass passes (7.7 t) and an adjustable tap (11 ) of the resistor (10) is removed (Fig. 6). 5. Demodulation circuit according to claim 1, characterized in that the all-pass filter (7) is in series with the delay line (6). 6. Demodulation circuit according to claim 1, characterized in - characterized ; that the voltages from the input and output of the all-pass filter (7) with variable amplitudes are fed to two amplifier stages (18, 19) with a common working resistance (20) (FIG. 5). 7. Demodulation circuit according to claim 1, characterized in that means are provided which keep the amplitude of the voltage changed in phase constant over the entire phase adjustment range.