DE949581C - Decadically divided resistor arrangements for measuring purposes - Google Patents

Description

Resistance, inductance and capacitance decands often occur In measuring devices, especially after transport etc., doubts about their correctness arise. In order to be able to check their correctness, measuring devices of the same or higher level are required Accuracy that are mostly not at hand.

The circuit described below, on a decadically divided crank resistor explained, but also suitable for inductivities and capacitances, avoids this disadvantage in that according to the invention the resistor taps so are connected to the contacts of a tap changer with a double crank, that one arm of the double crank the resistors from one end and the other Arm turns on the same resistors from the other end and that a switching device to selectively switch on the counter-rotating ones leading over the two crank arms Current paths provided irst.

Fig. I shows the basic arrangement. To this end, each of the eleven resistance taps belonging to a ten-unit decade, 2 times led out. As shown in Fig. I, so that when tapping of x units by one arm of the double crank D of a tap changer through the other arm of the double crank D also x work in, but from the other Beginning at the end of the series of ten, can be tapped. Due to the simultaneous actuation Switching devices S1, S2 can then optionally x healing with each measurement forwards or x units backwards. This already teaches you normal measurement has the advantage of increased measurement. accuracy. With one like that are the comparative measurement carried out; then at least one and at most. five units, exchanged depending on the size of the number of units tapped in this decade. At the same time, by switching to the units that may be used twice reversed the direction of the current. The general reversal of the current, which is sometimes common, can can also be made. The control circuit can also last for several decades can be used at the same time, for which purpose further switching devices S1 ', S2' etc. are to be provided are, as can be seen from the figures sit. The main advantage of such But execution lies in the possibility of setting the double cranks D all Decades to the value 5 without further measuring devices of the same or higher accuracy to be able to exactly check the perfect condition of the decades.

For this purpose, such a resistor arrangement is switched, for example in the manner shown in Fig. 2 with a galvanometer and three cons. stand, the exact size of which is irrelevant, in a bridge circuit. the The only requirement to be made of the resistors is that one only applies to the duration of the time a control measurement during the constancy of your data. All other tolerances can be compensated by regulating a controllable comparison resistance. Since such a regulation should normally be kept within narrow limits, is according to Fig. 2, the comparison resistance in a fixed resistor V and a variable resistor V1 divided, whereby the unit of regulation can be increased.

The control measurement of the correct device condition is now carried out in that after adjustment of the comparison resistance V t V1 in the position 5 of all double cranks D by actuating the switches S1, S2, S1 ', S2' ... the in flawless condition equally large halves of the decade resistances between the Taps o-s and 51 to! S 101 are compared with one another.

Claims (2)

PATENT CLAIMS: I. Decadal split resistor arrangement ohmic, capacitive or inductive type for measuring purposes, characterized in that the resistance taps so connected to the contacts of a tap changer with a double crank (D) are that one arm of the double crank the resistors from one end and the other arm switches on the same resistances from the other end, and that one Switching device (S1, S2) for optionally switching on the via the two crank arms leading opposite current paths is provided. 2. Control circuit for a contradiction arrangement according to claim 1, characterized in that the resistor arrangement in one branch of a Measuring bridge is switched on, in the other branch a controllable comparison variable (V + V1), so that when the switching device (S1, S2) is actuated, the equality the tapped partial resistances can be determined.