Pex crimping tool

1 . A power tool comprising: an outer housing including a drive unit support portion and a handle portion; an inner housing positioned at least partially within the handle portion; a drive unit positioned in the drive unit support portion and including an output shaft extending at least partially through the handle portion; a ball screw mechanism including a nut supported at least partially within the inner housing, and a screw coupled to the nut for relative axial displacement therewith in response to relative rotation between the screw and the nut, torque from the output shaft being applied to one of the nut and the screw to thereby cause the relative rotation; and a working assembly coupled to the inner housing for movement in response to contact with a distal end of the screw as the screw is axially displaced, wherein the handle portion exerts a reaction torque on the inner housing in response to the relative rotation between the nut and the screw to prevent the inner housing from rotating relative to the outer housing. 2 . The power tool of claim 1 , wherein the outer housing includes a battery support portion, and wherein the drive unit support portion is adjacent each of the handle portion and the battery support portion. 3 . The power tool of claim 1 , wherein the drive unit includes a motor and a transmission coupled to the motor for receiving torque therefrom, and wherein the output shaft is drivably coupled to an output of the transmission. 4 . The power tool of claim 1 , wherein the inner housing is rotationally constrained by the handle portion of the outer housing, and wherein the nut is rotationally constrained by the inner housing. 5 . The power tool of claim 4 , wherein torque from the output shaft causes rotation of the screw relative to the nut. 6 . The power tool of claim 5 , wherein the ball screw mechanism further includes a splined nut coupled to a proximal end of the screw, and wherein the output shaft is hollow and includes a plurality of splines on an inner periphery thereof with which the splined nut is engaged. 7 . The power tool of claim 6 , wherein torque from the output shaft is transferred to the screw via the splines and the splined nut. 8 . The power tool of claim 1 , wherein the working assembly includes a pair of jaws. 9 . The power tool of claim 8 , further comprising a roller carriage coupled to the distal end of the screw engageable with the jaws in response to axial displacement of the screw. 10 . The power tool of claim 9 , further comprising a sensor assembly for detecting a position of the roller carriage relative to the inner housing. 11 . The power tool of claim 10 , wherein the sensor assembly includes a magnet coupled to one of the roller carriage and the inner housing, and a Hall-effect sensor coupled to the other of the roller carriage and the inner housing. 12 . The power tool of claim 10 , wherein the sensor assembly includes a first sensor configured to detect a home position of the roller carriage; a second sensor configured to detect a rotational speed output of the drive unit; and a controller in electrical communication with the first and second sensors. 13 . The power tool of claim 12 , wherein the controller is configured to operate the drive unit in a first rotational direction a predetermined number of revolutions counted by the second sensor, thereby displacing the roller carriage from the home position. 14 . The power tool of claim 13 , wherein the controller is configured to operate the drive unit in an opposite, second rotational direction to thereby return the roller carriage until the home position is detected by the first sensor. 15 . The power tool of claim 14 , wherein the first sensor and the second sensor are Hall-effect sensors. 16 . The power tool of claim 1 , further comprising a trigger switch supported by the handle portion of the outer housing for selectively activating the drive unit. 17 . The power tool of claim 1 , wherein the inner housing includes an exposed portion projecting beyond a forward end of the handle portion, and wherein the working assembly is coupled to the exposed portion. 18 . The power tool of claim 17 , wherein the working assembly includes a pair of jaws, wherein the exposed portion defines a clevis, and wherein each of the jaws is pivotally coupled to the clevis. 19 . The power tool of claim 18 , further comprising a biasing member configured to bias the jaws toward a closed position. 20 . The power tool of claim 19 , further comprising a pin disposed between the jaws, wherein the biasing member at least partially wraps around the pin. 21 - 30 . (canceled)