SU760408A1 - Range selective amplifier - Google Patents

Description

The invention relates to radio engineering and can be used in the construction of range filters designed to highlight narrowband signals, against the background of fluctuation noise.

One of the known ones is a multi-band superheterodyne receiver containing several 10 primary circuits, each of which includes a tuner with a variable reactive element, an auxiliary signal generator, a variable frequency signal generator, a control unit-15, a frequency converter, an intermediate frequency amplifier, the detector and the circuit supplying the detected signals to the auxiliary signals fbrmirovaniye block 20 [1].

However, in this receiver, in order to extend the range, it is necessary to increase the number of subranges, each of which overlaps a corresponding preselect chain of 25, which makes the receiver more complex, and the selectivity of the preselection circuits changes as the tuning in each subband occurs. thirty

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The closest technical solution known to this is a band selective amplifier containing a regenerative amplifier with. 'Frequency and Q-controls, an oscillator made according to a circuit identical to the regenerative amplifier having frequency, amplitude, and amplitude auto-regulating inputs, included 'between the generator output and the amplitude adjustment input £ 2].

However, this amplifier has a relatively narrow range of tuning the resonant frequency, low selectivity and dependence of the latter on frequency.

at

The aim of the invention is to expand the tuning range of the resonant frequency of the amplifier with increasing and stabilization of the selectivity range.

To do this, a series-connected bias voltage source 'and an adder, the other input of which is connected to the output of the amplitude auto-tuning circuit, are inputted into a known selective band amplifier, and the output is connected to the adjustment input

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760408

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the quality factor of the regenerative amplifier, and the frequency control inputs of the regenerative amplifier of the generator are combined.

The drawing shows the structural electrical circuit of the proposed amplifier.

The band selective amplifier contains a regenerative amplifier 1 with inputs 2 and 3 adjusting the frequency and quality factor, respectively, the adder 4, the source 5 of the bias voltage, the generator 6 having inputs 7 and

8 adjust the frequency and amplitude, respectively, and the auto-adjust chain

9 amplitudes. ,

The amplifier works as follows.

To adjust the frequency of the inputs

2 and 7, to which the control voltage is applied, and to adjust the quality factor and amplitude of the inputs 3 and 8 of the regenerative amplifier 1 and generator 6, made according to the identical circuit with amplifier 1, resistors with electronic tuning (not shown) are used.

In the initial period, the generator 6 and the regenerative amplifier 1 are located at the excitation boundary. When the control voltage is applied, the value of the frequency control resistor decreases and the generator 6 goes into oscillatory mode, which leads to the appearance of a signal at the output of the amplitude auto-adjustment circuit 9, which is fed to one of the inputs of the adder 4, to another input of which the source bias voltage 5 is applied. the output of the adder 4 signal is fed to the input

3 adjustments of the quality factor of the regenerative amplifier 1. Simultaneously

from the output of the auto-adjusting circuit 9 via the feedback circuit (at input 8), the mismatch signal enters the generator circuit b, as a result of which the magnitude of the amplitude adjustment resistor increases, which causes a decrease in the amplitude of the generated oscillations. With a further increase in the value of the control voltage, the amplifier continues to operate in accordance with the described principle.

Due to the supply of an additional bias voltage from the source 5 to the input 3 of the Q-factor adjustment, the regenerative amplifier 1. is constantly near the self-excitation boundary, and the stability of its (gain) selectivity in the frequency range is maintained by signals from the output of the auto-adjusting circuit 9.

Such a construction scheme of the Proposed amplifier allows to significantly expand the range of tuning the resonant frequency (up to several octaves) and to increase the stabilization of the selectivity of the amplifier.

Claims (1)

Claim A band selective amplifier containing a regenerative amplifier with frequency control inputs and d'ob. rotary generator, a generator made according to a scheme identical to the regenerative scheme -. Amplifier with frequency control, amplitude inputs and an automatic amplitude control circuit connected between the generator output and the amplitude adjustment input, which is to increase the tuning range of the amplifier’s resonant frequency while increasing and stabilizing the selectivity of the πό range, serially connected source of bias voltage and adder are entered into it; the other input of which is connected to the output of the author's circuit * amplitude amplitude, and the output is connected to the quality control input of the regenerative amplifier, and the frequency control inputs are regenerative. Amplifier and generator are combined.