SU932414A1 - Bridge for measuring complex resistance parameters - Google Patents

Description

I

The invention relates to electrical measuring equipment and can be used to create devices for measuring impedance parameters.

The AC bridge is known, containing a four-shoulder bridge circuit, in the two arms of which the voltage sources, the phase shifter and the exemplary resistance 1} are included respectively.

The disadvantage of this device is the dependence of the phase angle tangent on frequency.

The closest in technical essence to the present invention is a bridge for measuring the parameters of complex resistances, containing a series-connected power source and a two-channel phase shifter, the main transformer, in the secondary chain of which regulated and unregulated windings are included, respectively, controlled complex resistance and reference resistance, other outputs of which are connected to indicator input, switch and tangent transformer 21.

A disadvantage of the known device is the failure to measure parameters with a parallel replacement circuit and the impossibility of measuring the loss tangent in the frequency range.

The purpose of the invention is to improve the accuracy of measurements and provide a frequency independent reading of the phase angle of the complex resistance of any nature of reactivity.

Claims (2)

To achieve this goal, a well-known bridge for measuring impedance parameters, containing a series-connected power source and a dual-channel phase rotator, the main transformer, in the secondary regulated and unregulated windings of which includes a controlled complex resistance and reference resistance, respectively, the other terminals of which are connected to the indicator input, switch and tangent transformer is equipped with an additional transformer, with one of the p The primary winding of the main transformer is connected to the output of one of the channels of the two-channel phase shifter, and its other output is connected to the movable terminal of the switch, the output of the other channel of the phase shifter is connected to one of the primary windings of the tangent transformer, the other output of which is connected to the common bus, and its output to the secondary regulator my winding is connected to the output of the primary winding of an additional transformer and to one of the fixed terminals of the switch, the other — the fixed terminal of which is connected to the common bus, the secondary winding of the auxiliary transformer is connected in series with the unregulated secondary winding of the main transformer, other conclusions, respectively, of the secondary winding of the tangent transformer, windings of the additional transformer and adjustable secondary winding of the main transformer are connected to the common bus. The drawing shows a structural electrical circuit of the proposed device. The device contains a source of power supply 1, a two-channel phase shifter 2 with phase shifters 3, and a main transformer 5 with a primary winding 6, with secondary transformers respectively -. controlled 7 and unregulated windings, controlled resistance 9 exemplary resistance 10, tangential transformer 11 with primary winding 12 and adjustable secondary winding 13, additional transformer 1 with primary winding 15 and secondary winding 16, indicator 17 and switch. 18. - The device operates as follows. When measuring inductance coil parameters or resistors, an inductance or resistor is used as the reference resistance 10. When measuring capacitor parameters, the reference impedance capacitor changes places with controlled resistance. i (. 4 When measuring inductance parameters and resistors represented by a parallel replacement circuit and capacitors represented by a serial replacement circuit, the switch 18 is closed to the windings of transformers 11 and 1. When switching the switch 18 to a common bus and when measuring capacitor parameters by a serial replacement circuit an exemplary measure is applied - the voltage generated at the output of the phase shifter 3 and multiplied by the transformation ratio of the transformer 5. The measured resistance is applied to A voltage equal to the sum of the voltages: the output of the phase shifter 3 multiplied by the transformer ratio of the transformer 5, and the quadrature voltage taken from the output of the phase shifter k and multiplied by the transformation ratio of the tangent transistor 11 and the additional transformer 14. The equilibrium state is controlled Indicator 17. When the equilibrium of the bridge is provided, a separate reading of the indications of the value of the capacitance and the tangent of the loss angle at any frequency of the supply voltage is provided. Similarly, the parameters of the inductance matrix and resistors are measured with a parallel replacement circuit. However, only exemplary and controlled resistances are reversed. In this case, also in the case of the equilibrium of the bridge, a separate reading of the resistance and tangent of the phase angle of the controlled resistor from the frequency of the supply voltage is achieved. When switching the contacts of the switch 18 to the windings of the transformers 11 and 14, the parameters of the capacitors represented by the parallel replacement circuit are measured. To eliminate the effect of the quadrature voltage of the phase shifter 4 on the current in the branch with controlled resistance, an additional transformer 14 is turned on, the output voltage of which is out of phase with the voltage on the terminals of the winding 13 of the tangent transformer 11, due to which the total voltage applied to the controlled voltage resistance, quadrature voltage is subtracted. The parameters of resistors and inductors, 53 represented by a series replacement circuit, are measured similarly. In this case, when the coils are switched in the windings 7 and 13, the resistance and tangent of the phase angle or inductance and the loss tangent are counted. Claims of the Bridge for measuring parameters of complex resistances, containing a main power supply and a two-channel phase shifter main transformer, in the secondary regulated and unregulated windings of which are connected respectively controlled impedance and reference resistance, other outputs of which are connected to the indicator input, switch and tangent transformer , in order to increase the accuracy of measurements and ensure the frequency The reference impedance phase angle of any reactivity type is equipped with an additional transformer, one of the primary terminals (the primary transformer ebmot is connected to the output of one of the channels of the two-channel phase shifter, and its other terminal is connected to the movable switch terminal, the output of the other channel of the phase shifter is connected to one of the conclusions of the primary winding of a tangent transformer, the other output of which is connected to the common bus, and the output of its secondary adjustable winding is connected to the output The primary winding of the additional transformer and one of the fixed terminals of the switch, the other fixed terminal of which is connected to the common bus, the secondary winding of the additional transformer is connected in series with the unregulated secondary winding of the main transformer, the other cooTBefcTBeHHO secondary windings of the tangent transformer, the windings of the additional transformer and adjustable secondary windings of the main transformer are connected to the common bus, the sources of information taken into consideration mania during the examination 1. USSR author's certificate No. 218301, cl. G 01 R 17/10, 1968. 2. USSR author's certificate number 278864, cl. G 01 R 17/10, 1970 (prototype).