DE1014180B - Arrangement for generating an automatic pre-tensioning for directly heated pipes - Google Patents

Description

Arrangement for generating an automatic preload for direct Heated Tubes The invention relates to an arrangement for more automatic bias generation or grid bias generation for directly heated tubes of a push-pull B output stage of battery receivers.

The grid bias for electron tubes in battery receivers is usually generated by a grid backup battery. Such an arrangement however, has the disadvantage that the battery takes up space and the user the. Connections are not common.

It can also be in the grid-cathode circuit of the tube to be prestressed Resistance must be switched on in such a way that the entire current of the anode voltage supply flows through this resistor and the voltage drop across this resistor as automatic preload for the tube. is used. For recipients with direct However, it is not possible for heated tubes to control the flow through the individual tubes Separate currents. If there is only one battery, it is for the output tube required grid prestress partly from that flowing through the other tubes Electricity dependent.

If the preload deviates from the optimum, it falls. the, output power the tube, and the delays increase. Both are very disadvantageous for the Operation.

It is now known the grid bias for direct heated tubes to decrease at a resistor in the supply line to the negative pole of the anode voltage sources lies. In other known arrangements is in the lead to the negative pole the anode voltage source is a resistor with a non-linear voltage characteristic. This known arrangement is a power supply device a thermistor resistor with negative to keep the output voltage constant Temperatu.rko, effzi @ enten used as a series resistor and in thermal contact with a transformer or another as a result of the current flowing through it Heat-generating component is arranged. However, thermistors are relatively sluggish and disadvantageous if they are used for precautionary generation, e.g. B. for directly heated end tubes of battery receivers, because even the smallest, theirmistors are too sluggish to deal with the. Current changes that depend on the degree of modulation of a signal to follow a B output stage. Depending on the level of the output tube and the inertia of the Thermistors therefore result in fluctuations that cannot be controlled statically. the grid leader, approx. According to the invention, however, a component is used in its work area is not dependent on the temperature and has a pure voltage dependency, without being practically dependent on a time constant.

It is true that there is also the use of inertia-free nonlinear ones Resistors for keeping constant: grid biases known. With these arrangements are rectifier cells in the negative lead of the power source to the cathode or detectors or chains of contact resistors. After the invention comes on the other hand one can use a single and simple, so cheap, special component the end.

The invention is characterized in that d @ aß as purely spa, nnungsa, pendent.r Resistor a resistor containing silicon carbide as a grid voltage generating Element is connected to the negative lead of the anode voltage source and the The connection of this resistor, which is fed to the anode voltage source, to the center tap the coil connecting the control grids of the push-pull tubes (Autotran! sfoTmato, r) tied together. is, while the terminal of the resistor facing away from the anode voltage source is connected to the negative lead of the heating voltage source.

The invention is based on the drawing, which -an embodiment represents, explained in more detail. The drawing shows the circuit in schematic form the push-pull output stage of a battery receiver with directly heated cathodes. Two Electron tubes 1 and 2 are connected to the primary winding 3 of an output transformer with their anodes connected. The signals to be amplified are transmitted via the capacitor 4 and the choke coil 5 (autotransformer) placed on the control grids of tubes 1 and 2.

A. Circuit element 6 with non-linear voltage characteristics is between, the center tap 7, the choke 5 (autotransformer) and the negative Page 8 of the heating voltage supply for the directly heated cathodes of tubes 1 and 2 laid. The center tap of the coil 5 is at the same time as the negative pole 9 connected to the anode voltage supply. This is how the current flows the anode currents of all tubes, the receiver to the negative point of the high voltage via the circuit element 6, and this supplies the bias voltage for the tubes 1 and 2. The bias of the tubes is chosen so that the diode current is absent an AC control voltage, d. H. of the signal, is very low, so the anode voltage is maintained in full. When a signal arrives, however, increase the anode currents are considerable, e.g. B. to five times the value in the absence of Signal voltage. The circuit element 6 has such a nonlinear: current voltage characteristic, for fluctuations in the current flowing through the switching element 6, the potential fluctuations over the switching element 6 are relatively small. That way, one becomes sufficient constant bias achieved which is not directly related to the current fluctuations of the tube depends. When choosing a circuit element with the required characteristics It must be borne in mind that - with decreasing anode voltage, a relatively small bias voltage is required and the circuit element must therefore have a characteristic which provides the optimal preload. A circuit element with the required characteristics can e.g. B. be made with the help of a material that is commercially available under the Trademark »Metrosil« is known.

If necessary, the method described can be used to generate a bias voltage can also be used for tubes with indirectly heated cathodes.

The exemplary embodiment described is only intended to serve as an explanation, but do not represent a restriction to this case.

Claims (1)

PATENT CLAIM: Arrangement for generating an automatic pre-tensioning for directly heated tubes of a push-pull B output stage of battery receivers which is the grid bias on a resistor with a non-linear voltage characteristic is removed, the one in the lead to the negative pole of the anode voltage source is, characterized in that a silicon carbide is used as a purely voltage-dependent resistor containing resistor as grid voltage generating element in the negative lead is connected to the anode voltage source and that which is supplied to the anode voltage source Connection of the resistor to the center tap of the control grid of the push-pull tubes connecting coil (autotransformer) is connected during that of the anode voltage source remote connection of the resistor to the negative lead of the heating voltage source connected is. Considered publications: German Patent Specifications No. 638 864, 678 028, 860 373 R a t 1i c i s e r, Rundfunlizröliren, 1949, p.213.