DE1010562B - Circuit arrangement for shrinkage control in television receivers - Google Patents

Description

GERMAN

The invention relates to circuit arrangements for generating a fading control voltage in television receivers.

It is known that the size of the synovial impulse peaks with negative modulation. a measure of the reception field strength of a television signal, so that the Synchronizing pulses can be used in the receiver to derive a fading control voltage. For this purpose it is known to use the composite video signal containing the direct current value with negatively directed To supply sync pulses to the cathode of a diode, which are generated by positive pulses supplied on the anode side, which coincide in frequency and phase with the sync pulses., in particular by off the flyback pulse derived from the flyback transformer, is opened briefly, with the diode arbait occurring DC voltage, the amplitude of the sync pulses and thus also is approximately proportional to the input field strength, is used as the fading control voltage. It is also known, the fading control voltage thus generated by regulating the amplitude of the probe pulses to enlarge. In addition, it is known, in general, the control voltage generated in radio receivers automatically limited in the positive direction by an additional, suitably biased diode.

The invention provides a circuit for generating a fading control voltage in television receivers specified, in which the delay of the regulation is particularly easy and safe. the Invention is that to limit the fading control voltage in the positive direction on the Anode of the already existing keyed control saving diode a fixed negative bias is provided. This achieves that without additional Control devices and without the need for an additional limiter diode, damage to the regulated tubes when the signal is fading.

To explain the invention in more detail, an exemplary embodiment based on the Drawing described.

The drawing shows a circuit for generating a fading control voltage in television receivers with a video rectifier 1 to which a modulated carrier frequency voltage is fed via the output transformer 2 of the last intermediate frequency stage. The polarity of the rectifier is such that the composite video signal 4 containing the direct current value appears at the resistor 3 with negatively directed synchronizing pulses, which is fed galvanically to the control grid of the video amplifier tube 5. At the anode resistor 6 of this tube is in a known circuit arrangement
for shrinkage control
in television receivers

Applicant:

Telefunken GmbH,
Berlin NW 87, Sickingenstr. 71

Günther Paul, Hanover,
has been named as the inventor

Removed as the amplified video signal VS ^1, is connected during its cathode ¹ via a capacitively bridged cathode resistor 7 to ground. This can be provided with a tap for contrast control, which is connected to the base of the resistor 3 and the output transformer 2. At the cathode resistor 7, a voltage that is proportional to the signal mixture applied to the control grid is produced, which voltage is fed to the cathode of a diode 8. The diode 8, shown as a crystal diode, can also have the shape of an electron tube with a hot cathode. The anode of the diode 8 is connected via the resistor 9 to a point of negative potential. Due to the voltage drop across the cathode resistor 7 as a result of the current of the tube 5, the cathode of the diode is initially biased positively with respect to ground and the diode is therefore blocked as long as no further positive bias voltage is added to its anode. To open the diode for the duration of the synchronizing pulses, the anode of the diode is supplied via the capacitor 10 with positive pulses which correspond in frequency and phase to the syndirone pulses and which are constant in amplitude. These pulses can be used in a television receiver of conventional design z. B. be taken from the flyback transformer at which suitable pulse voltages are available during flyback. A voltage then arises at the diode working resistor 9 which is approximately proportional to the amplitude of the sync pulses and, after being smoothed by the filter element 11, is used for fading control. The presence of the direct current value of the composite video signal at the input of the tube 5 is necessary in order to make the magnitude of the generated control direct voltage U% independent of the image content.

709 549/144

Since the base point of the diode working resistor 9 is set to negative potential, the at this Working resistance 9 falling voltage limited in positive direction as soon as the received Synchronitnpul'se have too small an amplitude. This is to avoid overloading the regulated tubes, which is preferably in the intermediate frequency part of the receiver lying, desired. The same effect of a delayed use of the shrinkage control can be achieved if, in the embodiment shown in the figure, the anode of the diode 8 is connected to ground via a further resistor 12 shown in dashed lines. Of the Resistor 9 and the additional resistor 12, which in this case form the working resistance of the diode then a voltage divider, at the tap of which the anode of the diode 8 is connected. If one forms this tap point changeable by combining resistors 9 and 12 to form a control potentiometer, in this way the delay in the use of shrinkage control can be changed.

Claims (3)

Patent claims: 1. Circuit arrangement for generating a fading control voltage in television receivers the video signal according to the DC value containing the DC value is fed to the cathode of a diode with negatively directed sync pulses, the positive impulses supplied to one side of the anode, the frequency and phase of the synchronous impulses match, is opened briefly and the diode load resistance resulting voltage is used for fading control, characterized in that for Limitation of the fading control voltage in the positive direction at the anode of the diode is a fixed one negative bias is provided. 2. Circuit arrangement according to claim 1, characterized in that to limit the Shrinkage control voltage in the positive direction of the base point of the diode working resistor (9) negative potential with respect to ground. 3. Circuit arrangement according to claim 1, characterized in that the anode of the diode (8) is at the tap of a voltage divider (12, 9), the end points of which are on different Potential, in particular at ground and a point of negative potential. Considered publications:
British Patent No. 623,431;
H. Pitsch: "Textbook of radio reception technology", 1950, pp. 591/592. 1 sheet of drawings © T09 549/144 6.57