SU1517069A1 - Toroidal induction element - Google Patents

Abstract

The invention relates to electrical engineering and can be used in radio engineering and converter technology. The aim of the invention is to reduce the overall dimensions of the inductive element by reducing the height of the inductive element while maintaining the specified overall power. The inductive element contains a toroidal magnetic core with a trapezoidal cross section, the small base of which is facing the magnetic core window, the U-shaped winding elements are made with expansion in the direction of the outer diameter and increase in height in the direction of the internal diameter of the magnetic circuit. Such an inductive element design allows it to be fabricated with a rectangular outer contour of the cross section, i.e. more flat, with smaller dimensions. 1 hp f-ly, 2 ill.

Description

The invention relates to the field of electrical engineering and can be used in radio electronics and converter technology.

The aim of the invention is to reduce the overall dimensions of the inductive element by reducing the height of the inductive element while maintaining the specified overall power.

FIG. 1 shows an inductive element, a cross section; in fig, 2 - the same, vi -. from above.

The inductive element consists of a toroidal magnetic core 1 with a trapezoidal cross-section, the small base of which is facing the window of the magnetic core, the U-shaped elements of the winding 2 are made with an expansion of the outer diameter and an increase in height towards the inner the diameter of the magnetic circuit, and in the inner side of the inductive element. This design of the inductive element makes it possible to manufacture it with a rectangular cross-section of a more compact and flexible STEET design with smaller dimensions. Justification of the choice of ratios of the heights of the magnetic circuit and P-shaped x winding elements to the next "

From the condition that the winding cross section remains unchanged along the entire perimeter of the cross section of the magnetic circuit, we find / -.

S. f () Subscribe ,,,.

SD

About O)

where Spg is the cross-sectional area of the winding; CjD, the inner and outer diameters of the magnetic circuit and the inner diameter of the inductive element (technological gap), respectively;

h, b „- the height of the winding at the diameters of the magnetic circuit C and D, respectively,

The overall winding height is determined by the largest of the listed winding heights, i.e. h, by the formula

one

which is the reason for the increase in height of the entire inductive element.

If in a known inductive element the height of the magnetic circuit with external diameter D is increased by a value with a corresponding decrease in its internal diameter C, then the sectional area of the magnetic circuit remains unchanged: but the possibility appears: to reduce the height of the entire inductive element by the same magnitude. The corresponding winding element, with this, is made with a height that extends from the outer diameter to the inner diameter, giving the cross section of the inductive element a rectangular shape while simultaneously reducing the total height of the inductive element by

, , „G lgh ().

,, tiHf (C -d; - ,,, „

dh hg, Hf -o; ACD For example, the transition to the proposed design in the manufacture of inductive

Any element on a ferrite core of frame size K32 x 16x8, under unchanged other conditions, gives a gain of 2 mm in height.

Claims (1)

Invention Formula 1 o A toroidal inductive element containing a magnetic conductor and a winding made of U-shaped elements forming a continuous sequence of turns having a constant section along the winding length, characterized in that, in order to reduce overall dimensions, the small base of which faces the magnetic conductor window, and the winding is made with a cross section having a rectangular outer contour. 2, The element according to claim 1, about tl and - due to the fact that. the difference in height of the maglithoboron with its external and internal diameters is equal to the difference between the heights of the winding of the winding with the internal and external diameters of the magnet plate and is determined by the shape ,, „. (ov ,,), C, D, respectively, the inner and outer diameters of the magnetic circuit; (- diameter of the technological gap or channel in the window of the inductive element. l four / / 2