DE1776091U - PRINTED CIRCUIT WITH SPIRAL WINDINGS OF INDUCTIVITY APPLIED TO THE CIRCUIT SUPPORT PLATE. - Google Patents

Description

Printed circuit with spiral windings of an indiz on the circuit board activity, It is well known in so-called inductive printed circuits! - * would do by starting spiral windings from the pollen coating of the Circuit carrier plate: set up <, the innovation has an arrangement to the subject, which serves to increase the self-induction of such printed inductances and which generally makes it possible to light to combine the external magnetic field of the inductance push .. according to yours, this is done in such a way that the win <* connections ur circuit carrier plate flat parallel with a Layer or a disk made of ferromagnetic material, especially special strongly sheared ferromagnetic material (carbonyl iron powder mass, ferrite powder mass or magnetic oxide powder mass), on one or both sides of the carrier plate covers are «In a favorable manner one will be responsible for the achievement of the Innovation washers made of flexible plastic with a high additive ferromagnetic. Powder materials (ferrite powder, oxide powder or iron powder) Such discs can be made from consist of a ferromagnetic powder mixed with PVC, wherein the magnetic powder content at least. 80 of the total weight of the Should make up a mixture that is sufficiently flexible for use to obtain elastic cover disk material. To simplify the connection of the cover disks to the interface carrier plate, the winding cover disks can be provided with a self-adhesive coating. The adhesive layer can also, similar to the known quick bandages, with an easily removable protective layer made of gauze or the like. be provided, especially if the flexible plastic disks with the addition of magnetic powder are not used directly in their manufacturing facility as winding cover disks.

The cover disks do not need to be significantly larger than the external dimensions of the spiral winding u «The thickness of these disks can be less than 1 mmt, preferably even 4 to 6 tenths of a will. With such a double-sided covering of a printed inductance, an increase in the self-induction of about 50% compared to an uncovered inductance of the same type was achieved. In the drawing, the innovation is shown as an exemplary embodiment. 1 is a known Schaltngstragerplatte as it is for so-called printed circuit boards used 2 is one of Spiralwin- thing-formed inductance which, like the other processing strands can be printed or glued on. 3 is an approximately 1/2 mm thick disk made of flexible plastic with a high addition of ferromagnetic materials, in particular per powder. This disk 3. is by means of a self-adhesive known per se glued to the plate 1 so that the spiral windings of the inductive an identical disk 4 made of flexible elastic Shem plastic material with a high proportion of ferromagnetic powder is located on the side of the windings 2 is turning. 5 and 6 are soldering lugs for the electrical connection of the printed inductance.

The adhesive used to connect the cover 3 to the plate 1 must not attack copper or copper alloys and he must have an insulating layer between the turns of the inductive vity and the possibly «electrically conductive flexible cover plate 3 form.

Claims (4)

Schtzansy-ache Printed circuit-with on the circuit-board carrier plate- brought spiral windings of an inductance, thereby identifying shows that the turns to the circuit board are covered in parallel with a layer or a disk made of ferromagnetic material, in particular strongly sheared ferromagnetic material on one side or both sides of the carrier plate. 2,) Printed circuit according to claim 1, characterized in that the winding cover of flexible plastic disks of small thickness with a high addition of ferromagnetic work materials to plastic (ferrite powder, oxide powder or iron Powder) is formed. 3.) Printed circuit according to claim 1 or 2 characterized by gel, that the winding cover washers with a self-adhesive coating for gluing the same on the coil carrier plate or provided on the turns of the inductance are. 4.) Printed inductance, in which turns (2) of a flat spiral coil are printed on a circuit board (1) in a manner known per se, which are connected to a disk (3) from eta de Durehmesser the outer spiral windvmg by up- glue this disc (3) to the carrier plate (1) covered are, the cover plate made of flexible plastic with high Proportion of ferromagnetic (peerite powder, iron powder, oxide powder) and a disc (4) made of the same material as the disc (3) is glued to the side of the plate (1) facing away from the spiral windings in the area of the coil windings (2). 5,) Printed circuit with applied to the circuit board Spiral windings of an inductance, characterized by those described and illustrated Individual or overall features.