Method for embedding wires within a powder metal core and sensor assembly produced by such a method
First Claim
1. A powder metal subassembly for supporting and electrically connecting a magnetic field responsive electrical element, said subassembly comprising:
- a compacted powder metal body having opposed end faces;
said body predominantly being of a high coercivity permanent magnet material, with one of said opposed end faces of said body being formed of a layer of a high permeability soft magnetic material,at least one electrically conductive wire having a portion embedded within said powder metal body between said opposed end faces, said wire having one end exposed on and substantially coterminous on said one opposed end face and its other end having a length projecting substantially beyond the other of said opposed end faces;
means on said coterminous end of said wire for making low resistance electrical connection with a magnetic field responsive electrical element,the length of said embedded wire extending beyond said other of said opposed end faces being effective to facilitate external connection to said magnetic field sensitive element; and
means for electrically insulating said powder metal body from said embedded at least one electrically conductive wire, effective to make a subassembly that not only exhibits a wave of magnetic flux traveling across said one opposed end face of said body in response to movement of a member to be sensed, but also facilitates support of and electrical connection to a magnetic field sensor element on said one opposed end face.
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Accused Products
Abstract
A semiconductor magnetoresistive sensor and a method for its assembly is specifically provided. The preferred assembly method of this invention is compatible with automated semiconductor chip placement and packaging technology, so as to alleviate the previous requirement that the semiconductor sensing element be separately packaged. The sensor leads are substantially embedded within a powdered metal permanent magnet body. An exposed terminal end of each lead is available for electrical and adhesive contact to a subsequently attached magnetoresistive semiconductor sensing element, using conventional semiconductor placement and packaging techniques. The powdered metal magnetic body is preferably formed by utilizing powder metal compaction techniques, wherein the powder metal is compacted around the interior electrical leads. The teachings of this invention may also be employed to form a variety of electrical sensors and devices, wherein the leads are substantially embedded within a metal core so as to produce a solid assembly. The embedded leads may have a variety of shapes, such as straight or coiled, may range in number from one to a plurality, and may have a variety of physical properties, such as magnetic or non-magnetic, depending on the desired application.
91 Citations
9 Claims
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1. A powder metal subassembly for supporting and electrically connecting a magnetic field responsive electrical element, said subassembly comprising:
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a compacted powder metal body having opposed end faces; said body predominantly being of a high coercivity permanent magnet material, with one of said opposed end faces of said body being formed of a layer of a high permeability soft magnetic material, at least one electrically conductive wire having a portion embedded within said powder metal body between said opposed end faces, said wire having one end exposed on and substantially coterminous on said one opposed end face and its other end having a length projecting substantially beyond the other of said opposed end faces; means on said coterminous end of said wire for making low resistance electrical connection with a magnetic field responsive electrical element, the length of said embedded wire extending beyond said other of said opposed end faces being effective to facilitate external connection to said magnetic field sensitive element; and means for electrically insulating said powder metal body from said embedded at least one electrically conductive wire, effective to make a subassembly that not only exhibits a wave of magnetic flux traveling across said one opposed end face of said body in response to movement of a member to be sensed, but also facilitates support of and electrical connection to a magnetic field sensor element on said one opposed end face. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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Specification