RU2762518C1 - Broadband ac current sensor on a thin ferromagnetic film - Google Patents

Abstract

FIELD: measuring technology.SUBSTANCE: invention relates to measuring technology. A broadband AC current sensor on a thin ferromagnetic film contains a magnetic field sensor placed in an air gap of an annular core, through which at least one conductor with a current to be measured passes, and a compensation coil wound on the annular core. The novelty is that a highly sensitive broadband sensor of weak magnetic fields based on microstrip resonators with thin magnetic films is used as a magnetic field sensor, and the mode of compensation measurements of this sensor is realized due to feedback carried out using a compensation coil wound on a ring core, and its axis of sensitivity is directed tangentially to the circumference of the annular core.EFFECT: invention provides an increase in the sensitivity of the device and an expansion of the frequency band.1 cl, 2 dwg

Description

The invention relates to measuring technology, and more specifically, is intended for non-contact measurement of the value of alternating current in a wide frequency band and can be used in various measuring and electronic equipment.

Known device for measuring the magnetic field and the current sensor [Patent EP No. 2520945A1, IPC G01R 33/09, G01R 15/20, publ. 07.11.2012, Bul. 2012/45], containing a conductor with a current that forms a magnetic field; a free-form core with a gap located around the current conductor; a magnetic field sensor (Hall sensor, sensor based on giant magnetoresistance), placed not in the gap of the core, but next to it, so that it is influenced by the magnetic field generated by the current conductor. By choosing the shape of the core, it is possible to position the sensor in such a way as to simultaneously provide a high sensitivity of the device and leave the gap in the core free for the conductor with current to move through it.

The closest analogue in terms of a set of essential features is a device for measuring the magnitude of an electric current, including a magnetic flux sensor and is intended in particular for electric transport [US Patent No. 5734264, G01R 1/20, G01R 33/07, publ. 03/31/1998 (prototype)], containing at least one magnetic field sensor, placed in the air gap of the annular core, through which passes at least one current conductor, the value of which must be measured. The compensation coil is wound on a core and connected in series with a measuring resistor. A closed-loop circuit, controlled by the output signal of the magnetic flux sensor, provides the formation of a current in the compensation coil, regardless of the direction of flow of the measured current. The voltage taken from the measuring resistor is applied to the output of the device.

A common disadvantage of the known design and prototype design is low sensitivity and a narrow frequency band, which is due to the types of magnetic field sensors used - these are various types of galvanomagnetic transducers (Hall sensors, magnetoresistive transducers, etc.).

The technical result of the claimed invention is to increase the sensitivity of the device and expand the operating frequency band.

The claimed technical result is achieved by the fact that in a broadband AC sensor on a thin ferromagnetic film containing a magnetic field sensor placed in an air gap of an annular core, through which at least one conductor with a current to be measured passes, a compensation coil wound on an annular core, new is that a highly sensitive broadband sensor of weak magnetic fields based on microstrip resonators with thin magnetic films is used as a magnetic field sensor, and the mode of compensation measurements of a sensor of weak magnetic fields based on microstrip resonators with thin magnetic films is implemented due to feedback, carried out using a compensation coil wound on an annular core, and the axis of sensitivity of the sensor of weak magnetic fields based on microstrip resonators with thin magnetic films is directed tangentially to the circle gnose core.

Comparative analysis with the prototype shows that the claimed device is distinguished by the use as a magnetic field sensor of a highly sensitive broadband sensor of weak magnetic fields based on microstrip resonators with thin magnetic films. Such sensors have high sensitivity, orders of magnitude higher than the sensitivity of, for example, Hall sensors. At the same time, the sensors provide a uniform conversion factor over a wide frequency band.

A significant difference is that the mode of compensation measurements of a sensor of weak magnetic fields based on microstrip resonators with thin magnetic films is implemented using a compensation coil, which is wound on an annular core.

Another significant difference is that the axis of sensitivity of the sensor for weak magnetic fields based on microstrip resonators with thin magnetic films is directed tangentially to the circumference of the annular core, which makes it possible to obtain the maximum sensitivity of the device.

Thus, the above-listed features distinguishing from the prototype make it possible to conclude that the proposed technical solution meets the "novelty" criterion.

The features that distinguish the claimed technical solution from the prototype are not identified in other technical solutions and, therefore, ensure compliance with the "inventive step" criterion for the claimed solution.

The essence of the invention is illustrated by drawings: FIG. 1 shows the structure of a broadband AC sensor on a thin ferromagnetic film without a top cover, and FIG. 2 shows its structure with separated components.

A broadband AC sensor on a thin ferromagnetic film contains (Fig. 1) a housing (1), which houses a printed circuit board (2) of a broadband weak magnetic field sensor based on microstrip resonators with thin magnetic films (3). The sensing element of this sensor, which includes microstrip resonators and thin magnetic films (3), is located in the air gap of the core (4), on which the compensation coil (5) is wound. One or more wires (6) pass through the core (4) with the compensation coil (5), the total current in which must be measured. A magnetic system (7) is located under the sensitive element (Fig. 2), which forms a bias field. In order to reduce interference, the core (4) with the compensation coil (5) can be shielded.

A broadband AC thin ferromagnetic film sensor works as follows. The principle of operation of sensors of weak magnetic fields based on microstrip resonators with thin magnetic films is well known and described, for example, in [RF Patent No. 2536083, IPC G01R33 / 05, G01R33 / 24, publ. 12/20/2014]. An electric current flowing (Fig. 1) along the conductor (6) creates a magnetic flux in the core (4). A uniform magnetic field is formed in the air gap of the core (4), the value of which is measured using a weak magnetic field sensor based on microstrip resonators with thin magnetic films (3). Due to the feedback in this sensor, with the help of the compensation coil (5), a compensation measurement mode is implemented, which allows increasing the stability of the parameters of the claimed device, improving its linearity and expanding its dynamic range.

For practical testing of the operability of a broadband AC sensor on a thin ferromagnetic film, an experimental model was made (Fig. 1). Experimental studies have shown that the device provides measurement of alternating currents with high sensitivity in a wide frequency range - from 10 ^-2 Hz to 1 MHz. The device can be used to monitor power buses of critical devices (power lines for spacecraft, various robotic platforms, etc.). Spectral analysis in a wide frequency band with high sensitivity allows you to monitor various transients in the operation of automation systems, actuators, etc. For example, the assessment of short-term changes in the spectral composition of spacecraft onboard power signals makes it possible to obtain information on the correct execution of the commands of the control device by the actuators and on various failures, while long-term changes in the spectral composition can provide information on the degradation processes of both electronic and electromechanical devices. Analysis of the spectral components of the signals of the supply circuits makes it possible to indirectly evaluate the parameters of operation, for example, of a group of pulse converters of the secondary power supply. The output signal of the device can be digitized using high-speed analog-to-digital converters with high bit depth and processed, for example, using extreme correlation algorithms or neural networks using a prepared database.

Claims (1)

A broadband AC current sensor on a thin ferromagnetic film, containing a magnetic field sensor placed in an air gap of an annular core, through which at least one conductor with a current to be measured passes, a compensation coil wound on an annular core, characterized in that as The magnetic field sensor uses a highly sensitive broadband sensor of weak magnetic fields based on microstrip resonators with thin magnetic films, and the mode of compensatory measurements of the sensor of weak magnetic fields based on microstrip resonators with thin magnetic films is realized due to feedback carried out using a compensation coil wound on an annular core, and the axis of sensitivity of the sensor of weak magnetic fields based on microstrip resonators with thin magnetic films is directed tangentially to the circumference of the ring core.

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