SU855517A2 - Device for measuring electric power factor - Google Patents

Description

one

 This invention relates to a control and measuring technique and is intended for use in measurements of power factor in electrical networks, autonomous inverters, and systems for electric ac drives.

According to the main auth. No. 646265, a device for measuring the electric power ratio, comprising a voltage regulator, the outputs of which are connected to the terminals of the load resistor directly and via a thyristor switch, the control electrode of which is connected to the pulse shaper, the terminals of the load resistor are connected to the input of the recording unit through the amplitude detector Sh. However, the dynamic measuring range of the known device is limited.

The purpose of the invention is to expand the dynamic range of the measurement.

This goal is achieved by the fact that in a device for measuring the electrical power coefficient, containing a voltage regulator consisting of successively connected peak transformer, trigger, first harmonic filter and amplifier, the first output of which is connected to one of the load resistor and the input of the amplitude detector, its second output is connected to the anode of the thyristor, the cathode of which is connected to another output of the load resistor and through the second input of the amplitude detector with

10; the registration unit, the control input of the thyristor is connected to the driver: pulses, consisting of a peak, a transformer and a single-oscillator, are additionally introduced electromagnetic

15 relays, a threshold device, a phase meter, whose inputs are connected to current and voltage input buses, an output is connected through a threshold device with an electromagnetic coil

20 relays, the switching contacts of which are connected between the input of the voltage regulator and the pulse shaper and the input current and voltage buses.

25

FIG. 1 is a functional diagram of an apparatus for measuring an electrical power factor; in fig. 2a is a time diagram of a voltage across an n-load resistor for the case of an inductive response of a circuit when the phase difference between the voltage and the CURRENT in FIG. 26 is a timing diagram for the case of a capacitive reaction with a phase difference of the ZSR.

The device contains a voltage regulator consisting of series-connected peak transformer 2 and trigger 3, first harmonic filter 4 and amplifier 5, load resistor 7 thyristor 6, pulse generator 8, containing pictransformer 9 and single vibrator 10, amplitude detector 11, block 12 registration, phase meter 13, threshold device 14, electromagnetic relay 15. The first output of the stabilizer is connected to the load resistor 7 and the amplitude detector 11, the second output of the stabilizer 1 is connected through the thyristor 6 to another you water load resistor 7 and the input of the amplitude detector 11, the output of which is connected to the block 12 registration-. The control input of the thyristor 6 is connected to the output of the driver 8 pulses. The inputs of the phase meter 13 are connected to the input current and voltage buses, and its outputs through the threshold device 14 with the coil of the relay 15, its switching contacts are connected between the inputs of the stabilizer 1 and the driver 8 and the input current and voltage buses.

The device works in a dim way.

For a phase difference varying from 0 ° - + 90 ° between the input current and voltage, which corresponds to the inductive reaction of the circuit, the output voltage of the phase meter 13 does not trigger the threshold device 14 and the electromagnetic relay 15, and the input voltage U through the contacts p relay 15 is fed to the input of the stabilizer 1, and current is fed to the input of the imager 8. In this case, the amplitude detector 11 detects a voltage level of 0.866, which exactly corresponds to the electrical power factor for the given case (fig.2a).

in the case of a change in the response of the circuit from inductive to capacitive, which corresponds to a change in the phase angle between voltage and current from 0 ° to 90, the output voltage of phase meter 13 causes switching of threshold device 14, which turns on relay 15 and its contacts place points connecting the stabilizer 1 and the driver 8. The amplitude detector 11 records the voltage level corresponding to the actual electric power factor of 0.866, and the time diagram corresponds to the one shown in FIG. 26

5 The use of the present invention allows to measure the electric power factor regardless of the nature of the circuit's reaction and use it as a sensor in the system of continuous monitoring or power factor control in cases where the power plant can operate in consumer mode and in generator mode.

Claims (1)

1. USSR author's certificate No. 646265, cl. G 01 R 21/00, G 01 R 25/00, 09.11.77. eleven para.2a (