DE1298181B - Circuit for determining the loop resistance of a low-voltage network - Google Patents

Description

The invention relates to a circuit for determining the loop resistance between two connection points of a low-voltage network, based on the measurement the drop in the mains voltage, which put a load resistor that can be connected to the connection generated, with a switch to temporarily switch on the load resistor, with one to be connected between the connection points, with an adjustable one A voltage divider with a tap and a voltage meter connected to it.

The known measuring methods for the determination of the network loop resistance is a circuit according to FIG. 1 is based.

A load or test resistor Rp is then switched on briefly by means of a single-pole push button S as an additional load of the low-voltage network, and the voltages are measured before and during the connection of the test resistor. The network loop resistance you are looking for results from the voltage difference from the equation with the help of conversion factors, tables and nomograms. In equation (1), U is the mains voltage and U2 is the voltage at the switched-on test resistor.

The voltage difference can only be used for further calculation if if the measurement period is so short that the short-term ones that exist in practice Changes in the mains voltage do not significantly affect the measurement result.

The disadvantage of various known measuring arrangements lies in the complicated and time-consuming implementation of the measurement and the need to determine the network loop resistance from the measured values by means of further aids.

As a result of the longer duration of the measurement, the can in the meantime Occurring changes in the mains voltage to determine the error of the mains loop resistance to lead. The purpose of the invention is in determining the network loop resistances of low voltage lines, e.g. B. as a basis for dimensioning fuses to comply with the first zeroing condition when applying the protective measure »zeroing«, the dependence of the results on short-term voltage fluctuations off and at the same time to simplify the implementation of the measurement.

The invention is based on the object of developing a circuit the influence of short-term fluctuations in the mains voltage on the measurement result makes ineffective, allows easy handling and a direct reading of the network resistance permitted. This task is based on the circuit described in more detail at the beginning - According to the invention by the in the characterizing part of the claim in detail specified features solved.

A network connection point will usually be the network neutral. The setting range of the voltage divider should cover the range between 95 and 1000 / o.

The resistance of the voltage divider is to be chosen so that a Falsification of the measurement the meter does not enter. About the accuracy To increase the setting, the voltage divider is expediently connected in series of a potentiometer with a fixed resistor, the fixed resistor is about 950/0 of the total resistance.

By turning on a switch S with two switching paths s, and s2 (see Fig. 2) is activated simultaneously with the connection of the test resistor R, the voltage divider resistance between the voltage divider tap and the one network connection put short-circuited and thus the voltage measuring instrument V directly between both connection points switched. After switching off the switch, the Voltage divider that measured while the load resistor was switched on Voltage regulated.

After briefly turning on the switch S again, the Voltage divider readjusted until the test resistor is switched on or off there is no voltage change on the voltage instrument.

According to Fig. 2, in which a potentiometer RA in series with a fixed resistor RB is, according to the voltage divider rule U ~ R, + R, (2) U2 R2 (2) R, and R2 represent those formed by the adjustable tap of RA and RB Partial resistances.

Replacing U / U2 in equation (1) gives The determination of the mains loop resistance is therefore independent of the mains voltage and, with an exact setting of the voltage divider, only depends on the resistor R2, which lies between the one conductor and the voltage divider tap. Thus, with a known test resistor R, this can be calibrated directly in ohms for the network loop resistance RN.

The effects of the invention are in addition to eliminating the influence the fluctuations in the mains voltage when reading the mains loop resistance values directly without the aid of tables and nomograms, the avoidance of compensation circuits necessary battery, the simple structure and the uncomplicated handling of the Device.

In Fig. 3 have been omitted, which are not influenced by the invention Circuit parts as an exemplary embodiment resistance values for the potentiometer RA, the fixed resistance RB and the test resistance are entered. When the switch is turned on S and thus switching on the test resistor is z. B. a voltage of 210 V measured.

After switching off the switch, the 50-8 potentiometer the voltage of 210V is also regulated. Has the potentiometer been adjusted precisely, there is no change in voltage when the test resistor is switched on, otherwise the potentiometer setting must be corrected.

By varying the value of the test resistor, the network loop resistances can be covered within wide limits.

Claims (1)

Claim: Circuit for determining the loop resistance between two connection points of a low-voltage network, based on the measurement the drop in the mains voltage, which is a load resistor that can be connected to the connection points generated, with a switch to temporarily switch on the load resistor, with one to be connected between the connection points, with an adjustable one Voltage divider provided with a tap and a with connected voltmeter, d a d u r c h characterized that the voltmeter (V) the one (R2) through the tap formed parts (RX, R2) of the voltage divider (RA, Rß) bridged, while the other part (R1) of the voltage divider is connected to the switch (S, s) Auxiliary switching path (s2) coupled in this way for the load resistance (RP) can be bridged is that when the load resistor (R,) is switched on, the other part (R1) of the voltage divider is shorted.