DE756806C - Arrangement for synchronizing a saw tooth current generator, which contains a parallel resonance circuit and a transformer-based voltage-fed back tube - Google Patents

Description

Arrangement for synchronizing a sawtooth current generator which contains a parallel resonant circuit and a transformer-type voltage feedback tube Sawtooth current generators are known which have a parallel resonance circuit and a transformer type voltage feedback-type tube and in which the individual switching elements as well as the direct voltage in the grid and anode circuit are dimensioned in this way that the full sawtooth consists of a überaperiodisch by a damped oscillation of the process. parallel resonant circuit formed linear trace and a reflux formed by a free oscillation of the half. parallel resonant circuit. It is known to synchronize such sawtooth generators in this way; that the sync pulse is fed to the control grid. However, since the grid-cathode path carries grid current during the forward run, such a synchronization is only possible with a simultaneous current load on the generator supplying the synchronization pulses, ie not without power.

To avoid this: disadvantage is an arrangement for synchronizing such a sawtooth generator created by that a- Tube with at least three grids is used, two of which are: near the cathode Grid as a control grid and. The anode of the voltage feedback circuit, and that the third grid po@s.itive sync pulse :, are supplied, such that the current flowing on the second grid is partially transferred to the anode of the tube will.

The subject matter of the invention is therefore a power distribution control. In itself, synchronization by power distribution is another type of. Sawtooth generators already known. In these sawtooth power generators a capacitor is charged proportionally to time via a resistor, and the voltage on the capacitor is in the control grid circuit of a five-pole tube. Between the condenser and the control grid of this tube is the secondary winding of one. Feedback transformer, whose primary winding is inserted into the screen grid circuit of the tube. At the safety gate The tube has sync pulses of negative polarity. This known arrangement works in such a way that by each sync pulse the to the anode of the five-pole tube flowing current is reduced and the current flowing to the screen grid of this tube is enlarged. This occurs on the secondary winding located in the control grid circuit des Rückkopplungs.transformato-rs a voltage, which the control grid potential increased compared to the tubular cathode. The capacitor, which across the resistor had been charged, then discharges via the control grid-cathode path the five-pole tube. There is therefore a synchronization by power distribution control also here, but in this known case it is negative sync pulses and not, as in the case of the circuit according to the invention, to positive synchronizing pulses. In the known case, the anode current is reduced and the Screen grid current increased, while in the case according to the invention just the other way around Screen grid current is reduced and the anode current is increased.

An example of the circuit implementation of the input to the first Place mentioned known sawtooth generator is illustrated in Fig. I. There io means a three-pole tube, i i a resistor capacitor element, 12 the Deflection coil, which together with its own capacitance or with one of it in parallel switched capacitance forms the parallel resonance circuit. At 13 is the voltage feedback serving transformer called whose. one winding in the anode and its other Winding is in the grid circle. The capacitor 14 and the resistor 15 are used for Elimination of the harmonics of the anode DC voltage source 16.

An embodiment of the invention, in which at the same time as a thinking coil the grid-side transformer winding is used is illustrated in Fig. 2. The multigrid tube is denoted by 17, the resistor capacitor member, the Transformer and the anode voltage source with their tranquilizers with the same Reference symbols as in Fig. I.

The circuit of Fig. 2 works in such a way that on the part of the grid 18 the flow of current to the anode is blocked as long as the time-proportional part the sawtooth curve, d. H. the sawtooth trace is generated. However, should the sawtooth return begin, the grid 18 is supplied with a positive sync pulse and thereby the current, which previously by the blocking effect of the grid 18 on the anode the voltage feedback circuit serving the screen grid is now forced to Part transferred to the anode i9. This creates the free half-oscillation of the deflection coil initiated. The grid 18 does not need to carry any current, so that the synchronization of the sawtooth generator is completely powerless.

As in Ab @ b. 3 illustrates, one can get the required negative Pre-tension for the grid 18 by tapping the resistor in the link i i manufacture. Fig. 3 shows this. in the event that the sync pulses on capacitive Paths are fed to the grid 18. The corresponding coupling capacitor is with 2o and the grid leakage resistance with 21.

Fig. I also shows how the negative bias is obtained for the control grid 18 from the member i i, however, the sync pulses over a small transformer 22 to differentiate the pulses if desired can; the grid 18 are fed.

Claims (2)

PATENT CLAIMS: i. Arrangement for synchronizing a sawtooth current generator, the one parallel resonant circuit and one transformer-based voltage feedback Tube contains, with such a dimensioning of the switching elements and the grid and anode circuit lying DC voltage that the complete sawtooth period from one by an: over-periodically damped oscillation process of the parallel resonance circuit linear outward flow formed by a free half vibration of the parallel resonance circuit, especially for television purposes, characterized by the use of a tube with at least three grids, of where the two grids near the cathode act as the control grid and anode of the voltage feedback circuit serve, and the third grid of which positive synchronizing pulses are supplied, in such a way that the current flowing on the second grid is partly applied to the anode the tube is passed over. 2. Circuit arrangement according to Claimz, characterized in that the negative bias voltage for the grid effecting the current distribution control is provided by a lying in the control grid circuit of the voltage feedback circuit. Resistance capacitor member is tapped. To distinguish the subject matter of the invention from the state of the art, the following documents have been considered in the grant procedure: British patent specification No. 47o-9.22; Telegraph, Fernsp.rech-, 'Funk- und Fernsehtechnik, 1938, S. Sog.