SU585449A1 - Mutual-inductance measuring bridge - Google Patents

Description

one

The invention relates to a measurement technique and is intended for use in electrical devices for measuring electrical and magnetic quantities, in particular for measuring mutual inductance.

A device for measuring mutual inductance is known, comprising primary and secondary shielded circuits including a current source and a mutual inductance indicator, one of which is variable, a quadrature compensation circuit, which is a triangle of variable resistors and therefore directly connects both circuits. The screens are connected to one of the quadrature compensator points.

a component that is common to the primary and secondary circuits and grounded 1.

However, the result of the influence of the parameters of the bridge elements and the remaining parasitic connections between the primary and secondary circuits is the small accuracy of the mutual inductance measurement. In addition, the grounding of shields leads to asymmetry of the effect of distributed capacitances on the characteristics of the coils, which also reduces the measurement accuracy.

A device for measuring mutual inductance in accurate magnetic thermometry is also known, comprising primary and secondary shielded circuits, including a current source and an indicator, forming two bridge diagonals, mutual inductors, variable resistors, and a quadrature compensation circuit 2.

This device also has a low accuracy measurement of electrical and magnetic quantities, in particular, the mutual induction coefficient, due to the influence of the parameters of the inductors, the compared mutual inductances and other circuit elements.

The aim of the invention is to improve the measurement accuracy, the Cluster into the measuring bridge of inductance, containing primary and secondary shielded circuits, including a current source and an indicator, forming two bridge diagonals, mutual inductors, variable resistors, and a compensation circuit: quadrature component, are introduced switches, with both contours. made in the form of bridges, two adjacent

the shoulders of each of which are formed by mutual inductors and variable resistors and capacitors connected respectively in series and parallel to the mutual inductors, and parallel to the indicated variable resistors the quadrature component compensation circuit is connected, and the other two shoulders of each of the bridges are formed by variable resistors in the free diagonals of these bridges switches,

The drawing shows a diagram of the measuring bridge in the inductance.

Measuring mutual inductance bridge contains two shielded circuits made in the form of bridges, in the diagonal of which current source 1 and switch 2, indicator 3 and switch 4 are connected. Two adjacent arms of each bridge are formed by coils 5 and b of mutual inductances with series and parallel variable resistors respectively connected 7-10, and adjustable electrical capacitors 114.

The compensation circuit of the quadrature component of the mutual inductances with the separation transformer 15, designed so as not to contribute, is based on resistors 8 and 10. The two other arms of these bridges are made of variable resistors 16-19.

Measuring the bridge of mutual inductance works as follows.

First, a preliminary measurement of mutual inductance is performed, for which, with open switches 2 and 4, the measured mutual inductance, such as coil 5, is balanced by variable mutual inductance of coil 6 and quadrature compensation circuit, adjusting the resistance of resistors 8 and 10. Closing switch 2 and using variable resistors 7, 16, and 17 and adjustable capacitors 11, 12 of the first circuit, achieve zero on

indicator 3, the capacitors being adjusted so that the natural frequencies of the inductors coincide.

Further, the same was done with 4 closed and 2 open switches with adjustable elements of the second circuit. Then both switches 2 and 4 are washed out and the mutual inductance in that

The order is the same as in the beginning of work.

If it is necessary to obtain a higher accuracy of measurement, all operations are repeated until two identical results are obtained.

Claims (2)

1. The measuring technique, 2, 1971, pp. 63-64. 2. Bridge mutual inductance:; accurate magnetic thermometry, p. No. 1, 1975, p. 245-247. Pervy eiraniroLanchy tntur Second shielded circuit: xC P