DE1060042B - Device for measuring the short-circuit resistance of a distribution network - Google Patents

Description

GERMAN

In a distribution network, fuses ensure that in the event of a short circuit the Mains short-circuit currents cannot reach a harmful level. But for this you need knowledge of the size of the short-circuit resistance of the network, namely the resistance that is in a assumed short-circuit case is effective. To determine the short-circuit resistance of the network is it is common practice to load the network through a known resistance and the one entering through the load Measure the reduction in the mains voltage. From the difference in tension that arises when the and unloaded network results, as well as the current flowing through the load resistor, the internal resistance of the network, i.e. the short-circuit resistance can be determined.

One proposed arrangement which measures the voltage difference is based on the fact that a load resistor is switched on and off in rapid succession to the network, so that the through the Load reduced voltage, as well as at the same time during the duration of the disconnection of the resistor the voltage of the unloaded network is measured and the difference between the two voltages is shown.

Both methods are mainly based on the voltage difference to determine the short-circuit resistance between loaded and unloaded network.

Immediately according to the amount and phase, the short-circuit resistance of a network is obtained by means of a device for measuring the short-circuit resistance of a distribution network, in which a network load resistor is used for a brief voltage drop and in which a periodic switch switches the load resistor on and off, which according to the invention characterized in that the switch (S) is operated at a frequency (f ₂ ), preferably half or a third of the mains frequency (Z ₁ ), that a current transformer (JV) is arranged in series with the load resistor (R) , that on Network a series circuit of a variable resistor (HZK ') that simulates the network and a zero indicator (F, G ₁ ) that responds selectively to the frequency (/ ₂ ) is connected and that the converter output has such a current as the resistor (HZK' that simulates the network) ) impresses that by changing it a zero display of the instrument (F, G ₁ ) can be reached.

According to a development of the invention, the current of the auxiliary frequency can come from a generator or caused by a periodic change in the load resistance. Furthermore can the simulation via one of the load current devices for measurement

the short-circuit resistance

of a distribution network

Applicant:
Siemens & Halske Aktiengesellschaft,

Berlin and Munich,
Munich 2, Wittelsbacherplatz 2

Dr.-Ing. Hans Poleck, Karlsruhe,
has been named as the inventor

energized current transformer. The simulation resistance can consist of a reactance, z. B. consist of an inductive resistor and an ohmic resistor, which are separate for themselves are adjustable. But you can also let a continuous current flow through the load resistor and, having previously set the components of the replica resistor, you can go to the Read the simulation of a voltage that is a measure of the voltage drop in the event of a fault.

A circuit diagram serves to explain the invention. This circuit diagram shows a generator f _v which represents the network, the short-circuit resistance of which is to be determined. The short-circuit resistance of the network is indicated by a resistor HZK . In general, this is a complex resistor. A current path containing a current transformer W, a load resistor R and a switch 5 ¹ is formed between two points K ₁ and K _{2 of the network.} The switch 5 * is, for example, an externally controlled switch, and the control frequency with which its control coil is excited is denoted by f _2.

As soon as the switch f 5 "iffl rhythm of the frequency ₂ is switched, there is a f to the control frequency ₂ modulated load current of the mains frequency Z _1, which flows through a load resistor R and the current transformer W. Each time when the current comes off, falls the voltage in the network, and every time the current is interrupted, the full network voltage returns. Now the current transformer W generates a current in its secondary winding, for example of the same strength, which is generated via a resistor HZK ' which simulates the network.

.. ": 909 558/204

Claims (5)

is directed. The simulation resistor consists, for example, of an inductance and an ohmic resistor. It is now possible, by setting these two simulation parts, to ensure that the work of the switch S is not noticeable between the points Ä "3 and K2. This is the case when the secondary current of the converter W in the simulation HZK ' The voltage drop generated is exactly the opposite of the voltage drop of the network short-circuit resistor HZK in size and phase. This state of complete compensation of the voltage drop due to the load test current in the network is indicated by a display device G1. This is between points K3 and K2 and is through an upstream filter / 7 selectively made sensitive for the auxiliary frequency, ie a side frequency, i.e. ft + f2 or Z1 - f2 Carry out switch 51. Then only a current of the network frequency flows through the simulation resistor fv and a voltmeter G2 applied to the replica resistor can then display the voltage drop across this replica resistor. The frequency / 2 is advantageously different from the network frequency in such a way that the frequency f2 is, for example, half or a third of the network frequency. The filter F keeps away from the display device G1 all frequencies which the network supplies. Instead of a switch S, which switches the load current periodically, an auxiliary voltage source can also be provided which generates an auxiliary current of a non-network frequency, or a resistor structure or a choke coil can be provided whose resistance or inductive magnitude is periodically changed. Patent claims: 1. A device for measuring the short-circuit resistance of a distribution network, in which a network load resistor is used for a brief voltage drop and in which a periodic switch switches the load resistor on and off, characterized in that the switch (S) with a frequency (f ₂ ), preferably half or a third of the network frequency (Z ₁ ) actuated that in series with the load resistor (R) a current transformer (W) is arranged that on the network a series circuit of a variable, the network simulating resistor (HZK ') and one on the Frequency (Z ₂ ) selectively responsive zero indicator (F, G ₁ ) is connected and that the converter output impresses such a current on the resistor (HZK ') that simulates the network that a zero display of the instrument (F, G ₁ ) can be achieved by changing it . 2. Measuring device according to claim 1, characterized in that the voltage for the actuation of the switch (5) with non-network frequency (Z ₂ ) generated by a generator (G) or the change in load is caused by a periodic change in the load resistance. 3. Measuring device according to claim 1, characterized in that the variable resistor (HZK ') simulating the network is an impedance and consists of two resistor parts, one for the reactive component and one for the ohmic component. 4. Measuring device according to claim 3, characterized in that the active and reactive components of the network short-circuit current or resistance to be expected can be read at the taps of the parts of the resistor (HZK ') simulating the network. 5. Measuring device according to claim 1 or the following, characterized in that if only a current of the network frequency flows through the resistor (HZK ') simulating the network, the voltage at the correctly set resistor (HZK') as a measure of the expected network short-circuit current or resistance is used. Considered publications:
"Elektrotechnische Zeitschrift", issue B, issue 12, pp. 429 to 431. 1 sheet of drawings © 909 553/204 6.59