SU884022A1 - Device for determining phase of minimum voltage - Google Patents

Description

(54) DEVICE TO DETERMINE THE PHASE WITH THE LEAST VOLTAGE

I

The invention relates to the field of electrical measuring equipment and can be used to determine a phase with increased insulation conductance in three-phase networks with iso-neutral.

A device is known for controlling the symmetry of a three-phase voltage of a power source of a controlled electric drive, comprising voltage transformers with rectifiers connected to the inputs of diode logic blocks AND and OR, the outputs of which are connected to a comparison unit connected to the reacting organ i.

However, this device, selecting the minimum of the three voltages, does not indicate the phase with the lowest voltage.

A device for determining a faulty phase is known, comprising a zero-sequence voltage filter and three threshold elements responsive to an increase in voltage, the threshold elements being connected to the phases of the monitored network and through a zero-sequence voltage filter to an artificial zero point (2).

However, the device works reliably with significant zero voltage.

sequences defining the deadband of the device.

The purpose of the invention is to increase the sensitivity by eliminating the dead zone of the device.

The goal is achieved by introducing an electronic key, a load resistor, a power source with a key, and three integrating circuits with two groups of keys, two in each phase, to determine the phase with the nanometer-scale voltage, which contains three threshold elements. the element is made in the form of two electrical circuits, the first of which consists of a series-connected resistive voltage divider, a dynistor, and an output photodiff of a resistor optocoupler, and the second circuit consists nz in series with The single output of the photothyristor opto-diode, the LED, the input of the phototiristor optocoupler and the current-limiting resistor, the LED anode is connected to the midpoint of the divider,

20, the differential optocoupler input is connected between the power source and the collector of the electronic switch transistor, the input of which is connected to the common point of limiting resistors and the load resistor, the inputs of the integrating circuits are connected to the phase voltages through the first group of switches, and the second through the outputs of photoresistive optocouplers a group of keys with a common bus device, the outputs of the phototransistor optocouplers are combined and connected via a key with a power source, and the capacitors of the integrating circuits, the resistor he shoulder divider and the second ends of the load resistor, connected to a common bus device.

The drawing is a schematic diagram of the device.

The device for determining the phase with the lowest voltage contains a power source 1, two groups of switches 2 and 3, integrating circuits comprising a resistor 4 and a capacitor 5, a resistor 6 and a capacitor 7; a resistor 8 and a capacitor 9, an electronic switch 10, a bias source II, a load resistor 12, and each of the threshold elements is made in the form of two electrical circuits, the first of which consists of series-connected resistive voltage dividers containing resistors 13-18, dynstors 19 -21. and outputs 22-24, a differential photoresistive optocoupler connected to the output of an integrating chain, and the second electrical circuit consists of serially connected outputs 25-27 of a photothyristor optocoupler, LEDs 28-30, inputs 31-33 of a photothyristor optocoupler and limiting resistors 34-36, connected with a load resistor and through an additional resistor 37 with an electronic switch input, with the anode of the LEDs connected to the midpoint of resistive voltage dividers, the collector of the electronic switch transistor is connected Erez differential input 38 of the optocoupler to a power source and input through the first integrating chains key group 2 are connected to phase voltages U (,, IJj, Uc., and the keys of the second group 3 are connected in parallel the capacitors integrating chains.

The device works as follows.

Phase voltages Uo., Uj, U through a group of keys 2 are connected to the input of integrating circuits.

On capacitors 5, 7, and 9, a voltage build-up process occurs, the rate of increase of which is proportional to the levels of the compared voltages UQ., Us, Ue. For example, when the dynistor 19 first strikes, which will cause an increase in the current through the resistors 13, 14. At the same time, the transistor of the electronic switch 10 is exposed to a negative bias voltage, the current flows through the input 38 of the optocoupler, which causes a low ohmic resistance of its outputs 22-24.i

An increase in the voltage across the resistor 14 will trigger the LED 28, fixing the phase with the highest voltage, and also the input 31 of the photo thyristor optocoupler turns on, which leads to the output 25 of the optocoupler being turned on, resulting in self-blocking of the proposed electrical circuit. On the resistor 12, a positive potential appears, insufficient to close the transistor of the switch 10. Next, based on the given condition, a phase C circuit is triggered, which increases

the voltage drop across resistor 12, which becomes sufficient to close the transistor and, therefore, the optocoupler outputs 22-24 turn off.

Thus, the LEDs 28 and 29 are hot, while the unlit LED 30 indicates the phase with the lowest voltage.

Preparation of the circuit for the following measurements is performed by disconnecting the key group 2 and shortly turning on the key group 3.

Thus, the reduction of the dead zone threshold is achieved by an accurate comparative analysis of the amplitudes of the phase voltages.

Claims (1)

Invention Formula A device for determining the phase with the name voltage, containing three threshold elements, characterized in that, in order to increase the sensitivity, an electronic key, a load resistor, a power source with a key and three integrating circuits with two groups of switches, two in each phase, and each threshold element is designed as two electrical circuits, the first of which consists of a series-connected resistive voltage divider, a dynistor and an output of a differential photoresistor optocoupler, and the second circuit consists of series-connected photothyristor optocoupler output, LED, phototiristor optroia input and current limiting the resistor, the anode of the LED is connected to the midpoint of the divider, the differential optoinance input is connected between the source power and the collector of the electronic switch transistor, the input of which is connected to the common point of the limiting resistors and the load resistor, and the inputs of the converting circuits are connected and their outputs with the outputs of the photoresistor optocouplers and through the second group of keys with the common bus of the device, the outputs of the photo thyristor opto-switches are combined and connected via a switch with and the source capacitor, and the capacitors of the integrating circuits, the resistor of the lower arm of the divider and load