SU983558A1 - Large direct current measuring tongs - Google Patents

Description

X 1.

The invention relates to measuring, engineering, in particular, to best contact measurements of high direct currents.

A compensating type direct current sensor is known, which contains a magnetic circuit with two saturation throttles installed on both sides of the conductor, a power supply unit and an amplifier in the compensation circuit G 1 b

The disadvantages of such a DC sensor are the complexity of the design, the inability to measure tire currents of any configuration without additional calibration (the need to use a special calibration conductor), and low measurement accuracy due to a significant effect on the measurement result of external magnetic fields and a slight displacement of the magnetic cores relative to each other.

The measuring clamp of large direct currents is known, which contains a detachable magnetic core consisting of separate ferromagnetic elements with gaps between them, a measuring winding and a modulating winding passing through two through holes made in each ferromagnetic element, and the meter for the winding is connected to the input measuring device 2.

The disadvantage of such measuring ticks is the low measurement accuracy due to the summation of the errors introduced by the individual transformation links.

At the same time, it is almost impossible to use a compensating transducer, since in the known device there are air gaps between the ferromagnetic elements of the detachable magnetic core, whose magnetic resistance is three or four times greater than the magnetic co. resist steel ferromagnetic elements and, therefore, to create the necessary compensating magnetic flux, directed to the magnetic flux of the measured direct current, requires the use of a powerful source of compensating magnetizing force, and consequently, a powerful amplifier, which in turn leads to a large energy consumption , to increase the size of the device. The purpose of the invention is to increase accuracy. The goal is achieved by the fact that the measuring pincers of large direct currents containing a registering device, a detachable magnetic conductor in the form of separate ferromagnetic elements with gaps between them, the measuring winding and the modulating winding passing through two through holes of each ferromagnetic j element are equipped with variable gain amplifier, detector and compensation winding, ferromagnetic elements are 0-shaped, with measuring and modulating windings and located on the inner rods of the magnet duct, and compensatory on the outer, the leads of the measuring winding are connected to the input of an amplifier with an adjustable gain factor 8 whose input is connected to the input. the detector, the first output of which is connected to the first output of the compensation winding, and the second output through a recording instrument with the second output of the compensation winding. The drawing shows the measuring pliers of high direct currents. Pliers contain detachable magnetic core made of separate 0-shaped ferromagnetic elements 1 with gaps between them. Each ferromagnetic element 1 contains internal 2 and external 3 rods. Vit. Is wound on the inner rods x 2 of each ferromagnetic element 1 through two through holes. ki modulating winding k, connected in series and connected to a stable source of alternating current. The coils of the measuring winding 5 are evenly placed on top of the modulating winding between the through holes and connected through the amplifier b and detector 7 to the terminals of the compensation winding 8 located on the external rods x 3 of the magnet duct. The measuring device 9 is connected to the feedback circuit. The magnetic circuit covers the bus 10 with the measured current. The device works as follows. When the modulating winding C is supplied with alternating current in the inner rod 2, covered by the turns of the measuring winding 5, an alternating magnetic flux F is created. In this case, the output signal of the measuring winding 5 is absent. After covering the tire 10 with the measured direct current, the latter in the longitudinal rods 2 and 3 of the ferromagnetic elements 1 creates a magnetic flux F,., Resulting in the appearance of an emf at the output of the measuring winding 5. This emf after amplification by the amplifier 6 and straightening the detector 7 is applied to the compensation winding 8. As a result, a magnetic flux Φ is generated, which in the inner rod 2, where the measuring winding 5 is located, is directed oppositely to flux F., the emf at the output of the measuring winding 5 is amplified by amplifier 6 until prod just past coincidence in absolute value of magnetic fluxes F and Fi. At the same time, the measurement accuracy of the proposed device is enhanced by the compensation measurement method. This leads to an increase in the sensitivity of the measuring pincers of large direct currents. At the same time, the power of the compensating magnetomotive force source is small due to the fact that only individual ferromagnetic elements are re-magnetized. A significant advantage of the proposed device is also the use of a single amplifier and detector for generating the signal, as well as a commanding output. Thus, the proposed measuring dies of large direct currents are characterized by high metrological qualities in combination with efficiency, simplicity of the structures.

Claims (1)

Claim High constant current measuring clamps containing a recording device, a detachable magnetic conductor in the form of separate ferromagnetic elements with gaps between them, a measuring winding and a modulating winding passing through two through holes made in each ¹⁰ ferromagnetic element, characterized in that, with In order to increase accuracy, they are equipped with an amplifier with an adjustable gain, a detector and a compensation * 5 winding, ferromagnetic elements are O-shaped, while measuring and mod liruyuschaya 983558 winding 6 are arranged on the inner magnetic core rods, and a compensation winding - on the outer you _s water measuring winding connected to inputs of an amplifier with a variable gain whose output is connected to the input of the detector, a first output connected to a first vyvodom'kompensatsionnoy winding, and the second output through a recording device with a second output of the compensation winding,