SU428308A1 - PHASE FREQUENCY DISTORTION MEASURING FOUR-POLAR CHARACTERISTICS —- - Google Patents

Description

The meter can be used in various areas of radio engineering and communications to monitor and control the phase-frequency characteristics (PFC) of various quadrupoles.

A HiBBeicTeiH meter and a quadrupole frequency response, containing a series-connected modulating signal generator, a oscillating frequency generator, a quadrupole under study, a group delay measurement circuit, a discrete integrator, and a measuring instrument. When integrated in such a meter, errors arise due to the inevitable nonlinearity of the change in the frequency of the measuring signal over time.

The purpose of the invention is to eliminate the errors that occur during integration, and to ensure measurement accuracy is not worse than during direct measurement of the quadrupole phase shift. For this, a part of the measuring signal before the input or at the output of the studied quadrupole is branched and mixed with a grid of stable equal frequencies located in the sweep range of the measuring signal frequency, and the immersions resulting from mixing the measuring signal with each successive grid frequency are used as timing signals. an integration process that is performed by successively sampling the values of the removed characteristics of the group delay and the current summation of these samples.

The drawing shows the block diagram of the proposed meter.

The input of the investigated quadrupole / receives a measuring signal from the oscillating frequency generator 2 (HLG), modulated by the amplitude of the low frequency Q from

generator 3. From the output of the quadrupole the measuring signal passes to the meter group 3, where the envelope is detected and compared in phase with the reference voltage Q. The output voltage of the phase meter

here, it is para-radially measured by the group order and changes along with the change in the frequency of the Gmt, repeating the shape of the frequency characteristic of the Gm of the quadrupole.

To obtain the phase response, the signal from the output of the group meter is fed to the integrator 5. The integration is carried out in a discrete manner, namely, by successive samples of the values of the group delay (at fairly close intervals) and the current summation

these samples in one way or another (for example, by converting a level-time interval-number of counting pulses), and the samples are taken only at intervals corresponding to equal increments of the frequency of the measuring signal. To ensure

Such an integration mode, a part of the measurement signal at the output of the quadrupole is branched off and fed to the mixer 6, where it is mixed with the signal of the grid generator 7. This signal is a set of sufficiently stable discrete frequencies located in the sweep band of the frequency of the measuring signal at appropriately selected equal intervals. As a result of the mixing of these signals on the mixer load, beatings occur during the passage of the GCF frequency through the values of the discrete frequencies. From these beats, single standard impulses are created in amplifier 8 which are fed to the integrator for sampling the sample times and indicator 9 for creating frequency marks.

The frequency of the samples is obviously determined by the interval of discrete frequencies and is selected depending on the type of characteristic under study and the sweep rate. In any case, the integrity of the integration

can be made sufficiently small by reducing the frequency sweep rate and the corresponding "thickening of the grid of frequencies.

Ledmetizabretenen.i

Phase-frequency distortion meter of the quadrupole, which contains a modular-modulated signal generator, renefpaTOip oscillating frequency, quadrupole under investigation, a group lag time measurement circuit, a discrete integrator and a measuring device, characterized in that, in order to improve the measurement accuracy, a mixer, a grid generator are introduced. frequency amplifier and driver, and the mixer inputs are connected to the output of the four-field under study and the output of the grid generator one and the output of an amplifier coupled to the generator-quantizing input digital integrator and with the input frequency of the indicator labels.

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