SU1170872A1 - Device for measuring electromagnetic interference currents - Google Patents

Abstract

A DEVICE FOR MEASURING ELECTROMAGNETIC INTERFERENCE MEASURES, containing a split ferromagnetic magnetic core, equipped with a winding and impurities in a split shielding case, a high-frequency connector, mounted on the case between the output terminals of the winding and the input terminals of the selective microvoltmeter, which is running on the box between the output microvoltmeter and the ramp of the target, the target, the target, is not at the target and is not at the target and is not at the target and is not at a target surface and has the target surface and the target, the target surface and the target, is not at the same position and the target of the target, the target, a target surface pattern, a target surface pattern, a target surface pattern, a target, a target, a target, a target, 22, 20, 20), 22, 20, 14), 22 L-shaped ledge is made, and on the other half - an eccentric cylindrical glass with a lock and a slot, and the lock is located in the area the greatest eccentricity, and the slot in a plane perpendicular to the body.

Description

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This invention relates to electrical measuring equipment and is intended for use in contactless investigation of electromagnetic interference.

The aim of the invention is to improve the measurement accuracy.

Figs, 1 and 2 are given the constructive scheme of the proposed device in two projections; on fig.Z - 6-. device in the closed and open position.

The device contains a split ferromagnetic magnetic core 1 (FIG, 1), made of a material with high magnetic losses, ensuring the elimination of resonance in a wide frequency band (for example, from the MFC 90A altsifer). The winding 2 is applied to the magnetic circuit 1 in one layer to reduce its own capacitance and contains the number of turns required to obtain the corresponding calibration factor K, which is the main metrological characteristic of the device. Magnetic circuit 1 with winding 2 is placed in a split shielding building 3, made of a non-magnetic electrically conductive material, such as an aluminum alloy, and constituting an electrical shield of the device. The internal cavity of the housing 3 is provided with a gap 4 to prevent the formation of a short-circuited coil.

The high-frequency cut 5 is mounted on the outer part of the housing 3 and serves to connect a selective micro-BOL meter (not shown in Fig. Not shown. One of the halves of the housing 3 has a reinforced strap 6) To tighten the magnetic core 1 and the housing 3 serves the strap 7 with an L-shaped ledge 8, which is with the part of the body 3, on the bar 6, the axis 9 is fixedly supported, on which the eccentric cup 10 with the slot 11 freely rotates. The latch, made in the form of a ball 12 and a spring 13, is located in the region of the greatest eccentricity of the cylindrical cup 10. The slot 11 races olozhena in a plane perpendicular to the casing 7 3.Planka as to provide screening slots of the housing 3 in place of the aperture is displaced relative to the housing 3 by an amount a. In this case the total displacement from its ledge amounted 8 exhibits a value f, and large.

The device works as follows.

Inside the magnetic core 1, the test wire is placed, forming a current transformer, in which the test wire serves as the primary winding, and the winding 2 on the magnetic core 1 - the secondary one. To do this, the device is opened by rotating the eccentric glass 10 until the latch clicks, meaning that the slot 11 in the glass 10 is directly opposite the reciprocal step 8,

After covering the test wire, body 3 is closed and its half is tightly tightened by rotating cup 10. Using a selective microvoltmeter connected to high frequency connector 5, the interference voltage U dB / µV is determined. The measured current I dB / µA is calculated by the expression where K is the calibration factor.

The offset of the strap 7 relative to the aperture provides shielding of the magnetic circuit 1 in the aperture of the housing 3, which reduces the measurement error (excludes external pickups). The introduction of the ledge 8 into the slat 6 prevents lateral displacement of the halves of the housing 3, and the interaction; step 8 with cup 10 allows the two halves to be reliably shrunk, which ensures repeatability of the measurement results and also contributes to the reduction of the error. The presence of the lock allows the operative opening and closing of the device during its operation.

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Claims (1)

DEVICE FOR MEASURING 'ELECTROMAGNETIC INTERFERENCE CURRENTS, containing a split ferromagnetic magnetic wire, equipped with a winding and placed ^; in a split shielding case, a high-frequency connector mounted on the case between the output terminals of the winding and the input terminals of a selective microvoltmeter, characterized in that, in order to increase accuracy, a G-shaped ledge is made on one half of the case and an eccentric on the other half a cylindrical glass with a retainer and a slot, the retainer being located in the region of greatest eccentricity, and the slot in a plane perpendicular to the body.