DE1614792A1 - Spool manufactured using thin or thick film technology - Google Patents

Description

16U792

TELEi ¹ UNKEH patent collecting society

m, b. H.
ULm (Danube), Elisabethenstrasse 3

Ulm (Danube), March 20, 1967 ΪΈ / PT-Ka / Eg - U 39/67

"In thin or thick film technology manufactured coil "

The invention relates to a thin or thick film technique Manufactured coil, in which several windings composed of applied conductor paths one as a layer formed core of highly permeable material, in particular ferrite, enclose and in which this core is a closed one magnetic circuit forms.

While resistors and capacitors in thin or thick film technology, i.e. by vapor deposition or screen printing, relatively easy to manufacture, the manufacture of inductors in these techniques presents certain difficulties, especially when it comes to relatively large inductances.

It has already become known to solve this problem

009852/1760

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(Figure 9 on page 110 of the IBM Journal of Research and Development, Vol. 8, No. 2, April 1954) to apply conductor tracks and a ferrite layer to the carrier plate in such a way that the turns formed by the conductor tracks enclose the ferrite layer. In this known arrangement, the ferrite layer is designed so that it represents a closed magnetic circuit.

The known solution is shown in FIG. 1 in a top view and enlarged. The carrier plate 1 only carries here the inductance. Of course, it is also possible to apply the inductance to a carrier plate that at the same time also carries other components manufactured using this technology. The are dashed on the carrier plate drawn line paths, z. B. in screen printing technology, has been applied. Then the ferrite layer 3 is on the Applied carrier plate 1, which has the shape of a frame and the cable runs 2 largely covers. The undressed shown conductor tracks 4, which are above the ferrite layer are applied, are in each case with the opposite ends of two adjacent cable runs 2 in connection and complement the cable runs 2 to findings. If necessary, one can be placed between the conductor tracks and the ferrite layer

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16H792

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Passivation layer introduced to isolate the cable runs will. The connections of the applied to the plate 1 Coil have the reference number 5

With the known solution one can realize inductances up to a few / UH. A disadvantage of the one shown in FIG Inductance is the fact that, for technological reasons, the ferrite layer can only be produced in a small thickness is driven into saturation when the coil is used, which has the known disadvantages. An enlargement of the core volume, which would eliminate this disadvantage, brings with the known solution the disadvantage that the space requirement the coil is greatly enlarged. For this reason, this path is also not feasible.

The object of the invention is to provide a To create a coil that does not have the disadvantage mentioned above, that is, with the same space requirement as that in FIG The coil shown has a larger ferrite volume and therefore cannot be so easily driven into saturation.

For the solution of this problem an arrangement is assumed, in the similar to the known coil described above several

009852/1760 bathroom "Mm".

16U792

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Windings composed of applied conductor tracks form a core of highly permeable material formed as a layer enclose. In addition, in the case of the invention formed coil the core can be designed as a self-contained magnetic circuit

According to the invention this is achieved in that the closure of the circle by an above or below that of the second layer lying around the windings is also made of highly permeable material; the two Layers lying one on top of the other should be at their edges are at least partially in contact. In the embodiment according to the invention, compared to the arrangement of FIG the unused area inside the ferrite frame 3 is also used Kerns increased with the same space requirement, with the result that the core is driven into saturation less quickly. Enough the number of turns that can be applied to the core does not count, so it is possible to also use the second, the magnetic circuit surrounding the closing layer with turns, in the same way as the turns already mentioned above, which form the first Surrounding layer, are applied.

009852/1760

16U792

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Sin embodiment of one designed according to the invention Coil is shown in Figures 2a and 2b. FIG. 2a shows a plan view of the coil according to the invention, while in FIG. 2b a section through the coil according to the invention is shown. With regard to FIG. 2b, it should be noted that the individually superimposed layers provide greater clarity are shown for the sake of planar layers. In practice, the individual layers stacked against each other to the underlying surface. The simplicity of the-.r For the sake of illustration, only one carrier plate was used here as well shown on which the inductance formed according to the invention is upset. Here, too, however, it is possible to apply the coil according to the invention to a carrier plate, which carries further components designed in thin or thick film technology.

As in Figure 1, the carrier plate is also in the figures 2a and 2b denoted by 1. The conductor tracks 2 shown in dashed lines in FIG. 2a are on this carrier plate

applied, e.g. B. by using screen printing technology. Possibly an insulating layer 6 can be applied to these conductor tracks 2. This insulating layer is necessary if the highly permeable material used is conductive. A layer of 3 highly permeable material is then applied to this,

00985271760

16U792

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ζ. B, ferrite material. The one above this ferrite layer lying conductor tracks 4 together with the conductor tracks 2 form the turns of the coil The layer 7 is used to close the magnetic circuit lies above the conductor path.n 4 another layer of highly permeable material 8 between the lines 4 and the layer of highly permeable material 8, an insulating layer 9 is also provided here. At the edges 10 of the layers of highly permeable material are these in contact with each other. This closes the magnetic circuit.

As the comparison of Figures 1 and 2 shows, the amount is of the highly permeable material in the embodiment of FIG. 2 is greater. So you go with the invention Coil less quickly into the saturation area of the ferrite material

In practice, the number of turns applied to the core 3 in the figure will be greater than in FIG. 2a adopted for simplicity. However, if the number of turns to be accommodated on the core 3 is insufficient, so you can according to a further development of the invention

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16U792

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Provide turns that abier the layer 8 from hochpenne. Enclose material. For this purpose, it is only necessary to apply further winding parts above the insulating layer 9 and also to provide winding point on the ferrite layer 8, the two being applied separately here too Turn parts together result in the turns of the coil. In practice, the turn parts 4 are opposite the connecting parts to be applied to the insulating layer 9 Relocate something spatially or separate from them by an additional insulating layer.

The coil designed according to the invention also has an inductance up to some / UH on.

009852/1760

Claims (2)

16U792 - 8 - U 59/67 P at e nt a η s ρ r ü che 1, / Ia thin or thick film manufactured coil, at the multiple composed of applied Loitungsbahnen A core of highly permeable material, in particular ferrites, embodied as a layer, is enclosed, and in which this core is designed as a self-contained magnetic circuit, characterized in that that the circle is closed by a layer lying above or below the layer enclosed by the windings The second layer is also made of liochpöimable material is, the two superimposed layers are at least partially in contact at their edges " 2. inductance according to claim "», characterized in that that the second layer of highly permeable material is also enclosed by turns made up of conduction paths is. BATH 0 0 9 8 5 2/1760