Multi-layer sensor core

1 .- 20 . (canceled) 21 . A core for a sensor, the core comprising: a rectangular substrate; a layer of magnetically-permeable material disposed on said substrate; adhesive for rigidly coupling two ends of said substrate with each other so as to form a hollow cylinder; and a flex pad on at least one of (a) said rectangular substrate or (b) said magnetically-permeable material, said flex pad providing an electrical connection for the sensor with an external system; and wherein said flex pad comprises: a layer of dielectric material disposed on the at least one of (a) said rectangular substrate or (b) said magnetically-permeable material; and a layer of electrically-conductive material disposed on said dielectric layer. 22 . The core of claim 21 , wherein the magnetically-permeable material comprises cobalt and nickel. 23 . The core of claim 21 , wherein said rectangular substrate includes a top surface and a bottom surface, such that the top surface is an exterior surface of said hollow cylinder and said bottom surface is an interior surface of said hollow cylinder, and further wherein said magnetically-permeable material is disposed on said top surface. 24 . The core of claim 23 , wherein said magnetically-permeable material covers all of said top surface. 25 . The core of claim 21 , further comprising a layer of radiopaque material disposed on at least one of (a) said rectangular substrate or (b) said magnetically-permeable material. 26 . The core of claim 21 , wherein said substrate comprises nitinol. 27 . A method of manufacturing a core for a sensor, the method comprising: providing a rectangular substrate; depositing a magnetically-permeable material on the substrate; rigidly coupling two ends of the substrate with each other so as to form a hollow cylinder; and creating a flex pad on at least one of (a) the rectangular substrate or (b) the magnetically-permeable material, the flex pad providing an electrical connection for the sensor with an external system; and wherein creating the flex pad comprises: depositing a layer of dielectric material on the at least one of (a) the rectangular substrate or (b) the magnetically-permeable material; and depositing a layer of electrically-conductive material on the layer of dielectric material. 28 . The method of claim 27 , wherein the magnetically-permeable material comprises cobalt and nickel. 29 . The method of claim 27 , wherein said rectangular substrate includes a top surface and a bottom surface, such that the top surface is an exterior surface of said hollow cylinder and said bottom surface is an interior surface of said hollow cylinder, and further wherein said magnetically-permeable material is disposed on said top surface. 30 . The method of claim 29 , wherein the magnetically-permeable material covers all of the top surface. 31 . The method of claim 27 , further comprising depositing a layer of radiopaque material on at least one of (a) the rectangular substrate or (b) the magnetically-permeable material. 32 . The method of claim 27 , wherein the substrate comprises nitinol. 33 . A sensor comprising: a core comprising: a rectangular substrate; a layer of magnetically-permeable material disposed on said substrate; and an adhesive rigidly coupling two ends of said substrate so as to form a tube with said rectangular substrate; and a coil wound on said tube; wherein said core further comprises an electrically-conductive flex pad on at least one of (a) said rectangular substrate or (b) said magnetically-permeable material, said flex pad providing an electrical connection for the sensor with an external system; and wherein said flex pad comprises: a layer of dielectric material disposed on the at least one of (a) said rectangular substrate or (b) said magnetically-permeable material; and a layer of electrically-conductive material disposed on said dielectric layer. 34 . The sensor of claim 33 , wherein said coil is wound on an outer surface of said tube. 35 . The sensor of claim 33 , wherein said flex pad comprises at least two connection pads and an electrically-conductive trace electrically coupling the two at least two connection pads, wherein said coil is electrically coupled with one of said connection pads. 36 . The sensor of claim 33 , wherein said substrate comprises nitinol. 37 . The sensor of claim 33 , wherein said magnetically-permeable layer comprises cobalt and nickel. 38 . The sensor of claim 33 , wherein said core further comprises a layer of radiopaque material disposed on at least one of (a) said substrate or (b) said layer of magnetically-permeable material. 39 . The sensor of claim 33 , wherein said rectangular substrate includes a top surface and a bottom surface, such that the top surface is an outer surface of said tube and the bottom surface is an inner surface of said tube, and further wherein said magnetically-permeable material is disposed on said top surface. 40 . The sensor of claim 39 , wherein said magnetically-permeable material covers all of said top surface.