Non-contact magnetostrictive sensors and methods of operation of such sensors

What is claimed is: 1. A sensor for sensing stress in a ferromagnetic material, the sensor comprising: a non-magnetic substrate comprising a first surface and a second surface opposite the first surface; a first coil coupled to the first surface, the first coil configured to induce a magnetic flux in the ferromagnetic material, wherein the first coil is configured to be driven by an alternating current (AC) signal; at least one second coil coupled to the first surface, the at least one second coil spaced from the first coil, the at least one second coil configured to detect changes in the magnetic flux induced in the ferromagnetic material; a ferromagnetic core directly coupled to the second surface of the non-magnetic substrate; and a magnetic shielding material coupled to the first surface and extending about a periphery of the first coil and the at least one second coil. 2. The sensor in accordance with claim 1 , wherein the magnetic shielding material is further coupled to the ferromagnetic core and extends about a periphery of the ferromagnetic core and a surface of the ferromagnetic core opposite the non-magnetic substrate, wherein the ferromagnetic core is substantially covered by the magnetic shielding material. 3. The sensor in accordance with claim 1 further comprising: a second substrate; and at least one electronic component coupled to the second substrate, the at least one electronic component configured to process signals received from one or more of the first coil and the at least one second coil. 4. The sensor in accordance with claim 1 further comprising an integrated circuit device configured to process signals received from one or more of the first coil and the at least one second coil. 5. The sensor in accordance with claim 1 , wherein the at least one second coil comprises at least two second coils, each second coil of the at least two second coils spaced equidistant from each other with respect to the first coil. 6. The sensor in accordance with claim 5 , further comprising the ferromagnetic core comprising a central portion and at least two members extending outward from the central portion, each member of the at least two members positioned opposite a respective coil of the at least two second coils.