DE1010570B - Power amplifier with a counter-coupled amplifier cascade preceding the output stage - Google Patents

Description

GERMAN

The invention relates to a power amplifier, as it is, for example, as a modulation amplifier for a. Telephone,! iron en the with high Reproduction quality, preferably a broadcast transmitter, can be used. Such amplifiers are not supposed to only have the property that they practically without the signal oscillations applied to their input Amplify distortion to the power level required to modulate a tube stage of the high frequency section; they should also be in terms of effort and consumption. electrical power have good economic efficiency. Great reinforcement with high output power, low distortion, and at the same time low number of stages with low consumption seemed to be demands that were difficult to reconcile so far.

A power amplifier is already known as a modulation amplifier for a telephone transmitter, the one of the output stage in the cathode base circuit preceding amplifier cascade with at least three Has tube stages. The output stage of this amplifier cascade is an anode base stage and controls the output stage up to the grid current area, while the input stage of this cascade is a Cathode base stage and provides part of the required voltage gain (German patent 752 966).

By controlling the output stage into the grid current area an increased useful power can be taken from the output stage, whereby the through the Grid current otherwise occurring distortions can be kept small, because of the internal resistance the one controlling the output stage. Anode base stage is small. It is also an AC voltage amplifier serving as a modulation amplifier with a power output stage known in which the principle of modulation · of the output stage into the grid current area through, a preceding anode base stage with one extending over several stages. Negative coupling united is. To avoid disruptive phase rotations within 'the bridged by the negative feedback loop. Amplifier cascade should be between, the tubes of the counter-coupled amplifier part only or closed The galvanic coupling serves such a large part that self-excitation at low frequencies is avoided (German patent specification 895 781). In this known amplifier there is already one over multiple tube stages reaching negative feedback loop used, which a galvanic connection of an output-side to an input-side stage forms. But because within the through this loop bridged. Amplifier cascade not a continuous direct current coupling, but a separation of the DC connection through a coupling power amplifier to one of the output stages previous negative feedback

Amplifier cascade

Applicant:
ι «Telefunken GmbH,

Berlin NW 87, Sickingenstr. 71

Dipl.-Ing. Hans Müller, Berlin-Lichterfelde,
has been named as the inventor

capacitor is provided, there is no down to very low frequencies and even with direct current effective negative feedback, d. H. thus · no stabilization of the DC quiescent values.

It should be noted, however, that an amplifier has also been specified in which within Galvanic coupling is provided for the cascade consisting of two tube stages. This cascade is bridged by a negative feedback loop leading from the output to the input. It is there too It has been stated that purely ohmic coupling means are also used in the negative feedback loop (Swiss patent 181659).

The invention is based on the object, the economy and the low distortion of a To improve power amplifier further and with extensive use of galvanic coupling to obtain a stabilization of the operating point setting. Starting from a power amplifier with one of the output stage in cathode base circuit preceding amplifier cascade with at least three tube stages, the output stage of which is an anode base stage and the output stage up to the grid current area modulates and whose input stage is a cathode base stage, according to the invention, the Amplifier stage between the input cathode base stage and the output anode base stage as Anode base stage, which also extends the output anode base stage into the grid current area controls; Furthermore, the amplifier stages should all be galvanically coupled, and there should be one galvanic negative feedback connection between the

709 549 / 28Ϊ

Cathode resistance of the output anode base stage and the control grid of the input cathode base stage exist.

The summary of a group of two consecutive. Anode base stages with a preceding, galvanic on. the next stage coupled cathode base stage results in a chain of amplifier stages, between those for DC and Alternating voltages equally effective couplings

To control the cascade into the grid current area and thereby the tube: to extract a greater power or with the same power with a smaller and therefore cheaper and less supplied equal-5 Power consuming tube get along. The savings possible in this way, especially in terms of the DC power used, are considerable. The exact calculation for one 20 kW transmitter with anode voltage modulation resulted in a total power loss of

this therefore at least one voltage amplifier stage to include; in the case under consideration this is the cathode base stage preceding the first anode base stage, which accordingly acts as a voltage amplifying stage, with its output electrode direct current conducting with the control grid of the following anode base stage, preferably directly, connected is.

the phase rotations for alternating io output stage

voltages within a large frequency range 11.7 kW, which without the application of the invention remain extremely low and also. AC voltages had to be used in total; when using the very low frequency as well as direct current components invention, this value was lowered be transmitted. The negative feedback on this power saving in the modulation amplifier Stages, can therefore 15 6.1 kW without the risk of self-excitation, which increases the overall effect in particular strong. Since the opposite degree corresponded to the system by 11 ° / o. These cheap coupling loop itself also had a galvanic value with a significantly lower one Connection between, the output-side decrease distortion factor than the comparison amplifier with the point and the connection point at the input had higher power consumption. It Cathode base stage of the considered. Cascade forms, 20 is therefore made possible by the invention they in distortion-reducing and stabilizing ability to build up both in terms of the overall way also for the lowest frequencies and for the otherwise high expenditure and power consumption with direct current amplifiers often occurring long-cheap amplifier, the higher for all systems seeds wanderings of the set tube work quality reproduction with great power requirements effective. The natural negative feedback of the 25 is extremely suitable. two anode base stages, which the internal resistance in the drawing is in.

of the stages is significantly reduced and the tube control Fig. 1 is the circuit diagram of one according to the invention

Reduced distortions, as is well known, has the consequence that trained amplifier part is shown; these stages do not result in a voltage gain. Fig. 2 shows the circuit diagram of a push-pull

To the negative feedback over the returned 30 amplifiers in the two symmetrical branches To make the loop effective at all, similarly constructed amplifier parts according to the invention must be used contains.

In Fig. 1, 1, 2, 3, 4 and 5 denote the successive amplifier stages or the tubes used therein. The input stage 1 is coupled to the stage 2 in the usual way via a capacitor. Stage 2 forms the first stage of the amplifier cascade designed in accordance with the invention, which contains stages 2, 3 and 4. Stage 5 represents the succession of two anode base stages 40, the output stage to be controlled up to the grid current area within the through a backward loop of the amplifier; in its anode circuit is the counter-coupled amplifier part but still has an additional primary winding of an output transformer and extensive advantages. It has already been suggested. Man. recognizes that the couplings between an anode base stage have a very low inner and tube stages 2 to 5 in this way, have resistance and therefore have low-distortion feed from current-dependent anode base stage 4, especially for the fact that they also transmit DC voltage components a consumer resistors is suitable, for example for the output resistance, which is formed by the partial resistors 7 modulation of a subsequent tube stage up to ins and 8. The preceding anode base grid current area. In the amplifier after stage 3 has the output resistance 6. In the invention per se, the output-side anode base stage 50 can be the control grids of the stages in a known manner. 5 take on such a task, the internal resistance occurring in each case directly with the cathodes of the preceding phenomenon being connected by the going steps 4 and 3 in and 4. In. This external sound, the considered cascade bridging strong device is therefore possible both a control of the negative feedback over the area caused by the anode base tube 5 and the tube 4 up to the grid current circuit of the last stage only 55 area.

is reduced in size. For the delivery of the Am output resistance of the anode base stage 4,

Tax performance for the following stage, which between the. Partial resistors, 7 and 8, is for example the modulator stage of an anode chip, the output end of a negative feedback modulated radio transmitter, must be connected to a loop, which contains a tube 60 with the ohmic resistor 9 as a series resistance of this output anode base stage. The end of the negative feedback loop, which is of sufficient size and current modulation capability, leads to the contain .; It will generally be a tube control grid of the tube stage 2, which act as a chip, whose size and cost in relation to the voltage amplifier stage in the cathode base circuit precedes the overall costs of the whole amplifier substantially the anode base stage and is significant with this. According to the invention 65, a galvanic coupling is connected. The provided cascade connection of at least two bridging the cathode resistance of the tube 2 anode base stages, in which accordingly the output-side stage is also an anode base stage
switched stage precedes, there is the possibility of

Serving capacitor is shown in the circuit diagram with broken lines. This is supposed to mean
that it can also be left out. In this case

also the output-side stage of the considered 7 ", the tube 2 receives an additional negative feedback,

which lowers their gain. By eliminating of the capacitor, however, linear distortions are more easily avoided at this point than by using a very large capacitor.

In the individual amplifier stages, triodes can also be used instead of the pentodes shown. This is especially true for levels 3 and A, which should not result in any voltage amplification anyway.

The circuit shown in Fig. 1 results in an extremely low level for the tube stage 4. Internal resistance, so that favorable conditions are created for controlling the tube 5, which works with grid current. Because of the great stability of the circuit through the use of DC couplings with the exception of the single point between the stages. 1 and 2, in addition to the strong negative feedback from the output of stage 4 to the input of stage 2, an additional negative feedback from the output of stage 5 to the input of stage 1 can be used. If, in addition to the negative feedback, which is also effective for direct current, another negative feedback is to be effected via the loop from 4 to 2, which is only effective for AC voltages, a series capacitor can be used, for example, from the galvanic negative feedback loop or from the output resistance of an anode base stage additional negative feedback loop can be led to an amplifier stage closer to the input, preferably to a stage which precedes the tube stage 2 having the feedback point of the galvanic negative feedback loop. In this way, a further equalization of the amplified AC voltages can be effected, the degree of negative feedback for AC voltages being made considerably greater than for DC voltages via the loop from 4 to 2.

In Fig. 2 the circuit of a complete push-pull amplifier is shown, as it can be used, for example, as a modulation amplifier for a radio transmitter of medium power. It can be seen without further ado that the structure of the upper part of the circuit with the. Tube stages I ₁ 2, 3, 4 and 5 corresponds to the structure shown in Fig. 1. The lower part of the circuit diagram shows the push-pull branch arranged symmetrically to the upper part with the Röfar stages V, Z ', 3', 4 'and 5'. The input and output of the amplifier are supplemented by transformers 10 and 11. A voltage divider with the resistor pairs 12 and 12 'is connected to the primary side of the output transformer. where negative feedback loops lead over the entire amplifier to the secondary side of the input transformer and thus to the grid of the tube stages 1 and 1 '. This negative feedback over everything also partially compensates for the distortions occurring in the output transformer. The output resistors 6 or 6 'and 7, 8 or T, 8' can essentially be formed by ohmic resistors, so that the expense of expensive choke coils is eliminated at this point.

Claims (6)

PATENT CLAIMS: 1. Power amplifier with an amplifier cascade preceding the output stage in a basic cathode circuit with at least three tube stages, the output stage of which is an anode base stage and drives the output stage into the grid current area and whose input stage is a cathode base stage, characterized in that also the amplifier stage (3) between the input cathode base stage (2) and the output anode base stage (4) is designed as an anode base stage, which the output anode base stage (4) also controls up to the grid current area, that furthermore the amplifier stages are all galvanically are coupled and that finally a galvanic negative feedback connection between the cathode resistance of the output anode base stage (4) and the control grid of the input cathode base stage (2) (Fig. 1). 2. Amplifier according to claim 1, characterized in that the galvanic negative feedback path has one or more ohmic resistors (9) contains as longitudinal resistances. 3. λ ^ amplifier according to claim 1 or 2, characterized characterized in that, in addition to the galvanic negative feedback, there is only one for alternating voltages effective negative feedback is provided. 4. Amplifier according to claim 3, characterized in that the galvanic negative feedback loop or a series capacitor from the output resistance of an anode base stage containing negative feedback connection to an amplifier stage closer to the input is, preferably to a stage which is the feedback point of the galvanic negative feedback connection having tube stage (2) precedes. 5. Push-pull arrangement, characterized by two similarly structured amplifier branches according to one of claims 1 to 4 (Fig. 2). 6. Use of the amplifier according to claims 1 to 5 as a modulation amplifier for amplitude-modulated telephones of high reproduction quality. Considered publications: German patent specifications No. 896 056, 895 781, 966; Swiss Patent No. 181 659; »Rev. of Scient. Instr. ”, 1950, No. 12, p. 1010; "Electronics", 1952, April, pp. 144 to 146. 1 sheet of drawings © 709 549/281 6.57