DE1001759B - Method for measuring or checking an electrical resistance - Google Patents

Description

Method for measuring or checking an electrical resistance The invention relates to a method for measuring or controlling an unknown electrical resistance, one end point of which is at an inaccessible, an unknown, point exhibiting constant potential during the measurement or control connected and whose other end point is accessible.

With the usual measuring bridge method for resistance measurement provided that the resistance to be measured is de-energized and at its end points is accessible. With special measures, resistances can also be measured, at which an end point is at a certain potential, provided that that this point is immediately accessible or its potential is known.

But it can also happen that only one end point of the Resistance is free and accessible, while the other endpoint at one is not accessible and an unknown potential having point is connected. The lines for telecommunications are in such a state, for example, which usually with their inaccessible connection via resistors or relays are connected to a local direct current source.

The invention enables the measurement in such a state on the only condition that the unknown potential during the whole Time required for measurement remains unchanged.

After the current and voltage course in every possible measuring circuit in total by the values of the unknown resistance and the connected, also unknown potential is determined, the unknown resistance cannot be determined by a single measurement.

Two independent measurements must therefore be carried out. According to the invention are successively with the resistance to be measured and with known resistances two potentiometer circuits formed and that at a certain point the first Circuit existing potential stored and then with that at a certain Point of the second circuit compared existing potential. Through this comparison between the two measurements the undesired unknown can finally be eliminated and the unknown unknown can be determined.

Fig. 1 illustrates an embodiment of a circuit for exercising of the method according to the invention. An endpoint of the unknown resistance X is connected to a point P which has an unknown potential Vp. The point Q should be at a potential Vq, the value of which is not be to be known needs because it suffices that Vq is different from Vp.

The sensitivity of the bridge arrangement is apparently the potential difference between Vp and Vq proportionally, the value of which remains constant during the test target. In order to achieve good sensitivity, it is also necessary that the Resistances A and B of the comparison branches are considerably larger than are the unknown resistance.

The measurement takes place at two different times. The condenser C is first associated with the point S1 and on the corresponding Potential charged, which on the basis of the conditions set out (i.e. A and B very large compared to X) almost exclusively due to the potentials Vp and Vq and is determined by the resistors A and B. By opening in turn, the Keys T1 and T2 and closing the keys T8 and T4, the capacitor C stored potential via a ballistic galvanometer G (or an equivalent Measuring device) with the potential at point S2, the latter in turn except for the potentials Vp and Vq by the resistors R and X is determined.

This process must be repeated for as long with the respective setting of the resistor R until the galvanometer no longer deflects. In this Conditions If the points S1 and S2 have the same potential, the following equation applies: X X + B, it follows: X = B.

R A A-R In Fig. 2 is a deviation from the previous one Arrangement shown. The bridge again consists of the same elements R, A, B, C, G, T1, T2, T3, T4. The resistance to be measured is in turn denoted by X, which is connected to the point P, which has the potential Vp. That Potential Yq at point Q can again be arbitrary, but must be used during the measurement stay constant.

If there is equipotentiality between points S1 and S2, the following applies: X X + B, it follows: X = R B.

R R + A In Fig. 3 is a third embodiment of the arrangement shown, in which the comparison branches consist of two capacitors CA and CB. If the buttons T1 and T2 are pressed at the same time, the between the points P and Q existing potential difference Vp-Vq initially on the capacitors CA and CB divided proportionally according to the Klehr values of the capacities. By Actuation, one after the other, of the keys T3, T4, T5 and setting the reference resistance R, until the galvanometer G no longer shows a deflection, one obtains: X CA, it follows: X = R CA.

R CB CB All the arrangements described are particularly suitable for Check whether the resistance is more definite Eiektrischer circuits has a setpoint or deviates from this value. You can use for systematic measurements of a group used by electrical circuits that are the same as one another.

Here, the measuring instrument can be replaced by a sensitive relay which, if the measured resistance value deviates from the nominal value in causes a suitable signaling in a known manner.

Claims (2)

PATENT CLAIMS: 1. Method for measuring or controlling an unknown electrical resistance, one end point of which is at an inaccessible, an unknown, point exhibiting constant potential during the measurement or control connected and whose other end point is accessible, characterized in that that with the resistance to be measured and with known resistances one after the other two potentiometer circuits are formed, and that at some point the first circuit existing potential stored and then with the on one specific point of the second circuit existing potential is compared. 2. The method according to claim 1, characterized in; that the potential stored in the first of the two potentiometer circuits by means of a capacitor will. Documents considered: German Patent No. 880 026.