DE1033277B - Circuit arrangement for stabilizing the high voltage of cathode ray tubes, especially for television control receivers - Google Patents

Description

GERMAN

In the currently common television receivers or television control receivers are used to operate the Picture tubes DC voltages between 10 and 18 kV and for projection picture recorder tubes even between 25 and 10Ö kV required. The currents that occur can vary depending on the brightness of the white value Accept sizes up to 60 μΑ.

In older devices, these voltages were connected to the alternating current network via a high-voltage transformer taken. However, since this process is uneconomical, it has recently been used to generate high voltage z. B. high-frequency sine or pulse generators controlled by the line deflector used whose output voltages are rectified after stepping up. The rectified High voltage is then applied to a high-resistance voltage divider, from which the individual Operating voltages are tapped.

However, these circuit arrangements have the disadvantage that they have a large internal resistance of about 3 M ₁ Ω, especially when voltage doubler circuits are also used. As a result, significant voltage changes occur when the load fluctuates, which has a detrimental effect on the quality of the image reproduction. Likewise, fluctuations in the generator frequency or the mains and anode voltage cause hereditary instability of the high voltage.

Although it is already known to regulate the high voltage, a parallel to the consumer To connect the load tube, whose grid voltage in the usual way from a with the consumer in Series lying resistance is tapped. Here, however, the entire high voltage is due to the Anode-cathode route of this tube, so that an expensive special tube is required. At higher Voltages, the application of this circuit in practice with regard to the dielectric strength even encounter considerable fundamental difficulties.

It is also known to achieve a relatively high DC voltage that is as constant as possible to use the entire DC voltage to be stabilized to accelerate an electron beam, which is then led through a room in which it is exposed to a constant magnetic or electrostatic field of such strength that it describes a curved path. At the end of the track, an electrode is arranged that the Absorbs the beam to an extent that depends on the radius of the path and thus on the magnitude of the accelerating voltage is dependent. The current absorbed by this electrode is then used to to control the voltage source in such a way that circuit arrangement

to stabilize the high voltage

of cathode ray tubes, in particular

for television control receivers

Applicant:

VEB Funkwerk Köpenick,
Berlin-Köpenick, Wendenschloßstr. 154/158

Hans Fleischer, Berlin-Johannisthal,
has been named as the inventor

the changes in the voltage of the source are counteracted. However, this arrangement requires as can be seen without further ado, also a considerable technical effort.

With the invention, a circuit arrangement is created that once with simple means a stabilization of the high voltage enables and on the other hand the tubes of the high voltage generator automatically protects against overloads in the event of a failure of the control pulses and thus a possible destruction of the tube is prevented.

According to the invention, between the unregulated anode voltage drawn from a power supply unit the device for generating the control pulses of the high-voltage generator, ζ. B. the line deflector, and the high frequency generator for generating the high voltage for the cathode ray tube a control circuit of a known type with control and regulating tube is arranged. The control grid voltage for the control tube is biased by one on the negative end of the between a negative one and the high-voltage arranged high-resistance voltage divider lying potentiometer removed so that with the control circuit directly compared the high voltage and means of the potentiometer can be fixed within certain limits. The invention is primarily for the control recipient in television transmitters, i.e. intended for commercial devices, can, however, if necessary also with other high-quality television receivers

809 559/291

3 4

and beyond at. certain others with generator tube 26 is a known circuit for Cathode ray tubes equipped devices with voltage stabilization, consisting of control tube be turned. 39, control tube 40, resistors 41 to 45 and

The capacitors 46, 47 are arranged on the basis of the output shown in the figure, management example, the invention is explained in more detail. 5 The mode of operation of the arrangement is how to

The triode part of a composite tube 1 acts in part already carried out, the following: known way as a controlled sawtooth generator. The triode system of the tube 1 is in time with the

The grid of this tube is opened over the resistors 2, incoming pulses. The capacitor 8, 3 and 4 on the negative. Bias voltage - U _g , which is charged by the almost to the voltage U _a , is supplied by the power supply unit. and is, since the cathode is on io then zero potential across the low internal resistance of the tube 1, blocked in the quiescent state. From quickly discharging and charging when the triode is the connection point of the. Resistors 2 and 3 is system through the stabilized bias voltage - U _g ge rn usual way the parallel connection of another is blocked, slowly resistor 5 with a capacitor 6 towards zero via the load resistor 10 again. About the capacitor 9 and the potential. From the connection point of the resistor 25, sawtooth-like impulses arrive at levels 3 and 4 via a capacitor 7 through which the grid of the amplifier tube 26, which is slowly opened through the connection to a line-flat rise of the sawtooth curve (not shown), is passed through whose positive impulses and the steep negative flank of the sawtooth the triode system of the tube 1 is periodically opened and quickly blocked again. This creates in becomes. The anode of the triode part is connected to a capacitor 8 which is 20 to the downstream high-voltage transformer against zero potential ', a 29 as a result of the release of the coupling capacitor 9 and in the same. to a magnetic energy stored at the anode, a strong positive voltage U _a , a working resistance 10, a vertical impulse, which is transformed up to the required high-voltage value. The diode part of the tube 1 is connected to the cathode ag series booster diode 30 and the charging capacitor 31 via a resistor 11 between which a part of the energy released is used for this negative grid bias voltage - U _g and the cathode uses the anode voltage approximately 2.5 times the value of a high-voltage rectifier tube 22 arranged to increase. The high-transformed voltage th high-resistance "voltage regulator, consisting of the is then by means of the high-voltage rectifier resistors 12 to 21. The anode of the diode part 30 22 is rectified and, in the manner already indicated - is connected to a capacitor at zero potential - both the anode of the picture tube and the boost 23 and a resistor 24, which is fed with an ohmic voltage divider, with the resistors 12 to its other connection at the coupling capacitor 21. From this the isolator 9 and over a relatively low individual operating voltages are tapped In order to enable a stabilizing pentode 26 in accordance with the invention to function as an amplifier tube and to enable the high voltage to be controlled, the cathode is at zero potential. Anode voltage U _a and the pulse amplifier with 28 designated. A normal control circuit is provided for each output pulse of this (tube 26). The tube is connected to a high voltage transformer. The regulated voltage is adjusted by means of a special diode 30 and a charging capacitor 31, divider and not as with the usual power supply units and the anode of the high-voltage rectifier - by a control voltage from one of the gei-ohre 22. The high-resistance voltage divider 12 45 regulated anode voltage lying voltage divider to 21 is thus located between the positive pole of the high voltage is drawn. This ensures that the voltage and the negative pole of the power supply unit. Grid voltage of the control tube 39 directly from the resistor 21 is parallel to the resistance of the voltage ratios in the high-impedance chip spacing 13 and is used in a manner to be described later that depends on the voltage divider that a comparison of the high to set the operating voltage of the picture tube. 50 voltage takes place and not about, as with otherwise over-The tap of the controllable resistor 16 leads Licher arrangement, the anode voltage U _a , without the focus adjustment device. For sieving, any additional effort with regard to the spander DC voltage has to be made at the tap of the resistance. By reason 16 and at the connection point of the resistors of the resistor 21, the high voltage levels 17 and 18 of the voltage divider for two condensers can be fixed within certain limits. Increases capacitors 32 and 33 towards zero potential. Parallel to the z. B. the high voltage as a result of a load resistance 18 is a micro-ammeter 34 before changing the picture tube, a mains voltage fluctuation, which shows the cross current of the voltage divider or a deviation of the control pulses, from which the existing high voltage frequency from the set frequency, so also increases that can be concluded. 60 potentiometer 21 taken control voltage for the heating voltage is the high-voltage direct lattice as d r of the control tube 39 at. Due to the effect of the control network circuits, which is known for insulation reasons, a special transformer is used to supply the voltage to the cathode of the control tube 40 from the network. The high voltage for the anode of the not and all harmful effects on the high-resolution picture tube is regulated via a screen voltage. The reverse confessed 36 and one or more layers, not shown, analogously with falling high voltage. The filter capacitors from the cathode of the rectifier are adjusted once on the resistor 21 and removed on the micro. As I ^ dekondensator the ampere meter 34 read high voltage, 38. Between the anode voltage U _a and 70 stant serves thus remains series connection of two capacitors of equal size in all occurring operating conditions kon-37..

It can now happen that the control pulses of the line deflection device on the grid of the triode 1 and thus the negative sawtooth voltage on the grid of the tube 26 fail. In this case, the tube 26 would then continuously work with an excessively large cathode current and through overloading be destroyed. In the event of a failure of the positive high voltage at the voltage divider, this would also occur the grid voltage of the control tube 39 are strongly negative and thus the anode voltage for the tube 26 at the cathode of the control tube 40 on Increase minimum. In order to remedy this defect, the cathode of the is located according to a further invention Diode part of the tube 1 via the resistor 11 at such a point of the high-resistance voltage divider, at which the potential is zero or a very low positive potential compared to the diode path of the tube 1 prevails, which in turn connects to the grid of the tube 26 via the resistors 24 and 25 connected is. As a result of the valve action of the diode, however, only one can pass through the resistor 24 additional voltage will arrive at the grid of tube 26 when the cathode of the diode path is on negative and not, as in normal operation, at zero or positive potential. With the usual This circuit therefore has no influence on the arrangement under operating conditions.

If, however, the control pulses remain on the grid of the tube 26, the high voltage also fails, so that the entire high-resistance voltage divider receives the potential -U _g , which is then also applied to the cathode of the diode section of the composite tube 1. This thus becomes conductive, and the grid of the tube 26 receives such a negative potential that it is blocked and thus can no longer be overloaded or destroyed.

When the pulses start again, the tube 26 is opened again by the positive sawtooth tips, and the high voltage gradually increases. The cathode of the diode line receives a positive potential, as a result of which the blocking of the tube 26 via the diode path is canceled.

The internal resistance of the circuit according to the invention depends on the types of tubes used and the other dimensions. When using modern tubes z. B. with an additional load with a resistor chain of 60 ΜΩ the

Drop at a high voltage of 12 kV about 50 V, which corresponds to a current of about 200 μΑ. This means that the internal resistance of the high-voltage power supply is around 300 kΩ, which is significantly lower than that of an unregulated device of around 3 Ω.

Claims (2)

Patent claims: 1. Circuit arrangement for stabilizing the high voltage of cathode ray tubes, in particular for television control receivers, in which the output voltage of a line deflection device controlled high-voltage generator rectified and to one end of an extremely high-resistance, to the other end Negative potential lying voltage divider is placed using a with control and Control tube working electrical control circuit acting on the high voltage generator, characterized in that the control circuit between the unregulated anode voltage for the line deflector and the high-frequency generator for generating the high voltage is arranged such that the control grid voltage for the control tube from an am negative end of the high-resistance voltage divider lying potentiometer is removed, so that with the control circuit directly by means of the potentiometer within certain limits permanently adjustable high voltage is compared. 2. Circuit arrangement according to claim 1, characterized in that from one point of the high-resistance voltage divider at which the potential is zero or a low positive potential prevails, a voltage is tapped off via a resistor and one only when negative Cathode potential permeable rectifier path is on the grid of the high-frequency generator tubes, so that if the high voltage fails, e.g. B. due to a lack of control pulses of the Line deflection device by the negative potential then occurring at the tapping point, the generator tube is automatically locked. Considered publications:
German Patent Nos. 837 423, 904 420;
U.S. Patent No. 2,683,852. 1 sheet of drawings © 809 559/291 6.58