SU1147998A1 - Electric network voltage deviation from sine form meter - Google Patents

Abstract

MEASURING THE VESSEL OF VOLTAGE ELECTRIC NETWORK, containing active band and re-. detector filters whose inputs are connected, an effective value detector, whose input is connected to the output of a notch filter, an average detector, whose input is connected to the output of a bandpass filter, characterized in that, in order to increase the measurement accuracy, an instrument transformer and an analog multiplier, while the primary winding of the measuring transformer is connected to the terminals for connecting the network under study, and the secondary winding to the inputs of a nor Los and notch filter s, a non-inverting input of the operational amplifier is connected to the output of the detector efficiency values and output - 5 to one input of multiplying analog-b bodies, the other input of which is connected with the output CAG average detector, F and an output connected to the input of the operational amplifier invertiruyuvdemu.

Description

The invention relates to electrical measuring equipment and can be used in various devices and systems for determining electrical energy quality indicators. A non-sinusoidal analyzer of an AN electrical network, which contains a measuring transformer connected in series, a notch filter tuned to a first harmonic frequency, an effective detector, is known. values of 1J. The test voltage is applied to the measuring transformer, and the voltage required for normal operation of the following analyzer assemblies is removed from the secondary winding of the transformer. The voltage of the first harmonic of the signal under investigation is suppressed by a notch filter, and the voltage of the higher harmonics is converted by a detector of effective values into a constant voltage proportional to the effective value of the voltage of the higher harmonics. However, in a known analyzer, the detector filter is implemented using a passive LC circuit. The inductance of the circuit has large dimensions, mass, and low Q-factors, which leads to an insufficient level of suppression of the first harmonic, increased material consumption, low weight and size characteristics. In addition, the well-known analyzer does not perform the rationalization of the voltage of higher harmonics relative to the voltage of the first harmonic, which causes a low accuracy of the analyzer with a varying voltage of the first harmonic. The closest in technical terms to the proposed meter is a device for measuring nonlinear distortion, the main elements of which are a wide-band amplifier with an adjustable transmission coefficient, active band-pass and notch filters, effective and average detectors, a comparison unit, a large-scale amplifier, a source of the reference voltage 2. The voltage under study is fed to the input of a broadband amplifier and then to the connected inputs of an active band pass and notch filter H The averaging of the higher harmonics at the output of the notch filter is measured by the effective value detector, and the voltage of the first harmonic at the output of the bandpass filter is measured by the average detector. The normalization of the voltage of higher harmonics with respect to the voltage of the first harmonic is carried out by adjusting the gain of the broadband amplifier. The voltage controlling the gain of the broadband amplifier is formed at the output of the comparator unit as a result of the comparison of the voltage of the first harmonic with the reference voltage. The output voltage of the comparison unit is adjusted to the level necessary for adjusting the gain of the wideband amplifier using a scale amplifier. The disadvantage of such a nonlinear distortion meter is the low dynamic accuracy due to two reasons. The normalization of the voltage of higher harmonics with respect to the magnitude of the first harmonic is performed using an amplifier connected to the feedback circuit, and is not the result of direct calculation. With sharply variable first harmonic values, it is necessary to normalize the phase-frequency characteristics of the elements of the feedback circuit — the average detector, a comparison circuit, a large-scale amplifier, a control input of the wide-band amplifier to obtain accurate measurements. For a wideband amplifier, it is difficult to achieve equal transmission coefficient in a wide frequency band, especially with different transmission ratios, and the transmission coefficient must be equal in the frequency band from the first to the highest harmonic of the signal under study. Moreover, a nonlinear distortion meter is not provided for for electrical connection. The aim of the invention is to increase the measurement accuracy. The goal is achieved by | that the non-sinusoidal voltage meter of the electrical network, containing active linear and notch filters, whose inputs

Claims (1)

ELECTRICAL NETWORK VOLTAGE TEST MEASURING METER, containing active strip and re-. filter filters, the inputs of which are connected, an effective value detector, the input of which is connected to the output of the notch filter, a mean value detector, the input of which is connected to the output of the bandpass filter, characterized in that, in order to increase the measurement accuracy, a measuring transformer is introduced into it , an operational amplifier and an analog multiplier, while the primary winding of the measuring transformer is connected to the terminals for connecting the studied network, and the secondary to the inputs of the line and notch filters, not inverting input of the operational amplifier is connected to the output detector _w pa effective values, and the output of - 5 to one input of the multiplier analog | of Tell, the other input of which is connected with the output № average detector, | £ and an output connected to the inverting | input operational amplifier. - 1,147,998 A 1,147,998