DE1118261B - Push-pull A-amplifier with two transistors - Google Patents

Description

Two-transistor push-pull A amplifier The invention relates on a push-pull A amplifier with two transistors, one of which is the envelope the corresponding bias current is supplied to the signal. The input signal is thereby in phase opposition to the emitter-base circuits of the transistors, and the two Emitter-base routes are opposite as two for the input signal source Rectifiers connected in series.

Such an arrangement is suitable for suppressing glitches, if according to the invention the collector-emitter path of an auxiliary transistor, its Base is controlled by the rectified signals in the input circuit of the amplifier transistors and if the bias current caused by it is equal to or only slightly greater than the Is the amplitude of the signal current in this circle.

They are transistor push-pull amplifiers with a variable Adjustment current known, which is possibly with the envelope of the signal level can change. However, the signal source forms with each of the two transistor input circuits a closed loop permeable to the signal oscillations. Any glitches in the input signal reach one of the two transistor output circuits unhindered and are therefore not suppressed.

For the sake of completeness, it should be noted that a push-pull amplifier with tubes is known, which is set to B or AB operation for small amplitudes is, with an unsmoothed full-wave rectifier voltage at larger Amplitudes a shift of the operating points is made such that the curved parts of the characteristic curves for the modulation can be avoided. One controller by which a restriction of interference pulses would be possible, is not available there.

The same applies to a known push-pull amplifier with transistors, at which the operating point depends on the signal amplitude for small signals is set in the A circuit, while it is set to the B circuit for larger signals is moved towards. The auxiliary transistor does not control with a high internal resistance the sum of the control currents for the two transistors. A noise limitation will be thus not preserved there either.

The invention is explained with reference to the drawing in FIG. 1 an embodiment of the invention and FIG. 2 is a circuit diagram for explanation shows the mode of operation of the amplifier according to FIG.

In the circuit arrangement according to FIG. 1, the signal oscillations a source 1 via a transformer 2 the input electrodes of in push-pull switched transistors 3 and 4 are supplied. The output circuits of these push-pull transistors contain a common push-pull transformer 5, whose secondary terminals 6 the Output signal is taken. For suppressing interference pulses in the input signal is via the center tap 7 of the secondary winding of the input transformer 2 a bias current is fed to the input electrodes of the transistors 3 and 4, which of an auxiliary transistor 8 is supplied. This auxiliary transistor 8 forms a high Resistance to the signal oscillations so that those in the secondary winding of the transformer 2 generated signal currents only by the series connection of the emitter-base lines of the transistors 3 and 4 formed rectifier can flow.

The invention is based on the effect known per se that when a signal from a signal voltage source 20 is fed to two rectifiers 11 and 12 connected in opposite series and to which a constant forward setting current is supplied via resistors 13, 14, 15, this signal is applied to the Output terminal 16 is limited to a level at which the signal current supplied by the source 20 remains smaller than the setting current determined by the resistors 13, 14, 15. This phenomenon is based on the fact that, as soon as the signal current of the source 20 wants to exceed this setting current, either the rectifier 11 or the rectifier 12 becomes non-conductive.

In the circuit of Fig. 1, the same phenomenon occurs, because when the signal current generated at the secondary winding of the transformer 2 is the wants to exceed the bias current generated by the auxiliary transistor 8, either the transistor 3 or the transistor 4 becomes non-conductive. Is z. B. the top of the transformer 2 compared to the center tap 7 is positive, the emitter-base path is of transistor 3 is set more in the forward direction, but the emitter-base junction of the transistor 4 is operated so far in the reverse direction that when this signal current wants to exceed the bias current of the auxiliary transistor 8, the transistor 4 is non-conductive will. It is assumed that the auxiliary transistor 8 has such a high internal resistance has that it is practically non-conductive to the signal currents. At least that should Internal resistance of the source supplying the bias current (in this case the auxiliary transistor 8) compared to the internal input resistance of the transistors 3, 4 or the internal resistance the signal source. measured across the secondary winding of transformer 2, high be.

The auxiliary transistor 8 receives its signal after rectification from the signal source 1, for which purpose a rectifier 8 with a smoothing filter 10 is used. A voltage corresponding to the envelope of the signal arises across the smoothing filter 10, by means of which the required bias current is generated in the transistor 8. The circuit is dimensioned in such a way that the bias current obtained is exactly the same as the signal current amplitude flowing through the transistor input circuit or is only slightly greater than this. If desired, the rectifier 9 cannot be connected to the signal source, but to the output terminals 6, in which case, however, an additional bias current must be fed to the transistors 3 and 4, since the signal level at the output terminals 6 is limited according to the bias current.

Claims (4)

PATENT CLAIMS: 1. Push-pull A amplifier with two transistors, to which a bias current corresponding to the envelope of the signal is supplied, thereby characterized in that the collector-emitter path of an auxiliary transistor whose Base is controlled by the rectified signals in the input circuit of the amplifier transistors and that the bias current caused by it is equal to or only slightly greater than the Is the amplitude of the signal current in this circle. 2. Amplifier according to claim 1, characterized in that the internal resistance of the auxiliary transistor is high compared to the effective input resistance of the amplifier transistors. 3. Amplifier after Claim 2, characterized in that the auxiliary transistor by the rectified Input signals is controlled. 4. Amplifier according to claim 2, characterized in that that the auxiliary transistor is controlled by the rectified output signals, an additional constant bias current is supplied during the amplifier transistors will. Considered publications: German patent specifications No. 638 863, 732,782; German Auslegeschrift S 42710 VIII a / 21 a2 (published on November 22nd 1956); British Patent No. 775 633.