SU483771A1 - The device automatically adjusts the resonators - Google Patents

Description

one

The invention relates to radio engineering, in particular, to the automation of radio communications.

A device for automatically tuning resonators is known, comprising a tunable resonator between which an output and a control input are connected in series an amplitude detector, a low-frequency amplifier, a phase detector, to the second input of which a low-frequency generator is connected through a reactive element with an additional control input of a tunable resonator, electric motor and control element.

The purpose of the invention is to prevent oscillatory instability during tuning.

For this purpose, in the proposed device, a serially connected voltage divider and a switch are connected between the output of the phase detector and the second input of the reactive element, the control input of which is connected to the output of the amplitude detector.

The drawing shows a block diagram of the device.

The device contains a tunable resonator 1, between the output and the control input of which are connected in series the amplitude detector 2, the low frequency amplifier 3, the phase detector 4, to the second input of which is connected a low frequency generator 5 connected via a reactive element 6 with an additional control input of the tunable the resonator 1, the motor 7 and the control element 8, connected in series voltage divider 9 and switch 10 connected between the output of the phase detector 4 and the second in ode reactive element 6, and the control input of the switch 10 plug to the output of the amplitude detector 2.

The device works as follows. The low frequency generator 5 through the reactive element 6 periodically within small limits changes the natural frequency of the tunable resonator 1, to which the input signal is applied. The amplitude-modulated signal from the resonator is fed to the amplitude detector 2. Its envelope is extracted by detector 2 and passed through the low-frequency amplifier 3, is compared at phase detector 4 with the voltage of the low-frequency generator 5.

If the natural frequency of the tunable resonator 1 is higher or lower than the frequency of the input signal, the variable component of the signal at the output of the amplitude detector 2 is respectively in-phase or anti-phase with the voltage of the low-frequency generator 5. In accordance with this, the constant voltage at the output of the phase distance 3

Vector 4 is positive or negative. The output voltage of the detector controls the motor 7, which, through the control element 8, tunes the resonator 1. When the natural frequency of the resonator becomes close to the resonance with the frequency of the input signal, the voltage of the constant component of the output of the amplitude detector 2 increases, and reaching the threshold switch 10 turns it on. The voltage at the output of the phase detector 4 through the voltage divider 9, the switched on switch 10 and the reactive current element 6 begins to rebuild the resonator 1 in small limits, but almost without inertia. When fine tuning the natural frequency of the resonator 1 into resonance with the frequency of the input signal, the voltage at the output of the phase detector 4 is zero.

In order to smoothly change the nature of the transient process in the device, the division factor of voltage divider 9 is changed. To eliminate oscillatory instabilities, when setting the parameters of divider 9 and

reactive element b is selected so that when you turn on the switch 10, the transition process was aperiodic.

Subject invention

A device for automatically tuning resonators containing a tunable resonator, between the output to the control input of which there are connected in series an amplitude detector, a low-frequency amplifier, a phase detector, to the second input of which is connected a low-frequency generator connected through a reactive element e to an additional control input of the tunable resonator, Motor and control element, characterized in that, in order to prevent oscillatory instability during tuning, m Between the output of the phase detector and the second

The input of the reactive element includes a series-connected voltage divider and a switch, the control input of which is connected to the output of the amplitude detector.