DE763150C - Circuit arrangement for separating the image change pulses from a pulse mixture which also contains the line pulses - Google Patents

Description

The synchronization signals commonly used in television square-wave pulses are the same for the image and line deflection devices Polarity, but of different length, namely short-duration pulses for the line deflection, longer lasting impulses for the image deflection. Are these synchronization signals over routed through a common transmission channel, the emergency ίο arises at the receiving location Agility to separate the picture change signals from the line sync signals to to trigger the image tilting device only by means of the image change signals. These So far, separation has been done in the following way: The composite signal is via a Resistance of the one assignment of a capacitor supplied, the other assignment on fixed potential. In addition, there is switching elements in parallel with the capacitor ensured that potential differences between the capacitor assignments are gradually increased can compensate. The resistance and the capacitor capacitance are dimensioned in such a way that that the short duration line sync signals are unable to remove the capacitor to charge as high as is done by the longer-lasting image change signals. The time course of the potential difference across the capacitor is as shown in Fig. 1b Shape, while Fig. 1 a the incoming

Line synchronizing and image alternation signal composite represents. The potential difference increases gradually increases during the signals. If the potential difference has a certain value, the Threshold value which is not reached by no line synchronization signal during the frame change signal exceeded, the image tilting device is made to respond. Since the Change in potential extends over a longer part of the image change signal, there must be a fluctuation in the threshold value or the level of the image change signal cause temporal shift of the image tilting set.

It is already known to send a preparatory pulse in advance of the image change pulse in order to avoid these Xadi parts. The image change pulse, which in this known synchronizing arrangement has been referred to as the execution pulse, only then generates the image tilting operation. This known circuit works in such a way that the preparatory pulse in front of the image tilting device generates a voltage curve which differs from the voltage curve that sets during the continuous arrival of line pulses at this point, and that the image tilting operation is generated by the image change pulse (execution pulse). Fluctuations in the threshold value and the height of the image change impulse then have no effect on the time of the Büdkipp application, which is caused by the steep front of the image change impulse. A circuit arrangement is also known in which the mixture of line pulses and image change pulses is initially deformed in such a way that the image change pulses receive a greater amplitude than the line pulses, in which this deformed mixture is then fed to the series connection of two capacitors and in which finally parallel to a resistor is connected in parallel to that capacitor which is further away from the feed point of the deformed mixture. The series connection of the two capacitors is connected to the anode of a tube, in the anode lead of which there is a resistor; and on whose control grid the [ pulses with negative polarity to be separated are effective. \ During the pause between two pulses, the tube carries current and the capacitors do not show any increase in voltage. During each pulse duration, the tube is locked and the capacitors are charged in proportion to time. That charge falls during the long Bildw ^r echselimpulse much further away than during the short line pulses. After the end of an i impulse, current flows through the tube again; casual and discharges the capacitors again very quickly. A much higher voltage is thus formed on the capacitors within a picture change pulse duration, so that the response value of the picture change tilt device can be reached and exceeded, while this is not the case within the line pulse duration. The second of the two capacitors, to which the above-mentioned resistor is parallel, supplies the voltage for the control grid of the image changeover device. The resistor lying parallel to it only serves to define the control grid potential of the input tube of the image changeover device in terms of DC voltage! kidney and is therefore to be dimensioned very large, so that the charge generated by influence on the first capacitor of the series circuit cannot flow away via this resistor during the image change pulse duration. The image change tilt device is not made to respond by the back of the image change pulse, but rather also responds at any point in time within the image change pulse duration.

In a circuit arrangement for separating the image change pulses longer Duration from a pulse mixture also containing the shorter line pulses, which the one assignment of a capacitor is fed, at the other assignment of a resistor is connected for the purpose of picture change synchronization during television broadcasts according to the invention, the resistance is dimensioned such that only a small part during the line pulses, while of the image change pulses, however, the greater part of the influence on the second capacitor occupancy generated charge and in the case of the second capacitor change in potential under the influence of the rear of the image change pulse the threshold value of the image tilting device is reached and this is made to respond.

To achieve the utmost temporal accuracy, which is particularly necessary for interlaced images of the image tilting insert is thus achieved according to the invention during the image change signal a ready state of the signal switch is created, accordingly the end of the picture change signal as a synchronization symbol works. For this purpose, the composite signal of one of the capacitors is used fed; the charge influenced on the other occupancy is via a resistor derived, the size of which is such that during the duration of the line synchronization signal only a small part, but the largest part during the duration of the picture change signal the influenza charge drains. The through the

Influence charge-induced potential change 'this occupancy has that shown in Fig. 2 Character history; the incoming line and picture alternation signal mixture is identical to that Fig. Ι a. Shortly before the end of the picture change signal, the capacitor is occupied again almost the same potential as before the arrival of the picture change signal; it is now through the end of the picture change signal again in the opposite direction to almost the full (but reversed) The amplitude of the alternating image signal is charged. If the potential falls below a certain value Value (the threshold value) which must be such that it is not caused by anything resulting from the end of a line synchronization signal Impulse is reached, it causes the image tilting device to tilt. The speed, with which the potential of this capacitor occupancy falls below the threshold value, and thus the accuracy of the temporal use of the image tilting device is based on the Edge steepness of the rear of the image change pulse. Is the duration of this Edge, still within the permissible temporal fluctuation of the image tilt use, so can neither fluctuations in the visual wave value nor in the level of the image change signal disturb the temporal accuracy of the image tilting operation influence.

The device according to the invention is compared to the previously known devices advantageous because they have a large when the usual pulse mixture is present according to Fig. 1 a

To achieve temporal accuracy of the image tilting use and also allow fluctuations of the threshold value on the image tilting device, as was previously only possible when a preparation pulse was transmitted could be allowed before the image change pulse.

Claims (1)

Claim:
Circuit arrangement for separating the picture change pulses of longer duration from a pulse mixture also containing the shorter line pulses, which is fed to one assignment of a capacitor, to the other assignment of which a resistor is connected, for the purpose of picture change synchronization in television broadcasts, characterized by such a dimensioning of this resistance, that during the line impulses only a small part, during the image change impulses, however, the largest part of the charge generated by influence on the second capacitor assignment is diverted and that the threshold value of the image tilting device reaches the threshold value of the image tilting device during the change in potential formed on the second capacitor assignment under the influence of the back of the image change impulse
Response is brought. to the To distinguish the subject invention from the prior art ^r erfa'hren following publications are in grant \ been considered: French patents nos. 800 602, 805 568. 1 sheet of drawings I 5626 12.52