DE853914C - Push-pull amplifier with a capacitive negative feedback - Google Patents

Description

Push-pull amplifier with a capacitive negative feedback Push-pull amplifiers can generate self-excited oscillations, both of which Rülireti are involved. Such vibrations come at 13. then come about when on the one hand For reasons to be explained immediately, the self-excitation frequency on the control grid of an output tube occurs with the opposite phase position, as at the control grid of the other. In particular, such self-excited vibrations are to be feared if the end tubes have a capacitive negative feedback from anode to grid or from anode to Own anode of the preliminary stage. The feedback path for these oscillations runs from the grid of one push-pull tube to the one controlled by the inoderikfe1S of the pre-tube I phase inverted tube to the grid of the other push-pull tube or vice versa.

The invention shows how with a push-pull% stronger with capacitive Negative coupling from each anode to the associated grid or to the anode of the pre-tube can avoid an undesirable positive feedback through the phase inverter tube occurs.

According to the invention, a phase rate, mikehrschaltut> # <g is used, that is to say, the reverse tube whose control grid is earthed in terms of alternating current, and the pretubes have a common cathode resistance which is the control voltage from the pre-tube to the phase inversion tube.

An embodiment of the invention is shown in Fig. I of the drawing.

llit 12 and. 13, two push-pull tubes are designated, of which the tube 12 represents the pre-tube for the push-pull tube 15, and the tube 13, the phase reversal tube for the push-pull tube io, is connected with its cathode to the upper end of the cathode resistor 14, so that the grid Cathode path of the phase reversing tube 13 receives its control voltage indirectly through the voltage drop across this resistor r4. The grid of the phase inverter 13 is on the. Capacitor 3, earthed in alternating currents.

A capacitor 16 is used for negative feedback of the push-pull tube 15 from the anode to the grid. The coupling capacitor and the grid leakage resistor for the end tube 15 are designated 17 and 18. A positive control grid DC voltage for the two opposing hook tubes 12 and 13 to reduce the excessive negative DC voltage at the cathode resistor 14 is produced with the help of two ohmic voltage dividers 19, 20 and 21, 22 which at the same time cause a stabilizing DC negative feedback. AC negative feedback is suppressed by the capacitor 30.

The control of the tube 12 gesc'hie'ht over the. Coupling capacitor 23, the resistor 24 acting as a grid bleeder resistor.

The working resistance 28 of the push-pull tube 12 is still a large one Resistor 29 in parallel. This can reduce the residual asymmetry of the circuit which is due to the fact that the anode alternating currents of the two tubes. cannot be exactly the same size, because then the control voltage at the cathode resistor 14 would disappear completely.

If in this circuit via the capacitor 16 and the coupling capacitor 17 a negative feedback voltage is transmitted to the anode of the Vorröh.re 12, so this does not lead to an increase in current in the tube 12 itself and thus will. even this voltage is not transmitted to the phase inverter tube 13. In further consideration one recognizes that the negative feedback voltage affects the series connection of the inner Resistance of 12 and of the cathode resistance, s 14 after. Determination of the resistance ratio divides and that thus, especially when the pre-tube 12 is a screen grid tube, only a negligibly small fraction is accounted for by the cathode resistor 14. Self-excited Vibrations in the push-pull output stage therefore no longer occur.

The diene via the capacitor 16 to the grid Gegentakterndröhre 1 5 transmitted Gegenkopplungsspannurng remains on the control grid of the Vorröhre 12 without effect, since for this negative feedback voltage the two. Control grid of the tubes 12 and 13 are short-circuited by a capacitor 30, d ,. @H. practically on the ground. Instead of the capacitor 30, it would also be possible to use two series-connected capacitors, the center of which is connected to earth, but would then require four times the capacitance compared to the value required for the capacitor 30.

Figs. 2 and 3 give further examples of those preferred according to the invention Circuits. In Fig. 2, each tube 12, 13 has a particular cathode resistance 34, 3 5; A capacitor 36 is used for coupling. In Fig. 3 is a part 37 of the cathode resistor together, the rest is strongly blocked. Instead of resistors 34 and 35 in Fig. 2 and the resistor 37 in Fig. 3 can also use choke coils will.

Claims (2)

PATENT CLAIM: r. Push-pull amplifier with a capacitive negative feedback from the anode to the associated grid or to the anode of the pre-tube and with a phase reversal tube, characterized in that a phase reversal circuit is used in which the phase reversing tube (13), whose control grid is alternating current is grounded (31), and the pre-tube (12) has a common cathode resistor (14) own the control AC voltage from the pre-tube (12) to the phase reversing tube (13) transmits. 2. Push-pull amplifier according to claim r, characterized in that that the negative generated by the common cathode resistor (14) is too high Grid bias for the pre-tube (12) and the phase reversing tube (r3) through each a positive DC voltage is reduced, each by an ohmic voltage divider (r9, 20 or 22, 21) is obtained between an anode and an earth, and that the Wedhsel current negative feedback that occurs is suppressed by a capacitor (30) is, whose influence on the control grid of the pre-tube (12) by one in front of this Grid switched resistor (24) is prevented.