Proximity detection using instrumented cutting elements

What is claimed is: 1. A drilling system, comprising: a drill string; and a drill tool coupled to the drill string, the drill tool comprising: a cylindrical body; a plurality of blades on exterior portions of the cylindrical body; and an instrumented cutting element on one of the plurality of blades, the instrumented cutting element comprising: a cutting table; a substrate coupled to the cutting table, the substrate including a cavity; a core in the cavity; an electrical connector coupled to the substrate; and a coil wire coupled to the electrical connector and surrounding portions of the core, the coil wire configured to generate a signal in response to the instrumented cutting element being proximate to a magnetizable material. 2. The drilling system of claim 1 , further comprising: an internal controller communicatively coupled to the drill string; and a detection circuit communicatively coupled to the instrumented cutting element and configured to detect the signal and provide a command to the internal controller. 3. The drilling system of claim 2 , wherein the command causes at least one of ceasing rotation of the drill tool, decoupling the drill tool from the drill string, and a change in a drilling direction of the drill tool. 4. The drilling system of claim 1 , wherein the signal is responsive to at least one of conductivity of the magnetizable material, magnetic permeance of the magnetizable material, and a change in a magnetic field. 5. The drilling system of claim 1 , wherein the magnetizable material comprises a manmade material. 6. The drilling tool of claim 1 , wherein the instrumented cutting element further comprises a permanent magnet coupled to the cutting table and the core. 7. The drilling system of claim 6 , wherein the permanent magnet defines a sense axis extending through the cutting table. 8. The drilling system of claim 1 , wherein the core is configured in a U-shape and defines a sense axis extending perpendicular to the cutting table of the instrumented cutting element. 9. The drilling system of claim 1 , wherein the core comprises a magnetically permeable material. 10. A method for drilling a wellbore, comprising: configuring an instrumented cutting element in a drill tool, the drill tool comprising a cylindrical body, a plurality of blades on exterior portions of the cylindrical body, the instrumented cutting element being on one of the plurality of blades, the instrumented cutting element comprising: a cutting table; a substrate coupled to the cutting table, the substrate including a cavity; a core in the cavity; an electrical connector coupled to the substrate; and a coil wire coupled to the electrical connector and surrounding portions of the core; generating, by the instrumented cutting element, the signal in response to the instrumented cutting element being proximate to a magnetizable material; and detecting the signal by a detection circuit and providing a command to an internal controller. 11. The drilling system of claim 10 , wherein the command causes at least one of ceasing rotation of the drill tool, decoupling the drill tool from the drill string, and a change in a drilling direction of the drill tool. 12. The method of claim 10 , wherein the signal is responsive to at least one of conductivity of the magnetizable material, magnetic permeance of the magnetizable material, and a change in a magnetic field. 13. The method of claim 10 , wherein the magnetizable material comprises a manmade material. 14. An instrumented cutting element, comprising: a cutting table; a substrate coupled to the cutting table, the substrate including a cavity; a core in the cavity; an electrical connector coupled to the substrate; and a coil wire coupled to the electrical connector and surrounding portions of the core, the coil wire configured to generate a signal in response to the instrumented cutting element being proximate to a magnetizable material. 15. The instrumented cutting element of claim 14 , further comprising a permanent magnet coupled to the cutting table and the core. 16. The instrumented cutting element of claim 15 , wherein the permanent magnet defines a sense axis extending through the cutting table. 17. The instrumented cutting element of claim 14 , wherein the core is configured in a U-shape and defines a sense axis extending perpendicular to the cutting table of the instrumented cutting element. 18. The instrumented cutting element of claim 14 , wherein the core comprises a magnetically permeable material. 19. A method of configuring an instrumented cutting element of a drill tool, comprising: determining a location of the instrumented cutting element on the drill tool, the drill tool comprising a cylindrical body, a plurality of blades on exterior portions of the cylindrical body, the instrumented cutting element being on one of the plurality of blades; determining a direction for a sense axis of the instrumented cutting element; configuring a core in the instrumented cutting element based on the sense axis and location of the instrumented cutting element, the core located in a cavity in a substrate, and a cutting table coupled to the substrate; configuring an electrical connector coupled to the substrate; and configuring a coil wire coupled to the electrical connector and surrounding portions of the core, the coil wire configured to generate a signal in response to the instrumented cutting element being proximate to a magnetizable material. 20. The method of claim 19 , further comprising configuring a permanent magnet for placement in the instrumented cutting element based on the sense axis extending through a cutting table. 21. The method of claim 19 , wherein configuring the core further comprises configuring the core in a U-shape if the direction determined for the sense axis is extending perpendicular to a cutting table of the instrumented cutting element. 22. The method of claim 19 , wherein the core comprises a magnetically permeable material.