Holding force detection for magnetic drill press

What is claimed is: 1. A drill press comprising: a main housing; a drill unit supported by the main housing for relative movement therewith; a base coupled to the main housing, the base including a bore formed in a top surface thereof and a magnet to create a magnetic field for magnetically latching the base to a workpiece; and a holding force detection assembly including a plug, a sensor positioned outside the plug to detect the magnetic field within the base, wherein the sensor emits a variable output voltage signal in response to the detected magnetic field, and a printed circuit board received within a slot in the plug; wherein the holding force detection assembly is received within the bore formed in the top surface of the base. 2. The drill press of claim 1 , wherein the magnetic field detected by the sensor is used to determine a holding force between the base and the workpiece. 3. The drill press of claim 2 , further comprising an indicator to communicate the holding force, or whether the holding force is below a predetermined threshold, to a user. 4. The drill press of claim 2 , wherein the sensor is a first sensor and the holding force detection assembly further includes a second sensor to detect the magnetic field at a different location within the base from the first sensor, and wherein the magnetic field detected by the first sensor and the magnetic field detected by the second sensor are used to determine the holding force between the base and the workpiece. 5. The drill press of claim 2 , wherein the drill unit is deactivated in response to detection of a holding force below a predetermined threshold. 6. The drill press of claim 1 , wherein the printed circuit board includes a first end and a second end opposite the first end, wherein the sensor is coupled to the first end, and wherein a wire is coupled to the second end. 7. The drill press of claim 6 , wherein the first end of the printed circuit board is proximate a bottom of the bore, and wherein the wire extends from the second end of the printed circuit board to a control unit positioned in the main housing. 8. The drill press of claim 7 , wherein the plug defines a plug axis extending between a first end of the plug and a second end of the plug, and wherein the first end of the printed circuit board extends from the first end of the plug toward the bottom of the bore. 9. The drill press of claim 8 , wherein the sensor is in contact with the first end of the plug and in facing relationship with the bottom of the bore. 10. The drill press of claim 6 , wherein the plug defines a plug axis extending between a first end of the plug and a second end of the plug, and wherein the plug axis is parallel to a drilling axis of the drill unit. 11. The drill press of claim 1 , wherein the sensor is positioned directly beneath the plug. 12. The drill press of claim 1 , wherein the plug is formed of a ferromagnetic material. 13. The drill press of claim 1 , wherein the holding force detection assembly is encased by the base and the main housing. 14. The drill press of claim 1 , further comprising a lift-off detection system that is configured to detect when the base becomes separated from the workpiece. 15. The drill press of claim 1 , wherein the magnet is an electromagnet. 16. The drill press of claim 1 , wherein the magnet is a permanent magnet. 17. The drill press of claim 1 , wherein the sensor is mounted to a flat surface at one end of the plug to minimize an air gap between the sensor and the plug. 18. The drill press of claim 1 , wherein the plug includes a first end and a second end, and wherein the plug is formed by a solid body extending between the first end and the second end. 19. The drill press of claim 18 , wherein the solid body includes an outer periphery extending between the first end and the second end, and wherein the slot is defined by the outer periphery. 20. A drill press comprising: a main housing; a drill unit supported by the main housing for relative movement therewith; a base coupled to the main housing, the base including a bore formed in a top surface thereof and a magnet to create a magnetic field for magnetically latching the base to a workpiece; and a holding force detection assembly including a plug, a sensor positioned outside the plug to detect the magnetic field within the base, wherein the sensor emits a variable output voltage signal in response to the detected magnetic field, and a printed circuit board received within a slot in the plug; wherein the holding force detection assembly is received within the bore formed in the top surface of the base, wherein the printed circuit board includes a first end and a second end opposite the first end, wherein the sensor is coupled to the first end, and wherein a wire is coupled to the second end, wherein the first end of the printed circuit board is proximate a bottom of the bore, wherein the wire extends from the second end of the printed circuit board to a control unit positioned in the main housing, wherein the plug defines a plug axis extending between a first end of the plug and a second end of the plug, wherein the first end of the printed circuit board extends from the first end of the plug toward the bottom of the bore, and wherein the sensor is in contact with the first end of the plug and in facing relationship with the bottom of the bore. 21. The drill press of claim 20 , wherein the plug axis is parallel to a drilling axis of the drill unit. 22. The drill press of claim 20 , wherein the drill unit is deactivated in response to detection of a holding force below a predetermined threshold. 23. The drill press of claim 20 , wherein the magnetic field detected by the sensor is used to determine a holding force between the base and the workpiece, and wherein the drill press further comprises an indicator to communicate the holding force, or whether the holding force is below a predetermined threshold, to a user.