Semi-conducting layer for insulated electrical conductors
First Claim
1. An internal grading layer for an electrically conductive winding which includes a plurality of conductive strands bundled together in at least two adjacent columns and a first strand of said plurality of conductive strands being transposed with respect to a second strand of said plurality of conductive strands in an adjacent column, an inert transposition filler material disposed proximate said conductive first and second strands to round off that portion of the bundled together conductive strands, said bundled together conductive strands and said filler material being surrounded by an insulative material, the internal grading layer comprising:
- a semi-conducting pyrolyzed glass fiber layer having a resistivity in a range of 200 to 10,000,000 ohms per square disposed between said filler material and said insulative material in intimate contact with said insulative material and electrically coupled to said conductive first and second strands.
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Accused Products
Abstract
A semi-conducting pyrolyzed glass fiber layer equalizes the electrical potential on the exterior surface of an insulated conductor when the layer covers the surface. The layer prohibits the development of a corona discharge and bleeds off any electrical charge developed thereon when the layer is electrically coupled to a body having a known potential. The insulated conductor may be windings in a dynamoelectric machine.
84 Citations
2 Claims
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1. An internal grading layer for an electrically conductive winding which includes a plurality of conductive strands bundled together in at least two adjacent columns and a first strand of said plurality of conductive strands being transposed with respect to a second strand of said plurality of conductive strands in an adjacent column, an inert transposition filler material disposed proximate said conductive first and second strands to round off that portion of the bundled together conductive strands, said bundled together conductive strands and said filler material being surrounded by an insulative material, the internal grading layer comprising:
a semi-conducting pyrolyzed glass fiber layer having a resistivity in a range of 200 to 10,000,000 ohms per square disposed between said filler material and said insulative material in intimate contact with said insulative material and electrically coupled to said conductive first and second strands.
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2. A device in an electromagnetic machine comprising:
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an electrically grounded core defining axially extending, circumferentially spaced, radially directed slots; a plurality of insulated windings disposed in said slots, each winding including; a plurality of conductive strands bundled together in at least two adjacent columns; a first conductive strand of said plurality of conductive strands being transposed with respect to a second conductive strand of said plurality of conductive strands in an adjacent column; an inert transposition filler material disposed proximate said first and second conductive strands to round off that portion of the bundled together conductive strands; a semi-conducting pyrolyzed glass fiber layer, having a resistivity in the range of 200 to 10,000,000 ohms per square covering said filler material, being in intimate contact with an outer surface of said filler material and with an insulative material and being electrically coupled to at least said first and second conductive strands; said insulative material substantially surrounding said windings; and means for retaining said insulated windings in said slots.
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Specification