SU922667A1 - Method of compensating induction disturbance in galvanomagnetic pickups - Google Patents

Description

(5) METHOD OF CONDUCTING AN INDUCTION COVER IN GALVANOMAGNETIC SENSORS

Claims (2)

The invention relates to instrumentation and automation, and can be used in devices with galvanic magnetic sensors. A known method of compensating inductive crosstalk for the purpose of a Hall sensor is based on a change in the flux linkage of the sensor with a magnetic field and the detection of a ring in its chains by introducing into the environment a ferromagnetic body, such as a ferrite rod, and changing its location relative to the magnetic axis of the sensor until it reaches the minimum value of the recorded pickup GP. The disadvantage of this method is that placing a ferromagnetic body near the sensor increases the size of the probe, and this deprives the sensor of one of its main advantages - miniature sizes. In addition, compensation of pickups is impossible near ferromagnetic bodies and masses, since they introduce an additional redistribution of the sensor flux linkage, which is not controllable. There is also known a method of compensating induction pickups in galvanized metal sensors, which involves creating an emf in the sensor circuit equal in value to the pickup and opposite to it in phase 2. In the known method, additional compensation circuits are placed around or near the sensor so that enter a voltage proportional to the inductive emf emf. The disadvantage of the known method is that the presence of additional circuits around the sensor, in which the induction of air and air pickup complicates the design of the probe, and this is especially undesirable when mass-produced devices with galvanomagnetic sensors, in addition, compensation of the noise is impossible near ferromagnetic bodies, which is associated with 392 changes in the magnetic permeability of the medium. The purpose of the invention is to increase accuracy. In order to achieve the goal, according to the method of compensation of induction pickup in galvanomagnetic sensors, including the creation of an electromotive force in the circuit equal to the pickup and opposite in phase, pass a current through the sensor electrodes, place the sensor in an alternating magnetic field and change the direction of the direct current is obtained until the minimum output signal of the sensor is obtained, and the current value is set to - .jjiL where f is the frequency of the magnetic field; S - active sensor area; / x - is the mobility of current carriers; Rjj is the resistance between the electrodes of the sensor, in whose circuits direct current is passed. The drawing shows a diagram of the device for implementing the proposed method. The device contains a Hall sensor with current leads 2 and 3, to which the operating current source 4 is connected, and Hall terminals 5 and 6 are connected respectively to a direct current source 7 with a potentiometer 8 and a recording unit 9, and between one of the current electrodes 2 and one From the Hall electrodes 5, a resistor 10 is compensated for the zero signal of sensor 1. The device operates as follows. A direct current is passed through the sensor from a source 7 connected to the pair electrodes 5 and 6 of sensor 1 in an inductive pickup compensation circuit. Next, place the Hall sensor 1 in an alternating magnetic field. When this occurs, the EMF is generated by the magneto-magnet star by an action sound. The choice of gender rnos; These currents achieve the minimum value of the output signal monitored by the recording unit 9. The current value is selected taking into account the frequency of the magnetic field and the sensor parameters. As a result, the DPT will be equal in magnitude to the tip and opposite to it in phase. After that, the operating current from the operating current source is supplied and the rectifying unit 9 measures the useful signal. The proposed method can also be used to compensate for pickups in magnetoresistors. As a result of its use, the size of the probe is reduced while simultaneously improving the measurement accuracy, and the design of the probe with a galvanomagnetic sensor is simplified. . The invention method for compensating induction in galvanomagnetic sensors, including the creation in the circuit of the sensor EMF, equal in value tip and protivopolomnu her in phase, characterized in that, in order to improve accuracy, a constant current is passed through the pair of electrodes of the sensor; the magnetic field and change the direction of the direct current to obtain the minimum value of the output signal of the sensor, while the magnitude of the current is set equal to p. where f is the frequency of the magnetic field; S - active sensor area; / к, - subspecies of current carriers; R, j is the resistance between the electrodes of the sensor, in whose circuits direct current is passed. Sources of information taken into account in the examination 1. USSR author's certificate number 700847 cl. G 01 R 33/06, 1977. 2. Cobus A. and Tushinsky J. Hall Sensors and Magnetoresistors. M., Energie, 1971, p. 162. .