SU86202A1 - Method of eliminating overvoltages in push-pull amplifiers - Google Patents

Description

In a Class B two-stroke transformer amplifier, the pulsed nature of the anode currents causes significant non-linear distortions and overvoltages at high sound frequencies due to the presence of scattering inductances in the output transformer. This phenomenon is explained by a sharp increase in the apparent resistance of the anode circuit for the harmonics of the anode current, while the selection of odd harmonics is determined by the capacitance of the push-pull circuit and the presence of inductances dissimilar. The entire primary and secondary windings of the output transformer, and the emission of even harmonics is determined by the capacitance of one arm and the inductance of the half of the primary winding relative to the other half. In a number of cases of overvoltage caused by harmonics, there are also significant, which excludes the possibility of stable operation of the amplifier.

The proposed method makes it possible to eliminate these disadvantages by using shunt capacitances connected through active resistance to the middle point of the transformer.

A drawing is a schematic diagram of a push-pull amplifier.

The primary winding of the transformer W3 is inserted by two series-connected capacitors C |, the midpoint of which is connected to the midpoint of the transformer by means of resistance RI, which, in particular, can be purely active. The secondary winding of the transformer is shunted with capacitance C (in the case of a transceiver, the role of this capacitor is partially performed by separation capacitors in the circuit of the modulated generator). If necessary, the leakage inductance increases with the inclusion of additional INDUCTION Ds, consistent with it. With a rational choice of circuit parameters, the input resistance of the anode circuit v of the Oj and QO terminals remains in the useful sound frequency band almost unchanged and equal to the load resistance Rn, outside the useful frequency band this the input impedance gradually decreases with increasing frequency. In this way, resonance effects on odd high harmonics are eliminated. Moreover, without deterioration of the frequency properties of the amplifier, it is also possible to weaken the magnitude of the ultrasonic harmonics in the load. Moreover, the resistance b can make the resonant resistance of the circuit small enough and also increase the resonant frequency if necessary to a value outside the useful frequency spectrum.

In the drawing, the 2Ug voltage supplied to the grids of the push-pull amplifier lamps.

Subject invention

The method of eliminating overvoltages in push-pull amplifiers caused by high reactance of the output transformer windings for anode current harmonics is distinguished by the fact that shunt capacitance is used, connected through active resistance to the midpoint of the transformer.