DD44179B1 - COLOR TELEVISION SYSTEM - Google Patents

Description

DDR patent kk 179 WP 21 a / 107 373

Color television system

The invention relates to a color television system consisting of several oscillations of a color carrier, transmitted at the beginning of each line and serving to generate a reference carrier in the receiver color sync pulses and a line frequency switching in the receiver.

Such line frequency switching in the receiver is required in a Farbfernsehsystan according to DE-PS 928 k7k , in which the color carrier with two color signals for two mutually perpendicular modulation axes quadrature modulated and a modulation axis in the transmitter line frequency is switched by l80 °. For this system developed for the PAL color television system, a receiver is known (TELEFUNKEN-Zeitung, Issue 1/2, I963, page 81-84), in which the received color carrier is added to and subtracted from the received color carrier of the preceding line and to this Is split into two Farbtragerfrequente constant phase color signals, which are demodulated by the addition of a locally generated reference carrier. It is necessary to produce a reference carrier for a demodulator whose phase is switched from line to line by I80. In this case, the line frequency switching is necessary to switch the phase of the reference carrier line frequency.

The frequency of this line frequency switching can be determined by locally generated line frequency pulses.

In addition, however, the correct switching phase of the changeover switch must still be specified ·

To synchronize the switching phase in such a system, it is known (TELEFUNKEN-newspaper I963, Issue 1/2, page 86.87) »during the vertical blanking in the blank lines immediately after the rear equalizing pulses to transmit an additional sync signal for the switching phase and in Evaluate the receiver. However, this solution requires the transmission of additional signals. In addition, a synchronization or .korrektur the switching phase is only possible during the vertical blanking, so that a wrong switching phase can be corrected only at the end of a field.

The invention has for its object to provide a color television system of the type described, which allows generation of a 'reference carrier in the receiver and a trouble-free synchronization of a line frequency switching in the receiver, without additional signals must be transmitted for the synchronization of the switching.

The invention is based on a color television system with consisting of several oscillations of a color carrier, transmitted at the beginning of each line and serving to generate a reference carrier in the receiver color sync pulses and a line rate switching in the receiver.

The object is achieved in that the color synchronizing pulses consist of two simultaneously existing, by 90 in phase shifted from each other vibration components, of which the first component is a constant phase and the second component for controlling the

ЗО Changeover in the receiver has a phase switched from line to line by I80.

In a preferred embodiment of the invention

in the receiver, the first component for generating a reference carrier constant phase and the second component for generating a reference carrier with exploited from line to line by l80 ° phase exploited. In a further embodiment, the reference carrier constant phase is applied to the input of a line-frequency switchable phase shifter in the receiver, at the synchronizing the second component is inserted.

In the solution according to the invention, therefore, no additional signals for the synchronization of the switching phase are transmitted. The synchronization of the switching phase is achieved only by a line rate switching of the already existing in the system color sync pulse. This is replaced by the phase change a first constant-phase component for generating the reference carrier and a second component with line frequency switched phase to control the switching in the receiver. The fact that the information on the switching phase is sent at the beginning of each line, there is a störunanfällige synchronization of the switching phase. An incorrect switching phase can be corrected after just a few lines.

The invention will be explained in more detail with reference to an embodiment.

In the drawing show:

Fig. 1 shows the structure of the color synchronizing pulse, Fig. 2 shows a circuit for separating the color synchronizing pulse in its two components and

Fig. 3 is a block diagram for the evaluation of the color sync pulse for the generation of the reference carrier and the synchronization of the line frequency switching.

In Fig. 1, the color synchronizing pulse 7 consists of two simultaneously present, offset by 90 against each other

Vibration components 1O3; 10O composing the resulting color synchronizing pulse 7. The oscillation component 103 has the same phase in all lines, while the oscillation component 10 ^ is switched over from line to line by 180, so that a phase-shifted color synchronizing pulse 7 ¹ is produced in every second line.

In Fig. 2, the color synchronizing pulses 7 and 7 'of two temporally successive lines of Fig. 1 are added by means of the delay line 3 in an adder k . At the output terminal 107, this produces a constant-phase oscillation ІОЗ in each row. In a subtracting stage 16, the color synchronizing pulses 7, 7 'of two temporally successive lines are subtracted. This results in a terminal 109 vibrations 10 * 1 with from line to line by 180 different phase.

In Fig. 3 are at terminal 1 of the received modulated color carrier according to the PAL system and the color synchronizing pulse of FIG. 1. The stages 3,4, l6 act as in Fig. 2. The constant modulation axis of the quadrature modulation is Q ¹ and the line frequency switched with I ¹ called. The farbträgerfrequente signal I ¹ with line to line of different polarity at the output of the subtractor l6 is freed in a blanking stage 115 of the color sync pulses, the output of the blanking stage 115 is supplied to the demodulator 2k , on the other hand from a reference carrier oscillator 117 a reference carrier with from line to Line of different phase + I ¹ and · -I ¹ receives. The farbträgerfrequente signal Q ¹ with constant phase is freed in the blanking stage 6 of the color sync pulses,

ЗО supplied via a line 19 to the demodulator 20 and demodulated therein by adding a reference carrier from the oscillator 9. At the outputs 22,26 are the demodulated color signals Q ¹ and I ¹ .

The synchronization of the reference carrier oscillators 9 »117

with the aid of the color synchronizing pulse according to FIG. 1, the following happens:

At the output of the adder 4 are shown in FIG. 2, the components 103 with constantly constant phase available. These are separated out with the blanking stage 5 and fed via a line 120 to the reference carrier oscillator 9. They ensure that the reference carrier oscillator 9 always starts at the beginning of a line with the correct phase Q '. The output voltages Q ¹ and I ^{1 of} the two blanking stages 6, 115, which have only two defined phase positions (0 and Ti *), are fed to an adder stage 121. At the output of the stage 121 is a signal which has a constant phase. This signal is supplied to the reference carrier oscillator 9 and serves to finely synchronize the phase roughly set during the color synchronizing pulses during the line trace.

The components 104 which are at the output of the subtracting stage 16 according to FIG. 2 and have a different phase from line to line by l80 are separated out with a blanking step 122 which is opened only during the duration of the color synchronizing pulses and supplied to the reference carrier oscillator 17. They provide that the reference carrier oscillator 117 desirably oscillates in a different phase from line to line by l80. The fine synchronization of the reference carrier oscillator 117 is also carried out during the Zeilenhinlauf it from the stage 121. At the output of the reference carrier oscillator 117 is thus a line-by-line by l80 in the phase switched reference carrier available. At the same time it is ensured that the switching phase is correct, that is, that in a certain line of the reference carrier generated by the oscillator 117 has the right of the two possible phase positions (0 und'if).

A color sync pulse according to FIG. 1 can also be used for the synchronization without the use of a delay line

a quartz oscillator used, if this has a sufficiently high quality. The result is then a reference carrier whose phase is located approximately in the middle between the phases of the two vibration components of the color synchronizing pulse. It is also possible to use the oscillation component 103 to control a quartz oscillator and to synchronize it via a phase shifter, which is switched line-frequency by the oscillation component 104, to a second oscillator which generates a reference carrier having different phase from line to line. The production of the dye synchronization pulses according to FIG. 1 in the transmitter is particularly simple because modulators for the axes I ¹ and Q ¹ are already present.

Claims (2)

DDR patent kk 179 claims 1. color television system with consisting of several oscillations of a color carrier, transmitted at the beginning of each line and serving to generate a reference carrier in the receiver color sync pulses and a line frequency switching in the receiver, characterized in that the color sync pulses (7) from two simultaneously present to 90 in the Phase of mutually shifted vibration components (103 »10 ^) consist of which the first component (103) has a constant phase and the second component (ΙΟΌ to control the switching in the receiver has a switched from line to line by 18O phase. 2. color television system according to rueifcr- i _t characterized in that in the receiver, the first component (ІОЗ) for generating a reference carrier constant phase and the second component (104) for generating a reference carrier is used with line by line switched by 180 phase. З. Color television system according to ~? Unk + A / , characterized in that in the receiver of the reference carrier constant phase is applied to the input of a line-frequency switchable phase shifter, at the synchronizing the second component is applied. For this 1 page drawings