Wellsite sensor assembly and method of using same

The invention claimed is: 1. A wear sensor, comprising: a base; a plurality of conductive layers stacked on the base, the plurality of conductive layers defining a wear surface; and a plurality of vias extending through each one of the plurality of conductive layers and to the base, wherein the plurality of vias is electrically connected to electronics to generate a signal through the plurality of vias whereby, upon wear of each of the plurality of conductive layers, a change in the signal of a corresponding via of the plurality of vias at a depth of the wear is detectable. 2. The wear sensor of claim 1 , wherein each of the plurality of conductive layers is electrically connected to at least two of the plurality of vias, the at least two of the plurality of vias connected electrically in parallel to one another. 3. The wear sensor of claim 1 , wherein the plurality of vias comprise base vias and conductor vias, each of the base vias and each of the conductor vias in electrical communication with a corresponding one of the plurality of conductive layers, the conductor vias in electrical communication with the base vias through the corresponding one of the plurality of conductive layers, the base vias electrically connected to the electronics to generate a signal through the plurality of vias. 4. The wear sensor of claim 1 , wherein the plurality of vias are tubular members extending vertically through the plurality of conductive layers from the wear surface to the base, the plurality of vias positioned parallel to each other. 5. The wear sensor of claim 1 , wherein the plurality of vias comprise conductor vias, and wherein each of the conductor vias comprises a conductor portion electrically coupled to a corresponding one of the plurality of conductive layers and an insulated portion electrically insulated from a remaining portion of the plurality of conductive layers. 6. A wear sensor, comprising: a base positionable about a surface; a plurality of conductive layers stacked on the base, the plurality of conductive layers defining a wear surface; and a plurality of vias extending through each one of the plurality of conductive layers and to the base; wherein each of the plurality of conductive layers is electrically connected to at least two of the plurality of vias, the at least two of the plurality of vias connected electrically in parallel to one another; wherein the plurality of vias is electrically connected to electronics to generate a signal through the plurality of vias whereby, upon wear of each of the plurality of conductive layers, a change in the signal of a corresponding one of the at least two of the plurality of vias at a depth of the wear is detectable. 7. The wear sensor of claim 6 , wherein the plurality of vias comprise base vias. 8. The wear sensor of claim 7 , wherein the base vias are in electrical communication with the base. 9. The wear sensor of claim 7 , wherein the base vias comprise a conductor extending therethrough, the conductor electrically coupled to a corresponding one of the plurality of conductive layers and to the base. 10. The wear sensor of claim 6 , wherein the plurality of vias comprise conductor vias. 11. The wear sensor of claim 10 , wherein the conductor vias are distributed about each of the plurality of conductive layers. 12. The wear sensor of claim 10 , wherein the conductor vias comprise ten conductor vias extending along a length of the plurality of conductive layers. 13. The wear sensor of claim 10 , wherein each of the conductor vias comprises a conductor portion electrically coupled to a corresponding one of the plurality of conductive layers and an insulated portion electrically insulated from a remaining portion of the plurality of conductive layers. 14. The wear sensor of claim 6 , wherein the plurality of vias comprise base vias and conductor vias, each of the base vias and each of the conductor vias in electrical communication with a corresponding one of the plurality of conductive layers, the conductor vias in electrical communication with the base vias through the corresponding one of the plurality of conductive layers, the base vias electrically connected to the electronics to generate a signal through the plurality of vias. 15. The wear sensor of claim 6 , wherein the plurality of vias are tubular members extending vertically through the plurality of conductive layers from the wear surface to the base, the plurality of vias positioned parallel to each other. 16. The wear sensor of claim 6 , wherein the plurality of conductive layers comprise copper. 17. A wear sensor, comprising: a base positionable about a surface; a plurality of conductive layers stacked on the base, the plurality of conductive layers defining a wear surface; and a plurality of vias extending through the plurality of conductive layers and to the base, wherein the plurality of vias is electrically connected to electronics to generate a signal through the plurality of vias whereby, upon wear of each of the plurality of conductive layers, a change in the signal of a corresponding via of the plurality of vias at a depth of the wear is detectable, wherein the plurality of vias comprise base vias and conductor vias, each of the base vias and each of the conductor vias in electrical communication with a corresponding one of the plurality of conductive layers, the conductor vias in electrical communication with the base vias through the corresponding one of the plurality of conductive layers, the base vias electrically connected to the electronics to generate a signal through the plurality of vias. 18. The wear sensor of claim 17 , wherein the plurality of vias are tubular members extending vertically through the plurality of conductive layers from the wear surface to the base, the plurality of vias positioned parallel to each other. 19. The wear sensor of claim 17 , wherein each of the plurality of conductive layers is electrically connected to at least two of the plurality of vias, the at least two of the plurality of vias connected electrically in parallel to one another. 20. The wear sensor of claim 17 , wherein the conductor vias comprise ten conductor vias extending along a length of the plurality of conductive layers.