Resettable devices

The invention claimed is: 1. A device for cycling a component between a first condition and a second condition, the device comprising: an element formed from a shape memory alloy and contractable in a first direction, wherein the shape memory alloy is transitionable between a martensite crystallographic phase and an austenite crystallographic phase in response to a source of thermal energy; a reset apparatus connected to and driven by the element, the reset apparatus including: a link translatable in a second direction that is opposite the first direction to thereby cycle the component to the second condition; and a disc rotatable about an axis of rotation and operatively connected to the link; wherein the disc includes a plurality of projections extending therefrom; wherein the reset apparatus is actuatable by the element from an initial state in which the shape memory alloy has the martensite crystallographic phase and the component is in the first condition, to an actuated state in which the shape memory alloy has the austenite crystallographic phase and the component is in the second condition; wherein the reset apparatus is resettable from the actuated state to a reset state in which the shape memory alloy transitions from the austenite crystallographic phase to the martensite crystallographic phase while the component is in the first condition; wherein the reset apparatus is further resettable from the reset state to the initial state; wherein the shape memory alloy is transitionable from the martensite crystallographic phase to the austenite crystallographic phase over a first duration, and further wherein the shape memory alloy is transitionable from the austenite crystallographic phase to the martensite crystallographic phase over a second duration that is longer than the first duration; and wherein the reset apparatus is resettable from the actuated state to the reset state over a third duration that is less than the second duration, and is further resettable from the reset state to the initial state over a fourth duration that is equal to a difference between the second duration and the third duration; and a cam connected to the link and defining a groove therein; wherein the cam is annular, coupled to the disc, and rotatable about the axis of rotation. 2. The device of claim 1 , wherein the first duration is substantially equal to the third duration. 3. The device of claim 1 , wherein the third duration is from about 0.5 seconds to about 2 seconds. 4. The device of claim 1 , wherein the reset apparatus is not actuatable from the initial state to the actuated state when the reset apparatus is in the reset state. 5. The device of claim 1 , wherein the device does not cycle the component to the second condition while the reset apparatus is in the reset state. 6. The device of claim 1 , wherein the element contracts as the shape memory alloy transitions from the martensite crystallographic phase to the austenite crystallographic phase, and expands as the shape memory alloy transitions from the austenite crystallographic phase to the martensite crystallographic phase. 7. The device of claim 6 , wherein the element shortens as the shape memory alloy transitions from the martensite crystallographic phase to the austenite crystallographic phase to thereby actuate the reset apparatus from the initial state to the actuated state, and lengthens as the shape memory alloy transitions from the austenite crystallographic phase to the martensite crystallographic phase as the reset apparatus resets from the actuated state to the reset state. 8. The device of claim 1 , further including a driving pawl coupled to the element and configured for sequentially contacting each of the plurality of projections to thereby rotate the disc and the cam in a first rotational direction. 9. The device of claim 8 , wherein the element shortens in the first direction as the shape memory alloy transitions from the martensite crystallographic phase to the austenite crystallographic phase to thereby rotate the disc and the cam about the axis of rotation in the first rotational direction. 10. A device for cycling a component between a first condition and a second condition, the device comprising: an element formed from a shape memory alloy and contractable in a first direction, wherein the shape memory alloy is transitionable between a martensite crystallographic phase and an austenite crystallographic phase in response to a source of thermal energy; a reset apparatus connected to and driven by the element, the reset apparatus including: a link translatable in a second direction that is opposite the first direction to thereby cycle the component to the second condition; and a disc rotatable about an axis of rotation and operatively connected to the link; wherein the reset apparatus is actuatable by the element from an initial state in which the shape memory alloy has the martensite crystallographic phase and the component is in the first condition, to an actuated state in which the shape memory alloy has the austenite crystallographic phase and the component is in the second condition; wherein the reset apparatus is resettable from the actuated state to a reset state in which the shape memory alloy transitions from the austenite crystallographic phase to the martensite crystallographic phase while the component is in the first condition; and wherein the reset apparatus is further resettable from the reset state to the initial state; and a cam connected to the link and defining a groove therein; wherein the cam includes a plurality of horizontal walls defining a plurality of horizontal portions of the groove and a plurality of vertical walls defining a plurality of vertical portions of the groove, wherein the plurality of vertical portions and the plurality of horizontal portions define a plurality of apexes and a plurality of vertices therebetween such that each of the plurality of vertices is disposed between two of the plurality of apexes. 11. The device of claim 10 , wherein the shape memory alloy is transitionable from the martensite crystallographic phase to the austenite crystallographic phase over a first duration, and further wherein the shape memory alloy is transitionable from the austenite crystallographic phase to the martensite crystallographic phase over a second duration that is longer than the first duration. 12. The device of claim 11 , wherein the reset apparatus is resettable from the actuated state to the reset state over a third duration that is less than the second duration, and is further resettable from the reset state to the initial state over a fourth duration that is equal to a difference between the second duration and the third duration. 13. The device of claim 10 , wherein the element contracts as the shape memory alloy transitions from the martensite crystallographic phase to the austenite crystallographic phase, and expands as the shape memory alloy transitions from the austenite crystallographic phase to the martensite crystallographic phase. 14. The device of claim 13 , wherein the element shortens as the shape memory alloy transitions from the martensite crystallographic phase to the austenite crystallographic phase to thereby actuate the reset apparatus from the initial state to the actuated state, and lengthens as the shape memory alloy transitions from the austenite crystallographic phase to the martensite crystallographic phase as the reset apparatus resets from the actuated state to the reset state. 15. A device for cycling a component between a first condition and a second condition, the d