SU411629A1 - - Google Patents

Description

one

The invention relates to the field of instrumentation and digital information measuring systems.

According to the main author. St. No. 154938 is a digital direct current ammeter for converting direct current into alternating current frequency based on the use of nuclear magnetic resonance (NMR).

However, in the known transducer, the magnetic core is saturated, which causes a decrease in the sensitivity of the transducer to the measured current.

In addition, zero error and an increase in non-linear error and hysteresis error appear.

In order to increase sensitivity and reduce errors due to nonlinearity and hysteresis, the magnetic circuit of the proposed device consists of two branches separated by an air gap, one of which is a magnetic conductor for a magnetizing flow, and the other for a magnetic flux created by the measured current.

In order to eliminate the error caused by the effect of the inhomogeneous fields introduced, the magnetic core is made in the form of two coaxial cylinders having common pole tips.

FIG. 1 is given the structural scheme of the proposed digital ammeter DC with W-shaped advanced; insulated magnetic circuit; in fig. 2 - the same, with a cylindrical split magnetic core.

The current-frequency converter contains a current-magnetic induction transducer and a measuring circuit of nuclear magnetic resonance.

A current-magnetic induction transducer with an-shaped magnetic core (Fig. 1) consists of a source 1 of a magnetizing field, which uses a permanent magnet L5 or a winding with a current wound on the middle core of the converter, a split magnetic circuit with two branches 2 and 3 separated by the air gap 4. The branch 2 passes the magnetizing flux Fo, and the branch 3 - the magnetic flux FA-, created by the measured current 1x, passing through the measuring windings 5 located on the pole pieces.

With a certain choice of size and material of the branches of the magnetic flux F /.,. in a wide range of current changes, 1x passes only along branch 3, without disturbing the magnetic

symmetry of branch 2.

In a current-frequency converter with a cylindrical magnetic core, the source of the magnetizing field is a radially magnetized ring permanent magnet or windings with a current wound on radially cores. The branches 2 and 3 of the magnetic core are made in the form of coaxial cylinders, which are also shields for protecting the magnetic field in the air gaps from the influence of external magnetic fields.

The nuclear magnetic resonance measuring circuit includes two nuclear magnetic resonance sensors 6 located in the air gaps of the magnetic circuit, two nuclear magnetic resonance measuring devices 7 and a frequency mixer 8, the output of which when the current is turned on /: v

f, 2Kf, When choosing a coefficient (n -

integer), you can directly from the readings of the digital frequency meter connected to the output of the frequency mixer, determine the value of the measured current / x, i.e., the proposed current-frequency converter together with the digital frequency meter can be used as a digital micromillimeter.

Subject invention

Claims (2)

1. Digital ammeter direct current by aut. St. No. 154938, characterized in that, in order to increase sensitivity and reduce errors due to nonlinearity and hysteresis, the converter magnetic circuit consists of two branches separated by an air gap, one of which is a magnetic conductor for a magnetizing flow, and the other for a magnetic flux created by the measured current. 2. The ammeter according to claim 1, characterized in that, in order to eliminate the error from the influence of external inhomogeneous magnetic fields, the magnetic circuit is made in the form of two coaxial cylinders having common pole tips.