DE96974C - - Google Patents

Description

IMPERIAL

4-

PATENT OFFICE

To determine the sensitivity of galvanometers when making comparative measurements In order to be able to vary in a way, one often uses shunt closings, their resistance is a certain fraction of the galvanometer resistance, so that when the various secondary closings, for example only half, a fifth, a tenth and so on. of the current to be measured flows through the galvanometer. With such galvanometers, whose Damping due in part to that produced in their coils as a result of the galvanometer movement Currents is produced, now shows. the disadvantage that the damping for the different sensitivities will be different because of the galvanometer windings soon closed by great, soon by slight external resistance. In particular this is noticeable in such mirror galvanometers, which have a strong Have magnetic fields oscillating moving coil. If you want such galvanometers too for ballistic, in particular for capacity measurements, result from this direct measurement errors because the ballistic sensitivity of the instrument depends on the damping depends and therefore the ballistic sensitivities with different, secondary closings cannot simply be calculated from the resistance ratio.

In order to circumvent this problem, the arrangement described in the accompanying drawing is used chosen.

The turns of the galvanometer G are closed by the resistance AB, which is constant once and for all. The current to be measured enters at B, while it exits from rail C , which can be connected to various branches of the resistor AB using suitable switching devices. In insulation measurements, in which there are always very high resistances in the outer circuit, and in capacitance measurements in which only a charged capacitor is switched on in the outer circuit between B and C , the galvanometer is always through the total resistance with this arrangement AB closed, so the damping of the same completely unchangeable. If we denote the current to be measured with J, the branch current flowing through the galvanometer with Jg, furthermore the total resistance AB with W and connect this resistance between B and C ijn , we get according to known laws:

τ ^{J l}

where g is the resistance of the galvanometer. Since the values of g and W remain constant, the sensitivity of the galvanometer is then changed inversely proportional to η. Such shunts are valid for capacity measurements in the same way as for insulation measurements. A change in the galvanometer resistance changes the sensitivity of the instrument, but in the same proportion for all secondary closures, so that one and the same adjusted secondary socket

is easily valid for different galvanometers of any resistance. This has the further advantage of inserting an adjustable additional resistor in the galvanometer circuit, e.g. B. at Z, to be able to adjust the sensitivity of the galvanometer to a precisely desired size without thereby invalidating the validity of the adjusted secondary closures.

Claims (2)

Patent Claims: ι. Device for achieving constant damping for galvanometers, their damping is influenced by the currents generated in its coils in the motion of the vibrating part by such an arrangement of secondary closings for the purpose of certain changes in sensitivity, that the galvanometer windings are closed by a constant resistance and at branches of certain Fractional part of this resistance the current to be measured is introduced, in order to obtain the same damping and thus also the same ballistic sensitivity for all secondary closings. 2. An embodiment of the arrangement according to claim ι, characterized by the inclusion an adjustable additional resistor in the galvanometer branch, for the purpose of setting the galvanometer to a certain sensitivity constant to be able to adjust. For this purpose ι sheet of drawings.