SU1048416A1 - Ac transformer bridge - Google Patents

Abstract

1. AC TRANSFORMER BRIDGE, containing a generator, a voltage transformer with a primary winding connected to the generator and two secondary windings, the first current terminal for connecting the measurement object is connected to the input of the first voltage follower and through a sample measure with the start of the first secondary windings, the second current terminal for connecting the measurement object, connected to the ground bus, potential terminals for connecting the measurement object, alone through the equilibrium detector and directly but with the beginning and: end of the second secondary winding of a voltage transformer, characterized in that, in order to increase the measurement accuracy, the voltage transformer is equipped with a third secondary winding, and a second follower voltage is introduced into the transformer bridge, the input of which is connected to the second potential terminal for connecting the measurement object,. and the output through the third secondary circuit (The coil of the voltage transformer is connected to the third output of the first repeater, and the output of the latter is connected to the end of the first secondary winding of the voltage transformer. 00 4 O5

Description

2. The bridge according to claim 1, is also distinguished by the fact that the second and third secondary windings of the transformer are voltage-shielded by a single shielded wire (the wire itself, the central core of this wire being used as the second secondary winding,

The shields of the wires connecting the potential terminals for connecting the measurement object to the equilibrium detector and the second secondary winding are connected to the beginning and the end of the third secondary winding of the load transformer.

The invention relates to electrical measuring equipment and can be used in instruments for measuring parameters of complex resistors. Transformer AC bridges are known for measuring the small impedance parameters 1. The disadvantage of these devices is low measurement accuracy with significant shunt conductivities in cases where the resistance of the supply wires is less than a significant value. In addition, the shunt conductivities, having a reactive character, sharply limit the frequency range of the extruded devices. The closest to the proposed technical entity is an alternating TOJca transformer bridge, comprising a generator, a voltage transformer with a primary winding connected to the generator, and two secondary windings, a first current terminal connected to the input of the first voltage follower and through an exemplary measure to the first of the secondary windings, the second current terminal connected to the common point of the device, the potential terminals connected through the equilibrium detector and directly to the beginning and end of the second secondary oh winding C2. A disadvantage of the known device is the low measurement accuracy due to the strong influence of leakage from the winding on other elements. The purpose of the invention is to increase the accuracy of the EmereE and devices. The goal is achieved in that an alternating current transport bridge containing a generator, a voltage transformer with a primary winding connected to a generator, and two secondary windings, a first current terminal for connecting a measurement object connected to the input of the first voltage follower and through the reference measure - with the beginning of the first secondary winding, the second current terminal for connecting the measuring object, connected to the ground bus, potential clamps for connecting the measuring object, connected through the detector The equilibrium and directly with the beginning and the end of the second secondary winding of the voltage transformer, the voltage transformer is equipped with the third secondary winding and a second voltage follower is introduced into the transformer bridge, the input of which is connected to the second potential, the terminal for connecting the measurement object, and the output through the third the secondary winding of the voltage transformer is connected to the third output of the first repeater, and the output of the latter is connected to the end of the first secondary winding of the voltage transformer. To improve the protection of the measuring circuit and improve the measurement accuracy of the second and third secondary windings of a voltage transformer are made of one shielded wire, the central core of this wire is used as the second secondary winding, and the screen of wires connecting the potential terminals to the equilibrium detector and the second secondary winding, connected to the beginning and end of the third secondary winding of a voltage transformer. The drawing shows a schematic diagram of the device. The circuit includes a voltage generator 1, a voltage transformer 2 with a primary winding 3 and three secondary windings 4.5 and 6, sample measure 7, current clamps 8 and 9, and potential clamps 10 and 11 for connecting the measurement object, two repeater 12 and 13 voltage, measurement object 14 and equilibrium detector 15. The device works as follows. The voltage of the secondary winding 5 of the voltage transformer 2 is applied through the model measure 7 to the current terminals 8. And 9 and causes a current flowing through the measurement object 14. Voltage repeater 12 serves to form a voltage at the end of the winding 5 equal to the signal at the current terminal 8. In this case, the coil 4 and sample 7 are switched on in short circuit mode and the current flowing through the measurement object 14, where Lm is life on the winding 4; LQ is the resistance of an exemplary measure 7. The voltage drop across an object measured by this current is removed using potential clamps 10 and 11 and fed to successively connected secondary MTKi 4 and equilibrium detector 15. The latter compares the voltage applied to it and changes the number of turns of the winding 5 (or winding 4 when measuring the resistance of the object of measurement) so that at the moment of equilibrium the voltage on the winding 4 is equal to the voltage on the measurement object 14. The equilibrium condition is the following: Qy is the conductivity of the object of measurement 14; m p are the numbers of turns of the secondary windings 4 and 5. The voltage follower 13 and the secondary winding 6, together with the repeater 12, create the necessary voltage at the end of the secondary winding 4 and simultaneously serve as sources of protective potentials to which potential wires are connected clips of the measurement object. In order to eliminate the influence of the parasitic conductivities of the winding 4 on the common wire of the device on the measurement result, it is advisable to wind the windings 4 and 6 as shielded; wires, moreover, it is necessary to use a central core as the winding 4, and a wire screen as the winding 6. Thus, the proposed device has an increased accuracy of measurement, limited by the error of inductive dividers (having an order of magnitude in the 100 Hz 10 kHz frequency range), the error of the reference measure, and the residual effect of parasitic conductivities. If the error of the transmission coefficient of the repeater 13 is 10 4 {which is not difficult to accomplish when using the modern element base), then the error due to this factor (which in the prototype device is 1-10%) will be will be negligible.

Claims (2)

1. AC TRANSFORMER BRIDGE, comprising a generator, a voltage transformer with a primary winding connected to the generator and two secondary windings, a first current clamp for connecting the measurement object is connected to the input of the first voltage follower and through a model measure with the beginning of the first of the secondary windings of the second current clamp for connecting the measurement object. connected to the ground bus, potential clamps for connecting the measurement object, connected through an equilibrium detector and directly to the beginning and end of the second secondary winding of the voltage transformer, characterized in that, in order to improve the measurement accuracy, the voltage transformer is equipped with a third secondary winding, and in a second voltage follower is inserted into the transformer bridge, the input of which is · connected to the second potential clamp for connecting the measurement object, § and the output through the third secondary winding voltage sformatora co £ unified with the third terminal of the first pov- * toritelya, wherein the output of the last ζ is connected to the first end of the secondary winding of the voltage transformer. g Oh yeah 2. The bridge along π. 1, characterized in that the second and third secondary windings of the voltage transformer are made of one shielded 1048416 wire, the second secondary with the central core of this wire being used as a winding, and the screens of wires connecting potential clamps for connecting the measurement object with an equilibrium detector and the second secondary winding, connected to the beginning and end of the third secondary winding of the transformer ^sludge \ tension.