SU779950A1 - Magnetometer calibrating device - Google Patents

Description

(54) DEVICE FOR CALIBRATION OF THE MAGNETOMETER The present invention is intended to monitor the output characteristics of a magnetometer, especially installed on an object. When calibrating a magnetometer, one of the interfering factors is the presence of interference, present in the place of installation of the magnetometer, and not allowing the entire dynamic range of its output characteristic to be reproduced without distortion (therefore, potassium devices must be able to compensate for this interference). Another disturbing factor is the considerable time taken by the calibration itself, which the jiacTO is unacceptable when performing it when the magnetometer is already installed on the object. A device for calibrators of magnetometers for determining the conversion factor, the sensitivity threshold, is known. It holds the coils, the source of stable voltage, the magnetometer under test, the manual setting circuit of the calibration current (1. Its disadvantage is insufficient calibration accuracy. Calibration devices are known that contain two groups of vol.

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Claims (2)

LUCK: raztsovy coils, two sources of stable voltage, the tested magnetometer, additional mechanical magnetometer, illuminator and photo amplifier, manual setting circuit of compensation and calibration 2. The disadvantages of the known devices are the presence of manual compensation, which increases the time of calibration and does not allow remote control be calibrated. The use of an additional magnetometer with characteristics identical to the test subject and elements of light optics to compensate for interference variations does not allow these devices to be used when installing a magnetometer on an object. In addition, known devices provide for manual calibration current flow into the sample coil, which also increases the time calibration and reduces calibration accuracy. The purpose of the present invention is to improve the accuracy of the calibration. The goal is achieved by the fact that a device containing a source of stable voltage; an exemplary coil, test 1 1st magnetometer, placed in the center of this coil, and a control unit, introduced three electronic keys, a sequentially coupled integrator and a polarity switch, a zero indicator, sequentially connected multivibrator, a ring counter, a switch of the calibration current body and a divider of the calibration current, moreover, the first output of the stable voltage source is connected to the input of the first electronic key, the second input of which is connected to the output of the control unit and the control input of the second electronic key, the third input of the first electronic key is connected to the output of the null indicator, the input of the second electronic key, the first control input of the third electronic key, the output of the first electronic key is connected to the input of the integrator, the output of which is connected to the output of the calibration current divider the input of the field switch is connected to the output of the second electronic key, the output of the switch of polarity is connected to an exemplary coil, the input of the null indicator is connected to the output of the test magnet pa; the second output of the stable voltage source is connected to the input of the third electronic key, the input of which is connected to the control input of the multivibrator and the ring counter and the second input of the calibration current divider, the output of the ring counter is connected to the control input of the control unit, and the second control input of the third electronic key. The drawing shows a block diagram of a device for calibrating a magnetometer. The device for calibrating the magnetometer contains a source of stable voltage 1, the first electronic key 2, the integrator 3, the polarity switch 4, the sample coil 5, the tested magnetometer b, the zero indicator 7, the second electronic key 8 the third electronic key 9, the multiviralizer 10 , ring counter 11, the switch divider calibration current 12, the divider calibration current 13, the control unit 14. The device operates as follows. In the initial state, the electronic key 2 is open, the integrator 3 is in the zero position at the output, the key 8 is closed and the switch of fullness 4 is connected via the electronic key 8 to the output of the null indicator 7, the electronic key 9 is open, and the second source output a stable voltage is disconnected from the inputs of the multivator 10 of the ring counter 11, the calibration current 13, the zero indicator 7 is permanently connected to the output of the magnetometer 6, the latter measures the external field affecting it. At the moment when the calibration enable command is sent from control unit 14, switch 2 is closed, and the input of integratoTopa 3 receives a signal from a stable voltage source 1; the key 8 is opened, the electronic switch 4 is disconnected from the null indicator 7 and remains in the stored position. The voltage at the output of the integrator 3 begins to increase, and in the opening of the model coil 5, an increasing current increases in time, creating a field in the volume of the magnetometer that is directed opposite to the measured one. At the moment of equality, the compensation and measurable fields, i.e. when the output voltage of the magnetometer goes through zero, the null indicator 7 is switched, the output of which is generated: a control signal by the first electronic key 3, which disconnects the integrator 3 from the stable voltage source 1 and transfers the Yamti (the compensation current does not change c), and a control signal that closes the third electronic key 9. At the same time, the power supply voltage is applied to the elements of the automatic calibration 10, 11 and 13; The pulses from the multivibrator 10 alternately switch the cells of the ring counter 11, each cell turning on the corresponding switch of the calibration current divider 12, the latter includes the steps of the divider calibration current 13 and the steps of the calibration current enter the sample coil 5 through the polarity switch 4. After the last step of the calibration current has been supplied, a signal is generated at the output of the ring counter. The calibration end translates the third electronic key 9 and, through the control unit 14, the keys 2 and 8 to the initial state. The use of new elements: an integrator, a null indicator, a multivibrator, a ring counter, electronic keys, switches, favorably distinguishes the proposed calibration device from the indicated protitope, since the use of an additional magnetometer is eliminated, manual interference and calibration current supply are eliminated, due to what is reduced time and calibration accuracy is increased, and remote calibration control is provided. As a result, Le is provided with the ability to calibrate the magnetometer when it is installed on an object. Claims An apparatus for calibrating a magnetometer, comprising a stable voltage source, an exemplary coil, and a magnetometer under test, which is ramified in the center of this coil, and a control unit are distinguished by the fact that, in order to improve the calibration accuracy, three electronic keys were inserted into it, serially connected integrator and polarity switch, null indicator, successively soybean, dynamic multivibrator, ring counter, divider divider of calibration current and divider of calibration current, the first The output of the stable voltage source is connected to the input of the first electronic key, the second input of which is connected to the output of the control unit and the control input of the second electronic key, the third of the first electronic key is connected to the output of the null indicator, the second electronic key input, the first control input of the third electronic key the output of the first electronic switch is connected to the input of the integrator, the output of which is connected to the output of the calibration current divider, the control input of the polarity switch It is connected with the output of the second key, the output of the polarity switch is connected to an exemplary coil, the input of the null indicator is connected to the outputs of the tested magnetometer, the second output of the stable voltage source with the input of the third electronic key, the output of which is connected to the control inputs of the multivibrator and the ring counter and the second input of the calibration current divider, the output of the ring counter is connected to the control input of the control unit and With the second control input of the third electronic key. Sources of information taken into account during the examination 1. Yu.V. Afanasyev Ferrozondy, L., Energie, 1969, p. 11-13. 2. Yu.V.Afanasev Magnetometric converters, devices, ustaEnergki, L. , 1972, p. 240242.