Powered screwdriver including clutch setting sensor

What is claimed is: 1. A rotary power tool comprising: a gear case; an output shaft extending from the gear case; a drive mechanism configured to provide torque to the output shaft, causing the output shaft to rotate; a clutch mechanism between the output shaft and the drive mechanism, the clutch mechanism configured to limit the amount of torque provided by the output shaft, the clutch mechanism including a compression spring; a sensor positioned on a neck portion of the gear case subject to strain imparted by the compression spring; and an electronic control unit configured to receive an output signal from the sensor and determine a torque setting of the clutch mechanism based on the output signal. 2. The rotary power tool of claim 1 , further comprising a clutch adjustment assembly configured to adjust a compressed length of the compression spring, wherein the electronic control unit is configured to correlate the output signal of the sensor with the compressed length of the compression spring. 3. The rotary power tool of claim 2 , wherein the clutch mechanism is moveable via the clutch adjustment assembly between a first torque setting, a second torque setting, and at least one discrete torque setting between the first torque setting and the second torque setting. 4. The rotary power tool of claim 3 , further comprising a user interface, wherein the electronic control unit sends a signal causing the user interface to display the discrete torque setting based on the determined torque setting of the clutch mechanism. 5. The rotary power tool of claim 2 , wherein the clutch adjustment assembly includes a collar disposed circumferentially around the neck portion of the gear case and a nut threadably coupled to the neck portion of the gear case, wherein the nut co-rotates with the collar to adjust the compressed length of the compression spring. 6. The rotary power tool of claim 5 , wherein the sensor includes a strain gauge coupled to the nose portion, wherein a compression force of the compression spring is exerted between the nut and the gear case, thereby straining the nose portion under tension, and wherein the strain of the nose portion is detected by the strain gauge. 7. The rotary power tool of claim 5 , wherein the sensor includes an inductive sensor producing an electromagnetic field, and wherein the compressed length of the compression spring is determined by the change in inductance of the inductive sensor. 8. The rotary power tool of claim 1 , further comprising a motor operably coupled to the drive mechanism and a motor sensor that detects an amount of current drawn by the motor, wherein the electronic control unit is configured to identify a clutching event based on feedback from the motor sensor, and wherein the electronic control unit is configured to deactivate the motor when the clutching event occurs. 9. The rotary power tool of claim 1 , further comprising a switch that is actuated when the clutch mechanism disengages during a clutching event, wherein the electronic control unit is configured to deactivate the motor in response to receiving a switch signal from the switch. 10. A rotary power tool comprising: a gear case; an output shaft extending from the gear case; a drive mechanism configured to provide torque to the output shaft, causing the output shaft to rotate; a clutch mechanism between the output shaft and the drive mechanism, the clutch mechanism configured to limit the amount of torque provided by the output shaft, the clutch mechanism including a compression spring; a clutch adjustment assembly configured to adjust a compressed length of the compression spring; a lockout feature adjustable between a lockout state, in which adjustment of the compressed length of the compression spring by the clutch adjustment assembly is prevented, and a release state, in which adjustment of the compressed length of the compression spring by the clutch adjustment assembly is permitted; and an electronic control unit configured to receive an output signal from a sensor indicative of the compressed length of the compression spring, wherein the electronic control unit is configured to determine a torque setting of the clutch mechanism based on the output signal, wherein the lockout feature sends another output signal to the electronic control unit to alert a user when the torque setting of the clutch mechanism is adjusted by the clutch adjustment assembly. 11. The rotary power tool of claim 10 , wherein the clutch adjustment assembly includes a collar disposed circumferentially around the neck portion of the gear case and a nut threadably coupled to the neck portion of the gear case, wherein the nut co-rotates with the collar to adjust the compressed length of the compression spring. 12. The rotary power tool of claim 11 , wherein the lockout feature mechanically interferes with the collar so that the collar is no longer capable of rotating relative to the gear case. 13. The rotary power tool of claim 10 , further comprising a user interface, wherein the electronic control unit sends a signal causing the user interface to display the discrete torque setting based on the determined torque setting of the clutch mechanism. 14. The rotary power tool of claim 10 , further comprising a motor operably coupled to the drive mechanism and a motor sensor that detects an amount of current drawn by the motor, wherein the electronic control unit is configured to identify a clutching event based on feedback from the motor sensor, and wherein the electronic control unit is configured to deactivate the motor when the clutching event occurs.