DE871187C - Arrangement in the current path of meter checking devices to reduce the warming error - Google Patents

Description

In the case of meter testing devices, the current coils are the ones to be calibrated The meter is connected in series and the calibration current flows through it together. The calibration current is generally taken from the network via the network transformer, a variable resistor and a current transformer removed and by means of the variable resistor on the desired value is set. The current measurement is carried out by a via a Instrument connected to the measuring circuit with a current transformer.

When the calibration is started, the connected ones heat up Counter according to the load current flowing through the current coils, and the Resistance of the current coils increases.

This and the heating of the other transmission and control elements The set calibration current drops in the current path. It now takes a while for each setting of a desired calibration current for a relatively long time until a state of equilibrium is reached has set around the current in the measuring circuit remains constant. Will come with the calibration started beforehand, the current must be readjusted at shorter intervals, however, calibration errors also arise here. The invention now has the purpose of this To avoid current changes during the heating process, so that the calibration required time can be shortened.

According to the invention, in the current path of meter testing devices to reduce the heating error an additional one compared to the sum of the others Resistances of the current path large, load-independent series resistance switched on. The resistance of the current path is now predominantly due to the load-independent Resistance given, and the change in the load-dependent resistances (current coils the counter, current transformer, etc.) is only of little influence on the flowing Current.

In this way, the heating error can be negligibly small hold, and calibration can take place immediately after setting the required calibration current be performed.

The load-dependent additional resistance can be used as an ohmic resistance or, in order to avoid power losses, as inductive or capacitive resistance be trained. It is also possible to check the leakage inductance of the current transformer to use as an additional resistor within the meaning of the invention and this leakage inductance large in relation to the sum of the remaining resistances in the current path.

The drawing shows a circuit example for an arrangement according to the invention. The current coils of the counter Z are connected in series and are the calibration current I flows through it. By means of the ammeter connected via the converter W. A the size of the calibration current can be measured. The calibration current is supplied via the mains transformer Tr taken from the network, adjusted by means of the controllable resistor R1 and fed to the counter circuit via the current transformer Str. In this circuit is the resistance R, the value of which according to the invention is large compared to the sum the counter resistances and those caused by the transformers and control elements load-dependent resistances is measured. Instead of the ohmic resistance R an inductive or capacitive resistor of the appropriate size can be switched on will. The leakage inductance of the current transformer can act as an inductive resistance Str, which is then to be measured accordingly.

The resistance R can also be in the circuit of the primary winding of the current transformer, z. B. lie at the point shown in dashed lines in the drawing. This brings with the advantage that the same resistance when changing the current range R can be retained.

Claims (4)

PATENT CLAIM: I. Arrangement in the current path of meter testing devices to reduce the heating error, characterized by an additional opposite the other resistances in the current path have a large load-independent series resistance. 2. Arrangement according to claim 1, characterized in that the additional Resistance is designed as an ohmic, inductive or capacitive resistance. 3. Arrangement according to claim I and 2, characterized in that the additional resistance formed by the leakage inductance of the current transformer will. 4. Arrangement according to claim I or the following, characterized in that that the load-independent resistance in the primary circuit of the current transformer lies.