SU59497A1 - Transmitter or amplifier - Google Patents

Description

The present invention relates to a communication circuit between cascades of a transmitter or amplifier, in which, to correct non-linear distortions caused by grid currents, the grid current of the next stage is simultaneously the anode current of the previous stage.

In FIG. 1 shows the proposed scheme, and FIG. 2 its effect is removed; in fig. 3 shows a modification of the scheme.

Each shoulder shown in FIG. 1 scheme works as follows. In the absence of an alternating voltage at the input, the lamp of the driver (first stage) is locked, its anode current is close to zero and, therefore, the voltage drop across the terminals of the grid-cathode end of the lamp is very small. At this point, the voltage Eag almost acts on the anode of the lamp driver.

When an alternating voltage driver appears on the lamp grid, its anode current creates a positive voltage on the grid of the terminal lamp. It can be seen from the diagram that the anode current of the driver lamp is at the same time the grid current of the lamp of the terminal one. Thanks to this in the scheme is not

additional nonlinear distortions occur due to grid currents. The driver lamp, with an appropriate choice of the form of its dynamic characteristic, compensates for the nonlinear distortions that occur in the final stage, since the phases of the harmonics that occur in the driver and in the final stage are opposite.

The shape of the characteristic of the anode current of the lamp driver 1 "- fiUjr.) Is different from the shape of the characteristic of the grid current. terminal cascade and ftUcro). This is, as shown in FIG. 2, the cause of small nonlinear distortion in the circuit.

The driver lamp power in the proposed scheme should be in the order of% of the power output of the amplifier. This is the second advantage of the circuit, since in a typical driver turn-on circuit, its power should be 5–10% of the output power of the amplifier with a significantly

X more clear.

In order to further reduce distortion, the driver and the end stage may be covered by a negative feedback circuit. This relationship); The proposed scheme is also a big advantage: its phase characteristic does not differ from the phase characteristic of a single-stage amplifier (thanks to the absence: reactive elements between the driver and the terminal stage). This, as it is known, increases the stability of the circuit and allows the use of a deeper negative inverse | communication

The proposed circuit is applicable both in low frequency amplifiers and; in transmitters, where its use can give a big effect thanks; increasing the power gain per cascade (up to 100) and reducing the number of cascades.

The use of a circuit in operating low frequency amplifiers is posolit; significantly increase power; cleansing knots. Thus, for example, the pro- cedure made by the author shows that the power of the existing 1.5 KW Substation can be increased more than doubled with a clear factor of about 4%.

The proposed scheme is suitable not only for lamps with the right characteristic, but also for any other type of lamps, in particular, for triodes with left characteristic, operating with a negative bias on the control grid, as shown in FIG. 3 drawings.

An additional advantage of this scheme, as compared to the usual one, is the absence of a special source of negative bias on the grid of the lamps of the power stage necessary for the operation of lamps with the left characteristic in mode B.

The subject matter of the invention.

A transmitter or an amplifier with elimination of non-linear distortions caused by grid currents, characterized in that the grid current of the next stage is ONE time the anode current of the previous stage.

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