DE808248C - Power amplifier - Google Patents

Description

With power amplifiers working with four or five pole tubes the achievable performance depends essentially on keeping the screen grid voltage constant away. Obtains mgn. The maximum permissible screen grid voltage via an ohmic Resistance from the usually higher anode voltage, then the screen grid voltage falls in the case of amplifiers with a closed-circuit current that is dependent on the modulation, with its increase below the amount permitted per se. The generation of the screen grid voltage over A voltage divider requires a relatively high cross current when the voltage drop should remain low. Separate generation requires a further rectifier tube and further sieve members.

According to the invention, in power amplifiers, the anode voltage is also used screen grid voltage obtained and the closed-circuit current dependent on the modulation Screen grid voltage of the power tubes through one in its interior. resistance controlled by the Aussteuerurig dependent working switching element so that ts it either remains constant or changes with increasing modulation, in particular elevated.

As such a switching element can according to the further invention Electron tube used as a controlled series resistor between anode voltage and screen grid is switched. The control of this series resistor can either take place via an anode voltage divider, which is dimensioned with high resistance and none Power consumed, or it is controlled by the modulating via a special rectifier or increased alternating voltage causes.

The invention will be explained on the basis of the circuits shown, to which it is, however, not restricted. Fig. I shows the power stage i of an AB or B amplifier equipped with pentodes, the screen grids of which are connected to the anode voltage via the control tube 2. The control grid of the control tube is by means of a high-resistance voltage divider 3 such, for. B. on igo volts' set that in the cathode and thus on the screen grid, the maximum voltage of the idle mode, z. B. Zoo Volt, is located. If the voltage at the cathode of the control tube 2 drops when the power stage is controlled due to an increase in the screen grid current, its grid bias inevitably increases, its internal resistance is reduced and counteracts the drop in the screen grid voltage. The control tube 2 only needs to be dimensioned for the maximum permissible screen grid current of the power stages, and the type of modulation can also be taken into account. In Fig. 2, a push-pull stage is also shown, which works in AB or B mode, parts that are not important for understanding have been omitted. The control tube 2 receives a DC potential dependent on the AC control voltage via a rectifier 4 and a sieve chain 5. This can be selected by a suitable choice of the grid bias of the control tube 2 in such a way that the screen grid voltage remains constant or even increases with increasing modulation. The time constant of the sieve chain is dimensioned in such a way that changes in alternating voltage are suppressed. Finally, the onset of the control effect can also be made dependent on a bias voltage 7, which the rectifier 4, the z. B. is designed as a dry rectifier, there is a fixed blocking potential. If the capacitor 8 on the screen grid is omitted and the rectifier circuit is suitably dimensioned, in addition to controlling the screen grid DC voltage, an additional, possibly frequency-dependent AC voltage control can be effected in the sense of a dynamic change. The principle described can also be applied to C-amplifiers (operating point outside the lower bend in the characteristic curve).

Claims (4)

PATENT CLAIM: i. Amplifier with control voltage dependent Anode current and screen grid voltage obtained from the anode DC voltage, thereby - that the screen grid voltage of the power tubes by an in its internal resistance of the modulation dependent working switching element in such a way is controlled so that it either remains constant or increases with increasing modulation changes, especially increases. 2. Amplifier according to claim i, characterized in that that as a controlled switching element ..- an electron tube is used in such a way that its anode is at the anode potential, while the control grid - one with the Modulation growing equal potential is supplied. 3. Amplifier according to claim 2, characterized in that the control grid of the control tube on a particular high-resistance voltage divider for the anode voltage. 4. Amplifier according to claim 2, characterized in that the control potential of the. Control tube by means of a rectifier fed by the AC voltage to be amplified or amplified is generated with a sieve chain.