DE1016749B - Circuit for generating a keyed fade control voltage in television receivers - Google Patents

Description

GERMAN

The subject of the application is a circuit for generating an automatic rule spamiing through which regulates the gain of one or more intermediate frequency tubes in a television receiver will. For this purpose, a keyed control is preferably used. Such a circuit is for example structured as follows:

The positive video voltage is taken from the rectifier and attached to the grid of a three- or multi-pole tube supplied. In the cathode circuit of this tube there is a rheostat that can be set with the help of of the variable current allows the cathode voltage of the tube to be changed. The anode of the The return pulses from the line output transformer are fed to the tube via a capacitor. If there is synchronization, the synchronous and return pulses coincide in time and as soon as the grid voltage exceeds the cathode voltage, the electrons flow to during the impulses Anode, which generate a negative voltage there, which is used as a control voltage. Since only during the pulse times the anode receives positive voltage, there may be interferences between the pulses, do not generate any control voltage. As a result, the advantage of keyed control is a high level of interference immunity, the disadvantage is the effort.

A circuit is also known in which one of the video voltage and the flyback pulses are applied The voltage obtained from a rectifier is used to generate the actual control voltage from another voltage source by forming the difference to influence. Such a circuit not only requires a lot of effort, but also also requires a voltage source of high negative voltage and is therefore not available in all-current devices applicable.

According to the invention, the video voltage and the flyback pulses are common to a diode in this way that the DC voltage resulting at the diode from the video voltage and the flyback pulses is proportional to the sum of the absolute values of the coincident pulse voltages. These Voltage is used directly as the control voltage for the intermediate frequency amplifier.

The video voltage required for generating the control voltage is advantageously used in such a circuit taken from the cathode circuit of the video output tube, it being expedient to use the video output tube to switch as a cathode base stage and to make the cathode free of negative feedback only in terms of alternating current, while the DC negative feedback is maintained. A circuit arrangement is already known in which uses an anode base circuit. However, it has the disadvantage that the gain Circuit for generating

a sensed fading control voltage

in television receivers

Applicant:

Inter es s engem schaft für Rundfunkschutzrechte G.m.b.H. (IGR), Düsseldorf, Am Wehrhahn 30

Claimed priority:

Exhibition of August 29, 1953 at the Great German Radio, which opened on August 29, 1953, Phono and television exhibition in Düsseldorf

Dr. rer. nat. Hans-Werner Paehr, Gevelsberg, has been named as the inventor

^a 5 is less than 1. Furthermore, the problem of freedom from negative feedback does not arise in the known circuit.

A circuit arrangement is also known in which a voltage proportional to the black level is removed. The acceptance takes place from a galvanically connected to the anode of the video tube Diode. The pulses used in the control voltage generation are used in this known arrangement taken from the separation stage, are therefore with the pulses that occur at the anode of the video tube, identical, d. H. they are afflicted with interference voltage components. The advantage of the subject of the application, namely, the interference immunity of the gated control is not available there, as it is with the known Arrangement is not a coincidence circuit. It is also the case with the known arrangement also not possible to use return pulses.

The advantage of the circuit according to the invention lies

in that this circuit is a coincidence circuit acts in which interfering pulses do not affect the control voltage. It also has the advantage that the strobe pulses do not to overcome the anode voltage of the video tube. It turns out that too in the time immediately after switching on the television, while the line generator is still running does not work, so there are no return pulses, a control voltage is already occurring that then generated from the video voltage alone. There-

709699/132

by being during the heating tent of the device an overly strong feedback of the device avoided.

Embodiments of the inventive concept are shown in FIGS. 1 to 6.

In the circuit according to FIG. 1, the video voltage is taken from the cathode 1 of the picture tube 7. The image rectifier circuit 2 has the cathode 1 of the video output tube as an alternating current Base point and is free of negative feedback. The image rectifier circuit 2 consists of the diode 3, coupling coil 4 and the bleeder resistor 5. It is connected to the grid 6 of the picture tube 7 and via the capacitor 8 to the Cathode of the end tube connected. The rectifier circuit 2 is connected to the grid bleeder resistor 8 ' and the cathode via the cathode resistor 9 to ground. The video voltage is taken from the cathode Rectifier 13 supplied. There are no concerns about the addition of the two pulses return pulses also reach the cathode 1 of the video output tube, since the reaction is only imperceptible is. In addition, the video voltage is fed to the charging capacitor 11 via a resistor 10 of 10 kOhm so that the pulse voltage appearing at the cathode of the video tube is only 1% of that on Rectifier 13 lying pulse voltage is. On the other hand, the output transformer at the output transformer 15 taken pulse voltage is fed to the charging capacitor 11 via a resistor 12 of 60 kOhm, so that the video voltage reaches the rectifier 13 practically unattenuated, the pulse voltage on the other hand is weakened, but this is not a disadvantage, since impulses are practically at any arbitrary level To be available. The control voltage obtained is used by the resistor 14, 14 'and 14 " formed voltage divider removed. The error that the video voltage across the charging capacitor 11 is given to the rectifier 13, so only the alternating potentials used that depend on the image content are practically not noticeable.

Except for the version according to Fig. 1, in which the diode is parallel to the voltage source, the same design with series diode conceivable. To do this, the winding must be on the line output transformer 15, which decreases the return pulse, is set high, d. H. be put on cathode potential, like in Fig. 2. In this version, the direct current component is also transmitted, so that the control becomes independent of the image content.

Fig. 3 shows a similar embodiment in which the return pulses are supplied via the charging capacitor 16 will.

Fig. 4 shows another embodiment. Here the return pulses are transmitted via the cathode of the diode 13 supplied.

With this version you are of course not tied to the cathode as a voltage source, but any other voltage source can be used. Thus, instead of the video voltage, the image intermediate frequency voltage can also be used as a voltage source, as shown in Fig. 5, in which an intermediate frequency amplifier stage is designated by T. However, this has the disadvantage that the intermediate frequency voltage source is very heavily loaded. Nevertheless, as tests show, the circuit works flawlessly. Of course, all the variants listed are possible, e.g. B. a circuit according to Fig. 6, in which instead of the series connection of the diode 13, a parallel connection of the diode is used.

Claims (7)

Patent claims: 1. Circuit for generating a gated fade control voltage in television receivers, at which the video voltage and the flyback pulses are fed together to a diode, thereby characterized in that the resulting pulses at the diode from the video voltage and the flyback DC voltage proportional to the sum of the absolute values of the coincident pulse voltages and is used directly as a control voltage for the intermediate frequency amplifier. 2. A circuit according to claim 1, in which the video voltage required for generating the control voltage is taken from the cathode circuit of the video output tube, characterized in that the Video output tube is connected as the cathode base stage and the cathode is only free of negative feedback in terms of alternating current is made while the DC negative feedback is maintained. 3. Circuit according to claims 1 and 2, characterized in that instead of the video voltage the image intermediate frequency voltage is used as the voltage source. 4. Circuit according to claims 1 to 3, characterized in that the jointly the Voltages fed to the diode are fed to a charging capacitor of the diode via resistors, which are dimensioned in such a way that the video voltage reaches the diode with practically no weakening, the pulse voltage, on the other hand, is weakened. 5. Circuit according to claims 1 to 4, characterized in that the diode is in parallel or is in series with the voltage source. 6. Circuit according to claims 1 to 5, characterized in that the return pulses be fed through a capacitor. 7. Circuit according to claims 1 to 6, characterized in that the return pulses be fed through the cathode of the diode. Considered publications:
British Patent No. 623,431;
U.S. Patent Nos. 2,618,703, 2,637,772. 1 sheet of drawings I 709 699/132 9.