Powered ratcheting torque wrench

What is claimed is: 1. A power tool comprising: a main housing defining a grip portion; an electric motor having a motor drive shaft; a drive assembly coupled to the motor drive shaft and driven by the electric motor; an output assembly coupled to the drive assembly and having an output member that receives torque from the drive assembly, causing the output member to rotate about an axis; a frame disposed between the electric motor and the output member; a transducer assembly disposed between the grip portion and the output assembly and including a sensor that measures the amount of torque applied through the output member via a bending force exerted on the frame, when the electric motor is deactivated, in response to the power tool being manually rotated about the axis, the transducer assembly configured to measure the amount of torque applied through the output member when the electric motor is activated; and an electronic processor that is electrically connected to the transducer assembly and the electric motor, wherein in response to the amount of torque applied through the output member as measured by the sensor on the frame reaching a predetermined torque threshold when the electric motor is activated, the electronic processor deactivates the electric motor, at which point the sensor on the frame then measures the amount of torque through the output member while the electric motor is deactivated and the power tool is manually rotated about the axis. 2. The power tool of claim 1 , wherein the motor drive shaft is rotatable about a first axis, and wherein the axis about which the power tool is rotated is a second axis perpendicular to the first axis. 3. The power tool of claim 1 , wherein the output assembly includes a ratchet mechanism, of which the output member is a component, operated by the drive assembly. 4. The power tool of claim 3 , wherein the ratchet mechanism includes a yoke, and wherein the drive assembly includes a crankshaft for providing an oscillating input to the yoke for intermittently rotating the output member in a first rotational direction about the axis. 5. The power tool of claim 4 , wherein the ratchet mechanism is adjustable for intermittently rotating the output member in a second rotational direction about the axis in response to the oscillating input provided to the yoke. 6. The power tool of claim 4 , wherein the output member is rotationally locked by the yoke when the electric motor is deactivated and when the power tool is manually rotated about the axis. 7. The power tool of claim 1 , wherein the transducer assembly is disposed between the electric motor and the output assembly. 8. The power tool of claim 1 , further comprising: a gear housing in which the electric motor is at least partly disposed; and a head in which the output assembly is at least partly received, wherein the drive assembly extends from the housing toward the head. 9. The power tool of claim 8 , wherein the frame interconnects the gear housing and the head. 10. The power tool of claim 9 , wherein the frame is integrally formed with the head. 11. The power tool of claim 9 , wherein the frame includes a beam extending between first and second mounts located, respectively, on opposite ends of the beam. 12. The power tool of claim 11 , wherein the first mount is attached to the housing, and wherein the second mount is attached to the head. 13. The power tool of claim 11 , wherein the beam is a first beam, and wherein the frame further includes a second beam extending between the first and second mounts. 14. The power tool of claim 13 , wherein the first beam and the second beam are parallel and offset from each other, thereby defining a gap between the first and second beams. 15. The power tool of claim 14 , wherein the drive assembly includes a shaft disposed between the first and second beams, and within the gap. 16. The power tool of claim 15 , wherein the shaft includes a universal joint disposed within the gap. 17. The power tool of claim 9 , wherein the frame includes a beam, and wherein the sensor is coupled to the beam for detecting strain in response to the bending force applied to the beam. 18. The power tool of claim 17 , wherein the sensor is a strain gauge. 19. The power tool of claim 17 , wherein the beam is a first beam and the sensor is a first sensor, wherein the frame includes a second beam parallel to the first beam, and wherein the transducer assembly includes a second sensor coupled to the second beam for detecting strain in response to the bending force applied to the second beam. 20. The power tool of claim 1 , further comprising a display device to indicate the amount of torque applied through the output member when the power tool is manually rotated about the axis. 21. The power tool of claim 20 , wherein the display device includes a visual indicator to communicate to a user when the applied torque reaches or exceeds a pre-defined torque setting. 22. The power tool of claim 21 , wherein the visual indicator flashes in response to the pre-defined torque setting being reached when the power tool is manually rotated about the axis. 23. The power tool of claim 21 , wherein the display device includes at least one input device for adjusting the pre-defined torque setting. 24. The power tool of claim 1 , further comprising a battery pack for providing power to the electric motor when activated, wherein the transducer assembly receives power from the battery pack, when the electric motor is deactivated, to measure the amount of torque applied through the output member in response to the power tool being manually rotated about the axis. 25. The power tool of claim 24 , further comprising a display device that also receives power from the battery pack, when the electric motor is deactivated, to indicate the amount of torque applied through the output member in response to the power tool being manually rotated about the axis.