SU100082A1 - Steam Amplifier Pump - Google Patents

Description

The invention relates to the field of radio transmitting devices, from which, in order to compensate for non-linear searches, feedback is applied along the envelope of amplitude-modulated oscillations.

The proposed device for the implementation of an opposition in radio transmitters is designed to compensate for nonlinear distortions in both amplifiers of amplitude-modulated oscillations of two-band transmitters and in the steps of amplifying high frequency single-band transmitters. The basic meaning of the invention is that it provides for a satisfactory redefinition of the problem of distortion in single-band transmitters.

The known negative feedback scheme in single-band transmitters, based on adjusting the cut-off angle and thus affecting the shape of the envelope of amplitude-modulated oscillations, introduces additional significant non-linearity in the path due to the input level mode, which is significant efficiency of the circuit.

In the proposed device for implementing radio communications in a radio transmitter comprising a detector connected at the output of the transmitter, a second linear detector is used, connected at the output of the stage, representing the first of the feedback-covered stages of the transmitter.

The diagram and operation of the described device is illustrated in the drawing.

The input of the stage /, which is one of the intermediate stages of the high-frequency amplification, is applied in the form of a bias to the rectified voltage of the high frequency E, ..., - o from the output stage 2 of the transmitter. For this purpose, detector 3 is turned on at the transmitter output. At the same time, at the output of stage 4, the previous stage 1 — the first of the transmitter stages covered by feedback loops — detector 5 is turned on, and the input of the stage / in antiphase with rectified high-frequency voltage, From the transmitter output, a high-frequency rectified voltage is applied af / ,,,,, (V before stage 4. As can be seen from the drawing, the effect on the envelope of the modulated oscillations is made directly in the steps of the high frequency gain the path of the low frequency or its individual sections.

The feature of the ycTpoiicTBa according to the proposed scheme is that, in the anti-coupling path, depending on the shape of the characteristic of the lamp of the adjustable stage and the choice of its mode, the regulating factors can be both the cut-off angle in and the slope 5 of the characteristic in the exponential part with the prevailing influence .

In a radiotelephone nerardatchik using the device of the proposed differential feedback scheme, it is envisaged: reducing the excitation voltage applied to the input of the first of the transmitter steps covered by the feedback to a value equal to the excitation voltage without feedback. This facilitates the construction of the preliminary stages of the transmitter and reduces the communication of the latter with the input stage, which increases the stability of the transmitter; facilitating the selection of the required frequency-phase characteristics of the transmitter, since feedback can be applied to the input relative to more of its powerful stages.

PREPARATION AND RESULTS

An anti-interference device in radio transmitters, designed to compensate for non-linear distortions in amplifiers of amplitude-modulated oscillations of two-band transmitters or in high-frequency gain steps of single-band transmitters, containing a detector connected to the output of the transmitter, from which a low frequency voltage is fed to the input the first of the high-frequency stages covered by feedback that operate on the nonlinear part of the lamp characteristic, characterized in that, in order to increase the efficiency | feedback and stability of the transmitter, reducing the number of stages covered by feedback, and reducing the excitation voltage applied to the input of the first one, at the output of the stage preceding the first of the feedback covered stages, the second linear detector and A low frequency output from the second detector is inputted from the negative feedback circuit in antiphase to the voltage coming from the first detector.

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