DE1079127B - Circuit for stabilizing the high voltage obtained by transforming and rectifying an alternating voltage generated by a tube oscillator - Google Patents

Description

GERMAN

The invention relates to a circuit for stabilizing the through transformation and rectification an alternating voltage generated by a tube oscillator. Such circuits are in multiple embodiments using forward controlled control tubes and / or reverse control known. So it is known in particular in such circuits to Stabilization of the high voltage the anode voltage of the AC voltage oscillator by an in the The anode circuit of the oscillator tube is switched on to regulate the series tube, which depends on its grid is controlled by the changes in the high voltage in a stabilizing sense. The required S expensive voltage for the series tube is known from the Arrangement generated by a control amplifier, which in turn is controlled by the high voltage generated will. The opposite control achieved in this way from the high voltage generated A good stabilization of the high voltage against mains voltage fluctuations is achieved in the control amplifier caused, but the stabilizing effect is with fluctuations in the anode voltage requirement of the oscillator, which occur, for example, when the voice coil of the oscillator heats up can, insufficient.

This is where the one that becomes effective when regulating mains voltage fluctuations comes into play The gain factor of the control tube does not have an effect, so that the regulation is inadequate. The invention The aim is to improve such a circuit by, in addition to the aforementioned opposite regulation a control of the anode DC voltage of the oscillator tube in the same direction back into the Control amplifier is to be carried out, and this is done by very simple means, namely, as explained below, solely through an additional resistor in the circuit.

The idea of the invention is used in a circuit for stabilizing a high voltage, which by transforming and rectifying an alternating voltage generated by a tube oscillator is won. The anode voltage of the oscillator is in this case via a in the anode circuit of the oscillator tube switched on adjustable series tube supplied. A differential amplifier is used to control this series tube of two triodes with a common cathode resistance, the grid being the a triode, its anode with the grid of the series tube and a resistor with the two Triodes common anode voltage source is connected, one of the generated high voltage proportional Control voltage is supplied.

According to the invention, the grid circle becomes the on-circuit to stabilize the through

Transformation and rectification

one from a tube oscillator

generated alternating voltage

obtained high voltage

Applicant:

Telefunken G. mb H.,
Berlin NW 87, Sickingenstr. 71

Dr. Kurt Franz, Ulm / Danube,
has been named as the inventor

whose triode is formed by a voltage divider between the positive pole of the stabilized Anode voltage source for the two triodes and the common ground point of the entire circuit lies. Furthermore, there is between the anode voltage supply line of the oscillator and a point on the grid circle this triode switched on a resistor. The connection point and the resistance are chosen in this way dimensioned so that the necessary for the stabilization, derived from the generated high voltage Control voltage is almost independent of the anode voltage requirement of the oscillator tube.

To explain the invention in more detail, an exemplary embodiment will be described below with reference to the drawing. With 1 is the oscillator tube denotes whose anode is connected to the resonant circuit 2. The grid of the tube 1 is over the coil 3 fed back to the oscillator circuit 2. The high-frequency oscillation is generated by a coil 4 coupled to the oscillator of the oscillator is stepped up, and this stepped up AC voltage is rectified in a rectifier tube 5, the anode of which is connected to the coil 4 and to which Cathode the high voltage is removed. The tube 1 receives its anode voltage via a series tube 6, the anode of which is connected to a positive voltage source of e.g. B. 450 V and its cathode over the coil of the resonant circuit 2 is connected to the anode of the oscillator tube. The grid of the tube 6 is a function of a control amplifier designed as a differential amplifier in a manner known per se controlled by the high voltage fluctuations in a stabilizing sense.

The differential amplifier consists of the two triodes 7 and 8, which are in a common tube

909ι769 / 3β9

pistons can be accommodated and their cathodes via a common cathode resistor 9 with Connected to earth. The anode of the one (first) triode 7 is via an anode resistor 10 with a positive stabilized voltage source of z. B. 300 V and the anode of the other triode 8 directly to the same Voltage source connected. The grid of the tube 6 is located at a preferably adjustable tap point a potentiometer 11, 12, 13 provided between the anode voltage source and earth. That The grid of the triode 7 is located at a tap point between the cathode of the rectifier tube 5 and Earth provided potentiometer 14,15.

Up to this point, the circuit described is known in principle. The resistor 16 in the drawing should can initially be viewed as infinitely large. The circuit then works in such a way that at A decrease or increase in the high voltage rectified by the tube 5 represents a corresponding reduction or enlargement of the grid voltage at the triode 7 of the differential amplifier takes place, namely in such a way that the current distribution between the tubes 7 and 8 changes. Does she humiliate herself Voltage on the grid of the tube 7, the grid voltage of the tube 6 increases accordingly, so that the The high-frequency amplitude generated in the oscillator tube 1 and thus also the high voltage generated is increased will. Conversely, when the grid voltage of the tube 7 increases, the grid voltage becomes the Tube 6 is reduced, so that the high frequency amplitude and thus the high voltage generated is also smaller will. The correct stabilization point for the high voltage can be set by shifting the tapping point on the potentiometer 12.

In the described circuit without the resistor 16, in the event of fluctuations in the mains voltage to stabilize the high voltage, an overall gain is effective which is equal to the product of the gain of the differential amplifier 7, 8 and the gain of the series tube 6. If, however, changes in the anode voltage requirement occur through the oscillator tube 1, e.g. B. by heating the voice coil of the resonant circuit 2, only the differential amplifier 7, 8 with its much lower gain has a stabilizing effect. This is where the invention comes into play, in that the control effect of the differential amplifier is increased by an additional control in the same direction from the anode DC voltage of the oscillator tube in the control amplifier. This additional regulation is effected by connecting a suitably dimensioned resistor 16 between the cathode of the series tube 6 and the connection point of the voltage divider resistors 12 and 13. If the oscillator properties now change, for example by increasing the resistance in the voice coil 2, the resulting increase in the voltage at the cathode of the tube 6 acts via the resistance on the control amplifier in the sense that the internal resistance of the tube 6 is reduced, whereby the voltage at the cathode of the tube 6 continues to rise so much that the anode of the tube 1 again receives the same voltage as before the fault. As a result, a significant improvement in the stabilization is achieved, which is not only significantly less sensitive to fluctuations in the externally supplied voltage, but also to fluctuations in the oscillator properties. With the circuit described, a constancy of the high voltage that is better than 10 ~ ³ can be achieved.

Claims (1)

Claim: Circuit to stabilize by transforming and rectifying one of one Tube oscillator generated alternating voltage obtained high voltage, at which the anode voltage of the oscillator via a controllable one switched on in the anode circuit of the oscillator tube Series tube is supplied and in the case of the control of this series tube, a differential amplifier is provided from two triodes with a common cathode resistance, the grid of a triode, the anode of which with the grid of the series tube and a resistor with the both triodes common anode voltage source is connected, one of the generated high voltage proportional control voltage is supplied, characterized in that the grid circle the other triode of. a voltage divider is formed, which between the positive pole of the stabilized anode voltage source for the two Triodes and the common ground point of the entire circuit and that between the Anode voltage supply of the oscillator and a point of the grid circle of this triode (8) a resistor (16) is switched on so that the connection point is chosen and the resistor so is dimensioned that the necessary for the stabilization, derived from the generated high voltage Regulation voltage almost independent of the anode voltage requirement of the oscillator tube (1) will. Considered publications:
German patent application S 14113 VIII a / 21 a ⁴
(announced on July 24, 1952);
U.S. Patents Nos. 2,352,988, 2,543,632,
683 852; Funk and Ton, 1953, pp. 184 to 187;
Telefunken-Röhre, H. 34, Dec. 1956, pp. 79 to 83, 119, 214;
Funkschau, 1956, p. 65; Funk-Technik, 1956, pp. 662 to 664. 1 sheet of drawings