SU373640A1 - ^ ISHPIOGHA ^ J - Google Patents

Description

one

The invention relates to the field of radio engineering measurements, in particular, methods for improving the accuracy in measuring the nonlinear distortion coefficient and generating signals calibrated with the nonlinear distortion coefficient.

There is a known method of generating a signal calibrated with a non-linear distortion coefficient based on a limiting sinusoidal signal.

The disadvantages of this method are low accuracy, due to the main and additional errors of the voltmeter and voltage divider, a limited number of spectral components, they are in the spectrum of a calibrated signal (no more than six harmonics at the maximum frequency up to 20 kHz), and the high cost of the necessary equipment .

In order to obtain a calibrated signal with a small calibration error in a fairly wide range of frequencies and quantities according to the proposed method, the limitation level of the sinusoidal signal is set by the zero value of the signal of one of the harmonics at the output of the limiter, and the nonlinear distortion factor of the received signal is determined by limited sine, 2

an ideal signal for the cut-off angles at which the given harmonic is ush, and turns to zero.

The proposed method is carried out as follows.

A sinusoidal signal is fed to a one-way limiter with an adjustable cut-off angle of the limiter, the response of the selected harmonic is zero, and thus a signal is received with a calibrated value of the nonlinear distortion coefficient.

The expression for a cosine truncated on one side can be represented as a function

15

Ecoswt

2 2g.

f (f) lFcos0 when

2t.

20

loss of f-b-,

)

where in - the cut-off angle.

In accordance with the Fourier decomposition, this signal can be represented as a sum of harmonics

00

f (f) Co + 2 (n OS nwf + 6 „COS fHof).

Since the signal is symmetrical with respect to, the coefficients b „0, and the coefficient a – n is determined by the expression

2

a „- Г f (f) cos nwfdt. t

2

The non-linear distortion factor of such a signal is determined by the expression

TO.

and,

For the signal in question

 . fsln (n + 1) 9 sin (and - 1) e

1 n + 1 n - 1 2 sin l to cos 8 1

where n is the harmonic number.

A characteristic feature of the coefficient un is that for changing the cut-off angle to, an passes through a value of zero, which can serve to determine 8 with a high degree of accuracy. The value in determines unambiguously the spectrum of the signal and the nonlinear distortion factor associated with it.

5 Due to the fact that the calibration method is absolute and the instrumental errors in indicating zero can be quite small, the method makes it possible to drastically increase the accuracy of testing in a wide frequency range.

Subject invention

A method of generating a signal calibrated by a nonlinear distortion coefficient based on a limiting sinusoidal signal, characterized in that, in order to reduce calibration errors, the level of limiting the sinusoidal signal is set by the zero signal of one of the harmonics at the limiter output, and the nonlinear distortion factor obtained The signal is determined from the decomposition coefficients in the Fourier series 5 of a limited sinusoidal signal for cut-off angles at which the given harmonic the exception is matched to zero.