SU960679A1 - Magnetic system checking device - Google Patents

Description

(5M DEVICE FOR MONITORING MAGNETIC SYSTEMS

Claims (2)

The invention relates to the field of magnetic measurements and can be used in the automated control of the magnetic field topography of axisymmetric systems and solenoids. A device for measuring magnetic field component systems is known, comprising a Hall sensor, in which both Hall electrodes are located on the same side face fl. However, due to the need to compensate for the voltage between the Hall electrodes due to a change in the resistance of the plate of the transducer under the action of a magnetic field and temperature, the known device does not provide a sufficiently high measurement accuracy. The closest to the proposed technical entity is a device containing a measuring probe, with two Hall sensors located at a known distance from each other in mutually perpendicular PLANES, and associated with sensors of amplifier 2j. However, this device, which uses two Hall sensors, is characterized by considerable difficulty in providing high accuracy of the sensor alignment in the interperpendicular planes, which leads to errors and measurements of the radial induction component, reaching tens of percent, as the values of the axial and radial components differ by two for now. The consecutive measurement of the components, due to the impossibility of the location of two mutually perpendicular sensors at one point, leads to the complication of the processing of the received information and a sharp decrease in the performance of the control. The purpose of the invention is to improve the accuracy and performance of the control. The goal is achieved by the fact that the device for monitoring magnetic systems, containing a series-connected direct current generator, a probe with a Hall sensor and an amplifier V, is equipped with two band-pass filters connected to the output of the amplifier, and the probe is mounted; The Hall sensor is placed on the axis of the probe, one of the band-pass filters is tuned to the power frequency, and the other is set to a frequency equal to the algebraic sum of the power and rotation. FIG. 1 shows a functional diagram of the device: TWA; on Fig.2 the location of the Hall sensor in the measuring zogsche ,. The device contains a series-connected direct current generator t, a probe 2 with a Hall sensor 3 and a sigmtel with two band-pass filters 5 and 6 connected to its output, the filter 5 being tuned to the power frequency, and the filter 6 amounting to the sum or difference of the power frequencies and rotation. The device works as follows. A Hall sensor 3 located at an angle cL to the axis of the measuring probe 2 is placed in the control zone and the probe 2 is rotated. The Hall sensor 3 is powered by the DC generator 1. At the output of Hall sensor 3, a signal is amplified by the amplifier and fed to bandpass filters 5 and 6. The axial component of the measured induction is proportional to the frequency of the power of the Hall sensor 3 and the radial component of the measured induction is proportional to the sum or difference of the frequencies of power and rotation. By the presence of these frequencies in the output signal spectrum, the magnitude of the radial and axial components of the induction is judged. Filter 5 is set to the frequency of the power supply and serves to extract the signal of the axial induction component, and filter 6 is set to the sum or difference of the frequencies of power and rotation And to select the signal of the radial component of the induction. Claim 1. A device for monitoring magnetic systems comprising a series-connected direct current generator, a probe with a Hall sensor, and an amplifier, which is equipped with connected to the amplifier output by two bandpass filters, with the probe mounted for rotation around its own Axis, the Hall sensor is placed on the axis of the probe. 2. The rio item 1, characterized in that one of the band-pass filters is tuned to the power frequency, and the other to the frequency equal to the algebraic sum of the power and rotation frequencies. Sources of information taken into account in the examination of 1 Afanasyev Yu. V. Measuring instruments for magnetic field parameters, 1979, p. 155-156. 2. Metrologists, N, 1977, p. one. 1 f j / n. , / g j