SU96261A1 - Device for calibration of nonlinear distortion meters - Google Patents

Description

The main difficulties in calibrating nonlinear distortion meters are: obtaining the required distorted signal with a smoothly changing distortion coefficient and the accuracy of the distortion calibration of this signal. The two main methods (the method of comparison and the method of harmonic analysis of a calibration signal) used for calibration and testing of nonlinear distortion meters) {e allow to obtain a smooth change in the magnitude of the distortion coefficient and do not provide sufficient calibration accuracy.

The proposed device provides the ability to supply to the input of a calibrated device oscillations of complex shape with any given harmonic content. This is achieved by connecting a nonlinear distortion meter of a sinusoidal oscillation oscillator and an additional harmonic oscillator synchronized from it to the input g, which allows voltage variation over a wide range, allowing the ratio between the sinusoidal voltage and the distorted shape to change.

FIG. 1 and 2 are block diagrams of the proposed device in two versions.

The device consists of a sound generator (sinusoidal oscillations, a harmonic generator 2 synchronized from the generator), a separation device 3 with a level control and a thermal device 4 for measuring the actual voltage value. The number 5 denotes the calibrated meter nonlinear distorted.

A pure sinusoidal signal from the sound generator / enters the separation device 5 and the 2 harmonic generator to synchronize their frequency. From the output of the generator 2, the harmonics are fed to the input of the separation device 3, from the output of which, remove the required distorted signal. The components of this signal are measured with reference to 96261.

The power (term 4. In the circuit (Fig. 1) for measuring the voltage of a sinusoidal signal, the harmonic generator 2 is disconnected from the separation device 3; to measure the actual value of the harmonic load from the separation device 3, the generator / sinusoidal signal is disconnected. 2) the thermal instrument 4 measures the voltage of both generators to a separation device in which a voltage divider is provided for one of the two signals. The separation device serves to eliminate the mutual influence of the generator Hur.

The voltage divider, which controls the level of one of the signals, is calibrated as a percentage of the distortion, i.e., the condition of the divider gives a certain value of the harmonic coefficient. In the absence of a divider, the harmonic ratio is defined as the ratio of the instrument readings when measuring the voltage of the harmonics and the voltage of the main signal (Fig. 1). The signal taken from the harmonic generator may have any desired shape with the required ratio of the harmonics of the main signal. Synchronizing the harmonics when the main signal is supplied ensures the stability of the shape of the resulting voltage curve. If only odd harmonics are desirable for calibration, the signal of a distorted shape can have the form of square pulses, if even harmonics are needed, the signal can take the form of sinusoidal pulses; The sawtooth oscillations contain both odd and even harmonics. Synchronization can be carried out as a fundamental frequency, and harmonics. The basic frequency can be eliminated with a filter or bridge. When synchronizing with one of the harmonics, the signal taken from the harmonic generator does not contain the fundamental frequency.

The proposed device allows to obtain any form of a distorted signal, i.e. any combination of harmonics, provides the ability to directly change the distortion, i.e., obtain any value of the harmonic coefficient, allows for the direct reading of the harmonic coefficient with a given accuracy.

Subject invention

A device for calibrating nonlinear distortion meters, differently from the fact that, in order to feed a calibrated complex-mode oscillation meter to the input with any given higher harmonic content, a sonic waveform generator and a harmonic generator of harmonics from it are added to the input of the calibrated meter. Change voltages within wide limits that provide the possibility of changing the ratio between the sinusoidal voltage and the voltage of a distorted form.