DE892608C - Arrangement for the automatic setting of the operating point of pipe circuits - Google Patents

Description

Arrangement for the automatic setting of the operating point of tube circuits The invention relates to switching arrangements with V-shaped characteristics, thus with a characteristic that has a rising and falling branch, how they z. B. by two tubes arranged in a bridge circuit or by corresponding parallel connection of two tubes can be obtained. With such Switching arrangements there is often a need on the lowest point of the characteristic to work regardless of fluctuations in the values of the switching arrangement, such as she z. B. can be caused by temperature or network fluctuations. One desired setting of the operating point is possible by hand in such a way that at an asymmetry or a change in an existing one in the arrangement Switching value the control voltage of a grid of the tubes is changed so that symmetry is achieved again. According to the invention, a! such Regulation can be made automatically. The invention can be used to advantage found in modulation circuits, especially for television systems where the the carrier wave fed to the modulation circuit should have a certain value and given by a fixed value from the modulation. at such Circuits it is necessary on the lowest point of the V-shaped characteristic to work when the modulation is from a fixed residual value of the carrier, e.g. B. black level, or zero value should be output.

The invention consists in that according to the work on the one or the other branch of the V-shaped characteristic by the switching arrangement oppositely phased voltages are generated, which adjust to the lowest Point on the characteristic. The control voltage can, for. B. won in this way be that the according to working on the two branches of the characteristic voltages in phase opposition of a constant high-frequency oscillation, in particular the carrier frequency fed to the modulation circuit, in or out of phase are superimposed and the resulting oscillation after rectification to the automatic Adjustment of the working point z. B. by appropriate control of a grid the switching arrangement is used.

The invention is illustrated using a circuit example on the basis of FIG explained in more detail. The tubes i and 2 are arranged in a bridge circuit, and the high frequency vibrations to be modulated are transmitted to the two grids 3 and 4 via terminal 5, z. B. the carrier frequency supplied. The bridge is tuned in such a way that the High-frequency oscillations in the output circuit in coil 6 or 7 cancel each other out. the Modulation can be applied to the grating 8 of the tube i via the terminal 9. Will If no modulation is now fed to the switching arrangement, it occurs with a correctly balanced Bridge in the output at terminals i o and i i the zero value or the residual value of the Carrier oscillation. If the correct bridge setting changes, e.g. B. by Temperature or network fluctuations, the switching arrangement no longer works lowest point A of the V-shaped characteristic according to FIG. 2, but the The operating point will be set on the right or left ascending branch, so that this results in a deviation from the residual value of the carrier wave. at of this change in the operating point, the anode currents of tubes i and 2 are not more of the same size, so that they no longer cancel each other in the coil 7 - but rather in when working on the right branch of the characteristic opposite phase Vibrations result than when working on the left branch of the characteristic. These Opposite phase oscillations are now used to create a control voltage to create. These vibrations are transmitted through a tube 12 and the transformer 13 of the tube 14 is supplied, which via the line 15 also by the high-frequency oscillation or carrier oscillation, which is fed to the terminal 5, is influenced on the grid 16 will. This high frequency oscillation has a constant value; H. constant Phase and constant amplitude, so that when superimposed with an oscillation same or opposite phase, larger or smaller values of the control voltage can be obtained in the output circuit of the tube 14. These obtained in the exit of the tube Z4 Oscillations are rectified via the diode 17, and these are DC voltages is fed to the grid i9 of the tube 2 via the line i8. This tube becomes through this influenced in such a way that the resulting control voltage always continues to rise counteracts the high frequency voltage in the output of the bridge and so automatically regulates to the lowest point of the characteristic. The switching arrangement for generating the control voltage must always work when the modulation voltage is at its zero value when the bridge is supposed to be in equilibrium. About this real work ensure that the tube 12 on the grid 2: o by special control pulses which are fed via the terminal 21, whereby the tube 12 only during this time, e.g. B. synchronization gaps is open. The necessary Key-in signals can conveniently be obtained from the synchronization pulses of the television broadcasts be derived. The carrier wave fed to the tube 14 via the line 15 must always have the same amplitude for the arrangement to work correctly, and there can be special devices in the line 15 for this purpose Keeping the high frequency wave amplitude constant can be provided.

For the operation of the switching arrangement, it is necessary that at working on the lowest point of the characteristic a small residual value of the High-frequency oscillation remains, since regulation is only possible in that a small control voltage is always present. However, this residual value can be anything small, e.g. B. below i ° / n, so that it is not in the output io, 1i makes disturbing noticeable, and it can this control residual value through appropriate amplifier stages be further amplified, so that a sufficiently steep automatic control always is guaranteed. If necessary, the can also use a phase shifter Tube 14 supplied high-frequency voltages in the correct phase position to each other to be brought.

The invention is generally applicable to circuits that have a Have a V-shaped characteristic, but are particularly advantageous for modulation of television programs in which an always starts at zero or at a residual value Modulation is to be effected. If there is no modulation voltage, the amplitude of the carrier wave must also be zero or a fixed value and this fixed value must always be adhered to in the same way. Of the Fixed residual value occurs with television broadcasts at very specific recurring Times, and there is always an automatic readjustment of the bridge in these times. The switching arrangement, in particular the rectifier arrangement with the diode 17, has such a time constant that the Automatic regulation also remains in effect during the between the actual actual Regular times lying breaks.

In the drawing a bridge modulation circuit has been shown, to which the invention can be applied in a particularly advantageous manner. the However, the invention is in no way restricted to this switching arrangement, but rather can also be used with any other switching arrangements that have a V-shaped characteristic own, find application, z. B. in circuits in which the to be modulated Frequency is fed to 2 parallel tubes, one of which is positive Slope and the other has a negative slope, the slope being the an electron tube is controlled by the modulation frequency.

Claims (7)

PATENT CLAIMS: i. Arrangement for the automatic setting of the operating point of tube circuits with V-shaped characteristics between anode current and grid voltage to the lowest value, especially the I \ Tull value of the characteristic marked that according to the work, on one branch or the other -the V-shaped characteristic out-of-phase voltages obtained from the switching arrangement which is dependent on the phase position for setting the operating point Generate serving control voltage. 2. Arrangement according to claim i, characterized in that that the antiphase voltages of a constant high frequency oscillation, in particular the carrier frequency supplied to the switching arrangement, and the resulting Oscillation after rectification is used for automatic adjustment. 3. Arrangement according to claim 2, characterized in that the high-frequency oscillations, in particular Carrier frequency, by special devices at a constant amplitude value being held. q .. Arrangement according to claim i, characterized in that the Switching arrangement for generating the V-shaped characteristic from two in a bridge circuit arranged tubes and the antiphase oscillations to the anode circuit of the removed from both tubes. 5. Arrangement according to claim i to q., Characterized in that that an action of the out of phase voltages over the control arrangement only during the times in which the vibrations fed to the switching arrangement take place, in particular carrier wave, at a fixed value, e.g. B. black level, or a zero value should be kept. 6. Arrangement according to claim 5, characterized in that the out-of-phase vibrations before their superposition with the high-frequency vibration constant amplitude via a tube, which is controlled by special control pulses only during the zero values of the high-frequency oscillation, in particular only during the return times for television broadcasts, is open. 7. Arrangement according to claim 6, characterized in that the control pulses supplied to the lock tube from the. Synchronization pulses are derived from television broadcasts.