Current sensing devices and methods
First Claim
1. A current sensing inductive device, comprising:
- a plurality of segmented winding elements, each element comprising a conductive wire having a plurality of winding turns, the conductive wire configured to electrically couple a leading one of the plurality of segmented winding elements with a trailing one of the plurality of segmented winding elements;
wherein the plurality of segmented winding elements each comprise a discrete bobbin element;
wherein each of the discrete bobbin elements comprises;
a winding channel in which the plurality of winding turns are disposed;
a routing feature disposed adjacent the winding channel, the routing feature configured to facilitate the routing of the conductive wire to an adjacent discrete bobbin element;
a hinged or articulated coupling configured to mate with an adjacent feature on the adjacent discrete bobbin element;
a winding aperture, the winding aperture sized to accommodate a respective winding mandrel, the winding aperture further including a keyed feature disposed therein which facilitates the winding operation on the respective winding mandrel;
a pair of flange elements, the flange elements disposed on opposite ends of the winding channel; and
an alignment feature disposed on at least one of the pair of flange elements, the alignment feature configured to facilitate alignment of the discrete bobbin element in a ring-like header.
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Accused Products
Abstract
A low-cost and high-precision current sensing device and methods for use and manufacturing. In one embodiment, the current sensing apparatus comprises a Rogowski-type coil which is manufactured in segments so as to facilitate the manufacturing process. In an exemplary embodiment, the current sensing apparatus segments comprise a number of bobbin elements that are wound and subsequently formed into complex geometric shapes such as torus-like shapes. In an alternative embodiment, bonded windings are utilized which allow the segments to be formed without a bobbin or former. In yet another alternative embodiment, the aforementioned current sensing devices are stacked in groups of two or more. Methods of manufacturing and using the aforementioned current sensing apparatus are also disclosed.
194 Citations
4 Claims
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1. A current sensing inductive device, comprising:
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a plurality of segmented winding elements, each element comprising a conductive wire having a plurality of winding turns, the conductive wire configured to electrically couple a leading one of the plurality of segmented winding elements with a trailing one of the plurality of segmented winding elements; wherein the plurality of segmented winding elements each comprise a discrete bobbin element; wherein each of the discrete bobbin elements comprises; a winding channel in which the plurality of winding turns are disposed; a routing feature disposed adjacent the winding channel, the routing feature configured to facilitate the routing of the conductive wire to an adjacent discrete bobbin element; a hinged or articulated coupling configured to mate with an adjacent feature on the adjacent discrete bobbin element; a winding aperture, the winding aperture sized to accommodate a respective winding mandrel, the winding aperture further including a keyed feature disposed therein which facilitates the winding operation on the respective winding mandrel; a pair of flange elements, the flange elements disposed on opposite ends of the winding channel; and an alignment feature disposed on at least one of the pair of flange elements, the alignment feature configured to facilitate alignment of the discrete bobbin element in a ring-like header. - View Dependent Claims (2, 3, 4)
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Specification