DE1290177B - Color television receiver circuit for setting the color saturation of a PAL signal - Google Patents

Description

The invention relates to a color television The arrangement according to the invention has the advantage

Receiver circuit for adjusting the color saturation that the synchronization with one does not alternate one PAL signal that takes place with alternating color the color sync signal and also - how Synchronous signal is transmitted, _ and in which the color TV method with non-alternating Color carrier synchronization through the 5 color sync signal behind - only one signal voltage, PAL decoder appears, with regard to the modula, namely the chrominance signal, varies in amplitude tion axes phase-constant component of the coloring must be.

Synchronization signal takes place. On the basis of the embodiments of the drawing

After a note made at the EBU meeting in June 1965, the following is the invention and Hanover proposed new variant of the PAL-io further explained its characteristics in more detail. In the method, the chrominance signal is no longer to be

Color components / and Q, but with the circuit according to the color given as a block diagram of recomponents R to Y and B to Y. The one coming from the IF demodulator 1 will be. In addition, the color burst is not chrominance signal is supplied to the chrominance signal amplifier 2 more 180 ° phase shifted from B to Y 15 may be of any means of amplitude variation, but over B to Y contains a line-to the chrominance signal. Via the line of the invention between 135 and 225 ° alternating phase-related circuit part 3, through which the adjustment elements for the amplitude variation are held, by means of which the adjustment elements are held in it

Furthermore, according to the PAL method, the color chrominance signal is rendered ineffective from line to line by 180 ° ao signals during the duration of the color synchronous component R to F, the switched from comes from. In this way, the chrominance signal amplifier 2 amplified chrominance signal has a component which is shifted by 180 ° compared to the PAL decoder 4, at whose outputs A and B B to Y and which does not alternate, and the color difference signals ( R to Y or B to Y) also have a component that can be removed in phase. Furthermore, in is at R to Y , and with this the phase constant compo is switched from line to line in a known manner. component of the color sync signal - at the

In all previous methods with no alternation, this phase constancy at the end of the color sync signal was possible, as was the case with gang B of the PAL decoder 4 - the color saturation of the image was reduced by varying the color carrier amplitude of the chrominance signal via the gated amplifier 5 vary. In this case, 30 synchronization circuit 6 is supplied. However, the color sync signal had to do the gain control for the chrominance signal before the controller Soll

for the amplitude of the chrominance signal taken automatically, it will expediently be there so that it remains as a rule independent of this amplitude variation for the amplitude of the color sync signal. criterion can be used. The color sync signal In the case of a chrominance signal with alternating color 3g, for this purpose, a sync signal can be obtained from such an amplifier behind the chrominance amplifier. However, in an advantageous circuit, this can only receive alternating color sync signals at the output of the gated amplifier 5. The synchronization of the color carrier Fig. 1 take place; The control voltage amplifier 7 of the oscillator does not always lead to satisfactory results, however, and then supplies one of the size of the amplitude of the results. The object of the invention is to provide a switching chrominance amplifier 2. The above briefly mentioned device for setting the color saturation .eines PAL- . Color saturation control while maintaining a transmitted, to create in which the change in constant color burst, the color saturation does not affect the color. Figure 2 is an embodiment for the sync signal. Circuit part 3 of FIG. 1 reproduced. In the case of a circuit of the type mentioned at the beginning F i g. 2 is denoted by 8 a coupling capacitor, this is achieved according to the invention that in front of the potentiometer 9 and the delay signal splitting in the PAL decoder a 10 to vary the amplitude of the chrominance signal setting circuit for the amplitude variation of the color 50 ■ is supplied, the varied amplitude of which is provided for the artsignal, which can be taken at least during capacitor 11. Both of the duration of the color sync signal are ineffective. Potentiometers 9 and 10 are - the first at which it is switched. Embodiment via a resistor 15 - In a further development of the invention, this is done via the diode 12 acting as a switch to ground ineffective circuit of the setting circuit under 55. The resistor 13 uses negative horizontal blanking pulses and rend through the resistor the duration of the line return. When using 14, the positive voltage U _{b can be} supplied. The potentiometers in the setting circuit are there values of the two resistors 13 and 14 are considered to be advantageous that the horizontal blanking is selected so that they operate an electronic switch much larger than the values of the pulses, 60 potentiometers 9 and 10 and des Resistance 15 which separates the potentiometer from ground or bridges the input resistance of the following. Level are. The negative horizontal blanking pulses When using an amplifier element 17 lock the during the absence of these pulses with adjustable DC control voltage in the setting due to the positive voltage U _b opened diode circuit are the horizontal blanking pulses with 65 12, so that the connection of the two Potentiometer 9 of such an amplitude of the DC control voltage and 10 to the ground via this diode 12 intermittently superimposed that the amplification of the element is during, whereby the potentiometers 9 and 10 is maximum at the end of the pulse duration. Amplitude variation of the chrominance signal during

the duration of the color sync signals can be switched ineffective. It can also be beneficial to that Potentiometers 9 and 10 by means of a switch that opens in the absence of the horizontal blanking pulses is to be closed by supplying them so that these two potentiometers are bridged.

In the exemplary embodiment in FIG. 1, the capacitor 8 is connected to the output of the chrominance amplifier 2, while the capacitor 11 is connected to the input of the PAL decoder 4. The in F i g. 2 circuit part shown can in a similar manner in the signal flow of the chrominance signal leading from the IF demodulator to the transit time signal splitting circuit of the PAL decoder 4 of FIG. B. between the IF demodulator 1 and the chrominance signal amplifier 2 are inserted. The switching elements 8 to 14 can also be provided in the chrominance signal amplifier.

In the event that the amplitude variation of the chrominance signal is caused by manual change of a DC control voltage an amplifier element is to take place, the circuit part 3 is shown in FIG. 1 through the in F i g. 1 replaced circuit part shown as an example.

When in Fi g. 3, the amplifier element is formed by the transistor 17, the base of which is supplied with the chrominance signal via the coupling capacitor 16. An inductively coupled band filter is provided in the collector circuit of transistor 17, the primary circuit of which consists of coil 19, capacitor 18 and damping resistor 30 and the secondary circuit of which consists of coil 24, capacitor 22 and damping resistor 23. The coupling between these two circuits takes place through the coil 21. The capacitor 20 is used for DC voltage decoupling between the primary and secondary circuit.

The RC element with the resistor 25 and the capacitor 26 serves to stabilize the operating point. The chrominance signal is coupled out at the capacitor 31. In addition to the chrominance signal, a manually variable voltage U _{v is} fed to the base of the transistor 17 via the resistor 28 and the coil 27. Furthermore, the base of the transistor 17 via the capacitor 29 and the coil 27 are supplied with positive horizontal blanking pulses. The resistor 28 is selected to be so large that the voltage U _v cannot or not noticeably become effective during the duration of the positive horizontal blanking pulses. In the absence of these pulses, the amplification of the chrominance signal is determined by the size of the variable voltage U _v. If positive horizontal blanking pulses are present at the base of transistor 17, the amplitude of the color sync signal is determined by the amplitude of these pulses, which is advantageously chosen so that the base voltage of transistor 17 reaches the value at which transistor 17 is greatest during the pulse duration Has gain, so that the burst signal always experiences a constant gain. With a constant input signal, a color sync signal of constant amplitude is obtained at the capacitor 31, while the amplitude of the remaining signal can be varied by changing the voltage U _v.

In the embodiment of the circuit of FIG. 1, instead of circuit part 3, the circuit of F i g. 3 are inserted so that the capacitor 16 at the output of the chrominance signal amplifier 2 and the Capacitor 31 is at the input of the PAL decoder 4.

Just like the circuit part shown in FIG. 2, the circuit of FIG IF demodulator 1 to the transit time signal splitting circuit of the PAL decoder 4 leading signal flow of the Chrominance signal can be inserted.

Claims (4)

Patent claims: 1. Color television receiver circuit for setting the color saturation of a PAL signal, which with alternating color sync signal is transmitted, and in which the color carrier synchronization due to the phase constant that appears behind the PAL decoder with respect to the modulation axes Component of the burst signal takes place, characterized in that before the Runtime signal splitting in the PAL decoder an adjustment circuit (3) for amplitude variation of the chrominance signal is provided, which at least during the duration of the color sync signal is switched to ineffective. 2. Circuit according to claim 1, characterized in that the setting circuit (3) below The use of horizontal blanking pulses is ineffective for the duration of the return line is switched. 3. A circuit according to claim 2, characterized in that when using potentiometers (9, 10) in the setting circuit (3) the horizontal blanking pulses actuate an electronic switch (12) which separates or separates the potentiometers (9, 10) from ground bridged (Fig. 2). 4. A circuit according to claim 2, characterized in that when using an amplifier element (17) with adjustable DC control voltage (U _v ) in the setting circuit (3), the horizontal blanking pulses with such an amplitude of the DC control voltage (U _v ) are superimposed that the Gain of the element (17) during the pulse duration is maximum (Fig. 3). 1 sheet of drawings