DE1272968B - Circuit arrangement for blocking and opening the color channel in a color television receiver - Google Patents

Description

Circuit arrangement for blocking and opening the color channel in one Color television receiver In a color television receiver, it is useful when receiving of a signal without color information to block the color channel, thus in the color channel occurring disturbances are not involved in the image reproduction. To this end so-called "colorkiller" circuits are used.

It is known that briefly occurring at the beginning of each line, color sync signals used to synchronize a reference carrier oscillator, which only occur when transmitting color information, and thus rectify the color amplifier stages automatically in the amplification to a constant mean output voltage to regulate. It is also known to design this circuit so that when it falls below of the color synchronization signal of a threshold voltage of one of the color amplifier stages is completely blocked. Such circuits have the disadvantage that the blocking of the color channel takes place continuously and no particularly sharp transition between Blocking and non-blocking is present.

It is also known to use the burst signal in a discriminator to be compared with a locally generated reference carrier. When color burst and reference carriers are present and in phase at the discriminator, the discriminator supplies a manipulated variable that opens the color intensifier stages, while in the absence of any of the color sync signal or, if there is no phase match, another manipulated variable that blocks the color channel. These circuits also have a certain Transition area between the locked and unlocked state of the color enhancement stages.

It is also known to use the manipulated variable supplied by the discriminator to control a controlled rectifier which, upon receipt of a signal without color information by rectifying line retrace pulses, a reverse voltage is generated which locks the color enhancement stages. This circuit requires a relatively great effort and also has a transition area between the blocked one and the unlocked status of the color channel.

The invention is based on the object of creating a circuit the between the locked state and the unlocked state of the color channel switches very sharply and clearly and has no transition area if possible.

The invention is that a bistable, the color level either Blocking or opening toggle switch is provided, which is triggered by the color synchronous signal each in the sense of an open color level and by one from the vertical sync signal derived blocking pulse is overturned in the sense of blocked color level.

A major advantage of the invention consists in the following: that a bistable multivibrator is provided, there are only two states for the Color channel, either locked or unlocked. Intermediate states or a transition area is therefore no longer possible.

For example, the rectified burst signal can be direct can be used to knock over the toggle switch. However, it is useful to use the burst signal first to compare with the locally generated reference carrier in the phase and derive the impulse for knocking over the flip-flop circuit from this comparison. Through this the immunity to interference is improved because then interference pulses during the duration of the The burst signals are essentially unaffected, since they are generally not have the phase of the reference carrier.

It is conceivable that the blocking pulse also comes from a source other than derive from the vertical sync signal, since it only matters, occasionally, d. H. to block the color channel after a large number of color sync signals. the However, derivation from the vertical sync signal is practically the simplest.

The invention is explained in more detail below with reference to the figures.

F i g. 1 shows a basic circuit diagram of the invention; F i g. 2 and 3 show curve shapes to explain the principle of operation of the basic circuit diagram Fig.1; F i g. 4 shows a practical embodiment of the invention.

The same parts are denoted by the same reference numerals in the figures. In F i g. 1, the carrier-frequency color signal comes from a terminal 1 via a controllable terminal Color level 2 to a terminal 3. Color level 2 is activated by a bistable toggle switch 4 controlled, which controls the color level 2 either completely permeable or completely locks. From a terminal 5 rectified color sync signals 6 reach the Toggle circuit 4 and push this toggle circuit in each case so that the color level 2 is permeable. From a terminal 7, the flip-flop 4 from the vertical sync signal derived pulses 8 fed to the flip-flop 4 according to the duration knock over a grid so that color level 2 is blocked.

The F i g. 2 and 3 show the mode of operation of the circuit according to F i G. 1. The color sync signals 6 push the toggle switch always in the sense of open Color level 2 around, so that color level 2 remains open. It is assumed that after the last color sync signal9 the color signal fails. Color level 2 remains initially open. When the blocking pulse 8 arrives, the flip-flop is in Meaning of blocked color level 2 knocked over. Because the toggle switch does not return by itself falls over and no more color sync signal6 appears, color level 2 remains blocked.

In the example according to FIG. 3, the color level 2 is initially through the color sync signals 6 kept open. The blocking pulse 8 blocks the color level 2. When the next color sync signal 10 arrives, the color level is already opened again. The short-term blocking is without any disadvantage because it is in the vertical blanking time lies.

In Fig. 4, the bistable trigger circuit 4 contains two transistors 11 and 12. The output of the trigger circuit 4 is connected to the base of a transistor 14 serving as color stage 2. The blocking pulse 8 is fed to the base of the transistor 11. A locally generated reference carrier 15 with color carrier frequency is also fed to this base. The transistor 11 is also fed via a capacitor 16 and a diode 13, the color sync signals 6 in color carrier frequency form. The diode 13 is intended to prevent the transistor 11 from breaking down during the negative half-waves of the color sync signal 6. The mode of operation of this circuit is as follows: The transistor 11 serves as a phase comparison stage for the reference carrier 15 and the color sync signal 6 locks. This increases the voltage at circuit point 17. The transistor 11 is thereby controlled via the resistor 18 in the direction of a larger current. Since this causes the voltage at the collector of the transistor 11 to drop, the transistor 11 keeps the transistor 12 blocked via the voltage divider formed by the resistors 19 and 22, so that this transistor does not draw any collector current. Therefore, the circuit point 17 is at a high positive voltage, so that the transistor 14 serving as color stage 2 receives a positive voltage via the resistor 20 , becomes conductive and forwards the color signal F from terminal 1 to terminal 3.

As soon as the color sync signal 6 is no longer available, the next Blocking pulse 8 blocked through the resistor 21 of the transistor 11, so that the bistable Circuit 4 flips over and transistor 12 draws a current. The tension at the point 17 then drops so far that the transistor 14 is blocked and in a more desirable manner Way prevents the transmission of the color signal from terminal 1 to terminal 3. The color blocking circuit is then effective until there is another color sync signal6 appears and the toggle switch overturns.

Claims (5)

Claims: 1. Circuit arrangement for blocking and opening of the color channel in a color television receiver, in which the presence of a received, Briefly occurring color sync signal for opening and at the beginning of each line the absence of this signal to block a color level in the color channel is exploited, characterized in that a bistable, the color level (2) either blocking or opening toggle switch (4) is provided, which is triggered by the color sync signal (6) each in the sense of an open color step (2) and one from the vertical sync signal derived blocking pulse (8) in the sense of blocked color level (2) switches. 2. Circuit arrangement according to claim 1, characterized in that the color sync signal (6) is compared in phase with a locally generated reference carrier (15) and the pulse thus obtained is used to control the bistable multivibrator (4). 3. Circuit arrangement according to claim 1, characterized in that the trigger circuit (4) contains two transistors (11, 12) and that the rectified burst signal (6) the base of one transistor (12) and the blocking pulse (8) the base of the other Transistor (11) is supplied. 4. Circuit arrangement according to claim 2 and 3, characterized characterized in that the one transistor (11) is also used as a phase comparison stage for the reference carrier (15) and the color carrier-frequency color sync signal (6). 5. Circuit arrangement according to claim 4, characterized in that the color sync signal (6) is fed to the transistor (11) via a diode (13). Documents considered: German Auslegeschrift No. 1147 974; USA. Patent Nos. 2,736,765, 2 961,484, 2,971 046, 3,070,654.