DE1012646B - Multi-stage transistor amplifier with push-pull output stage - Google Patents

Description

GERMAN

The invention relates to an amplifier which has at least one transistor pre-stage and a push-pull output stage with two coupled via a transformer, preferably set to AB or B operation Contains transistors. Such amplifiers have the disadvantage that in particular the collector currents the output stage transistors can fluctuate so significantly with the temperature that overloads and / or distortion occurs at this level. One can calm down these current fluctuations For example, provide a temperature-dependent setting resistor in the output stage.

The invention provides a cheaper and simpler solution and is characterized in that for The collector currents of the output stage transistors, which fluctuate with the temperature, are smoothed by one Impedance through which the collector current of the preliminary stage flows, preferably one for the signal frequencies decoupled resistor, a voltage tapped and the output stage transistors as a base bias to bring about a temperature-dependent setting of the final stage entransistors supplied will.

It has already been suggested that the temperature fluctuations a subsequent stage. Eliminate coupling with a pre-stage that has a suitable Has temperature dependence; but no separation has been made between the compensation circuit and the amplifier circuit, so that there was a significant loss of gain.

The invention is explained in more detail with reference to the drawing, two exemplary embodiments in FIGS. 1 and 2 of the invention · show.

The vibrations to be amplified are fed to a transistor pre-stage 1 in FIG. 1, which is resistance-coupled to an intermediate stage 2. Their output oscillations are fed via a transformer 3 to a transistor push-pull output stage 4-5. The transistors 4 and 5 work in B or AB mode. As is known, however, the collector currents of these transistors fluctuate to a considerable extent with temperature, which is eliminated according to the invention by feeding in a base bias voltage for transistors 4 and 5, which also changes with temperature. This bias voltage is obtained in that an impedance through which the collector current of the transistor 1 flows, preferably a resistor 7 decoupled from the capacitor 6 for the signal frequencies, supplies a temperature-dependent voltage which is fed to the center tap of the secondary winding of the transformer 3 via suitably dimensioned resistors 8, 9 . A resistor 10 can also be provided to achieve negative feedback. By separating the signal via multi-stage transistor amplifier
with push-pull output stage

Applicant:

NV Philips' Gloeilampenfabrieken,
Eindhoven (Netherlands)

Representative: Dipl.-Ing. K. Lengner, patent attorney,
Hamburg 1, Mönckebergstr. 7th

Johannes Ensink, Hilversum,
and Frans Aloys Jozef Benning, Eindhoven

(Netherlands),
have been named as inventors

load circuit 2-3 from the compensation circuit 6-7-8-9 is thus · a very good compensation without loss of gain obtain.

In one exemplary embodiment, a resistor 7 of 1 kΩ and a resistor 8 were chosen as favorable values of about 2.7 kΩ and a resistor 9 of 100 ohms used.

To increase the control effect one can use the Let the collector current of transistor 2 flow through resistor 7 at the same time.

In Fig. 2 a variant of this circuit is shown, in which the voltage divider 8, 9 is simultaneously in the circuit of the primary winding of the transformer 3 lies. This winding is provided with a tap 12, which over the. Resistance 7 to the supply source ally is. This practically eliminates the DC bias of the transformer core, so that the transformer can be made extremely small. The resistors 13, 14 and 15 also calm the temperature-dependent collector current fluctuations,

Claims (4)

Patent claims: 1. Amplifier with at least one transistor preamplifier and a push-pull output stage that consists of two coupled via a transformer, preferably working in AB or B mode Transistors, characterized in that temperature-related collector current fluctuations of the output stage transistors by means of the collector current, which is subject to the same fluctuations 709 589/138 of a pre-stage can be compensated by the collector current of the pre-stage flowing through it Impedance a voltage is tapped and the output stage transistors al «base bias is fed. 2. Amplifier according to claim 1, characterized in that that from a resistor (7), which is preferably decoupled for signal frequencies, in the encoder circuit of the first preliminary stage (1), a voltage tapped and via a voltage divider (8, 9) to the center tap of the secondary winding of the coupling transformer (3) is fed to the output stage (Fig. 1). 3. Amplifier according to claim 1, characterized in that the center tap of the secondary winding of the coupling transformer (3) of the output stage is connected to a voltage divider (8, 9) in the circle of the primary winding, whose tap (12) the direct current feed for the preliminary stage is fed via a resistor (7) (Fig. 2). Considered publications:
"Elektrotechnische Zeitschrift", edition A, 1954, issue 18, p. 594 (Fig. 5); "Radio-Magazin", 1955, H. 4, p. 108 (Fig. 3). 1 sheet of drawings 709 589- / 198 7.57