DE878242C - Method for determining the electrical conductivity - Google Patents

Description

Method for determining the electrical conductivity Addition to Patent 84QG77 Patent 842,677 relates to a method for determining elelrisdia Conductivity of a matter in which the complex alternating current resistance of a measuring arrangement is determined in which the matter to be examined one or more documents such is contrasted with the fact that the displacement current is predominantly due to a constant Dielectric and the conduction current runs through the matter to be examined. That The method can for example be carried out in such a way that the to be examined Matter with the interposition of a practically loss-free dielectric in one a certain distance two condenser sheets are applied, with their capacity is determined against each other in a measuring arrangement. With this arrangement, the two evidences through the respective opposite matter to two capacitors added.

The resistance between the two capacitors depends on the conductivity.

Another embodiment of the method can consist in that also with the interposition of a practically lossless dielectric the matter a capacitor layer is placed and that in the matter to be examined an electrode is arranged. This only creates a capacitor, whereby the resistance between the capacitor part in matter and the electrode of the conductivity is dependent.

This electrode can also be replaced by a very large capacity against matter.

The measurement of the complex AC resistance of this arrangement can in principle be carried out with all known methods.

So the complex alternating current resistance according to magnitude and phase can be measured with a bridge circuit. The complex alternating current resistance can also be measured using a resonance method. It is also possible to use the complex Measure AC resistance using a phase jump method.

The invention now relates to a further embodiment of the method of the patent 842677 and consists in the fact that the vibration by feedback of caused by the cathode or an auxiliary grid and the amplitude of this oscillation is measured in the anode circuit via a rectifier or a thermal instrument. This creates the grid circle, which is only connected to the measuring circle via the grid anode section is coupled (so-called electrode coupling) from the operating state of the measuring circuit largely independent.

In this way it is possible to connect to such a circuit to connect a multiple registration device, whose frequent load changes the operating state of the generator is not affected.

The anode of the tube can be opposed by one or more auxiliary grids the oscillating grid circle must be shielded.

To avoid ambiguities in the measurement, it can be requested to make the feedback highly frequency dependent. This can be done by inserting Oscillation circles or other Siebglietdern happen.

Furthermore, the capacitive decoupling of the anode can be achieved by an known neutralization circuit can be improved.

In the drawing are some circuit diagrams with which the invention Procedure t can be carried out, shown in Figures I to 3.

In all cases, for example, flows through the one to be examined Liquid the tube I, around which the measurement documents 2 and 3 are placed. The display takes place via a drop-bow recorder 4, which is connected to the measuring device and his Current is received through the rectifier arrangement 5, which in turn by means of the floch frequency transformer 6 is coupled to the anode of the tube.

In the circuit diagram according to Fig. I, the feedback takes place via the Cathode coil 7, but can also be used as internal feedback, via the grid anode capacitance the tube come about when the high frequency transformer 6 is on top of the tube facing side has a sufficiently large inductive resistance. The regulation In this case, the feedback is best achieved by coupling the gel, i. H. by a variable cathode resistor 8 or, in the case of the inductive feedback shown from the cathode, also by changing the inductive coupling of the cathode coil with the lattice circle coil.

The circuit diagram in Fig. 2 differs from that in Fig. I. by the intermediate circuit 9 arranged between the cathode and the grid circle, whose Resonance frequency with increasing conductivity of the fluid, leads I from the lattice circle is run through, whereby as a result of the phase jump the circuit the ability to swing loses.

In Fig. 3 is an example of a possible neutralization circuit drawn, in which a structure coupling via the capacitor Io and the coil II of such magnitude is applied to the lattice circle that the inductive Load on the anode circuit of the tube by 6 induced internal feedback is just compensated, so that the oscillation of the tube is only due to the coupling of the lattice circle with the cathode coil 7 derives from it.

Claims (3)

PATENT CLAIMS: I. Method for measuring electrical conductivity according to patent 842 677, characterized in that the oscillation by feedback caused by the cathode or an auxiliary grid and the amplitude of this Oscillation in the anode circuit; via a rectifier or by a thermal instrument is measured. 2. The method according to claim I, characterized in that the anode the tube by one or more auxiliary grids against the swing the grid circle is shielded. 3. The method according to claim I and 2, characterized in tgelçenßzeich, sdaß the capacitive decoupling of the anode by a neutralization circuit known per se is improved.