Hand-held surgical instruments

What is claimed is: 1. A hand-held surgical instrument, comprising: a handle housing; a first motor disposed within the handle housing; a shaft portion extending distally from the handle housing; an articulation shaft operably coupled to the first motor and disposed within the shaft portion, the articulation shaft configured to axially move within the shaft portion to articulate an end effector; a position sensor associated with the articulation shaft, wherein the position sensor is configured to determine an articulation position of the articulation shaft; a rack operably coupled between the articulation shaft and the position sensor, wherein the rack translates in response to axial movement of the articulation shaft to move the position sensor, wherein the position sensor has a rotatable gear interfacing with the rack, such that translation of the rack rotates the rotatable gear; and a drive nut operably coupled to the first motor and rotatable in response to an actuation of the first motor, the articulation shaft having a proximal end portion received within and threadedly coupled to a threaded inner surface of the drive nut, such that a rotation of the drive nut results in the axial movement of the articulation shaft, wherein the drive nut is coaxial with the shaft portion, wherein the rack is arcuate and translates along an arcuate path in response to axial movement of the articulation shaft. 2. The hand-held surgical instrument according to claim 1 , further comprising an articulation block fixed with the articulation shaft and the rack, wherein the articulation block transfers the axial movement of the articulation shaft to the rack. 3. The hand-held surgical instrument according to claim 1 , further comprising an articulation switch operably coupled to the first motor, wherein an actuation of the articulation switch activates the first motor. 4. The hand-held surgical instrument according to claim 3 , further comprising a fire switch pivotably coupled to the handle portion at a location above the articulation switch, wherein the fire switch is configured to activate a clamping or firing of the end effector. 5. The hand-held surgical instrument according to claim 4 , further comprising a rotation switch rotationally coupled to the handle housing at a location proximally of the fire switch and above the articulation switch, wherein the rotation switch is configured to activate a rotation of the end effector. 6. The hand-held surgical instrument according to claim 5 , further comprising: a second motor operably coupled to the fire switch; and a third motor operably coupled to the rotation switch. 7. The hand-held surgical instrument according to claim 5 , further comprising a printed circuit board disposed within the handle housing, wherein the articulation switch, the fire switch, and the rotation switch are in electrical communication with the printed circuit board. 8. The hand-held surgical instrument according to claim 7 , further comprising a pivot member keyed to the printed circuit board, the rotation switch being rotationally coupled to the pivot member. 9. A handle assembly of a hand-held surgical instrument, comprising: a handle housing; a first motor disposed within the handle housing; an articulation switch operably coupled to the first motor, such that an actuation of the articulation switch activates the first motor; an articulation shaft operably coupled to the first motor and configured to axially move in response to an actuation of the articulation switch; a position sensor associated with the articulation shaft, wherein the position sensor is configured to determine an articulation position of the articulation shaft; and a rack operably coupled between the articulation shaft and the position sensor, wherein the rack translates in response to axial movement of the articulation shaft to move the position sensor, wherein the position sensor has a rotatable gear interfacing with the rack, such that translation of the rack rotates the rotatable gear, wherein the rack is arcuate and translates along an arcuate path in response to axial movement of the articulation shaft. 10. The handle assembly according to claim 9 , further comprising an articulation block fixed with the articulation shaft and the rack, wherein the articulation block transfers the axial movement of the articulation shaft to the rack. 11. The hand-held surgical instrument according to claim 1 , wherein the proximal end portion of the articulation shaft is arcuate. 12. The handle assembly according to claim 9 , further comprising a drive nut operably coupled to the first motor and rotatable in response to an actuation of the first motor, wherein the articulation shaft has a proximal end portion received within and threadedly coupled to a threaded inner surface of the drive nut, such that a rotation of the drive nut results in the axial movement of the articulation shaft. 13. A hand-held surgical instrument, comprising: a handle housing; a first motor disposed within the handle housing; a shaft portion extending distally from the handle housing; an articulation shaft operably coupled to the first motor and disposed within the shaft portion, the articulation shaft configured to axially move within the shaft portion to articulate an end effector; a position sensor associated with the articulation shaft, wherein the position sensor is configured to determine an articulation position of the articulation shaft; a rack operably coupled between the articulation shaft and the position sensor, wherein the rack translates in response to axial movement of the articulation shaft to move the position sensor, wherein the position sensor has a rotatable gear interfacing with the rack, such that translation of the rack rotates the rotatable gear; a drive nut operably coupled to the first motor and rotatable in response to an actuation of the first motor, the articulation shaft having a proximal end portion received within and threadedly coupled to a threaded inner surface of the drive nut, such that a rotation of the drive nut results in the axial movement of the articulation shaft, wherein the drive nut is coaxial with the shaft portion; an articulation switch operably coupled to the first motor, wherein an actuation of the articulation switch activates the first motor; a fire switch pivotably coupled to the handle portion at a location above the articulation switch, wherein the fire switch is configured to activate a clamping or firing of the end effector; a rotation switch rotationally coupled to the handle housing at a location proximally of the fire switch and above the articulation switch, wherein the rotation switch is configured to activate a rotation of the end effector; a second motor operably coupled to the fire switch; and a third motor operably coupled to the rotation switch. 14. The hand-held surgical instrument according to claim 13 , further comprising a printed circuit board disposed within the handle housing, wherein the articulation switch, the fire switch, and the rotation switch are in electrical communication with the printed circuit board. 15. The hand-held surgical instrument according to claim 14 , further comprising a pivot member keyed to the printed circuit board, the rotation switch being rotationally coupled to the pivot member. 16. The hand-held surgical instrument according to claim 13 , further comprising an articulation block fixed with the articulation shaft and the rack, wherein the articulation block transfers the axial movement of the articulation shaft to the rack.