DE1028611B - Circuit arrangement for blanking television signals - Google Patents

Description

The invention relates to a circuit arrangement for blanking television signals. While processing of the television signals supplied by image generators, the problem occurs during the horizontal and vertical retrace times of the scanning beam to create a clear and constant voltage level in the image signal. This task was so far solved in such a way that the image signal during the flyback times a voltage pulse in Direction »black« superimposed and the composite signal formed in this way by means of a biased diode has been cut off at a predetermined voltage level. The flawless one Function of such a circuit arrangement has the prerequisite that the bias for the Cut-off rectifier is obtained by a voltage divider with a high Ouerstrom, so that the Bias in the transition from the non-conductive to the conductive state of the rectifier is not essential changes, and that the signal amplitude is so large that the inevitable curvature of the diode characteristic does not cause impermissible distortion in the cut-off area.

A low-resistance voltage divider to obtain the bias voltage of the cut-off diode is also therefore required in order to make the frequency response of the arrangement as independent of amplitude as possible. In order to achieve a sufficiently high signal amplitude, the broadband amplifier of the circuit arrangement must be built with high power tubes that consume large amounts of electricity.

The switching arrangement according to the invention is based on the knowledge that the output variable of the cutting arrangement the reciprocal value of the sum of generator resistance, diode resistance and consumer resistance is proportional. The effect of the cut-off diode is therefore all the better, the smaller the generator and consumer resistance can be made. For the reasons mentioned above, there is an amplitude-independent frequency response the reduction in consumer resistance is of predominant importance compared to the Reduction of the generator resistance.

If, as is usually the case. the cut-off diode is switched on between two electronic amplifier stages, so can accordingly according to the invention, a low value for the dynamic resistance of the "gain stages" between in which the cut-off diode is located, can be achieved particularly advantageously by the fact that the one acting as a consumer second amplifier stage is fed back in a suitable manner.

By introducing another directional conductor with which the characteristic curve curvature of the cut-off diode circuit arrangement
for blanking television signals

Applicant:

TV G.m.b.H.,

Darmstadt, Am Alten Bahnhof 6

Dipl.-Ing. Fritz Jaeschke, Darmstadt, Mathildenstrasse, has been named as the inventor

is compensated, it is possible, even with smaller signal amplitudes and amplifiers to lower the levels Power consumption to achieve an exact blanking and limitation of the television signal.

The invention is to be explained in more detail on the basis of the drawings illustrating the exemplary embodiments will.

In Fig. 1, a circuit arrangement is shown in which the dynamic resistance of a Abschneidedi ode following tube stage is reduced by a negative feedback and by means of a second Diode the curve of the characteristic curve of the cut-off diode is compensated.

Fig. 2 shows a circuit arrangement with a different type of negative feedback.

In Fig. 1, 1 denotes a tube system, the control grid of which the image signal B is fed in a positive direction. During the time of the return of the beam, the potential of this grid is held at a fixed value in the lower part of the straight area of the tube characteristic by the clamping circuit 4. The cathode of the tube 1 is supplied with a positive pulse A from a tube 5. At the anode of the tube 1, a negatively directed image signal is generated, on which a positive pulse is superimposed in the flyback times. This pulse is so far cut off at the diode 6 and the dynamic voltage divider, which is formed from the tube 2 with its associated switching elements, that it is z. ß. is about 7.5% of the total black and white jump. The control grid of the tube 2 is also held by a clamping circuit 7 in the return times of the Alitaststrahls at a defined potential, namely at the upper end of the straight part of the characteristic curve of the tube 2. At the cathode resistor 10 of the tube 2, the blanked and clipped image signal is picked up and the

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Tube 3 supplied, which operates in a grid basis circuit and performs a post-amplification of the signal.

To compensate for the signal distortion caused by the curvature of the characteristic curve of the diode 6 in the near “black” part of the image signal is parallel to the cathode resistor 8 of the tube 1 another diode 9 switched. By adjusting their preload and the series resistance is the point of use and the extent of the negative feedback can be set. This increases the gain of the Tube 1 changed in such a way that one over the entire amplitude range of the arrangement gives constant gain.

The reduction of the dynamic resistance at the anode of the tube 2 is achieved by negative feedback of the tube from the anode via the capacitor 11 to the grid of the tube. This will make the Resistance at the anode of the tube by the factor

-; r-reduced, where 5 "is the dynamic steep-1 -j- S · i? "'

the name of the tube and R _u the anode work resistance. For example, a resistance R ₁₁ of 1 kΩ is reduced by a _{factor of V 10} with a dynamic slope S of 9 mA / V, that is to 100 Ω.

The circuit arrangement according to the invention also allows the synchronization signal to be keyed into the blanked and limited television signal in a particularly simple manner. For this purpose, the tube 12 is provided, which feeds the positively directed synchronous signal S to the common cathode resistor of the tubes 2 and 3. The size of the synchronous signal is determined by the choice of the bias voltage of the control grid of the tube 12.

In the circuit arrangement according to FIG. 2, the cut-off diode 6 is connected between the cathodes of two tubes 21 and 22. The image signal B with negative polarity is fed to the grid of the first tube 21 via a coupling capacitor 23. A clamping circuit 24 holds the grid at ground potential during the retrace times. The image signal occurs with the same polarity at the cathode resistor 25 of the tube 21. In addition, the cathode of the tube 21 is supplied with the blanking signal A of positive polarity from a source of low internal resistance. Due to the negative feedback of the tube 21 occurring in this circuit, it has a low dynamic resistance. This applies in the same way to the tube 22 with the cathode resistor 26. The grid of this tube is connected to ground. The blanked and limited output signal can be picked up at a resistor 27 arranged in the anode circuit.

To compensate for the curvature of the characteristic curve of the cut-off diode 6, similar to the circuit arrangement According to FIG. 1, a second diode, not shown in FIG. 2, can be used. In the end it is also possible to add the sync signal to the blanked and limited image signal. The invention is not limited to the exemplary embodiments described limited, but changes can be made within the scope of the expert knowledge Experienced.

Claims (5)

Patent claims: 1. Circuit arrangement for blanking television signals, in which a picture signal added pulse during the retrace times towards black at a predetermined one Voltage level is cut off by means of a prestressed directional conductor, characterized in that that the directional conductor (6) used to cut off the signal is between two amplifier tubes (1, 2 or 21, 22), of which the second of the two amplifier tubes (2 or 22,) is fed back in such a way that the dynamic acting on this tube for the directional conductor Resistance to the DC resistance is reduced. 2. Circuit arrangement according to claim 1, characterized in that the curvature of the Characteristic curve of the directional conductor (6) provided for cutting off this signal by means of a second Directional leader (9) is compensated. 3. Circuit arrangement according to claim 2, characterized in that the compensation the curvature of the characteristic curve of the cut-off directional conductor (6) provided second directional conductor (9) causes amplitude-dependent negative feedback of the amplifier tube feeding the directional conductor (6), preferably the size and point of use of the negative feedback can be adjusted. 4. Circuit arrangement according to claim 1, there-. characterized in that the supply of the voltage pulses in the black direction to the cathode of the amplifier tube (1) feeding the directional conductor (6) is preferably carried out via a cathode amplifier stage (5) ¹ . 5. Circuit arrangement according to claim 1, characterized in that the addition of the Synchronization signal to the blanked and limited television signal at the cathode of the after Rectifier (6) arranged amplifier tube (2) preferably via a cathode amplifier stage (12) takes place. Publications considered: Dillenburger, W .: »Introduction to the new German television technology ", Berlin, 1953, p. 145. 1 sheet of drawings © 809 507/133 4.58