DE1114223B - Arrangement for increasing the edge steepness of the control pulses for output stages of the deflection circuits of television receivers - Google Patents

Description

The invention relates to an arrangement for steepening the blocking edge of the control pulses from Control generators for line output stages of the deflection circuits of television receivers. With circuits deflection technology, e.g. B. from televisions, it is usually important to initiate the rewind process quickly. Circuits are known in which the equalizing process is used, particularly in the horizontal deflection of television sets at the end of said outflow, which occurs after the horizontal end tube has been blocked, both for so-called energy recovery as well as for generating the anode high voltage for the Picture tube is exploited. It is particularly important here, by quickly and completely blocking the end tube, d. H. by control z. B. the first grille of this tube with a very steep and blocking sufficiently large negative impulse to avoid dampening the equalization process. Recently a very steep trailing edge is also necessary for power amplifiers with automatically controlled image width.

The arrangement according to the invention makes it possible to by feedback of a z. B. in the line output stage the appropriate voltage steep edge of the control pulse for the output stage, going in the negative direction, which is caused by blocking the line end tube initiates the return process, taxable in a particularly effective manner. The advantage the arrangement results, for. B. from the fact that after the introduction of the feedback, the high voltage grows and the current drawn from the battery voltage for the horizontal output stage decreases and therefore the damping of the compensation process becomes smaller.

Furthermore, there is the advantage that in an arrangement according to the invention a remarkable Power saving occurs and the arrangement especially for horizontal output stages with automatically regulated Output stage is suitable.

Circuits are already known in which there is also a voltage from the output of the line deflection output stage is fed to a control electrode of the end tube. The control voltage is here the Screen grid of a tetrode e.g. fed by a blocking oscillator, whereby during the run to the Suppression of interfering effects the control grid is brought to cathode potential.

In this known arrangement, the solution required for the screen grid of the tetrode is not sufficient Measures available control voltage from a feedback process in which the control grid is used to block the tube during the return movement.

arrangement
to increase the slope

the control impulses for output stages
of the deflection circuits of television receivers

Applicant:

Standard electrical system Lorenz Aktiengesellschaft, Stuttgart-Zuffenhausen,
Hellmuth-Hirth-Str. 42

Dipl.-Ing. Hermann Hettich, Pforzheim,
has been named as the inventor

In the invention, however, the voltage required to block the output tube is from the control generator from already present. The blocking process is achieved by steepening the blocking edge. Through this Losses that occur during the locking process of the end tube and are detrimental to the deflection process are avoided.

The invention is characterized in that from the output stage pulses are fed back to the control generator in such a way that the control of the The tube characteristic of the generator is accelerated from zero anode current to its maximum value, by the voltage of the unblocked screen grid of the output tube to the first grid of the control generator is supplied via a coupling capacitor.

The invention is explained in more detail using an exemplary embodiment.

1 shows a circuit diagram with an arrangement according to the invention;

Figs. 2 and 2b are diagrams for explaining the operation of the invention.

The control generator is z. B. a known electron-coupled LC generator. It consists of the frequency-determining parallel resonant circuit 1 with the circular capacitance 2 and the circular inductance 3 and of the tube 10. This is connected with its cathode 7 to the tap 5 of the circuit inductance 3 and connected to its grid 8 via a grid current limiting element 4 with the resonant circuit, whose

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other pole is connected to ground. The working resistor 11 is connected between the anode 9 of the tube 10 and the battery voltage supply line 20. Via the coupling capacitor 12, the voltage pulse at the anode 9, which is still suitably shaped by the shaping member 16 for controlling the horizontal end tube, is fed to the control grid 15 of the end tube 14 for blocking. The resistor 13 is their grid leakage resistance, and the output stage can in a known manner, for. B. be constructed as a voltage recovery circuit. The anode lead 22 of the tube 14 leads to the horizontal output transformer. The screen grid 17 of the end tube 14 is connected to the battery voltage U _B via the resistor 18.

In the following, the effect of the special feedback applied according to the invention from Screen grid 17 via the resistor 19 and the capacitor 21, which is connected to the tap 6 of the circuit inductance 3 is connected to the control grid of the tube 10, explained with the aid of FIGS. 2a and 2b will.

In order to achieve a reasonably large edge steepness from the outset, the alternating voltage amplitude ug _w , which lies on the grid 8 of the tube 10, must be large _{compared to the length of the 7 fl} -C / _{g characteristic} curve (FIG. 2 a) of the generator tube. The alternating voltage ug _w is shown as a function of the time t or t _v i ₂ .... The large alternating voltage can be achieved in a known manner by appropriate selection of the feedback factor and large circular quality. However, the edge steepness of the blocking edge achieved in this way is not yet sufficient.

For a better understanding of the mode of operation of the invention, let us first consider the circuit according to FIG. 1 without the feedback according to the invention and assume that the circuit works in the steady state and the alternating voltage ug _w supplied to the grid of the tube 10 just reaches the value α ( Fig. 2 a), at which anode current begins to flow in this tube. Up to this point in time, the anode voltage was equal to the battery voltage U _B ; thereafter, the anode voltage begins to decrease according to the anode current and the resulting voltage drop across the load resistor 11, ie the edge of the blocking voltage, which is to block the horizontal output tube, begins to build up.

Since the slope of the / '- E / g-Kennlmie of the tube near the lower end is very small, is also the first part of the locking flank, inter alia, on the anode 9 (ua = f (t) for the werti = i ₁₎ according to Fig. 2 b fairly flat and strongly rounded. The flank becomes all the faster, the more the controlling grid voltage runs on the set part of the characteristic curve. The lowest anode voltage and thus the highest negative reverse voltage is achieved when the tube is operated in grid current mode and the grid current limitation no longer allows a higher anode current. (The dashed line in the ug _w illustration of FIG. 2a indicates the change in the voltage profile as a result of the grid current.) From the above, it can be seen that the duration of the blocking edge corresponds to the time required for the alternating grid voltage around the characteristic curve to go through from the anode current zero to the anode current maximum. It can also be seen that the blocking flank is very flat at first and later steeper, in accordance with the tube characteristic.

If one considers the possibilities for steepening the blocking edge, it could indeed be with an enlargement a relatively smaller part of the lattice change amplitude is placed in the flat part of the characteristic curve, however, there are limits to the enlargement of the grating amplitude (e.g. due to the attenuation by

ίο the reactance tube or similar circuits for frequency control). Furthermore, as is known, the slope of a sinusoidal oscillation is at the zero crossing largest, so that a corresponding steepening of the blocking edge actually occurs. However, results In addition, the grid current time for the generator is too long and the blocking time is too long Horizontal end tube, so that this route is not advantageous.

The taxing effect of the feedback used according to the invention from the screen grid 17 of the horizontal output tube 14 to the grid 8 of the generator tube 10 is that the screen grid voltage rises simultaneously with the generation of the blocking voltage and reaches the battery voltage Ό β when the output tube is blocked. The positive impulse generated here can be fed to the grid of the generator tube to steepen the sinusoidal oscillation. In addition, (Fig. 2b) the horizontal output tube, in contrast to the generator tube, is controlled in the direction from the greatest current to the blocking, that is, the screen grid voltage rises rapidly at the beginning of the blocking and thus supports the taxing effect especially at the beginning of the Blocking pulse.

To dampen the resonant circuit 1 when the low-resistance screen grid pulse is coupled in to avoid, the feedback voltage can expediently z. B. at a corresponding tap fed into the coil and used as a transformer. The arrangement according to the invention is not only limited to the described application with sine wave generators, but can be also apply to other control generators.

Claims (2)

PATENT CLAIMS: 1. An arrangement for steepening the blocking edge of the control pulses from control generators for line output stages of the deflection circuits of television receivers, characterized in that pulses are fed back to the control generator from the output stage in such a way that the control of the tube characteristic of the generator is accelerated from the anode current zero to its maximum value, in that the voltage of the unblocked screen grid of the end tube is fed to the first grid of the control generator via a coupling capacitor. 2. Arrangement according to claim 1, characterized in that the feedback voltage is fed in such a way at a tap of the coil of the control generator designed as an LC generator that it is used as a transformer. Considered publications:
French patent specification No. 1063 192. 1 sheet of drawings