SU853779A1 - Frequency monitoring device - Google Patents

Description

The invention relates to radio engineering and can be used in angle-to-code converters under conditions of increased interference level 5.

A frequency tracking device is known, comprising a band-pass filter based on a notch filter, a U connected phase shifter, a phase detector AND a low-pass filter, the phase shifter input and another input of the phase detector are connected to the input and output of the band-pass filter, and the output the low-pass filter is connected to the control input of the detector filter Cl.

However, such a device has the frequency instability of the filtered one. naprshkeni and, as a result, has a low tracking accuracy.

The purpose of the invention is to improve the accuracy of the device.

To do this, in tracking device 25, a frequency containing a band-wiping filter, made on the basis of a notch filter, a series connected phase shifter, a phase detector and a bottom filter

the frequencies of the phase shifter and the other input of the phase detector are connected to the input and output of the bandpass filter, and the output of the low-pass filter is connected to the control input of the notch filter, the input and output of the band-pass filter are connected in series to a synchronous detector and an additional low-pass filter whose output connected to an additional control input of a notch filter, made in the form of a double T-shaped filter.

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

The device contains a band-pass filter 1 on the basis of a notch filter, a phase-shifter 2, a phase detector 3, low-pass filters 4, 5, a synchronous detector 6, a notch filter 7, resistors 8, 9, capacitances 10, 11.

The device works as follows.

The filter voltage is applied to the input signal line 12. In the case when it matches

With the frequency of the own resonance of the notch filter, the latter will have a conductivity close to zero, and therefore the voltage at its output will be absent. The filtered voltage will pass through the band-pass filter 1 to the output of the device, without weakening. Voltages at the outputs of the phase detector 3 and the synchronous detector 6 will also be absent, which means that the resistor 9 which is controlled in magnitude and capacitance 11 has optimal parameters. In the event that, due to the frequency of the input voltage or due to the instability in time of the parameters of the notch filter 7, the frequency of the input voltage differs from its own resonant frequency of the notch filter 7, the voltage at its output will not be zero. In this case, at the outputs of the phase detector 3 and the synchronous detector 6, the control voltages, which are applied to the resistor 9 and the capacitance 11, which are controlled by value, will change their parameters and combine the same self-resonant frequency of the notch filter 7 with the frequency of filtered naprgseny.

The technical and economic advantages of the proposed device are that, due to the use of a reference filter 7 as an average component, 7 the right e s in terms of resistor 9 and capacitance 11 and their control circuits result in a decrease in the phase and amplitude errors introduced by the filter, to any arbitrarily small level.

The proposed DEVICE allows us to filter out alternating voltages that do not allow phase distortions, for example, phase shifter voltages in angle-to-code converters, which will provide a significant increase in conversion accuracy in conditions of increased interference.

Claims (1)

1. USSR author's certificate number 336762, cl. H 03 F 1/44, 1970 (prototype).