DE2321327B2 - Method for automatically switching a color channel on or off by a control signal in the SECAM color television system - Google Patents

Description

The invention relates to a method and a circuit arrangement for automatic on or off Switching off a color channel by a control signal during the decoding of a color television system based on the SECAM encoded color video signal, the control signal being generated by a bistable multivibrator which is derived from a signal derived from rectified identification pulses of the color video signal is set and reset by a vertical frequency pulse signal.

Should a color television receiver working according to the SECAM color television system Black-and-white broadcasts are to be reproduced, so funds must be available in this case for this ensure that the device's color channel is automatically switched off or blocked. The means to switch off of the color channel consist of a so-called color switch in known SECaM color television sets (Color-Killer), d. H. a circuit arrangement, which is a switching criterion when there are no identification pulses in the vertical blanking interval of the color video signal supplies, which blocks the color channel. When receiving SECAM color television broadcasts, however, should the color switch-off switch the color channel on again or - if this was not blocked - switched on permit.

When decoding according to the SECA M color television system coded color video signal, the color channel switch-off must respond very quickly in order to with a failure of the color information to avoid strongly disruptive »fire« (cross color) in the television picture. Since usually only the identification pulses in the vertical blanking interval are switched off with color channels are evaluated, is an integration of the identification impulses not possible, as the time constant for the activation of the color channel switch-off will be too large would.

From the magazine "Funkschau", radio technical worksheets, Fs 17, November 1970, pp. 2183-2190 is a circuit arrangement for automatically switching a color channel on or off known, in which the Color channel switch-off with the leading edge of a vertical-frequency synchronizing pulse in the position »color off «and when the identification mini-pulses are present with sufficient levels back into the position "Color on" is switched on. In another variant, the color channel switch is activated with the leading edge of the vertical-frequency synchronizing pulse is switched to the »color on« position and in the event of failure or one The level of the identification impulses with a ™ is too low Auxiliary impulse switched to "color off" position.

Furthermore, from DT-OS 17 62 930 a circuit arrangement for the automatic blocking of the color channel by means of a toggle stage if it is missing or too small Color sync signal in color television receivers according to the PaL or SECAM standard known, in which a DC voltage derived from the color sync signal or the color identification contained therein Missing or too small a color sync signal in color television receivers according to the PAL or SECAM standard to recover the decoded color difference signals existing bistable multivibrator in a certain position and one from the existing or missing switching square wave voltage of the bistable multivibrator derived DC voltage is used as a blocking voltage for the color channel, or the Voltage difference between the existing and missing switching square-wave voltage is used as a criterion for this will.

However, these known circuit arrangements have the disadvantage that when the level is reduced the identification pulses in the vicinity of the switching level of the color channel switch-off a color flak occurs. This color flicker is particularly annoying when decoding noisy color video signals. Of the The reason for these disturbances lies in the different levels of the identification pulses during the individual partial images. In this way, the level of the identification pulses for switching the color channel switch-off be sufficient for individual partial images and not for other partial images.

The object of the present invention is therefore to provide a method of the type mentioned at the outset which avoids the aforementioned disadvantages.

According to the invention, this object is achieved in that the signal derived from the rectified identification pulses is integrated by means of an integration The switching signal obtained from the control signal is influenced in such a way that when the control signal is generated a hysteresis arises.

A circuit arrangement for carrying out the method, in which the one input of the bistable Flip-flop the identification pulses separated from the SECAM color video signal by a rectifier stage and the other input of the bistable flip-flop the vertical-frequency pulses are supplied and the control signal at the output of the bistable multivibrator

is removable, is characterized in that a part of the control signal is fed to a switch via an integration network, the output of which is connected to the rectifier stage connected is

In an advantageous development of the circuit arrangement according to the method according to the invention the equivalence stage is also designed as a threshold switch

The method according to the invention has the advantage that when the color channel switch is addressed for the first time the response level of the color channel switch-off is changed in such a way that in the following fields the switching conditions are clear even with small level fluctuations in the identification pulses. First if the level of the identification pulses exceeds the hysteresis threshold, the response level becomes of the color channel switch is switched back again. This measure in particular gives a Color channel switch, which is very snowy! and especially clearly responds to the failure of the color information in the SECAM color video signal.

The invention will now be explained in more detail using the exemplary embodiment shown in the figures will. It shows

F i g. 1 shows a block diagram of a circuit arrangement for carrying out the method according to the invention and

F i g. 2 is a circuit diagram of the color channel switch according to the invention.

In Fig. 1, a color video signal FBAS encoded according to the SECAM system is transmitted via terminal 1 (Color image, blanking and synchronous signal) or a separated chrominance signal fed to a stage 2, with which the identification pulses of the F (BAS) signal are separated. For this purpose, the Stage 2 for separating the identification pulses of the F (BAS) signal also vertically frequency pulses supplied via terminal 3. At the output of stage 2 are the separated identification pulses, which a stage 4 are fed. This stage 4 contains a rectifier with a threshold switch. The output of stage 4 is connected to the set input of a bistable multivibrator 5. The reset input the bistable multivibrator 5 is supplied with the vertical-frequency pulse train at terminal 3. At the The output of the bistable multivibrator 5 with terminal 6 is the control signal for automatic switching on or off of the color channel removable. A part of this control signal is integrated in the integration stage 7 and an electronic switch 8 is supplied. The task of this electronic switch 8 is to act on level 4 in such a way that that the threshold switch does not switch through and does not set the bistable multivibrator.

The F i g. 2 shows a circuit diagram for generating the control signal for automatically switching a color channel on or off. The F (BAS) signal, coded according to the SECAM system, is fed to the base of transistor 12 via terminal 9 and the RC-GWcd 10 and 11. The working resistance in the collector lead of transistor 12 consists of a resonance circuit with capacitor 13 and coil 14. This resonance circuit is, for example, tuned to the frequency of the blue differential identification pulses with 3.9 MHz. The switching stage with transistor 15 was provided so that this transistor stage only amplifies the identification pulses in the vertical blanking interval. The base of transistor 15 is fed a negative vertical frequency pulse train via terminal 16 and capacitor 17. The two resistors 18 and 19 are used to set the operating point of transistor 15. If there is a negative voltage at the base of transistor 15, transistor 15 and transistor block 12 works as a resonance amplifier. The emitter combination 20, 21 and 22 is used to supply the negative potential 23 and to set the operating point of the differential amplifier consisting of the transistors 12 and 15. Conversely, in the case of the resonance amplifier with transistor 12, there is no amplification if there is a positive potential, ie a positive level of the vertical-frequency pulse train, at the base of transistor 15. The high-frequency identification pulses obtained in this way pass from the resonance circuit 13, 14 via an RC element 24 and 25 to the base of the transistor 26 from this impedance converter, the identification signal reaches the base of transistor 30 via capacitor 28 and rectifier diode 29. The RC combination 31 and 32 serves as a filter element. The rectifier diode 29 and the transistor 30 with resistor 33 together form a threshold switch.

Only with a positive part of the identification signal of at least 1.4 Vs $ at the emitter of transistor 26 causes the switch with transistor to turn on 30 and resistor 33. Transistor 30 switches bistable multivibrator 36 via /? C element 34 and 35 and 39, which is made up of two NAND gates, and puts it in the "color in" position. Previously this was bistable multivibrator 36 and 39 via the /? C element 37.38 reset from the leading edge of the vertical frequency pulse train (terminal 16) to the "color off" position. The signal at the output of the bistable multivibrator 36 and 39 with terminal 40 provides the control signal for switching a color channel on or off.

Part of the control signal applied to terminal 40 is now tapped via an integrator 41 and 42 and fed through resistor 43 to the base of transistor 44. The control signal is through the integrator 41, 42 integrated in such a way that transistor 44 always remains switched on in the "color on" position. Only when When the level of the identification pulses is reduced, the switch with transistor 30 sets the bistable multivibrator 36 and 39 can no longer switch to the "color on" position, the negative voltage builds up on the Capacitor 42 via resistor 41, so that the voltage level of the control signal at the end of a field is certainly around 0 volts. This blocks the switch with transistor 44 and the anode the rectifier diode is biased to the negative potential 23 via the resistors 45, 46 and 47. Of the The bistable multivibrator 36 and 39 is only switched back to the "color on" position? when the voltage level the identification pulse has been reached so far that in addition to the normal threshold value the threshold switch consisting of rectifier diode 29 and switching transistor 30 also

bo additional negative reverse voltage is overcome. The switch with transistor 44 is switched through again in this case and only the circuit-related one becomes Threshold value of the threshold value switch consisting of rectifier diode 29 and transistor 30 effective. By changing the voltage divider ratio between the negative potential 23 and the resistors 45 to 47 connected to ground potential 48, the size of the hysteresis can be set.

1 sheet of drawings

Claims (3)

Patent claims: 1. Method for automatically switching a color channel on or off by means of a control signal at the decoding of a color video signal encoded according to the SECAM color television system, wherein the control signal is generated by a bistable multivibrator, which is rectified by a Identification pulses of the color video signal and derived from a vertical-frequency signal Pulse signal is reset, characterized in that the from the rectified identification pulses derived by an integration of the Control signal obtained switching signal is influenced in such a way that when generating the control signal a hysteresis arises. 2. Circuit arrangement for performing the method according to claim 1, in which the one Input of the bistable multivibrator from a rectifier stage from the SECAM color video signal separated identification pulses and the other input of the bistable multivibrator, the vertical frequency Pulses are supplied and with which at the output of the bistable multivibrator the Control signal is removable, characterized in that part of the control signal via an integration network (7) is fed to a switch (8), the output of which is connected to the rectifier stage (4) is. 3. Circuit arrangement according to claim 2, characterized in that the rectifier stage (4) is also designed as a threshold switch.