DE190087C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 190087 .- "CLASS 21 GROUP e.

SIEMENS & HALSKE AKT-GES. in Berlin.

Arrangement for the calibration of alternating current measuring devices.

Patented in the German Empire on February 24, 1906.

AC current measuring devices, in particular counters, current and power pointers, are so far when using a constant operating voltage in such a way that calibrated to achieve of the various currents * the instruments to be calibrated Ohmic resistances are switched, which consume the excess voltage. This type of calibration is disadvantageous in that

ίο the necessary resistances as they are for sometimes very high currents are to be measured, are large and accordingly expensive, as well as the fact that the calibration requires a large amount of energy.

The present invention is intended to remedy these inconveniences. The same thing consists in that the available operating voltage by means of a controllable transformer to the amount required to set the required amperage is converted. The controllable transformer is expediently in the manner of a Autotransformer, so designed with only one winding. This will turn into a larger one Number of sections divided and at the dividing points to a corresponding Number of contacts connected, over which a grinding crank can be set arbitrarily can be. In order not to get too many parts, it is advantageous to use a to undertake a double subdivision, namely by placing a number proportionately large partial windings and one of them in turn into small subsections, each of which can consist of just a single turn.

For precise regulation of the calibration current, it is also advantageous to have a sliding contact in the calibration circuit Ohmic resistance, which corresponds to the low partial voltage of one or several Windings can be kept very small to insert. This can make a special one To enable safe adjustment, placed parallel to one turn of the transformer because in this way there are relatively large displacements in the middle of the resistance must undertake to change the voltage of the calibration circuit noticeably, and therefore the latter with the greatest reliability can adjust.

If the calibration currents are very large or very small, the instruments to be calibrated are switched advantageously not directly into the secondary circuit of the transformer a, but connects the latter with the calibration circuit through a current trans-. formator of suitable gear ratio.

In the accompanying drawing, two circuits corresponding to the invention are shown as Exemplary embodiments shown.

In Fig. Ι A and B denote the two branches of the AC line used for calibration, between which there is a constant voltage. C is the primary, D is the secondary winding of the adjustable transformer, by means of which the voltage is increased or decreased to the desired amount. The secondary winding D is initially in five parts and the first of the same in turn in five parts

(2nd edition, issued on March 20th

disassembled. The desired current is carried by the grinding cranks E and F. For the exact balancing is used to Ohmsehe grinding resistance G. The instrument is to be calibrated with H, which serves to compare normal instrument denoted /. In Fig. 2 the transformer is wound in economy circuit. The subdivision is carried out in the same way as in Fig. I.

ίο However, the winding is not wound continuously, but rather interrupted between the first, finely divided section and the second section. The beginning of the latter is connected to a sliding contact and this is movably arranged on the ohmic resistor K , which lies parallel to the last lower part of the first winding section and, thanks to this arrangement, as indicated above, enables a particularly fine adjustment of the calibration current.

The calibration circuit with the two instruments H and / is connected in Fig. 2 through the current transformer L to the secondary circuit of the controllable transformer. The current transformer is set up so that its primary and secondary windings can be interchanged. This gives the advantage that both very high and very low currents can be brought to a level suitable for convenient setting of the controllable transformer.

Claims (4)

Patent Claims: 1. Circuit for the calibration of alternating current measuring devices using a constant operating voltage, characterized in that the secondary winding is used to generate a voltage gradient adjustable between the network and the calibration circuit Transformer into larger sections and one of the same in turn into smaller sections is divided. . 2. Embodiment according to claim 1, characterized in that the transformer is wrapped in economy circuit. 3. Embodiment according to claim 1, characterized in that an ohmic shear Resistance to a partial winding of the fine subdivision of the transformer is connected in parallel. 4. Embodiment according to claim 1, characterized in that the calibration circuit is connected to the secondary circuit of the controllable transformer by another transformer, whose primary and secondary windings are interchangeable. 1 sheet of drawings.