DE700808C - Procedure for testing or calibrating three-phase current controllers of a single-phase calibration or testing device - Google Patents

Description

.V. Method for testing or calibrating three-phase current measuring devices, in particular of three-phase meters, by means of a single-phase calibration or test device add-on to the Patent 692,485 -In Patent 692,485 is a method of testing or calibrating Three-phase current measuring devices, in particular three-phase current meters, by means of a single-phase calibration or test device, in particular counter, described in which the three-phase device to be tested (Test item) is left in its operational circuit, on the voltage coil of the test or calibration device together with the corresponding vector summation the voltage systems of the test object feeding voltages and the current system of the test device together the currents flowing through the current systems of the test object and the individual Currents and voltages are balanced against each other in such a way that the in the test device resulting current and voltage products that do not occur in the device under test, or the time integral of the same vanish. The disappearance of these current and voltage products or its time integral is monitored by a special relay that is similar how a ~ meter ~ is designed and switched according to the two-watt meter method, but in such a way that the two systems counteract each other.

The vector sum of two phase currents is fed into the tester's power system fed via current transformer in summation circuit.

The invention aims to simplify this method. According to the invention in three-phase current measuring devices for three-phase networks without Xulleiter, especially with three-phase meters, the power system of the test device directly or switched into the phase of the three-phase network indirectly via a converter, which is free from the current coils of the meter to be tested and whose current is known Acts in itself the desired sum of the currents flowing through the test object represents. As in the main patent, the voltage system of the test device is linked to two Voltages connected via a voltage transformer set. The tester's power system lies in the phase to which the voltage transformers of the voltage transformer set are shared are connected.

The invention is based on the circuit diagram shown in the drawing are explained in more detail.

P (Fig. I) is the test specimen with the two drive systems I, 2. Die Current coil II of system I is in phase R, voltage coil I2 is between R and S switched, the current coil 2I of the system 2 is in phase T, the voltage coil 22 is connected between T and S. The test item can of course also be a so-called four-time counter be in symmetrical circuit with three systems. N is the one from the voltage converters I3 and 23 existing converter set. The primary winding 14 of the converter 13 is between R and S, the primary winding 24 of the converter 23 between S and T, the secondary windings I5, 25 are connected to the voltage coil 3I of the test device E in a differential circuit. The current coil 32 of this device is connected to phase S via a current transformer 36, which is known to lead the sum of the currents in the phases R and T. M is a current transformer set for the connection of the auxiliary relay H. The converter I6 is in phase R and is connected to the current coil 27, the converter 26 is in phase T and is on the current coil I7 connected.

The voltage coil 18 of the relay H is between R and S, the voltage coil 28 between I 'and S. W is the preferably adjustable load. The current coil 32 of the test device E is therefore switched into phase S, to which the Converters 13 and 23 are connected.

As the exemplary embodiment shows, this results in a particularly simple and clear circuit for the test device E. In particular there is a symmetrical load for the current transformers I6, 26, 36, which is known to be easier to control with regard to errors.

Another advantage is that the auxiliary device H together with the converter set M and the test device E together with the converter 36 and the voltage converter set N each can be conveniently calibrated for itself.

Instead of the voltage coil 3 I of the tester E in differential circuit is connected to two linked voltages, as Fig. I shows, one can they also, as shown in FIG. 2, by means of a voltage transformer set connected in a star connection Connect K to the star voltage of the same phase S to which the current coil 32 of the test device E is located. Here, too, the DUT P can be controlled by a four-wire counter be replaced. The two circuit diagrams remain unchanged, even if the phases be swapped in the same way for all devices.

Claims (2)

PATENT CLAIMS: 1. Procedure for testing or calibrating three-phase current measuring devices, in particular of three-phase meters, by means of a single-phase calibration or testing device, in particular counter, according to patent 692 485, characterized in that the current coil (32) of the test device (E) is in the phase (S) that is determined by the current coils (11, 21) of the three-wire meter (P) is free. 2. The method according to claim I, characterized in that the voltage coil (3I, Fig. 2) of the test device (E) by means of a star-connected converter (K) the star voltage is connected to the same phase (S) as the current winding (32) of the test device (E).