SU1023246A1 - Harmonic signal frequency and amplitude measuring device - Google Patents

Abstract

A DEVICE FOR MEASURING FREQUENCY AND AMPLITUDE.HARMONIC SIGNAL, containing three differentiation unit devices connected in series with the input unit and the first division unit and the first square root extraction unit connected in series with the aim of increasing measurement accuracy in order to improve measurement accuracy. the first multiplication unit, the first subtraction unit, the second division unit and the second square root extraction unit, the output of which is in series, connected in series. is the output of the measured amplitude, the second multiplication unit and the second subtraction unit connected in series, as well as two squaring units, the output of the first differentiation unit connected to the input of the second multiplication unit and through the first squaring unit to the input of the first subtraction unit, the output of the second differentiation unit is connected to the first input of the first multiplication unit and through the second squaring unit about the second input of the second subtraction unit, the output of which is soy S dinen to the first input. the second division unit, the output of the third differentiation unit is connected to the second input of the second multiplication unit, the second input of the first multiplication unit is connected to the device input, the output S of the first subtraction unit is connected to - the second input of the first division unit, tUsA output of which is connected to the second input of the second division block. SO yu yes

Description

IEEE applies to electrical measuring equipment and can be used to create fast-acting instruments for measuring the frequency and amplitude of harmonic signals.

A device for controlling the parameters of a harmonic signal is known, which contains two signal differentiation units and other anadrgive units i.

The disadvantage of this device is that the frequency cannot be measured at the moments when the input signal is close to zero.

Closest to the invention is a device for measuring the frequency of a harmonic signal, comprising three differentiation units, a dividing unit, a square root extraction unit, a prediction unit.

The disadvantage of this device is the effect of the transient processes occurring at the moments of switching the switch, on the measurement process, during the time of the switch, which is always the final value, the measurement is almost impossible, since there is an uncertainty in the operating mode of the dividing unit.

The purpose of the invention is to improve the accuracy of the frequency measurement.

The goal is achieved in that a device for measuring the frequency of the amplitude of a harmonic signal, containing three devices connected to the input of the differentiation unit and the first dividing unit connected in series and the square root extractor unit, are connected in series to the first multiplication unit, the first subtraction unit , the second division unit and the second. square root extraction unit, the output of which is the output of the measured altitude, the second multiplication unit and the second block sequentially connected subtraction, two erection units in squadres, the output of the first differentiation unit is connected to the input of the second multiplication unit and through the first squaring unit to the input of the first subtraction unit, the output of the second differentiation unit and through the second squaring unit - with the second input of the second subtraction unit, the output of which is connected to the first input of the first division unit, the output of the third differentiation unit is connected to the second input of the second multiplication unit, Torah input of the first multiplier unit is connected to the input device, the output of the first block

The subtraction is connected to the second input of the first dividing unit, the output of which is connected to the second input of the second dividing unit.

The drawing shows a diagram of a device for measuring the frequency and amplitude of a harmonic signal.

The device contains differentiation units 1-3, elevation units 4 and 5. neither squared, blocks b and 7 multiplication, blocks 8 and 9 of subtraction, blocks 10 and 11 of division, blocks 12 and 13 of square-root extraction.

-. , Frequency measuring device

and the amplitude of the harmonic signal works as follows.

The input signal U, U (t) A sin (ot +) enters the input of block 1 and is differentiated three times by differentiation blocks 1,2 and 3. At the output of these, the voltages appear respectively

and, u (t) Acjcos Ccot + If);

and, U (t) -A ws in (J;

(t) Au) sin tot + qi);

In block 6, the input signal UQ is multiplied by its second derivative and as a result, the signal UgUj appears at the output of this block. Similarly, the first and third derivatives of the input signal and ;, and Uj are multiplied in multiplication unit 7. At the same time in block 4 of c. the square is erected in; the square of the first derivative of the input signal, and in block 5, its second derivative. In block 9, the subtraction is performed to subtract the product of the first and third derivatives from the square of the second derivative of the input signal and the output is a voltage proportional to the value -.

0 and ,.

Similarly, the subtraction unit 8 performs the operation of subtracting the product of the input signal and the second derivative from the square of the first derivative. In this case, a voltage proportional to the value

 -Up- l aiui.

AT . the dividing unit Yu is produced by dividing the value of / 3 by the value of about, in, resulting in a voltage proportional to the square of the measured angular frequency at the output of this block

four

J.

0) 2.

A “U) 2;

06

This voltage is fed to the input of the square-root extraction unit 12, from the output of which the voltage proportional to the measured frequency o is removed.

In order to measure the amplitude of the input signal at any moment in the device, the dividing unit 11 and the fleas 13 extracting the square root are used.

Hai, the first input of block 11 is supplied with a voltage g proportional to CeloCeoCi, and from the output; a block of 8 subtraction is riia its second input voltage proportional to the square of the angular frequency (As a result, at the output of block 11, a voltage a life proportional to the square of the “1 liter input signal

  )

M2 Wl "/

which is fed to the input of the square root extraction unit 13 5. WITH . J.3 is removed, the voltage is proportional to the amplitude of the input signal A. . . This device allows you to simulate the frequency and frequency of the harmonic signal: a signal at any desired time with high accuracy, which is important for fast-acting frequency meters and 5 automatic measuring devices. ; roystv.

Claims (1)

DEVICE FOR MEASURING THE FREQUENCY AND AMPLITUDE OF THE “HARMONIC SIGNAL”, comprising three differentiation units connected in series to the input of the device and a first division unit and a first square root extraction unit connected in series, in order to increase the measurement accuracy, the first connected in series a multiplication unit, a first subtraction unit, a second division unit and a second square root extraction unit, the output of which is the output of the measured amplitude, in series with a single second multiplication unit and a second subtraction unit, as well as two squaring units, the output of the first differentiation unit connected to the input of the second multiplication unit and through the first squaring unit with the input of the first subtraction unit, the output of the second differentiation unit connected to the first input the first block of multiplication and through the second block of squaring-co the second input of the second subtraction block, the output of which is connected to the first input of the first block § division, the output of the third block of differentiation is connected nen with the second input of the second multiplication unit, the second input of the first multiplication unit is connected to the input of the device, the output of the first subtraction unit is connected to the second input of the first division unit, the output of which is connected to the second input of the second division unit. SU „„ 1023246