DE844762C - Circuit arrangement for changing the influence of rectifying elements in electrical networks, particularly in measuring circuits - Google Patents

Description

It is known that in electrical networks, which rectifying Terms contain the relationships, for example between the rms values of the The voltages and currents prevailing at any two points are not constant, but rather a generally undesirable function of the effective voltages or currents itself, so that the effective resistance is not independent of voltage or current is. In many cases it is desirable to have this dependency in a certain way change, especially making it a constant. This is according to the invention achieved by having indicators (lamps, instruments, etc.) that are under the influence the changing voltages or currents, facilities (adjustable resistors, Capacitors) control which of these voltages or currents caused undesirable Eliminate changes in the complex input impedance of the network. Changes in the complex impedance z. B. be changes in its time constant.

In Fig. I is an electrical network with non-linear members In the context of the invention, a rectifier circuit for measuring AC voltages reproduced. The cross member, which consists of rectifiers connected in opposite directions, means at points c and d an amplitude-dependent resistance Ro, which together with the resistance Rv in a known manner to a logarithmic characteristic of the The deflection z of the instrument J shown leads. The input resistance. the Points a and b remains to some extent a function of the applied voltage and thus the rash «.

If the measuring range of this circuit is to be expanded, so can the scale division remains in effect, and the values read off only with a corresponding one To be multiplied by a factor, a voltage divider instead of the resistor Rv whose output resistance is equal to the value of Rv and its division ratio the extension of the measuring range is selected accordingly. It would be more desirable if one Use only a series resistor instead of the upstream voltage divider needed because it also makes the entire input resistance more highly obedient (l. This could be achieved by setting the input resistance at the points beforehand a and b is made constant. the realization can in implementation of the inventive idea z. b. so be done. that, as shown in Fig. 2, an easily movable potentiometer (fly leg potentiometer) whose value # R is the input resistance at points a and b for all deflections α of the instrument J to the initial value added. After this addition, the area can be as desired with unchanged The scale can be expanded as required using series resistors.

Should the circuit shown in Fig. 1 for measuring high-frequency voltages are used, then in particular the switching capacitance Cv (see Fig. 3) of Rv must be taken into account will. Since the time constant RvCv does not necessarily equal the time constant of the Resistance Ro, the display would also be frequency-dependent for the same voltages. I) a this error depends on the resistance Ro and thus a clear function of the deflection x, according to the invention, the instrument J can be used to the time constant CoRo is equal by a coupled small variable capacitor Co To make RvCv. The measuring range can then be expanded again using a voltage divider whose members in turn have the same time constant.

Claims (1)

P A T E N T A N S P R Ü C H: Circuit arrangement for changing the Influence of rectifying elements in electrical networks, in particular in measuring circuits, characterized in that indicators (lamps, instruments etc.) which are under the influence of the changing voltages or currents, facilities (adjustable resistors, capacitors) control which of these voltages are undesirable or currents caused changes in the complex input impedance of the network remove. Cited publications: German Patent No. 699 956.