SU1425561A1 - Method of measuring resistance of insulation and capacitance of three-phase mains with isolated meutral relative to earth - Google Patents

Abstract

The invention can be used to control insulation in three-phase networks with insulated neutral. The method for determining the active resistance of the insulation and capacitance relative to the earth is as follows: one of the phases of the monitored network is closed to earth, after opening, the flow time of the associated network charge is measured, the operations are repeated when one of the additional conduction is connected to one of the network phases, and using the results of two measurements, calculate the insulation resistance and network capacity using the formulas given in the description of the invention. The method has a higher measurement accuracy. 1 silt "" (L

Description

The invention relates to electric power industry, in particular, to insulation control in three-phase networks with insulated neutral, and can be used in measurement technology.

The purpose of the invention is to improve the measurement accuracy of the active insulation resistance and capacitance relative to the earth in three-phase networks with insulated neutral.

The method consists in closing one of the phases of the monitored network to the ground, after its opening the flow time of the associated charging network is measured, then the indicated operations are repeated when a known additional conductivity is connected to one of the network phases and calculate the insulation resistance and network capacity by the formulas

R

(one)

(- where RJ. and Cj- - (2)

respectively, the active resistance iso-

I - f ITT - respectively, the flow time of the associated

: charge at normal

: network mode and with the addition of additional conductivity;

g - the value of additional conductivity. The essence of the invention lies in the fact that in the cycle a short circuit - opening of one phase to the earth in multiphase networks with isolated neutral occurring associated charges in the network relative to the earth stbkayut to the earth with a constant time determined by the active insulation resistance and capacity network relative to the earth. To determine the two unknowns, the measurement of the constant time of the charge glasses in the network is carried out in two modes in normal mode and with artificially created increased active conductivity relative to the earth,

The drawing shows a block diagram of a device for implementing the proposed method.

The device contains a disconnector 1 connected to one pin with it

Q

about

five

five

0

0

five

five

0

the trail 2 of the controlled network, and the other output through the voltage divider 3 directly and through the series-connected disconnector 4 and the additional conductivity 5 to the ground. The output of the divider 3 voltage is connected to the input of the meter 6 constant time. One of the network phases is connected via fuse 7 to the first output of switch 8, the second input of which is connected to ground via the tox-limiting resistor 9, and the input of switch 8 is connected to the output of control unit 10 connected to power supply unit 11. The block diagram also shows the equivalent circuit of the monitored network 12 with active resistances and capacitance in each phase relative to the earth.

The device works as follows.

To measure the time constant, it is necessary to create additional charges on the ground network. This task is executed by the switch 8.

Immediately after the closure of one phase to earth through the switch 8, the voltage on the other two phases is tested ;; melting jump. The magnitude of the resulting voltage jump depends on the phase angle of the ground fault. After each opening, associated charges appear, which leads to the acquisition of all phases of the network of the same additional voltage with respect to ground and and (neutral displacement) superimposed on the source voltage. The bound charges immediately after opening begin to flow through the total resistance of the insulation of the network to the ground,

 The measurement in control unit 10 establishes for measurement the limited phase angle of closure of switch 8, which allows the voltage to be applied to isolate the network. The switch opens when the switched current passes over zero current in a transient mode.

Measurements are made as follows. To the neutral 2 of the network 12 is connected via a disconnector 1 divider 3, which is connected to ground in one step. After supplying the control pulse from the control unit 10, the switch 8 closes and opens one of the

phase to earth through the fuse 7 and the current limiting resistor 9.

The current limiting resistor 9 limits the shock current flowing through the switch 8 in the event of a short circuit, and the fuse 7 protects the switch.

When the switch 8 is opened, the associated charges flow down from a certain time constant f, which is related to the network isolation parameters by the relation

1, Cj.-Rj. , (3)

where is the total network capacity

respectfully Zempi

Rj; - the value of the total insulation resistance relative to Zempi.

In the case of the connection of disconnector 4 to the neutral network, the additional conductivity 5 is constant time. determined by the ratio

(four)

Where

gj. - 8d

Kg

- total conductivity of network isolation,

-the value of the additional conductivity 5.

From relations (1) and (4), the required parameters are determined using the following formulas:

R () ()

I SA S

(five)

Claims (1)

Formula The method of determining the insulation resistance and capacitance relative to the earth of a three-phase network with an insulated neutral, consisting in measuring the characteristics of the network in the absence of additional conductivity to the earth, and then in the presence of additional conductivity on any one, in the subsequent calculation of the active resistance of the insulation and network capacity crying By the fact that, in order to improve accuracy, before each measurement, one of the network phases is closed and opened to earth, and after spreading, the flow time of the connected network charge is not the ground, the active resistance value Rj. insulation and capacitance C, the networks are determined by the formulas WITH BUT g 30 R: and T, 35 8A - respectively, the drainage time of the associated row under normal network conditions and with the introduction of additional conductivity - the value of additional conductivity. J. Jl VIIIPI Order 4762/41 Circulation 772 Random polygons pr-tie, Uzhgorod, st. Project, 4 eleven Ut ij ± tI t J Subscription