DE1006542B - Circuit for stabilizing the deflection amplitude - Google Patents

Description

GERMAN

For generating the deflection currents for cathode ray tubes with electromagnetic deflection Among other things, so-called »amplifier tilting devices« are used. This is a power tube, which is usually designed as a multi-grid tube and in whose output circle the deflection coils are located, an optionally predistorted sawtooth-shaped one Control voltage supplied.

The energy present in the deflection coils at the beginning of the trace is used in many circuits derived by rectification on a capacitor. With the so-called "energy recovery circuit" the voltage on this capacitor is added to the battery voltage and thus an increase in the DC operating voltage, combined with an improvement in the Profitability achieved.

The external resistance is relatively small compared to the internal resistance of the end tube, so that this practically works in short circuit. This has the disadvantage that the deflection amplitude depends essentially on the properties of the end tube, so that fluctuations in the same cause instability the deflection amplitude result.

Now the end tube is exposed to considerable electrical stress in the circuit mentioned, so that changes in the tube properties are difficult to avoid. For example is the so-called "shrinkage" generally known, which can be explained as follows:

During the beam tracking, the tube works with a low anode voltage, since the existing one Operating voltage should be as full as possible across the deflection coils. As from the tube usually a fairly large anode current swing is required, the grid cathode voltage to avoid it However, if the grid current is not to become positive, a considerable screen grid voltage is required.

The screen grid current is large because of the low anode voltage, and thus occurs as a result of the high screen grid voltage also results in strong screen grid heating. During the jet return the anode voltage rises to a few kV, and a thermal screen grid emission can be observed associated with a reduction in the internal resistance can hardly be avoided.

But it is precisely in this phase that the internal resistance, or rather the internal conductance of the end tube, has a significant influence on the deflection amplitude because of its damping effect. In addition, the screen grid emission current reduces the screen grid direct current, so that when the screen grid voltage is generated via a series resistor, the screen grid voltage is increased. Circuit for stabilization
the deflection amplitude

Applicant:

TV G.m.b.H.,

Darmstadt, Am Alten Bahnhof 6

Emil Siegel, Darmstadt,
has been named as the inventor

will. This effect is not constant over time, so that through these and other phenomena a general one Inconsistency of the deflection amplitude is caused.

For high-quality receivers, e.g. B. Monitors in TV studios, is the constancy of the deflection amplitude but essential.

An improvement in the stability is therefore quite desirable. On the other hand, the Deflection amplitude stabilization does not significantly increase the expenditure on tubes and switching elements will.

Circuits are known in which the sawtooth current amplitude is adjusted so that the Anode voltage for the cathode ray tube obtained from the line return peaks by rectification remains constant. For example, a control voltage is obtained from the return voltage, with which the operating point of a discharge tube is regulated, which is used as an additional for the return pulse Damping works.

In another known embodiment, the direct voltage obtained from the return pulses is used the operating point of the flip-flop output stage regulated itself.

However, these measures do not necessarily lead to a stabilization of the raster amplitudes, because they do not There is always proportionality between the flyback pulse voltage and the sawtooth current amplitude. These is not present, for example, when the DC voltage obtained from the flyback pulse is charged. It also does not exist if, for. B. the return damping by the occurrence of Screen grid emission, which leads to the so-called »shrinkage effect«.

Even if there is proportionality between the sawtooth current amplitude and the return pulse the deflection amplitude is only constant if the high voltage and the sawtooth current swing itself are constant

609 86W337

3 4

stay. In the event of changes in the supply voltage, this voltage is - U _{v, however,} a change in the grid preload is not the case. voltage of the discharge tube 7. It is also the invention is changed in circuits for discharge pulse current and thus the span stabilization of the deflection amplitude for tilting devices, voltage stroke of the sawtooth voltage. This change in which the properties, in particular the steepness of the alternating grid voltage for the tube 3 or the internal resistance, of the end tube causes a change in the anode which has a significant influence on the amplitude of the saw current of this tube and thus a change in the tooth vibrations , the mean value of the voltage - U _v and the deflection amplitude. The proves during the outward run to the. Deflection coils lying written coupling thus has a stabilizing effect for voltage or a voltage proportional to this voltage - U _x , and thus for the deflection by rectifying and storing the end tube 3 located at an amplitude, so that changes in the properties of the winding of the output transformer have no significant influence gained more on the trace voltage and used to generate the amplitude. The special arrangement of the bias voltage of a control electrode of the discharge tube energy recovery capacitor also has the advantage of using the sawtooth voltage generator in such a way that the negative bias voltage of the control electrode charging capacitor 4 increases when the amplitude of the sawtooth voltage decreases causes.

of the discharge tube and thus that of the end. Braun's tube-related non-linearity is particularly favorable to compensate for the control voltage at 20, the capacitor 9 is selected to remove the energy recovery capacitor. that a parabolic voltage arises at it. It is advisable to give the capacitor direct current, which is used to store the negative pre-voltage, which is so to speak the bias voltage for the diode from the deflection circuit, the desired S-shape and thus the linearity of the sawtooth voltage. moderate one in the cathode lead the output tube 25 to feedback to avoid the filter switching, so ¹ that the negative bias of the member 13, 14 (R - 100 ohms, Cp = 0.1 μΡ) ange-cathode with respect to the common Point of order.

Anode voltage source of the voltage applied to the deflection coils during the beam A very important advantage of the circuit is that the tilt is proportional when changing. 30 amplitude z. B. by means of the resistor 12 there is at the same time the advantage that the screen grid voltage is changed proportionally, also the screen grid-cathode voltage of the selected voltage is proportional between anodes. maximum current and minimum current during the The invention is described in the following with reference to the trace changes considerably less than in the figure showing the exemplary embodiment. usual circuits and thus the linearity The figure shows an amplifier flip-flop circuit which remains constant. If, as in the case of the present two, the deflection coils 1 are coupled to the anode circuit of the end tube 3 by means of the transformer 2, the influence of the linearity of the inner diodes will play. Stand and the ohmic resistance of the deflection-The control grid of this tube is known in 40 coil z. B. corrected in that the one way a control signal, consisting of an abutment of sawtooth-shaped and pulse-shaped standing, additionally connected in the anode circuit, sawtooth-shaped voltage is supplied by means of voltage, welclis to the series connection of the transformer 15 in the diode or deflection Voltage, supplied, which is coupled to the series circuit coil circuit, so as to reduce the voltage. The charging of the capacitor 4 45 drop at the diode internal resistance and the ohmic one takes place via the resistor 6, while the discharge resistance of the deflection coils is compensated, so charge via the internal resistance of the right one, this compensation also takes place with the amplitude triode part 7 of the double triode. Receive the tax change.

The grid of this discharge tube 7 is controlled by the left triode part 8 of the 50, which is switched to oscillate in a modification of the exemplary embodiment, that is controlled by the control grid double triode. The end of the voltage blocking oscillator facing away from the discharge tube 7 can be synchronized via the terminal 16. divider resistance 12 instead of the positive pole of the In the present circuit, the anode voltage source is to be connected to a separate positive known type of energy recovery in the stabilized voltage source 17, as used in the cathode line, that is, indicated by dashed lines at 55 in the figure is. This coil current present at the beginning of the beam trajectory can be significantly lower than the anode voltage and charges the capacitor 9 via the diode 10. Such an arrangement has the essential voltage U _v with the polarity shown. Advantage over the described embodiment - by the special arrangement of the capacitor 9, for example, that the relatively high anode voltage is not this DC voltage in series with the anode 60 must be stabilized more because changes in the voltage and thus increases the anode operating tilt amplitude, caused by Fluctuations in the voltage for the end tube 3. The negative chip anode voltage, automatically compensated for, voltage U _x , is practically proportional to the coil run-in when the high voltage is drawn for the

_{TT T} dl,. , 1, · 1 cathode ray tube from its own high voltage t / ,, cv) L · ~ r ~ and thus also practical, ,,, ..,,. , ^ö . _o , ^{1 & l} dt ^l 65 voltage source can also be generated by the swan proportional to the deflection amplitude. According to the invention, due to the grid enlargement caused by the high voltage, the voltage U _{v will} now wrestle or reduce the voltage across the resistors 11 in a simple manner and 12 of the discharge tube 7 will be compensated as a bias voltage. For this purpose it is done as in. Assuming the battery voltage is indicated by dashed lines in the figure and the control grid is constant, this causes a change in the value of the discharge tube via an additional resistor

connected to the high voltage source, which must be dimensioned so that the resistors 12 and 18 flowing streams are equal. Due to the relationship that applies in the first approximation

dtga _ 1 dU_

in this way changes in the deflection angle α, caused by fluctuations in the high voltage, essentially compensated.

The present invention is not restricted to the exemplary embodiment described, but rather can be used in an advantageous manner in all flip-flops are used where the properties of the end tube have a significant influence on the Exercise amplitude of the deflection current.

Claims (10)

PATENT CLAIM: 20 1. Circuit to stabilize the deflection amplitude for tilting devices, where the properties, in particular the steepness or the internal resistance of the end tube is an essential factor Have an influence on the amplitude of the sawtooth vibrations, characterized in that the mean value of the voltage applied to the deflection coils during the trace or a to this proportional voltage through rectification and storage of the on a winding of the output transformer lying trace voltage obtained and to generate the bias voltage a control electrode of the discharge tube of the sawtooth voltage generator is used in this way becomes that with a decrease in the amplitude of the sawtooth current, the negative bias of the control electrode of the discharge tube and thus the control voltage supplied to the output tube is increased. 2. Circuit according to claim 1, characterized in that that the generation of the bias voltage of a control electrode of the discharge tube of the sawtooth voltage generator control voltage used is taken from a capacitor, the DC voltage in the cathode line of the The output tube is switched on and the current in the deflection coils is charged via a rectifier will. 3. Circuit according to claim 1 and 2, characterized in that the voltage cathode- The screen grid of the end tube corresponds to the mean value of the deflection coils during the beam trajectory lying voltage is proportional. 4. Circuit according to claim 1 to 3, characterized in that for generating the sawtooth voltage a blocking oscillator is used. 5. A circuit according to claim 4, characterized in that for generating the sawtooth voltage a double triode is used, one of which is switched as a blocking oscillator, while the other serves as a discharge tube for the charging capacitor and from, the pulses of the Blocking oscillator is controlled. 6. Circuit according to claim 2 to 5, characterized in that the capacitor (9) occurring Voltage is connected in series with the charging voltage of the charging capacitor (4). 7. Circuit according to claim 6, characterized in that that the bias of the discharge tube (7) by a separate, preferably stabilized Voltage source is generated in such a way that fluctuations in the tilt amplitude, due to Fluctuations in the preferably non-stabilized anode voltage, essentially compensated will. 8. Circuit according to claim 6 and 7, characterized in that the control grid of the discharge tube via a resistor (18) to the high voltage source for the cathode ray tube is connected and that the resistances of the voltage divider are dimensioned such that Grid enlargements or reductions due to fluctuations in the high voltage, are essentially compensated. 9. A circuit according to claim 1, characterized in that the control voltage across the capacitor (9) Superimposed alternating voltage via an IC coupling element (13, 14) to the grid of the end tube is fed back in such a way that self-excitation of the circuit is prevented. 10. A circuit according to claim 1, characterized in that for linearization in the Anode circuit of the output tube an ohmic or complex resistor is switched on and that transforms the sawtooth voltage that occurs across it into the diode or coil circuit is, in such a way that the voltage drop across the internal diode resistance and the ohmic resistance of the deflection coils is compensated. Considered publications:
Austrian patents No. 172 289, 307; O. S. Puckle, "Time Bases," London, 1951, P. 128ff., Especially Fig. 107, p. 137. 1 sheet of drawings I> 609 »69/337 4.