SU428294A1 - AUTOMATIC HETERODINE FREQUENCY METER - Google Patents

Description

one

The invention relates to a radio measuring technique and can be used to automatically measure the frequency of the microwave range.

Known automatic heterodyne frequency counter of the microwave range, containing an electron-counting frequency meter, an input mixer, a tunable YIG filter (solid-state filter based on ferro-yttria crystal with a garnet structure), a sawtooth current generator, an analog-to-digital converter.

The known frequency meter has a low resolution ability to determine the number of the selected harmonic for the control current at high harmonic numbers. This is caused, firstly, by small increments of the control current when the filter is tuned to the adjacent harmonic, and secondly, by the time and temperature instability of the dependence of the resonant filter frequency on the control current. Due to this, the instability of the frequency meter operation during conversions at high harmonics of the reference frequency is caused.

For the sake of higher stability in conversions at high harmonics of the reference frequency, the proposed frequency meter is equipped with two additional frequency mixers, one generator and a frequency ratio meter, the generator output connected to the inputs of two additional mixers, the outputs of which are connected to the frequency ratio meter inputs, and the output of the latter is connected to the second input of the electronic counting frequency meter.

The drawing shows a block diagram of an on-frequency counter, containing an electronic counter frequency meter I, an input mixer 2, a tunable YIG filter 3, mixers 4 and 5, a generator 6 with a fixed setting 6, and a frequency ratio meter 7.

Conversion of the input measured / input frequency at the selected harmonics of the reference frequency is the same as in the known device. Determining the number of the selected GA. Is essentially different and is performed as follows. In mixer 4, a reference frequency / atm is mixed with a generator frequency of 6 fr and the difference between them is separated at the mixer output

A / / fsT ± /, v.

25

The frequency of the generator 6 is chosen such that the inequality is fulfilled. In this case, the difference frequency pl / is distinguished at the output of mixer 5 between the harmonic of the reference frequency n / fl AND -OH of the generator frequency 6 / g allocated at the output of the YIG filter.

/ l / „± p / g / pA /.

The frequencies A / and PL / are fed to the input of the meter 7 by means of which the value of n is determined. The value of n is indicated in the first counting bits of the frequency meter.

The value of n, when applied to the ESCH, can be encoded by the number of pulses, the position of the flip-flops, and so on.

Due to the fact that in the proposed device, when determining the number of the selected harmonic, current-frequency conversion is not used, and all operations are performed only with frequency, there is practically no limit to the magnitude of the harmonic used in determining it.

Subject invention

An automatic heterodyne frequency meter containing an electron-counting frequency meter with two Inputs and subsequently a tunable filter and an input mixer, the output of which is connected to the first input of an electronic-counting frequency meter, characterized in that, in order to increase the stability of operation, it is equipped with two additional frequency mixers , a generator and a frequency ratio meter, the generator output being connected to the inputs of two additional mixers, the outputs of which are connected to the meter inputs and frequency, and the output of the latter is connected to a second input of the electron-counting frequency meter.