SU783689A1 - Apparatus for recording magnetic field - Google Patents

Description

(54) DEVICE FOR REGISTRATION OF MAGNETIC FIELD

The invention relates to the field of recording the magnitude and polarity of a constant magnetic field and can be used in industrial automation devices. Magnetic field recorders are known that contain an inductive transducer with a ferromagnetic heart, the parameters of which change under the action of an auxiliary variable and measurable permanent magnetic fields, as well as generating relaxation oscillations when the parameters of the reverse link 1 change. However, these devices do not can register the magnitude and field of the magnetic field. The aim of the invention is to improve the registration accuracy of the magnetic field. This goal is achieved by the fact that a device containing an inductive transducer with a ferromagnetic core, a feedback excitation and output windings, as well as an amplifier, are inserted into the second secondary feedback winding, the end of which and the beginning of the first feedback winding are connected to a common bus, and the end of the first and the beginning of the second feedback windings are connected to the anodes of the respective diodes, the cathodes of which are connected to the input of the amplifier. A schematic diagram of a device for recording a magnetic field is not presented. In the drawing, the device contains an active induction converter in the form of a ferromagnetic core 1, two identical excitation windings 2 and 3 placed at the ends of the core symmetrically with respect to the center, two feedback windings 4 and 5, diodes 6 and 7., as well as a capacitor 8, a transistor 9, the output winding 1U and the resistor 11. The beginning of the windings is conventionally shown as a dot. The device works as follows. In the initial state and in the absence of a magnetic field (or when its value is sufficiently small), the process of self-excitation is impossible, since the slightest changes in the collector current in windings 2 and 3 induce electromotive forces in windings 4 and 5 of the same magnitude. In the output winding, | 10 EMF is zero. In the collector

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Claims (3)

78368 A small current is flowing through the circuit, which is detected by the resistor 11. When exposed to an external constant magnetic field of a certain polarity, the core goes into one of the two regions, saturates, and the equilibrium condition is broken. For example, if in winding 3 a varying Toj creates a magnetic flux, coinciding in direction with an external field, then in winding 2 the same current creates a magnetic flux that leads the core to a linear region. As a result, | The emf in o6MOTijax 4 and 5 will increase, one of the diodes (for example, b) will open and through capacitor 8 a positive feedback voltage will be applied to the base-emitter section of the transistor 9. A blocking process occurs at which the pulse is formed. collector current, and in the high winding 10 the polarity of the voltage is determined by its flux linkage with the winding 2. When changing the polarity of the outer magnet, similar processes occur, however, in the output winding 10, the polarity of the voltage is reversed, since the EMF in it caused flow coupling with the winding 3. The use of the invention ensures high efficiency of the magnetic field recorder in positional automation systems. Claims An apparatus for detecting a magnetic field, comprising an induction transducer with a ferromagnetic core, a feedback excitation winding and an output winding, and an amplifier, characterized in that, in order to improve the recording accuracy, diodes and a second feedback winding are inserted into it, the end which and the beginning of the first feedback winding are connected to the common bus, and the end of the first and the beginning of the second feedback winding are connected to the anodes of the respective diodes, the cathodes of which are connected to the amplifier input. Sources of information taken into account in the examination: 1. Leyman A.A. Self-generating magnetic transistor sensors and relays. M ,, Energie, 1971, p. 76.