DE1196699B - Color television receiver with a demodulator - Google Patents

Description

Color television receiver with a demodulator Addition for registration: T 23980 VIII a / 21 al -Auslegeschrift 1 189 124 The patent application T 23980 VIIIa / 21 ai relates to a color television receiver with a color demodulator for demodulation color subcarrier-frequency signals, to which at least one with only one color signal suppressed carrier amplitude-modulated signal occurs whose phase is only two has defined positions, and with a local oscillator for generating a color carrier frequency Reference carrier for the demodulation, which consists of color sync signals some oscillations of color subcarrier frequency at the beginning of each line, synchronized especially for signals of the NTSC-PAL or SECAM-AM system.

The invention according to the main patent application is that for Adjustment of the coarse phase or the polarity of the generated in the local oscillator Reference carrier to the oscillator, the color sync signals are fed and that for Setting the exact phase of the reference carrier generated in the oscillator the received Color carrier-frequency signals are used after these from the phase jumps have been released.

The present invention relates to a color television receiver for Signals of the NTSC-PAL system, in which a color subcarrier on two axes with two color signals is quadrature modulated according to the suppressed carrier and a modulation axis in the transmitter line frequency is switched to 1800. In such a system, in terms of time successive lines are conjugated to transmit complex color subcarrier-frequency signals.

The present invention consists in conjugating the two complex color subcarrier-frequency signals in a multiplication stage with one another are multiplied and that the obtained, double color carrier frequency having, Voltage released from phase modulation to determine the exact phase of the Reference carrier is used.

The invention is based on the knowledge that the product of the two conjugates complex, color subcarrier-frequency, phase-modulated signals with a new one Signal results whose phase is constant and no longer the phase modulation of the received color carrier and its frequency is equal to twice the frequency of the color carrier is. This signal, which is constant in phase, can therefore according to the invention either serve directly as a reference medium or be exploited to the local Specify the reference carrier oscillator precisely in the phase required for the demodulation.

The solution according to the invention has the additional advantage that even in the event that one of the both signals 1 'or Q' = 0, a control voltage is available for the oscillator, as the control voltage obtained by multiplication for the reference carrier oscillator composed of two components 1 'and Q' is.

Another advantage of the invention is that the amplitude of the signal obtained by the multiplication is equal to the square of that in successive Lines have the same amplitudes of the two complex conjugate signals. Through this namely, the amplitude of the control voltage obtained by the multiplication increases for the reference carrier oscillator with increasing amplitude of the received color signals very quickly, so that a large control voltage can be obtained. Another The advantage is that the phase modulation in the received color carrier frequencies Signal in the phase of the control voltage obtained by the multiplication is not is received, so that the reference carrier oscillator thus synchronized always with a constant Phase swings. The output voltage of the multiplication stage can, for example the reference carrier oscillator via a frequency divider with a division factor of 1 to 2 synchronize. But it is also possible with the control voltage, which is double Has color subcarrier frequency, one at the color subcarrier frequency or at double that To synchronize color carrier frequency oscillating reference carrier oscillator. In the last Case must be the color carrier frequencies Signals to the demodulation stages can be supplied via frequency multipliers with a factor of 2.

The color carrier signal has the form F = r # ejα # ej # 0t in one line and in the following line the form F = r # e-jα # ej # 0t, where a = arc tg e.

The multiplication of these two color carrier-frequency signals yields F # F = r2 # ej2 # 0t.

The signal obtained by multiplication therefore has twice the color subcarrier frequency 2 # 0 and a phase that is independent of the respective phase α of the color carrier. When a phase error ß occurs, which is the same in successive lines Direction of rotation (+ ß) results in: F = r r.e-J (a-.eIct, F = = F F = r2 to e + j2ß eJ2wat.

The respective phase angle α of the color carrier is therefore again dropped out, and the newly acquired reference carrier has been given a phase position, which takes into account the phase shift ß in the desired manner, around the two color signals F and F are rotated so that the phase of the signal obtained is conjugate relative to the complex values F and F is the same again. The double angle 2 ß is only due to the fact that the signal obtained also has twice the frequency 2c, * 0 Has. Since the signal obtained by the multiplication is relative to F and F a Has constant phase and constant frequency, it can fine-tune the phase of the locally generated reference carrier are used, its coarse phase expediently is determined by the color sync pulse.

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

This is written in consecutive lines at terminal 6 conjugates complex color subcarrier frequency signal and becomes a delay line from there 11 supplied. This delay line 11 is part of the so-called transit time demodulator and corresponds to the delay line shown in the main patent application.

From both sides of the delay line the color carrier frequency The signal is picked up and fed to a multiplication stage 23 via lines 21, 22. In the multiplication stage, an output signal with twice the color subcarrier frequency is generated 2 w0, which is no longer subject to phase modulation. This output signal is is fed via a line 24 to a reference carrier oscillator 14 which has a reference carrier generated with the color subcarrier frequency w0 and constant phase. The color carrier frequency The signal also comes from terminal 6 to a gate 25, in which with a terminal 26 supplied Line pulses 27, the color sync pulses 28 sampled out of the video signal will. These color synchronizing pulses are transmitted to the reference carrier oscillator via a line 19 14 supplied. The reference carrier oscillator 14 is a start-stop oscillator, each of which by a color sync pulse 28 at the beginning of a line with the correct phase is started. During the course of the line, the phase of the start-stop oscillator becomes by the color carrier voltage of twice the frequency supplied via the line 24 finely adjusted to their correct value. This mode of action is based on the fact that it is possible to use an oscillator, which oscillates at a frequency w0, with a voltage double frequency 2 2 # 0. The output terminal 20 therefore has the Reference carriers of the form ei ot are available.

This reference carrier has constant frequency c90. The exact phase of the Reference carrier is set by the voltage coming from the multiplication stage, during the coarse phase or the polarity of the reference carrier through the color sync pulses is fixed.

It is also possible to use a frequency divider with the line 24 Switch on the divider factor 2. The reference carrier oscillator 14 does not need a start-stop oscillator to be. For example, by comparing the reference carrier oscillator oscillation with the color sync pulses 28 in a phase comparison circuit a control voltage which sets the reference carrier oscillator to the correct coarse phase.

Claims (4)

Claims: 1. Color television receiver with a demodulator for one quadrature modulated along two axes with two color signals with suppressed carrier Color carrier whose one modulation axis is switched line-frequency by 180 ° in the transmitter is so that complex phase-modulated conjugate in successive lines Signals arise, and a reference carrier oscillator to generate one in phase constant reference carrier used for demodulation, its coarse phase or polarity by additionally transmitted color sync pulses and their exact phase by the received faibträgerfrequen th signals is determined according to patent application T23980VIIIa / 21ai, characterized in that the two conjugate complex color carrier frequencies Signals (F, F) are multiplied with one another in a multiplication stage (23) and that the double color subcarrier frequency (2 00) obtained therefrom, of Voltage released from phase modulation to determine the exact phase of the reference carrier is exploited. 2. Color television receiver according to claim 1, characterized in that that the output voltage of the multiplication stage (23) the reference carrier oscillator (14) directly with twice the frequency or via a frequency divider with the division factor 2 is fed. 3. Color television receiver according to claim 1, characterized in that that the output voltage of the multiplication stage (23) is at twice the color carrier frequency oscillating reference carrier oscillator is fed directly and that the color carrier-frequency signals to the demodulation stages via a frequency multiplier with a factor of 2. 4. A color television receiver according to claim 1, wherein the conjugate complex Signals using a delay line (11) with the Delay one Line duration in two adding stages (8, 10) are constantly subtracted or added, characterized in that the two input voltages to be multiplied for the multiplication stage (23) removed at the two ends of the delay line (lt) will