Power Tool User Interfaces

1 . A hand-held power tool comprising: a motive source; an output shaft protruding from an output end of the motive source; wherein the output shaft is functionally coupled to the motive source such that the output shaft rotates in response to activation of the motive source when the motive source is supplied with power; an endbell located adjacent the motive source opposite the output shaft; a user interface movable among a plurality of mode positions to select one of a plurality of operation modes of the motive source; wherein the user interface includes a control knob accessible from exterior of the housing assembly; wherein the control knob is located adjacent the endbell opposite the output shaft; wherein the control knob is rotatable about a knob axis to a plurality of mode positions that correspond to the plurality of operation modes; a printed circuit board (PCB) located between the endbell and the control knob; wherein the PCB is configured to control the plurality of operation modes of the motive source; a plurality of sensors are positioned on an outer side of the PCB wherein each of the plurality of sensors identify a location of one of the plurality of mode positions; and one or more sensor actuators located on the control knob; wherein each of the one or more sensor actuators are located on the control knob movable to a position that corresponds to one of the plurality of sensors that correspond to a location of one of the plurality of mode positions; and wherein the plurality of sensors and the one or more sensor actuators do not physically make contact. 2 . The hand-held power tool of claim 1 , wherein the plurality of sensors are Hall-effect sensors. 3 . The hand-held power tool of claim 2 , wherein the one or more sensor actuators are at least one magnet, wherein the at least one magnet is selectively locatable adjacent one of the plurality of Hall-effect sensors that corresponds to the location of one of the plurality of mode positions. 4 . The hand-held power tool of claim 2 , wherein the one or more sensor actuators is a magnet, wherein the magnet is selectively locatable adjacent one of the plurality of Hall-effect sensors, wherein a magnetic field generated by the magnet when located adjacent a first of the plurality of Hall-effect sensors excites the first of the plurality of Hall-effect sensors to indicate to a controller on the hand-held power tool to operate in a first operation mode of the plurality of operation modes, wherein a magnetic field generated by the magnet when located adjacent a second of the plurality of Hall-effect sensors excites the second of the plurality of Hall-effect sensors to indicate to the controller on the hand-held power tool to operate in a second operation mode of the plurality of operation modes, and wherein a magnetic field generated by the magnet when located adjacent a third of the plurality of Hall-effect sensors excites the third of the plurality of Hall-effect sensors to indicate to the controller on the hand-held power tool to operate in a third operation mode of the plurality of operation modes. 5 . The hand-held power tool of claim 4 , wherein when the control knob is located at a fourth mode position, the magnet is not located adjacent any of the plurality of Hall-effect sensors and thus, does not excite any of the plurality of Hall-effect sensors, wherein this lack of excitement of any of the plurality of Hall-effect sensors indicates to the controller on the hand-held power tool to operate in a fourth operation modes of the plurality of operation modes. 6 . The hand-held power tool of claim 4 , wherein when the control knob is located at a fourth mode position, the magnet is not located adjacent any of the plurality of Hall-effect sensors and thus, does not excite any of the plurality of Hall-effect sensors, wherein this lack of excitement of any of the plurality of Hall-effect sensors indicates to the controller on the hand-held power tool to operate in a fourth operation modes of the plurality of operation modes. 7 . The hand-held power tool of claim 4 , wherein when the control knob is located at a fourth mode position, the magnet is positioned adjacent a fourth Hall-effect sensor, wherein the magnetic field generated by the magnet excites the fourth Hall-effect sensor to indicate to the controller on the hand-held power tool to operate in a fourth mode of operation of the plurality of operation modes. 8 . The hand-held power tool of claim 1 , wherein the one or more sensor actuators located on the control knob is composed of two magnets and the plurality of sensors on the PCB 50 are composed of two Hall-effect sensors that correspond to define four operation modes of the plurality of operation modes. 9 . A hand-held power tool comprising: a motive source; an output shaft protruding from an output end of the motive source; wherein the output shaft is functionally coupled to the motive source such that the output shaft rotates in response to activation of the motive source when the motive source is supplied with power; an endbell located adjacent the motive source opposite the output shaft; a user interface movable among a plurality of mode positions to select one of a plurality of operation modes of the motive source; wherein the user interface includes a control knob accessible from exterior of the housing assembly; wherein the control knob is located adjacent the endbell opposite the output shaft; wherein the control knob is rotatable about a knob axis to a plurality of mode positions that correspond to a plurality of operation modes; a printed circuit board (PCB) located between the endbell and the control knob; wherein the PCB is configured to control the plurality of operation modes of the motive source; a potentiometer located on the PCB wherein the potentiometer is located adjacent the control knob; and a plunger located on the control knob wherein the plunger is directed toward the potentiometer; wherein the plunger interacts with the potentiometer; and wherein the potentiometer is configured to change an output current based on a variable resistance created by a relative location of the plunger with respect to the potentiometer. 10 . The hand-held power tool of claim 9 , wherein the potentiometer is an arcuate potentiometer. 11 . The hand-held power tool of claim 9 , further comprising a membrane, wherein the membrane is located between the potentiometer and the plunger. 12 . The hand-held power tool of claim 11 , wherein the plunger is positioned on the control knob such that the plunger contacts the membrane and configured to change the resistance of the potentiometer based on the relative location of the plunger with respect to the potentiometer and the membrane. 13 . The hand-held power tool of claim 12 , wherein when the plunger is contacting the membrane at a first position the potentiometer has a first resistance that is sent to a controller to indicate a first operation mode of the plurality of operation modes, wherein when the plunger is contacting the membrane at a second position the potentiometer has a second resistance that is sent to the controller to indicate a second operation mode of the plurality of operation modes, wherein when the plunger is contacting the membrane at a third position the potentiometer has a third resistance that is sent to the controller to indicate a third operation mode of the plurality of operation modes, and wherein when the plunger is contacting the membrane at a fourth position the potentiometer has a fourth resistance that is sent to the controller to indicate a fourth operation mode of the plura