DE1197500B - Color television receiver with a color demodulator - Google Patents

Description

Color television receiver with a color demodulator Addition for registration: T 23980 VIII a / 21 al -Auslegeschrift 1 189 124 The main patent application concerns a color television receiver with a color modulator for demodulating color carrier frequencies Signals to which at least one only with a color signal with suppressed carrier amplitude-modulated signal occurs whose phase only has two defined positions (0 and a) has, and with a local oscillator for generating a color carrier frequency Reference carrier for demodulation, especially for signals of the NTCS-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 of constant phase derived from the received signal to the oscillator, additionally transmitted color sync pulses are supplied and that for setting the exact phase of the reference carrier generated in the oscillator, the received color carrier frequencies Signals are exploited.

In a color television system in which the two color subcarrier frequencies Signals of the form I 'and Q' are preferred for fine-tuning the phase the signal f is used because this component has been shown as statistical measurements have, occurs much more strongly than the component Q '.

The present invention is based on the object of synchronization by the color subcarrier frequency signal, especially in the event that the color subcarrier frequencies Signals only small or partially absent, improve.

The invention is based on a color television receiver with a color modulator, on which two amplitude-modulated with one color signal each with suppressed carrier Color subcarrier-frequency signals occur, and with a local oscillator for generation of a color carrier frequency reference carrier, whose coarse phase or polarity passes through additionally transmitted color sync pulses and their fine phase due to the color subcarrier frequencies Signals itself is determined according to patent application T23980VIIla / 21al. The invention consists in the fact that the two color carrier-frequency signals after they are due to modulation Phase jumps have been freed and, if necessary, brought to the same phase, are added up and their sum is used for fine-tuning the phase of the reference carrier will.

The invention is based on the knowledge that it makes sense to do both To exploit color subcarrier-frequency signals so that the synchronization is also maintained remains when one of these two signals is zero. As long as one color is transferred will, d. H. If a color difference signal is present, it is always a control signal available for the reference carrier oscillator. If both color signals are equal to zero, so this means that there are no color signals. Then there is the fine synchronization of the reference carrier oscillator is also largely uninteresting.

The invention is particularly applicable to a color television system with a color subcarrier quadrature-modulated with two color signals, with one modulation axis line frequency is switched to 1800. The two color subcarrier-frequency signals (1 ', Q') are then calculated by adding and subtracting the in two consecutive Rows received color carriers won. The invention is also applicable to a SECAM system with suppressed carrier. There must also be a reference carrier at the recipient are generated while the color carrier frequency signals only have two different phases (0 and a) have. With this system it is usually not necessary to use either of the two To bring color carrier-frequency signals to the same phase, because they, because no quadrature modulation present, have the same phase.

The invention is in the following with reference to the drawings on a Embodiment explained in more detail.

F i g. 1 shows a simplified block diagram of the invention; in Figure 2 is the waveforms associated with Figure 1 at various points in the circuit shown.

F i g. 1 shows the application of the invention for a system with a quadrature-modulated color subcarrier and line-frequency switching of a modulation axis (NTSC-PAL). The complex color subcarrier frequencies conjugated in successive lines Signals of the form + 1 ', + Q' or -1 ', + Q' are transmitted by means of a delay line 1 and a 1800 phase rotating element 2 in two adding stages 3 and 4 subtracted or added. Color carrier frequencies are then available at output terminals 5, 6, each with only one Color signal with suppressed carrier, amplitude-modulated signals, +21 ', + 2 Q', to disposal. These signals have only two phase positions, namely 0 and a. In Fig. 2 are the two signals Q 'and f with a phase jump of 1800 in the curves a and c shown. The two color subcarrier-frequency signals 21 'and 2 Q' are rectified in two full-wave rectifiers 7, 8, so that signals with double color subcarrier frequency according to curves b and d arise. The output voltage of the full-wave rectifier 8 (curve d) becomes 900 with a 900-phase rotating element9 shifted in phase so that a waveform according to curve e is produced. The signals Q 'and I' according to curves b and e with twice the color subcarrier frequency now have the same phase. These two signals are added in an adding stage. The output stage the adder 10 (curve n represents a signal, the amplitude of which is derived from the The amplitudes of the signals 1 'and Q' are composed. Even if one of the signals I ' or Q 'becomes equal to zero, a signal remains at the output of the adder 10 according to of curve f. The phase of this signal is constant and also changes in phase 1800 in the signals Q 'and I' according to the curves a and c are not dependent. This signal is connected via a line 11 to a reference carrier oscillator 12 for fine control of the phase fed. Since this fine adjustment of the phase is not unambiguous, the reference carrier oscillator 12 also via a line-frequency operated gate circuit 13 and a line 14 supplied the simultaneously transmitted color sync pulses. These serve to roughly adjust the phase or polarity of the reference carrier oscillator. Of the Reference carrier generated in the reference carrier oscillator, its coarse phase or polarity thus via line 14, and its exact phase via line 11 is determined is, is fed via a line 14 to a terminal 15 and is there with the desired Frequency and the exact phase for the further demodulation circuit to disposal. It would also be possible for the signals I 'and Q' to have a different Combine the amplitude ratio in the adder 10, for example to produce the more frequently occurring signal f to be preferred. The obtained according to the invention Both in-phase color carrier-frequency signals can also lead to new carrier frequencies Signals, e.g. B. R '- and B' - Y 'are put together. By simple amplitude demodulation these signals then arise directly to control the display tube or signals required in a matrix.

Claims (3)

Claims: 1. Color television receiver with a color demodulator, on which two amplitude-modulated with one color signal each with suppressed carrier Color subcarrier-frequency signals occur, and with a local oscillator for generation of a color carrier frequency reference carrier, whose coarse phase or polarity through additionally transmitted color sync pulses and their fine phase due to the color subcarrier frequencies Signals itself is set, according to patent application T 23980 VIIIa / 21at, thereby gekennz e i c h n e t that the two color carrier frequency signals (1 ', Q') after they are freed from phase jumps caused by modulation and, if necessary, on the same Phase have been brought to be summed and their sum for fine control of the Phase of the reference carrier is used. 2. Color television receiver according to claim 1 for a color television system with a color subcarrier quadrature-modulated with two color signals, with one modulation axis line frequency is switched to 1800, characterized in that the two color carrier frequency signals (I ', Q') by adding and subtracting the in two temporally successive lines received complex conjugate color carriers be won. 3. Color television receiver according to claim 1, characterized in that that the color carrier frequency signals (1 ', Q') before their addition by full wave rectification Brought to double the color subcarrier frequency and thus freed from 1800 phase jumps will.