DE2354735C3 - Level correction circuit for television sets, in particular for the chrominance part of a SECAM color television receiver - Google Patents

Description

The invention relates to a level correction circuit for television sets, in particular for the Chroma part of a SECAM color television receiver, for correcting the influence of an interfering signal on one Level in a video signal, with a charging circuit coupled to an output of a video signal source is to each time during at least a portion of at least one horizontal time in a vertical blanking time to store a reference level from the video signal in the charging circuit and thus the horizontal frequency Correct blanking level.

From the German Offenlegungsschrift 20 03 455, a level correction circuit of the type mentioned above is disclosed known, in which the charging circuit via a clamping circuit again with an input of the video signal source is coupled, so that a shift in the clamping level caused by crosstalk practically the same as the black level in the video signal by correcting this clamp level Black level position like that of the video signal with an undisturbed clamping level. This circuit arrangement has the disadvantage that when a

shift occurring within the vertical time of the clamp level from the black level, this black level will change because of the clamp level is held at a value that is coupled to the level set in the charging circuit The invention now aims to eliminate this disadvantage.

According to the invention, a level correction circuit of the type mentioned at the outset has the characteristic that a changeover switch is coupled to said video signal source and the charging circuit in terms of direct current which has an operating signal input which is connected to an output of an operating pulse generator is coupled to an output of the in each case during at least part of a horizontal blanking period Switch to forward the stored reference level and to each during the horizontal playback time to forward the video signal to this output.

The changeover switch then sets a new clamping level in each case at the point of the disturbed clamping level brought the video signal that corresponds to the vertical blanking time in the said horizontal times Charging circuit set reference level, for example corresponds to the black level of the video signal. The video signal may be lost even after losing the DC component are clamped to this new interference-free clamping level to the DC component restore.

An embodiment of the invention is shown in the drawing and will be described in more detail below described. It shows

F i g. 1 is a block diagram of part of a color channel of a SECAM color television receiver with a level ^{correction circuit according to the invention} ,

F i g. 2 is a circuit diagram of part of a level correction circuit according to the invention.

In Fig. 1, a SECAM chrominance signal is fed to an input 1 of a chrominance signal processing circuit 3, which is divided into two components frequency-modulated by different color difference signals, which are each available at an output 5 and 7 and inputs 9 and 11 of two frequency demodulation circuits 13 and 15, respectively . A video signal in the form of a red or blue color difference signal is obtained from an output 17 or 19 of the demodulation circuit 13 or 15 and is fed to an input 21 or 23 of a correction network 25 or 27, respectively. These frequency ^{networks have an integrating effect of r> 0} and, together with a correction filter present in the chrominance signal processing circuit, are the cause of video signals occurring at the end of a horizontal time interfering with the clamping level occurring in these video signals at the beginning of the subsequent horizontal time cause. This disturbance is consequently dependent on the video signal amplitude occurring in the previous horizontal time and is therefore very variable.

At an output 29 or 31 of the correction network to be considered as the output of a video signal source 25 or 27 the video signal appears with the disturbed clamping level. These video signals are on the one hand fed to an input 33 or 35 of a changeover switch 37 or 39 and on the other hand to an input 41 or 43 of a switch 45 or 47, which switch with an output 49 or 51 of the same connected capacitor 53 or 55 a vertical fre-

quente charging circuit a

These charging circuits 45, 53 and 47, 55 help With the aid of an output 61 fed to an operating signal input 57 or 59 of switch 45 or 47 a vertical frequency pulse generator 63 taken Operating signal for the fact that during one or more horizontal times of the vertical blanking time, for example, at the beginning of each partial image the capacitor 53 or 55 up to then occurring level in the video signal is charged. In this case, that's a black level that causes it is obtained that a blanking signal occurring simultaneously with said operating signal from a Output 65 of pulse generator 63 is fed to an input 67 of chrominance signal processing circuit 3, see above that the demodulators 13, 15 then emit no signal.

The capacitors 53 and 55 are also connected to a further input 69 and 71 of the switch 37 and 39, respectively connected, which each have an output 73 or 75 and an operating signal input 77 or 79. Of the Output 73 or 75 is via a capacitor 81 or 83 with an input 85 or 87 of a clamping circuit 89 or 91 connected, which is provided with an output 93 or 95, whereby a video signal on a desired level is obtained. The operating signal input 77 or 79 of the switch 37 or 39 is located at an output 97 of a horizontal-frequency pulse generator 99, of which another output 101 is connected to a clamping pulse input 103 or 105 of the clamping circuit 89 or 91, respectively.

The changeover switch 37 is under the influence of the operating signal input 77 supplied Operating signal during the horizontal playback times in the position shown and during at least part of the horizontal blanking times in the position not shown.

In the position shown, the video signal fed to the input 33 and in the position not shown Position of the black level, which is stored in the capacitor 53, to the output 73 of the switch 37 forwarded. The new installed in the horizontal blanking time is not affected by interference The clamping level in the video signal fed to the input 85 of the clamping circuit 89 can now be reduced to a desired level are clamped with the help of the input 103 supplied clamping pulses.

The operation of the circuit arrangement for processing the other video signal corresponds to of the described part.

That part of the circuit arrangement between output 29 of the correction network which is regarded as the video signal source 25 and the output 73 of the switch 37 is referred to as a level correction circuit and is in an elaborate form in Fig. 2, in which corresponding parts with the same reference numerals as in Fig. 1 are shown.

In Figure 2, the output 29 is based on a as Emitter follower connected npn transistor 107 connected. From a connection of an emitter resistor 109 with the emitter of the transistor 107 is the video signal to the input 33 of the via a resistor 111 Changeover switch 37 and via a resistor 113 to the input 41 of the switch 45, the one as an emitter follower switched npn transistor 115, to the emitter of which the charging capacitor 53 is connected, fed. The base of transistor 115 is through a Series connection of a resistor 117 and a diode 119 with the operating signal input 57 tied together. The connection point between the resistor 117 and the diode 119 is connected in series from a resistor 120 and a diode 121 at the output 49 of the charging switch 45, which is at the base of a A pnp transistor 125 connected as an emitter follower is connected to the collector of an npn transistor 127 is connected, the emitter of which is grounded and its base on the one hand via a capacitor 129 on Operating signal output 61 and on the other hand via a resistor 131 is connected to ground

The emitter follower 125 has an emitter resistor 133 and its emitter is connected through a resistor 135 Another input 69 of the changeover switch 37. The input 33 or 35 is connected to the base of an npn transistor 137 or 139 connected. The transistors 137,139 are as Emitter followers are connected to a common emitter resistor 141. Their emitter electrodes are connected Output 73 and its base electrodes are further connected to the collector of a resistor 143 and 145, respectively npn transistor 147 and 149, respectively. The emitter electrodes of transistors 147 and 149 overlap a common emitter resistor 151 to ground. The base of the transistor 147 is connected to the operating signal input 77 and the base of transistor 149 at the tap of a voltage divider of the resistors 153.155.

The operation of the circuit arrangement is now as follows.

Via the emitter follower 107, the video signal taken from the output 29 of the video signal source is dem Input 33 of changeover switch 37 and input 41 of charging switch 45 are supplied. When the tension on the Operating signal input 57 of switch 45 is low, diode 119 is conductive and transistor 115 and the Diodes 121 are blocked, so that every connection from input 41 to output 49 is interrupted. is the voltage at the operating signal input 57 is high, the diode 119 is blocked and the transistor 115 is effective as an emitter follower and leaves the capacitor 53 connected to the output 47 up to the then occurring level in the video signal. This level is via the emitter follower 125, the Compensates for the base-emitter voltage drop of the transistor 115, the further input 69 of the switch 37 fed.

The emitter follower 125 can only charge the capacitor to a higher level than originally was present. So that level reductions can also be transferred to the condensate 53, this discharge briefly at the beginning of the charging period. This is done with the aid of the transistor 127, the for this purpose, a pulse differentiated from the AC network 129, 131 is fed to its base. From the switch 37, the transistor 137 is conductive when the transistor 147 is blocked. This is the case if there is no Impulse occurs at input 77

The transistor 149 is then conductive and thereby blocks the transistor 139. When a pulse appears on Input 77, the transistor 147 is conductive, whereby the transistors 137 and 149 are blocked during the Transistor 139 is conductive. In this way, during the occurrence of the pulses arr input 77 of the Black level passed from input 69 to output 73 and for the remainder of the time the video signal from input 33 to output 73.

Although the above shows an application of the level correction circuit in a SECAM color television receiver

catcher has been described, it should be evident that in each case when the replacement of a disturbed clamping level by a level from the video signal is necessary, a circuit arrangement according to the invention can be applied.

1 sheet of drawings

Claims (3)

Patent claims: t. Level correction circuit for television sets, in particular for the chrominance part of a SECAM color television receiver, for correcting the influence of an interference signal from a level in a video signal at which a charging circuit is coupled to an output of a video signal source, in order to increase at least one horizontal time in a vertical direction during at least one part -Austastzeit to store a reference level from the video signal in the charging circuit and thus to correct the horizontal frequency blanking level, characterized in that a switch (37) is DC-coupled to said video signal source (29) and the charging circuit (45, 53), the one Operating signal input (77) which is coupled to an output (97) of an operating pulse generator (99) in order to forward the stored reference level to an output (73) of the changeover switch (37) during at least part of a horizontal blanking time and to forward the stored reference level in each case during a horizontal-like delivery time to forward the video signal to this output. 2. level correction circuit according to claim 1, characterized in that with the charging circuit (45, 53) a discharge circuit (129) is connected, of which at least one operating signal input via a pulse duration-shortening circuit (129, 131) with an operating signal input (57) of the Charging circuit (45) is coupled. 3. level correction circuit according to claim 1 or 2, characterized in that with an input (21) the video signal source is coupled to an output (5) of a blanking circuit (3), of which Blanking circuit (3) has an output signal input (67) with an output (65) of a vertical frequency I mpulsgenerators (63) is coupled.