SU434324A1 - Frequency meter - Google Patents

Description

one

The invention relates to the field of instrumentation, in particular to electronic frequency meters with frequency conversion to voltage, and can be used for automatic frequency measurements, for example, in systems of auto-tuning and frequency stabilization.

Frequency meters are known that contain a square pulse shaper and a voltage sensitive recording device. Frequency conversion into voltage in known frequency meters is carried out by forming a sequence of pulses of equal amplitude and duration from the signal under study and extracting the average voltage value of this sequence.

However, the known frequency meters have a direct dependence of the output voltage on the frequency of the signal under study. This leads to an increase in high-frequency interference. As the frequency of the studied signal increases, more than a certain value in frequency meters that use pending multivibrators, there is an ambiguity in the count due to the effect of frequency division.

The use of standby multivibrators leads to an increase in temperature drift due to objectively inherent instability, the timing of the driver circuits and the characteristics of the active elements, which reduces the measurement accuracy.

With the short-term disappearance of the signals under study, the known frequency meters give the same readings as with a significant decrease in the frequency. In a number of automatic frequency measurements, for example, when monitoring systems of automatic frequency control, it is necessary to exclude arising from this

readings that in known devices can be achieved only by their significant complication.

The purpose of the invention is to improve the measurement accuracy and simplify the design of the frequency meter.

This is achieved by the fact that the frequency meter is equipped with a series-connected integrating circuit and a peak detector, the output of the square pulse generator is connected to the input of the integrating circuit, and the output of the peak detector is connected to the input of a recording device.

The drawing shows a functional diagram of the proposed frequency meter.

The frequency meter contains series-connected rectangular pulse shaper 1, an integrating circuit 2, a peak detector 3 and a voltage-sensitive recording device 4.

The signal, the frequency of which must be measured, is fed to the input of shaper 1 (for example, an amplifier-limiting device), which forms rectangular pulses with a frequency equal to the measured frequency. After passing through the integrator, the electric oscillations acquire a saw-like shape. With constant parameters of driver 1 and integrating value 2, their amplitude depends only on frequency and decreases monotonically with its increase.

In this case, the output of the peak detector 3 produces a DC voltage proportional to the amplitude of the oscillations after the integrating circuit 2. The recording device 4 connected to the peak detector serves to represent this voltage, i.e., the measurement results, in a form that is convenient for sensing or further processing.

The range of measured frequencies depends on the choice of the time constant of the integrating circuit 2 and can range from fractions of a hertz to tens of megahertz.

The proposed frequency meter has an inverse dependence of the output voltage on the frequency, which makes it possible to unstructure its circuit and design and use it for automatic frequency measurements and its tuning.

In addition, the proposed frequency meter, as compared with the known ones, is less susceptible to the influence of high-frequency interference, has no counting ambiguity, and is characterized by a slight temperature and temporal drift.

Subject invention

A frequency meter containing a square pulse shaper and a recording device, characterized in that, in order to improve the measurement accuracy and simplify the coping device, it is equipped with a series-connected integrating value and a peak detector, and the output of the square pulse forming unit is connected to the integrating price input, and the output A peak detector is connected to the input of a recording device.