Claims
- 1. An angle measurement instrument for a rotating member having opposing flat faces, comprising:a first pair of capacitive sensors proximate one face of said rotating member; a second pair of capacitive sensors proximate the other face of said rotating member; a planar differential current transformer proximate one pair of capacitive sensors, comprising: two primary conductors, each comprising a single winding; at least one secondary conductor comprising a single winding; and a single magnetic core member surrounding said primary conductors and said secondary conductor; means for electrically connecting one capacitive sensor from each pair in parallel to one primary conductor; means for electrically connecting the other capacitive sensor from each pair in parallel to the other primary conductor; and means for determining from the secondary conductor, the differential currents in the primary conductors, as a measure of the angle of said rotating member to said capacitive sensors.
- 2. An elongated, planar, generally linear electrical inductive component, comprising:at least one conductor, each conductor defining a unique conductive path; a magnetic member co-linear with all conductors along the entire component length, and completely surrounding all conductors; and an insulator separating each conductor from any other conductor and from the magnetic member; wherein at any location along the length of the component, in cross section the component includes only one conductor for any conductive path, and the cross section is uniform with length.
- 3. The component of claim 2 comprising a single conductor, to accomplish an inductor.
- 4. The component of claim 2 comprising two co-linear conductors, to accomplish a transformer.
- 5. The component of claim 2 comprising three co-linear conductors, to accomplish a differential transformer.
- 6. The component of claim 2 wherein the magnetic member and all conductors meander through a plurality of turns, to increase the component's effective length.
- 7. An angle measurement instrument for determining the angle of a rotating member having opposed faces, relative to fixed members comprising opposing, non-rotating flat faces, comprising:a first pair of capacitive sensor plates fixed to one flat face proximate one face of said rotating member, a second pair of capacitive sensor plates fixed to the second flat face proximate the other face of said rotating member, wherein the rotating member rotates to change the gap between the rotating member and the fixed members; a planar differential current transformer comprising: a first conductor comprising one primary carrying current from one set of capacitive sensors; a second conductor comprising a second primary carrying current from a second set of capacitive sensors, the sense of the second current being opposite that of the first current; a third conductor comprising a secondary carrying a current proportional to the difference between the first and second currents that vary in proportion to the motion of the rotating member; a magnetic core co-linear with and completely surrounding the conductors and whose length along the conductors determines the transformer length; an insulator separating each conductor from any other conductor and all conductors from the magnetic core; wherein the properties of the transformer are obtained by establishing unit length properties and meandering the single conductors with encircling magnetic core to the desired length; wherein at any location along the length of the transformer, in cross section the transformer includes only one conductor for any conductive path, and the cross section is uniform with length; means for electrically connecting one capacitive sensor from each pair in parallel to one primary conductor; means for electrically connecting the other capacitive sensor from each pair in parallel to the other primary conductor; and means for determining from the third conductor, the differential currents in the primary conductors, as a measure of the angle of said rotating member to said capacitive sensors.
- 8. An angle measurement instrument for determining the angle of a rotating member having opposed faces, relative to fixed members comprising opposing, non-rotating flat faces, comprising:a first pair of capacitive sensor plates fixed to one flat face proximate one face of said rotating member, a second pair of capacitive sensor plates fixed to the second flat face proximate the other face of said rotating member, a planar differential current transformer comprising: a first conductor comprising one primary carrying current from one set of capacitive sensors; a second conductor comprising a second primary carrying current from a second set of capacitive sensors, the sense of the second current being opposite that of the first current; a third conductor comprising a secondary carrying a current proportional to the difference between the first and second currents that vary in proportion to the motion of the rotating member; a magnetic core co-linear with and completely surrounding the conductors and whose length along the conductors determines the transformer length; an insulator separating each conductor from any other conductor and all conductors from the magnetic core; wherein the properties of the transformer are obtained by establishing unit length properties and meandering the single conductors with encircling magnetic core to the desired length; wherein at any location along the length of the transformer, in cross section the transformer includes only one conductor for any conductive path, and the cross section is uniform with length; means for electrically connecting one capacitive sensor from each pair in parallel to one primary conductor; means for electrically connecting the other capacitive sensor from each pair in parallel to the other primary conductor; and means for determining from the third conductor, the differential currents in the primary conductors, as a measure of the angle of said rotating member to said capacitive sensors.
- 9. A translation measurement instrument for determining movement of a moving member having opposed faces, relative to fixed members comprising two opposing, fixed flat faces, comprising:a first pair of capacitive sensor plates fixed to one flat face proximate one face of said moving member, a second pair of capacitive sensor plates fixed to the second flat face proximate the other face of said moving member; wherein the moving member moves to vary the gap between the moving member and the fixed members; a planar differential current transformer comprising: a first conductor comprising one primary carrying current from one set of capacitive sensors; a second conductor comprising a second primary carrying current from a second set of capacitive sensors, wherein the sense of the second current is opposite that of the first current; a third conductor comprising a secondary carrying a current proportional to the difference between the first and second currents that vary in proportion to the motion of the moving member; a magnetic core co-linear with and completely surrounding the conductors and whose length along the conductors determines the transformer length; an insulator separating each conductor from any other conductor and all conductors from the magnetic core; wherein the properties of the transformer are obtained by establishing unit length properties and meandering the single conductors with encircling magnetic core to the desired length; wherein at any location along the length of the transformer, in cross section the transformer includes only one conductor for any conductive path, and the cross section is uniform with length; means for electrically connecting one capacitive sensor from each pair in parallel to one primary conductor; means for electrically connecting the other capacitive sensor from each pair in parallel to the other primary conductor; and means for determining from the third conductor, the differential currents in the primary conductors, as a measure of the translation distance of said moving member to said capacitive sensors.
- 10. A translation measurement instrument for determining movement of a moving member having opposed faces, relative to fixed members comprising opposing, fixed flat faces, comprising:a first pair of capacitive sensor plates fixed to one flat face proximate one face of said moving member, a second pair of capacitive sensor plates fixed to the second flat face proximate the other face of said moving member, wherein the moving member moves relative to the fixed members; a planar differential current transformer comprising: a first conductor comprising one primary carrying current from one set of capacitive sensors; a second conductor comprising a second primary carrying current from a second set of capacitive sensors, wherein the sense of the second current is opposite that of the first current; a third conductor comprising a secondary carrying a current proportional to the difference between the first and second currents that vary in proportion to the motion of the translating member; a magnetic core co-linear with and completely surrounding the conductors and whose length along the conductors determines the transformer length; an insulator separating each conductor from any other conductor and all conductors from the magnetic core; wherein the properties of the transformer are obtained by establishing unit length properties and meandering the single conductors with encircling magnetic core to the desired length; wherein at any location along the length of the transformer, in cross section the transformer includes only one conductor for any conductive path, and the cross section is uniform with length; means for electrically connecting one capacitive sensor from each pair in parallel to one primary conductor; means for electrically connecting the other capacitive sensor from each pair in parallel to the other primary conductor; and means for determining from the third conductor, the differential currents in the primary conductors, as a measure of the translation distance of said moving member to said capacitive sensors.
- 11. A method of fabricating an elongated, planar, generally linear electrical inductive component by multi-layered fabrication, the component having at least one conductor, each conductor in the component defining a unique conductive path, a magnetic core co-linear with all conductors along the entire component length, and completely surrounding all conductors, and an insulator separating each conductor from any other conductor and all conductors from the magnetic core member, wherein at any location along the length of the component, in cross section the component includes only one conductor for any conductive path, and the cross section is uniform with length, the method comprising:providing a lower layer of magnetic core material; layering on top of the lower layer of magnetic core material, a second layer comprising a bottom insulator and first vertical segments of the magnetic core; wherein the first vertical segments of the magnetic core are in contact with the lower layer of magnetic core material; layering on top of the second layer, a third layer comprising conductors and insulators, bounded on each side in the plane by second vertical segments of the magnetic core, the conductors separated from each other and from the second magnetic core vertical segments by a vertical insulator segment; wherein the second vertical segments of the magnetic core are located directly above and in contact with the first vertical segments of the magnetic core of the second layer; layering on top of the third layer, a fourth layer comprising a top insulator and third vertical segments of the magnetic core, the third vertical segments of the magnetic core located directly above and in contact with the second vertical segments of the magnetic core; layering on top of the fourth layer, a fifth layer comprising a top layer of magnetic core material that is in contact with the third vertical segments of the magnetic core.
- 12. The method of claim 11 comprising one conductor to accomplish an inductor.
- 13. The method of claim 11 comprising two co-linear conductors, each conductor defining a unique path, to accomplish a transformer.
- 14. The method of claim 11 comprising three co-linear conductors, each conductor defining a unique path, to accomplish a differential current transformer, wherein one conductor comprises one primary, the second conductor comprises a second primary and the third conductor comprises the secondary.
- 15. The method of claim 11 wherein the method of fabrication is by sequential deposition.
- 16. The method of claim 15 wherein the deposition comprises in part electroplating.
- 17. The method of claim 11 wherein the method of fabrication is by the stacking and bonding of multiple layers formed separately.
CROSS REFERENCED TO RELATED APPLICATION
This application claims benefit of Provisional application Ser. No. 60/075,840, filed on Feb. 24, 1998.
STATEMENT OF FEDERALLY SPONSORED RESEARCH AND DEVELOPMENT
This invention was made with Government support under contract number DTRA01-99-C-0186 awarded by BMDO. The Government has certain rights in the invention.
US Referenced Citations (8)
Provisional Applications (1)
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Number |
Date |
Country |
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60/075840 |
Feb 1998 |
US |