Method of manufacture of miniaturized transformer
First Claim
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1. The method of making a miniaturized transformer comprising the steps of:
- supporting on rigid non-magnetic substrate means a first metallization pattern in the form of a matrix of conductive particles arranged in a multi-turn planar spiral winding configuration about a central opening in the substrate means;
applying a first overlay of high-temperature firable dielectric insulating material to cover said first metallization pattern;
supporting on said substrate means a second metallization pattern in the form of a matrix of conductive particles arranged in a multi-turn planar spiral winding configuration about the central opening of said substrate means;
said second winding being essentially coextensive with said first winding and conductively isolated therefrom;
applying a second overlay of high-temperature firable dielectric insulating material to cover said second metallization pattern;
firing said conductive particles and said dielectric material at a high temperature to fuse said conductive particles into continuous conductors forming separate planar windings and to solidify said insulating dielectric material to form rigid pancake-like structures with said windings embedded and hermetically sealed therein;
placing in said central opening a pre-formed solid magnetic core having a return path completely surrounding said substrate means;
establishing two pairs of connections to the ends of said two windings, respectively, with one connection of each pair extending across the corresponding winding to the interior region adjacent said central opening;
said pairs of connections being established by;
applying a third metallization pattern over one of said overlays of insulating dielectric to form a path from the inner part of the corresponding spiral winding to a region adjacent the outer part of the spiral by depositing conductive material on said substrate means to form a cross-over conductive pattern over said windings;
depositing conductive material on said substrate while laying down said first and second patterns to form at least one vertical staircase conductor in the interior of the spiral windings and leading from one winding end to said conductive cross-over;
applying a third overlay of high-temperarture firable dielectric insulating material to cover said third metallization pattern;
firing the conductive particles of said third metallization pattern and said third overlay of dielectric insulating material to form said particles into a continuous conductor running along said path and to solidify said third overlay of dielectric insulating material, thereby to form said cross-over pattern of conductive material for establishing connections to the inner part of said spiral winding; and
firing said additional layer at high temperature thereby embedding said conductive cross-over in said layer for providing interconnections between said windings.
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Abstract
A miniaturized thick-film isolation transformer comprising two rectangular substrates each carrying successive screen-printed thick-film layers of dielectric with spiral planar windings embedded therein. The spiral windings comprise conductors formed of fused conductive particles embedded within a layer of dielectric insulating means solidified by firing at high temperature to form a rigid structure with the windings hermetically sealed within the dielectric and conductively isolated from each other within the transformer. The substrates are formed at opposite ends thereof with closely adjacent connection pads all located at a single level to accommodate automated connection making. Connections between the pads and the windings are effected by conductors formed of fused conductive particles. The substrates and the dielectric layers are formed with a central opening in which is positioned the central leg of a three-legged solid magnetic core. The remaining portions of the core surround the two substrates to form a compact rugged construction especially suitable for assembly with hybrid integrated circuit components.
109 Citations
4 Claims
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1. The method of making a miniaturized transformer comprising the steps of:
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supporting on rigid non-magnetic substrate means a first metallization pattern in the form of a matrix of conductive particles arranged in a multi-turn planar spiral winding configuration about a central opening in the substrate means; applying a first overlay of high-temperature firable dielectric insulating material to cover said first metallization pattern; supporting on said substrate means a second metallization pattern in the form of a matrix of conductive particles arranged in a multi-turn planar spiral winding configuration about the central opening of said substrate means;
said second winding being essentially coextensive with said first winding and conductively isolated therefrom;applying a second overlay of high-temperature firable dielectric insulating material to cover said second metallization pattern; firing said conductive particles and said dielectric material at a high temperature to fuse said conductive particles into continuous conductors forming separate planar windings and to solidify said insulating dielectric material to form rigid pancake-like structures with said windings embedded and hermetically sealed therein; placing in said central opening a pre-formed solid magnetic core having a return path completely surrounding said substrate means; establishing two pairs of connections to the ends of said two windings, respectively, with one connection of each pair extending across the corresponding winding to the interior region adjacent said central opening; said pairs of connections being established by; applying a third metallization pattern over one of said overlays of insulating dielectric to form a path from the inner part of the corresponding spiral winding to a region adjacent the outer part of the spiral by depositing conductive material on said substrate means to form a cross-over conductive pattern over said windings; depositing conductive material on said substrate while laying down said first and second patterns to form at least one vertical staircase conductor in the interior of the spiral windings and leading from one winding end to said conductive cross-over; applying a third overlay of high-temperarture firable dielectric insulating material to cover said third metallization pattern; firing the conductive particles of said third metallization pattern and said third overlay of dielectric insulating material to form said particles into a continuous conductor running along said path and to solidify said third overlay of dielectric insulating material, thereby to form said cross-over pattern of conductive material for establishing connections to the inner part of said spiral winding; and firing said additional layer at high temperature thereby embedding said conductive cross-over in said layer for providing interconnections between said windings. - View Dependent Claims (2, 3, 4)
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Current AssigneeAnalog Devices, Inc.
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Original AssigneeAnalog Devices, Inc.
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InventorsBokil, Delip R., Morong, William H. III
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Primary Examiner(s)Hall, Carl E.
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Application NumberUS06/403,805Time in Patent Office1,180 DaysField of Search29/602 R, 29/605, 29/846, 29/851, 336/83, 336/200, 336/232, 336/205, 336/229US Class Current29/602.1CPC Class CodesH01F 2019/085 Transformer for galvanic is...H01F 2027/2819 Planar transformers with pr...H01F 27/2804 Printed windingsH05K 1/092 Dispersed materials, e.g. c...H05K 1/165 incorporating printed induc...H05K 3/4664 Adding a circuit layer by t...Y10T 29/4902 Electromagnet, transformer ...Y10T 29/49155 Manufacturing circuit on or...Y10T 29/49163 with sintering of base
