Powered fastener driver

What is claimed is: 1. A gas spring-powered fastener driver comprising: a first cylinder defining a first chamber; a movable piston positioned within the first chamber; a driver blade attached to the piston and movable therewith between a ready position and a driven position; a second cylinder surrounding the first cylinder; a second chamber defined between the first cylinder and the second cylinder and containing pressurized gas, the second chamber being in fluid communication with the first chamber via a flow passage; a lifter mechanism configured to move the driver blade and the movable piston from the driven position to the ready position to compress the pressurized gas; and a throttle mechanism configured to throttle flow of the pressurized gas through the flow passage, the throttle mechanism including a baffle configured to selectively adjust an area of the flow passage; wherein the first cylinder defines an open end that communicates with the second chamber, and the flow passage is defined between the open end of the first cylinder and an end portion of the second cylinder; and wherein the baffle is configured as a sliding sleeve that surrounds the open end of the first cylinder and the baffle slides along the first cylinder. 2. The gas spring-powered fastener driver of claim 1 , wherein the sliding sleeve extends beyond the open end of the first cylinder in a choked position of the throttle mechanism. 3. The gas spring-powered fastener driver of claim 1 , further comprising a control knob coupled to the baffle and operable to slide the baffle relative to the first cylinder. 4. The gas spring-powered fastener driver of claim 3 , further comprising a scotch-yoke mechanism including an eccentric pin coupled to the control knob and configured to engage a slot formed in the baffle. 5. The gas spring-powered fastener driver of claim 1 , wherein the baffle inhibits flow of pressurized gas between the second chamber and the first chamber. 6. The gas spring-powered fastener driver of claim 1 , wherein the baffle is movable between a no-choke position corresponding to a highest power output of the fastener driver, and a choked position corresponding to a lowest power output of the fastener driver. 7. The gas spring-powered fastener driver of claim 6 , wherein the baffle is further movable to a partially-choked position corresponding to an intermediate power output of the fastener driver. 8. The gas spring-powered fastener driver of claim 1 , further comprising a fill valve coupled to the outer cylinder. 9. The gas spring-powered fastener driver of claim 1 , wherein the sliding sleeve is supported around the first cylinder in a no-choke position of the throttle mechanism, and wherein the sliding sleeve does not extend beyond the open end of the first cylinder in the no-choke position. 10. A gas spring-powered fastener driver comprising: a first cylinder defining a first chamber; a movable piston positioned within the first chamber; a driver blade attached to the piston and movable therewith between a ready position and a driven position; a second cylinder surrounding the first cylinder; a second chamber defined between the first cylinder and the second cylinder and containing pressurized gas, the second chamber being in fluid communication with the first chamber via a flow passage; a lifter mechanism configured to move the driver blade and the movable piston from the driven position to the ready position to compress the pressurized gas; and a throttle mechanism configured to throttle flow of the pressurized gas through the flow passage, the throttle mechanism including a baffle configured to selectively adjust an area of the flow passage; wherein the baffle is movable between a no-choke position corresponding to a highest power output of the fastener driver, in which the baffle is maintained in the no-choke position during a fastener driving sequence as the pressurized gas flows through the flow passage unimpeded by the baffle, and a choked position corresponding to a lowest power output of the fastener driver, in which the baffle is maintained in the choked position during a fastener driving sequence as the pressurized gas flows through the flow passage constricted by the baffle. 11. The gas spring-powered fastener driver of claim 10 , wherein the first cylinder defines an open end that communicates with the second chamber, and the flow passage is defined between the open end of the first cylinder and an end portion of the second cylinder. 12. The gas spring-powered fastener driver of claim 11 , wherein the baffle is configured as a sliding sleeve supported around the first cylinder adjacent the open end. 13. The gas spring-powered fastener driver of claim 12 , wherein the sliding sleeve extends beyond the open end of the first cylinder in a choked position of the throttle mechanism. 14. The gas spring-powered fastener driver of claim 10 , further comprising a control knob coupled to the baffle and operable to slide the baffle relative to the first cylinder. 15. The gas spring-powered fastener driver of claim 14 , further comprising a scotch-yoke mechanism including an eccentric pin coupled to the control knob and configured to engage a slot formed in the baffle. 16. The gas spring-powered fastener driver of claim 10 , wherein the baffle inhibits flow of pressurized gas between the second chamber and the first chamber. 17. The gas spring-powered fastener driver of claim 10 , wherein the baffle is further movable to a partially-choked position corresponding to an intermediate power output of the fastener driver, the pressurized gas flows through the flow passage constricted by the baffle. 18. The gas spring-powered fastener driver of claim 10 , further comprising a fill valve coupled to the outer cylinder. 19. The gas spring-powered fastener driver of claim 12 , wherein the sliding sleeve is supported around the first cylinder in a no-choke position of the throttle mechanism, and wherein the sliding sleeve does not extend beyond the open end of the first cylinder in the no-choke position.