Jam release and lifter mechanism for gas spring fastener driver

What is claimed is: 1. A fastener driver comprising: a driver blade movable from a retracted position to an extended, driven position for driving a fastener into a workpiece; a gas spring mechanism for driving the driver blade from the retracted position to the driven position; a lifter assembly for moving the driver blade from the driven position toward the retracted position; a first sensor to detect the driver blade in the driven position; a latch which, in a locked position, maintains the lifter assembly in an engaged position for moving the driver blade from the driven position toward the retracted position; an actuator coupled to the latch for moving the latch between the locked position and a released position, in which the lifter assembly is movable away from the driver blade; and a controller electrically connected with the first sensor and the actuator, wherein, in response to an absence of a signal from the first sensor after a predetermined time following initiation of a fastener driving operation, the controller triggers the actuator to move the latch from the locked position to the released position. 2. The fastener driver of claim 1 , wherein the lifter assembly is moveable from the engaged position toward a bypass position when the latch is in the released position. 3. The fastener driver of claim 2 , wherein the lifter assembly moves to the bypass position before moving the driver blade from an intermediate position between the retracted position and the extended position toward the retracted position. 4. The fastener driver of claim 2 , wherein the lifter assembly moves away from the driver blade when moving from the engaged position to the bypass position. 5. The fastener driver of claim 2 , wherein a spring biases the lifter assembly towards the engaged position. 6. The fastener driver of claim 2 , further comprising a motor, wherein the lifter assembly includes a carrier and a lifter rotatably supported on the carrier, and wherein the lifter is driven by the motor to selectively engage the driver blade. 7. The fastener driver of claim 6 , wherein the latch is engageable with the carrier when in the locked position. 8. The fastener driver of claim 7 , wherein the latch is moved to the released position in response to detection of the fastener jam. 9. The fastener driver of claim 8 , wherein the carrier moves with respect to the driver blade when the latch is in the released position and as the motor rotates the lifter. 10. The fastener driver of claim 6 , wherein the lifter assembly further includes a ratchet to prevent the motor from being rotated in a reverse rotational direction. 11. The fastener driver of claim 6 , further comprising an electrical switch engageable with the carrier and operable to indicate when the lifter assembly is in the bypass position. 12. The fastener driver of claim 6 , wherein the driver blade includes a plurality of teeth and the lifter includes at least one bearing engageable with the plurality of teeth. 13. The fastener driver of claim 12 , wherein when the driver blade is in an intermediate position between the retracted position and the driven position, one of the plurality of teeth is aligned with the at least one bearing of the lifter. 14. The fastener driver of claim 13 , wherein the lifter assembly is moved to the bypass position to reposition the bearing of the lifter with respect to the one of the plurality of teeth. 15. The fastener driver of claim 6 , further comprising a transmission having an output pinion, wherein the lifter assembly includes an input pinion meshed with the output pinion, and wherein the input pinion is drivably coupled to the lifter for rotating the lifter in response to activation of the motor. 16. The fastener driver of claim 15 , wherein the lifter assembly is pivotable between the engaged position and the bypass position about an axis that is coaxial with the output pinion of the transmission. 17. The fastener driver of claim 1 , further comprising a sensor to determine when the driver blade has reached the driven position. 18. The fastener driver of claim 17 , wherein the sensor is an optical sensor. 19. The fastener driver of claim 18 , wherein the driver blade includes a flange that is detected by the optical sensor when the driver blade has reached the driven position. 20. The fastener driver of claim 1 , wherein the driver blade includes a first planar surface, a second planar surface, a first edge surface extending between the first planar surface and the second planar surface, and a plurality of teeth projecting laterally from the first edge surface relative to the driving axis. 21. The fastener driver of claim 20 , wherein the first planar surface is parallel to the second planar surface. 22. The fastener driver of claim 20 , wherein the first edge surface extends in the direction of the driving axis. 23. The fastener driver of claim 20 , wherein the lifter engages the plurality of teeth to move the driver blade from the driven position to the retracted position. 24. The fastener driver of claim 23 , wherein the lifter includes a bearing that selectively engages the plurality of teeth to move the driver blade towards the retracted position. 25. The fastener driver of claim 24 , wherein the bearing includes a first end, a second end, and an axis extending between the first end and second end, wherein the axis is transverse to the first planar surface and the second planar surface. 26. The fastener driver of claim 25 , wherein the lifter further includes a first support coupled to the first end of the bearing and a second support coupled to the second end of the bearing. 27. The fastener driver of claim 24 , wherein the plurality of teeth is a first plurality of teeth and wherein the driver blade further includes a second edge surface extending between the first planar surface and the second planar surface and a second plurality of teeth projecting laterally from the second edge surface relative to the driving axis. 28. The fastener driver of claim 27 , wherein the latch is a first latch, and wherein the fastener driver further comprises a second latch that engages the second plurality of teeth to prevent the driver blade from moving towards the driven position. 29. The fastener driver of claim 1 , wherein the lifter assembly includes a carrier and a lifter rotatably supported on the carrier, wherein the lifter is engageable with the driver blade when the lifter assembly is in the engaged position, and wherein the latch is engageable with the carrier when in the locked position. 30. The fastener driver of claim 1 , wherein the lifter assembly moves away from the driver blade when moving from the engaged position to a bypass position.