DE587501C - Device to avoid self-excitation in multi-stage high-frequency amplifiers - Google Patents

Description

Device to avoid self-excitation in multi-stage high-frequency amplifiers If you switch several high-frequency amplifiers one behind the other and leave them with theirs work at the best efficiency, as is the case with tuned high-frequency amplifiers always self-excitement occur. By shielding and neutralizing you are in able to suppress this self-excitation up to a certain limit.

Aperiodic high-frequency amplifiers, i.e. those with resistance capacitance coupling, tend to be less prone to self-excitement. After all, 'occurs with them too Self-excitation when a larger number of stages is used, namely the @ corresponding frequency of self-excitation are in the order of magnitude in which the Gain of the aperiodic high frequency amplifier is greatest, practical thus almost always deviates from the frequency to be amplified.

In the circuit on which the exemplary embodiment is based, the several aperiodic high-frequency amplifier systems used in cascade connection, the frequency of self-excitation is approximately 8o,000 to 1,000,000 Hertz. you Creation results from the ohmic resistance of the heating systems, the one Cause feedback between the tubes. In order to reduce the high frequency To put resistance in the way, you can connect the two heating cables through a capacitor bridge. After all, this capacitor gives, even if it has a size of i #tF has, for a frequency of 8oooo to 1ooooo Hertz, it is still much too large Resistance. Also due to the larger dimensioning of this bridging capacitor it is difficult to reduce the resistance so much that the self-oscillation, which occurs due to the feedback via this resistor is avoided. but an enlargement is also necessary for manufacturing reasons? this high frequency short circuit capacitance out of the question.

To eliminate the feedback through the heating circuits one has already suggested the individual heating circuits by high-frequency chokes from the power source to separate at high frequencies and for each heating circuit: a bypass capacitor to be switched on for high frequency.

The invention eliminates the feedback caused by the heating circuits by an arrangement which is much simpler compared to the known arrangement requires fewer switching elements and is still more effective.

According to the invention, the heating cables are mine between two adjacent ones Steps placed one or more chokes whose ohmic resistance is kept so small becomes that @ it is negligible, while its inductive resistance at least becomes so large that the feedback phenomena are avoided. Two Illustrations may clarify the subject matter according to the invention.

Fig. I represents a known scheme of filaments i; z and 3 threes high-frequency tubes or high-frequency multiple tubes connected in cascade. q. is a capacitor of approximately i #tF that bridges heating lines 5 and 6. There is a resistance per system or system group of a few due to the heating filaments OK ohms.

Fig. A shows all three systems or system groups with the reference numerals corresponding to Fig. I. 7 and 8 are two chokes according to the invention, which are made of copper wire with an approximate cross-section of 1 mm, approximately 10 mm wire being applied to an insulating body from 1 to 15 mm in diameter. Of course, the throttles can also be attached in a self-supporting manner. Such a throttle has a self-induction of about 5,000 cm. One or more chokes of the specified type can be used. The chokes are to be dimensioned with regard to the size and arrangement of the heating filaments and the short-circuit capacitor.

Claims (1)

PATENT CLAIMS: i. Device to avoid self-excitement in the case of multi-stage, in particular aperiodic, preferably resistance-coupled High-frequency amplifiers, characterized in that the two heating current supply lines bridged by a high-frequency short-circuit capacitor and m one of these lines between two adjacent steps one or more times leash or several throttles low Ohmic resistance are placed, which are dimensioned so that they are at the natural frequency of the high-frequency amplifier prevent self-excitation. Device according to claim i, characterized by the use of multiple tubes.