SU433414A1 - - Google Patents

Description

one

The invention relates to electrical measuring equipment, and specifically to devices for measuring impedance parameters.

Devices for measuring the impedance parameters included in the four-loop scheme are known, which include the branches of the measured resistance and the comparison resistance fed from separate voltage sources, for example, from the secondary windings of a voltage transformer, and a numerical indicator connected to potential resistance hiccups, two OTHER potential clamps which are interconnected.

The proposed device allows measurements to be performed with greater accuracy, since it eliminates the error in the determined measured value of the measured resistance.

To this end, in the proposed device, in series with the measurements of resistance and resistance of comparison, additional sources of voltage are included, the magnitudes of which are equal to the voltage drops on these resistances and the phases are opposite.

The secondary devices used in the proposed device are secondary windings of an isolation transformer, the primary winding of which is connected to the output of the operational amplifier, the input of which is supplied with the voltage of an auxiliary reference branch, including 1 resistance, connected similarly to the resistance of the comparison branch, and the resistance 1 of the circuit the feedback amplifier is equal to the resistance of the comparison.

The drawing shows a schematic diagram of the proposed

devices.

The device contains a voltage transformer with a close inductive coupling between the secondary windings 2 and 3. It is 2 DI 3. The branch of the measured resistance 4 is connected, composed of the sample resistance 1 and the secondary winding 6 of the separation. transformer 7 a to winding 3 primary winding 8 of inductive voltage divider 9 with BJggCTS comparison 13, including model resistances 14 and ii) "and secondary winding 16 of the isolation transformer. The primary winding 17 of the isolation transformer is connected to the output of an amplifier 18 with a reference resistance 19 in the feedback circuit. The exemplary resistors 20 and 21 entering the auxiliary exemplary branch are connected respectively to the secondary winding 22 of the voltage generator 23 and to the winding 12 of the voltage transformer. The current in the auxiliary model branch depends only on the resistances 20 and 21. The voltage at the output of the operational amplifier is equal to the voltage drop across the resistance 19. At the time of equilibration of the measuring circuit, the voltage drop across the resistance 13 is equal to the voltage drop across the resistance 4. This equality is defined It is a null indicator 2. The device allows to determine the parameters of the complex resistance according to a sequential replacement circuit, which is especially important when measuring the complex resistances of an inductive xggr tera. To provide separate readings of the measured inductance Lx and the loss tangent, the turns of the windings 3 and II can be selected as adjustable elements. The nature of the model resistances in this case may be the following: 5-Ro, 13, I9-Ri I, 15 ,. Equilibrium equations for the measured parameters will have 2Lx-5f.RoC., WyV / A Ji, 7 11. j (i C. where Wla / Ws, V / g, Uo W /, are respectively the number of turns of the windings 2,3 , 8,10,11. Equilibrium equations show that the device obb produces a frequency independent measurement of inductance with capacitive and active exemplary resistances. Subject of the invention I. a device for measuring the parameters of the impedance included in the four-clamping circuit containing the branches of the measured resistance and Comparison resistances supplied from separate sources for example, from the secondary windings of a voltage transformer, and a null indicator connected to potential resistance terminals, two other potential terminals of which are interconnected, characterized in that, in order to improve the measurement accuracy, in it in series with the measured resistance and resistance comparisons respectively include additional voltage sources, the voltage values of which are equal to the voltage drops across these resistances, and the phases are opposite. 2. The device according to claim 1, is different. The secondary windings of an isolation transformer are used as additional voltage sources, the primary winding of which is connected to the output of the operational amplifier, the input of which is supplied with the voltage of an auxiliary reference branch including resistances connected similarly to the resistance of the reference branch, the resistance in the feedback circuit of the amplifier is equal to that of the comparison.