SU883815A1 - Vibration magnetometer receiving device - Google Patents

Description

(54) RECEIVING DEVICE FOR VIBRATING MAGNETOMETER

The invention relates to magnetic measurements and can be used, for example, to measure the magnetization of ferromagnetic materials in constant fields.

A receiving device of a vibration magnetometer is known, consisting of a complex of measuring and a complex of compensation coils connected in series and connected to the input of a difference signal amplifier. Since each measuring coil is included counter, the effect of interference

decreases in times where. & Wi (2). -SWi, SW2. total areas of turns of the coils (11.

In practice, however, it is not possible to fulfill the equality SWt SVj with an accuracy of more than 0.5%, and, since the magnitude of the field strength generated by interference can exceed by several orders of magnitude the intensity of the field produced by the test sample, the interfering signal in the measuring coils may be several times higher

signal from the test sample. When the difference signal is connected to the amplifier, the measuring and compensating coils so that the interference signals are subtracted, the influence of the interference is somewhat reduced, but a satisfactory reduction in the effect of interference cannot be obtained due to the different phase relationships between the interference signals in the measurement and compensation coils. Thus, the disadvantage of this device, which reduces the nausea of measurements and the field of application, is the low noise immunity. .

The purpose of the invention is to improve the measurement accuracy.

15

The goal is achieved by the fact that the receiving device of a vibration magnetometer, containing two measuring and coil connected in series and counter and two compensation and coaxially connecting and coaxial amplifier, is equipped with two pairs of noise compensation coils, two potentiometers and two amplifiers with balanced inputs, one of which is connected to the measuring, and to the other - compensation coils, and the outputs of amplifiers with balanced inputs are connected to the input home of the differential signal, the common terminal of the measuring coils is connected to the engine of one of the potentiometers, and to its extreme terminals there are two noise compensation coils connected in series and according to, offending the output of which is connected to the common point of the electrical circuit, the common terminal is connected to the engine of the other potentiometer compensation coils, and to its extreme conclusions - two other noise compensation coils, connected in series and according, the common output of which is connected to a common point of the electrical circuit.

The drawing shows a block diagram of the device.

The device consists of two measuring coils 1, connected in series and counter, potentiometer 2, to the slider of which a common pin of measuring coils 1 is connected, and to its extreme terminals - two connectors in series and according to coil 3 of noise compensation, the common output of which is connected to a common electrical point circuits of two compensating coils 4 connected in series and oppositely, potentiometer 5, to the engine of which the common output of compensating 1x coils 4 is connected, and to its extreme conclusions - two connected followings and according to the coil b, noise compensation, the common output of which is connected to the common point of the electric circuit, amplifiers

7 and 8 with balanced inputs, to which measuring 1 and compensating 4 coils are connected, respectively, amplifier 7 of the difference signal, the input of which is connected

with outputs of amplifiers 8 and 9.

The device works as follows.

When the sample vibrates in the measuring coils 1, a signal is applied which is fed to the input of the amplifier 8 with a balanced input.

Since the cut-off 3 noise compensation is included according to, there is practically no signal from the vibrating sample, and only the interference signal is induced. Due to the fact that the coils are connected to the amplifier

8 with a balanced input, in which an operational amplifier with a large common-mode interference rejection is applied, then by moving the slider of the potentiometer 2, one can achieve almost complete compensation of the disturbances induced in the measuring coils.

In a similar way, it is possible to achieve compensation of interference induced in the circuit of the compensation coils. Practically setting

The receiving measuring and compensating coils according to the minimum impact of interference are implemented as follows: all coils are placed in the center of the Helmholtz rings, having a small heterogeneity (less than 0.1%) of the magnetizing field strength in the volume occupied by the tunable coils. The windings of the Helmholtz rings are connected to the generator output and, by adjusting the generator output voltage (voltage frequency equal to the vibration frequency), set the required magnetising field, which is equivalent to interference. By adjusting potentiometers 2 and 5, the signal at the output of amplifier 7 is minimized.

The application of the proposed device allows to increase the measurement accuracy by improving the signal-to-noise ratio and reduce the measurement sensitivity threshold due to low noise level. Tests of the prototype of the device showed that the accuracy of measurements increased by no less than two times, and the magnitude of the measured minimum magnetic moment did not decrease. less than five times.

Claims (1)

Invention Formula A receiving device for a vibrating magnetometer, comprising two measuring coils connected in series and counter and two compensating coils connected in series and counter, as well as a differential signal amplifier, characterized in that, in order to increase measurement accuracy, it is equipped with two pairs of noise compensation coils, two potentiometers and two amplifiers with balanced inputs, one of which is connected to the measuring, and the other About compensation coils, and the outputs of amplifiers with symmetrical inputs are connected to the input of a differential signal amplifier, and the common output of measuring tubes is connected to the slider of one of the potentiometers, and to its extreme leads there are two noise compensation coils connected in series and according to which common lead is connected with a common point of the electrical circuit, to the engine of another potentiometer is connected 0 is the common pin of compensation coils, and to its extreme pinpoints are two other noise compensation coils, connected in series and according to, the common pin of which is connected to the common point of the electrical circuit. Sources of information taken into account during the examination 1. U.S. Patent No. 3,496,459, Cl. 324-47, 1967. HMtffx Hir mMfffi4Mf / f / U ffjrtf