DE914389C - Arrangement for frequency-independent position setting in transformer tilting devices - Google Patents

Description

Arrangement for frequency-independent position adjustment in transformer tilting devices The invention relates to transformer tilting rods, in particular for television sets, and relates to a compensation device for the frequency shift caused by the direct current used to change the position is effected.

In the case of the transformer tilting device used up to now, the interleaving means the raster a certain difficulty, since the direct current causing the position adjustment also flows through one winding of the transformer and so when changing its Size affects the premagnetization of this transformer and thus the relaxation frequency. The invention consists in that by a dependent on the displacement voltage Tension the bias of the tilt tube is changed so that the through the frequency shifts caused by various pre-magnetizations of the transformer can be undone. According to a preferred embodiment of the In accordance with the invention, the grid voltage is generated by a voltage derived from the direct voltage or the cathode bias is changed in such a way that this results in an opposite frequency characteristic arises.

The invention is illustrated with reference to FIGS. 1, 2 and 3, the exemplary embodiments represent, sew-explained, but without being limited to these.

In the figures, i means the tilting tube, 2 the anode winding, 3 the grid winding and ¢ the coupling of the tilting transformer. the Deflection coils; 5 means the deflection coil @ n, 6 an RC element that, a variable, Has resistance, whereby a frequency adjustment is possible. 7 means the Resistance to changing the grid position. In Fig. 3 is the, deflection coils, the Series connection of a linearization junction 8 and an RC element g. parallel switched, the latter .die: biasing the diode causes.

The mode of operation of these exemplary embodiments is based on the fact that the iron core of the tilting transformer, through the anode direct current of the tilting tube is premagnetized, which again through, the grid current in part in its effect is compensated. The displacement direct current supports the setting of the grid position or, depending on its direction, weakens this cancellation of the bias and thereby causes a change in frequency.

It is now the goal: the invention, at the same time as the lodge setting to counteract this frequency change by changing the bias voltage of the tilting tube, namely, as can also be seen from Fig. i, the cathode bias voltage is changed in such a way, that they have an effect on the frequency of the tilting device due to the change in bias caused frequency deviation counteracts.

The mode of operation of the circuit according to FIG. I is as follows: The resulting flow in the transforma: toT 8 is determined by the anode current in the Coil 2, the grid current in: the coil 3 and the direct flux in the coil, 4. Here wit-kt the flow of the grid current in the coil 3 in phase opposition to that through the anode current evoked flux where that caused by the anode current in the coil 8 Field predominates. Depending on the setting used for the grid shift The additional field created by the current in the coil 4 is caused, with that caused by the anode current or that caused by the grid coil Field to be in phase. It should be assumed in the following that the Displacement current caused by the field. Grid current evoked flow reinforced. Thus, the resulting field is reduced by less preponderance of the anode flux smaller and the premagnetization of the iron core of the transformer 8 weaker. This in turn results in a greater inductance of the transformer, which is synonymous with slower vibrations, with others; Words with one Frequency reduction of the breakover oscillation. In the present arrangement, however, as can be seen from FIG. i, at the same time a more negative grid bias voltage generated, which causes an increase in the frequency of the generated tilting oscillation .. On this In this way, compensation for the change in frequency can be achieved.

While in Fig: i a circuit is drawn in which a! Various: .possibility of the grid exists on both sides, Fig. 2 shows one with one-sided Possibility to move. The latter is z. B. with angled beam incidence on the screen a Braun tube or on the. Mosaic of a storage tube, used when the ray in its initial position is not in the middle, but further below the Middle hits.

Fig. 3 shows a circuit which is opposite to the circuit according to Fig. I differs in that the deflection coils 5 are not connected to the outer end of the Winding 4 but to the inner end: this winding are connected. Through this the advantage is achieved that the anode of the linearization diode 8 rides the end the transformer winding 4 can be connected .. In the case of the F1g. i and 2 should a parallel-connected linearization diode with the cathode at the end of the transformer winding be connected. However, this would mean the heating-cathode path of the diode dimensioned for the entire high voltage impinging on the coils, fail-safe will. Since: this is not practically possible, in this case of FIGS 2 a separate heating coil can be used for the linearization diode. As already mentioned, the circuit according to FIG. 3 avoids this disadvantage.

Claims (4)

PAT-E-NTANSPRVCIIE: i. Arrangement for frequency-independent box setting in transformer tilting devices, characterized in that one of the displacement voltage for the grid-dependent voltage, the bias of the tilt tube is changed in this way becomes that caused by the different bias of the transformer Frequency shifts of the breakover oscillation can be reversed. 2. Arrangement according to claim i, characterized in that the displacement current is tapped a resistance in the cathode circuit of the tilt tube is obtained. 3. Arrangement according to Claim i, characterized in that the deflection coils have a biased linearization diode is connected in parallel. 4. Arrangement according to claims i to 3, characterized in that that the linearization diode with its anode to the inner end of the additional Transformer winding is connected.