SU875317A1 - Magnetometer - Google Patents

Description

The invention relates to a measurement technique, in particular, is intended for measuring (oscillographing) of pulsed magnetic fields by it and on the magnetic fields of a scattering field. A magnetometer is known, containing a compensator coil of several turns located directly on the Hall sensor plane along its n-meter and broadband amplifier, co. v1hrd) r of which the signal sensors of the Hall sensor are connected through the compensation coil. The coil is connected to comprehend EMF pickups in the output circuit of the Hall sensor. The compensation of interference occurs due to the fact that the voltage from this winding enters in the opposite phase with the voltage applied to the input of the amplifier I. ;. The disadvantage of this device is that the measurement accuracy is due to the high level of intrinsic noise (L and noise on the magnetometer's lead. The first is due to the use of a wideband amplifier), the second is the difficulty of practical compensation of the leads to the Hall sensor using a single cocking head since in a wide frequency band, difficult to read parasitic distributed parameters of the output circuit of the sensor, having an inductive and capacitive character, begin to appear. The goal is to improve accuracy. The supplied circuit is achieved by the fact that the magnetometer containing a pvtani unit, the output is connected to the Hopl sensor's electrodes, the compensation winding and the amplifier, an inductive sensor, a resistor and a coupling are connected, the amplifier input is connected to its output through a condensate A series of connected resistors, an induction sensor, and a compensation winding to the signal electrodes of the Hall sensor. The devil shows the block diagram of the proposed machchtometer. 38 The magnetometer contains a Hall sensor 1, a Hall sensor unit 2, a winding 3 compensations, an induction sensor 4, a Rheistor 5, and an air conditioner 6, which represent feedback circuits of amplifier 7. The current electrodes of the Hall sensor are connected to power supply unit 2. Signal elec- trodes of the Hall sensor through a successively connected winding 3 compensations,. The induction sensor 4 and the resistor 5 are connected to the input of the amplifier 7. The input of the amplifier 7 is connected via a capacitor 6 to its output. The magnetometer operates as follows. The measured magnetic field induces in the induction sensor 4 induction emf. The same measured magnetic field, acting on the Hall sensor 1, creates a Hall EMF. Since the gain path is a linear system, this will result in the summation of these voltages. Then the voltage at the output of amplifier 7 will be written in the form yy / y-yAo g (Vljf)

de R) (

-Permanent Hall;

D

- power supply of Hall sensor 1;

A.o H

- magnetic constant;

- magnetic field strength;

AO - amplifier gain 7 with open loop feedback}

3 - the thickness of the plate of the sensor 1 Hall;

and - (lfAo) RC

S is the cross-sectional area of the induction sensor 4;

W the number of turns of the induction sensor 4;

R С

resistance of resistor 5; capacitor capacitance c. Thus, when ty SW / RxJ, a non-constrained formula is in principle provided.

A magnetometer containing a power supply unit, the output of which is connected to the current electrodes of the Hall sensor, a compensation winding and an amplifier, characterized in that, in order to increase accuracy, an induction sensor, a resistor and a capacitor are inserted into it and the amplifier input is connected via a capacitor to its output, and through series-connected resistor, induction sensor and compensation winding - to the signal electrodes of the Hall sensor. Information sources,

pryushty into account during the examination

1. Afanasyev Yu. V., Sgudentsov N. V., Schepkin A. P. Magnetometric converters, devices, installations. L., Energie, 1972, p. 13, 203. 7 Enna bandwidth of the magnetometer and limited bandwidth of the amplifier 7 covered by feedback. The bandwidth of this amplifier at a level of 0.7 is determined by the cutoff frequency U | c, and is calculated using the formula D Lf and Starting from this frequency, the frequency response of the integrating amplifier (amplifier 7 covered by feedback) drops at a speed of 6 dB / oct. Thus, undercompensated by the compensation winding 3, the pickup on the Hall sensor 1 undergoes further weakening, whereby the pickling error remains constant over the frequency range. Magnificomes can be used in nuclear physics in studies of beams of charged particles, plasma studies, studies of various kinds of discharges accompanied by magnetic fields (nuclear explosion). Models of this kind of magnetometers measured pulsed magnetic fields in the O-5 MHz band.

Claims (1)

Claim A magnetometer containing a power supply, the output of which is connected to the current electrodes of the Hall sensor, a compensation winding and an amplifier, characterized in that, in order to improve accuracy, an induction sensor, a resistor and a capacitor are introduced into it, while the input of the amplifier is connected through its capacitor to its output, and through series-connected resistor, induction sensor and compensation winding - to the signal electrodes of the Hall sensor.