SU875488A1 - Current transformer with transverse magnetization - Google Patents

Description

(54) TO.KA TRANSFORMER WITH TRANSVERSE SWITCHING

one

The invention relates to electric power industry, and more specifically to high-voltage electrical equipment, transmission and control of electrical energy, and can be used in; measuring devices.

Closest to the present invention is a current transformer with a Iliovichi compensation circuit, characterized in that the magnetic core of the transformer is divided into two halves. The secondary winding covers both halves of the magnetic circuit in the same direction, and the two parts of the magnetizing winding are wound on the corresponding halves of the magnetic circuit and are turned on in the opposite direction.

The disadvantage of this trans: formator is the need to wind the bias winding on each half of the magnetic core and the difficulty of making a secondary winding that covers both halves of the teroidal magnetic core. The use of magnetic cores in the form of separate halves considerably complicates the technology of manufacturing and installing a current transformer at the place of operation.

The purpose of the invention is to eliminate / indicated disadvantages and increase

accuracy by compensating for current transformer errors.

The goal is achieved by the fact that, in a known transformer, a current having a magnetic core of two separate halves, a magnetizing winding wound on each half of the magnetic core and a secondary cover covering both halves of the magnetic core,

10, a twisted toroidal magnetic core is made of a composite with an internal air channel of rectangular shape, in which a ring secondary winding is placed, connected to an adjustable current source. Secondary around the coil covers the composite magnetic circuit., /

The bias winding creates

20 transverse magnetic flux uncoupled with the working windings, which magnetises the magnetic circuit, increasing the magnetic permeability of steel, which leads to a decrease in the current transformer errors. By adjusting the current of the magnetizing winding, it is possible to significantly increase the class of the transformer. the drawing shows the

30 {transformer, general sectional view.

The transformer contains a secondary winding 1, an isolation layer 2, a spacer 3 between the component parts 4 or 5 of a toroidal twisted magnetic conductor, a layer 6 insulation above a magnetic pole of winding 7, and a magnetic winding pin 8. One of the parts of the magnetic circuit 4 is made with an air channel in which the magnetizing winding is located. The location of the primary winding depends on the design of the transformer.

The use of the described current transformer significantly increases the accuracy class of instrumentation equipment.

Claims (1)

1. Bachurin N.I. Transformer Hoka, M., Energie, 1964, ;WITH. 43-72.