SU1670640A1 - Power factor meter testing technique - Google Patents

Abstract

The invention relates to electrical measuring equipment and can be used to build high-performance means of calibrating the most accurate power factor meters. The purpose of the invention is to increase the speed and accuracy of calibration of power factor meters by ensuring that the device implementing this method is set to equal values of signals proportional to current and voltage, the sum of squares of equalized signals is measured, and the power factor is determined by the ratio of the active signals powers and sums of equalized signals. The device contains a phase regulator 1, a voltage source 2, a device under test 3, a voltage scale converter 4 with a smooth control of the transfer coefficient, a current source 5, a scale current converter 6, a module equality indicator 7, a scalar production converter 8, a sum converter 9 module squares and voltage ratio meter 1 1 slug.

Description

The invention relates to the field of electrical engineering and can be used to build high-performance means of verification of the most accurate meters of power factor (And KM).

The aim of the invention is to increase the speed and accuracy of calibration of power factor meters.

The drawing shows a structural diagram of a device that implements the method.

The device contains a phase regulator 1, the outputs of which are connected to a voltage source 2, the output of which is connected to the voltage circuit of the device under verification (PCM) 3 and a scaled voltage converter 4 with stepless adjustment of the transmission coefficient and a current source 5, in the circuit of which the current circuit of the device to be verified is connected PCM 3 and scale converter 6 current. An indicator 7 of equality of modules is connected to the outputs of a scaled voltage converter 4 and a scaled current converter 6, as well as a scalar product converter 8 and a sum of squares converter 9, the outputs of which are connected to a voltage ratio meter 10.

The voltage of the instrument under test U and currentT are converted with the help of large-scale 30 converters of voltage 4 and current 6 into homogeneous signals of alternating voltage and _and and ϋι.

With this, the output DC voltage of the converter 8 of the scalar product 35 is equal to X 1 = KI-UuUicos φ. and ¹ converter 9 is the sum of the squares of the modules X2 = K2'1 / 2- (Uh ² + Ui ² ).

In accordance with the method, when testing the PCM, the voltage II and current I are set close to the nominal, and by smoothly adjusting the phase angle, the phase regulator 1 sets the verified reading of the PCM 3. By changing the transmission coefficient of the scaled voltage converter according to the zero reading of the module equality indicator 7, the equation Um ⁼ Ui is obtained.

In this case, the output signal of the voltage ratio meter 10 is 50

N - ^χ 1 _ K1 · Qi - Ui cos φ ^X2 K2 · 0.5 (and £ + U?) '

Since if the signal moduli are equal to and _and and Ui, which is set in accordance with ⁵ methods with this method, 0.5 (Un ² + Ui ² ) = and _and ¹ Ui, then for К1 = К2 the expression for N corresponds to the definition of Кр, N = cos φ, i.e. 10 meter readout relationship stress is produced directly in the zna ^υ cheniyah Kr. Thus, when checking PCM according to this method, the following operations are performed. 1. Set the voltage and current values of the device under verification close to the nominal. 2. Adjust Um ^b until equality of the modules IUJ = lUil is obtained.

3. The sum of the squared moduli of the vectors Um and Ui is determined. 4. The scalar product of the vectors Um and Ui is determined. 5. Determine the ratio of the scalar product ^υ to the sum of the squares of the modules.

Since operations 3,4,5 are made. simultaneously, and for the operation need not be applied 1 thermoelectric accurate measuring ²⁵ zovateli transform voltage and current, even when using the thermoelectric transducers in the reactive power meter measurement time is reduced approximately 50 times.

ABOUT

Claims (1)

Claim The method of verification of power factor meters, which consists in setting the required phase shift between current and voltage and measuring the active power with a reference device, determining the power factor and comparing the obtained value with the readings of the device being tested, which means that, with In order to increase the speed and accuracy of calibration of power factor meters, equal signals are set that are proportional to current and voltage, the sum of the squares of the aligned signals is measured, and the coefficient m power is determined by the ratio of the measured active power and the sum of squares aligned signals.