SU1529155A1 - Device for calibrating instrument transducers of pulse electric currents - Google Patents

Abstract

This invention relates to metrology and can be used to calibrate current transducers. The purpose of the invention is to reduce the calibration error, which is achieved due to the static mode of mutual compensation of the output signals of a magneto-optical measuring converter (MOIP) 6 caused by currents in coils 2 and 5 fed from current sources 1 and 3. The magneto-optical sensor MOIP 6 is located inside the working volume of the coil 5, which is located inside the working volume of the coil 5, which is located inside the working volume of the coil 2, while their magneto-optical axes are oriented in space along the common direction, and the coil 5 is designed to open each of its turns . 2 Il.

Description

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The invention relates to methodology and can be used to calibrate measurement transducers of pulsed electric currents in the nanosecond time range;

The purpose of the invention is to reduce the calibration error of the measuring transducers pulse: current (IGO1T).

Figure 1 shows the structural diagram of the proposed device; Fig. 2 is a depiction of the mutual spatial arrangement of the elements of the device.

A device for calibrating a measuring transducer of pulsed electric currents contains a current source 1, the output of which is connected to the first one-component magnetic induction measure in the form of a coil 2 (for example, Helmholtz rings) with a constant k, current source 3, to the output of which through a measuring transducer 4, a constant electric current is connected to a second single-component measure of magnetic induction in the form of a catutaki 5 (for example, a solenoid) with a constant k2, a magneto-magnetic measuring transducer. (MOSCEH 6, which is located inside the working volume of Catuac 5, which is located inside the working volume of coil 2, and the magnetic axes of the MOIin 6 sensor, coils 2 and 5 are oriented in space along the general direction, the coil 5 is designed to open each of its turns, } 1a example, by means of pin coitacts. In addition, figs1 denote a calibrated measuring transducer of impulse currents ISTN .7 and recorders 8 and 9. As registrars, oscillograph, pulsed voltmeter or t Digital recording instrument.

The calibration device SHIT works as follows.

In the initial state, either IPIT 7 is connected to the current source 1 – coil 2 circuit, and then a special generator of current pulses is used as the source, or coil 2 is connected to an open circuit of the installation, the current measurement meter of which is used with PIIT 7, and then the last remains -gam, where it is supposed to be used in the process of working the mouth

The installation itself is the source of current. When calibrating according to Rogowski sa, a special pulse generator can be used provided that, in circuit 1 of the current - katuit 2, the model of the installation conductor section with the Rogowski catfish is included, if possible. The outputs of MOIP 6 and IIT 7 are connected to the inputs of recorders 8 and 9. The coils of the coil 5 are open. When a pulsed current l (t) of the current source 1 arrives in the turns of coil 2 in the working volume of coil 2, a pulsed magnetic field is formed. Since each turn of coil 5 is open, it does not affect the amplitude-time parameters of the magnetic induction of a pulsed magnetic field in the working volume of coil 2. The output signals of MOIP 6 and IITI 7 are recorded by the registrars 8 and 9. During the processing, the amplitudes of the detected signals By and U, IITI 7 and MOIP 6, respectively, are determined. The measured values of U and Uj correspond to current 1 (in turns of coil 2. Then each turn of coil 5 is closed and a constant electric current from current source 1 is fed to them. By adjusting the magnitude of this current, a signal of U is obtained at the output of MOIP 6 of which corresponds to the current Ij in the turns of the coil 5. To control the magnitude of the signal at the output of the MOIP 6, a DC voltmeter or a storage oscilloscope can be used. The value 1 is measured with a DC measuring amplifier A If the output signals are equal, MOPS 6 performs ratio

  I, -k ,,.

(one)

After conversion, we obtain

2 k:

(2)

As a result of repetitions of the described sequence of actions for N pulsed current values in the turns of coil 2, we obtain a set of points with coordinates, i l, o., N. Using the specified set, after the corresponding mathematical workflow we obtain the values of VFo and l WQ for the calibrated IPIT 7,

f Kafliya / KQ

Magnetic sensor munpb

Coil

Editor T. Parfenova

Compiled by A, Zaborn Tehred L. Serdyukova

Order 7637/41

 Circulation 714

VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, Zh-35, Raushsk nab. 4/5

Proofreader M. Peugeot

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Claims (1)

Claim Device for calibrating measuring transducers of pulsed electric currents, containing per Order 7637/41 Figure 1