Thread compensation apparatus

What is claimed is: 1. A thread compensation apparatus, comprising: a drive connection having an outer portion configured to couple to a drive apparatus, and a rotating inner portion having a drive interface configured to couple to a rotating shaft of the drive apparatus; a sleeve rotatable with the inner portion of the drive connection, the inner portion imparting rotation to the sleeve, and the sleeve being rotatable relative to the outer portion of the drive connection; a lower shaft having proximal and distal ends, wherein the lower shaft engages the sleeve about the proximal end, such that the sleeve imparts rotation to the lower shaft, the lower shaft being displaceable relative to the sleeve, the lower shaft further comprising a lower connection interface about the distal end configured to couple to a tubular gripping apparatus; and an actuator coupled to the outer portion of the drive connection, wherein the actuator is operable to displace the lower shaft relative to the sleeve to compensate for tubular threading axial displacement as tubulars are connected or disconnected. 2. The thread compensation apparatus of claim 1 , further comprising an annular housing fixed with respect to the sleeve, the sleeve being disposed in an interior cavity of the annular housing. 3. The thread compensation apparatus of claim 1 , further comprising an annular housing displaceable with respect to the sleeve. 4. The thread compensation apparatus of claim 1 , further comprising a limiting system. 5. The thread compensation apparatus of claim 4 , wherein the limiting system comprises a load shoulder about an inner surface of an annular housing, the proximal end of the lower shaft further comprising a shaft shoulder operable to engage the load shoulder to limit displacement of the lower shaft. 6. The thread compensation apparatus of claim 4 , wherein the limiting system comprises a load shoulder on an inner surface of an annular housing, and wherein the rotating inner portion of the drive connection extends through the sleeve and into the annular housing, the rotating inner portion of the drive connection having an exterior shoulder which engages the load shoulder of the annular housing to limit the displacement of the lower shaft. 7. The thread compensation apparatus of claim 1 , further comprising a lower shaft adapter having a base portion coupled to the actuator, the lower shaft adapter facilitating rotation of the lower shaft. 8. The thread compensation apparatus of claim 7 , wherein the lower shaft adapter comprises a rotating collar coupled to the lower shaft and supported about the base portion, the collar and the lower shaft being rotatable relative to the base portion of the lower shaft adapter. 9. The thread compensation apparatus of claim 8 , wherein the base portion of the lower shaft adapter comprises a plurality of bearings that engage the lower shaft, and that facilitate rotation of the lower shaft relative to the base portion. 10. The thread compensation apparatus of claim 1 , further comprising an adapter operable to couple the outer portion of the drive connection to the drive apparatus. 11. The thread compensation apparatus of claim 1 , wherein the rotating inner portion of the drive connection further comprises a drive channel, and wherein the lower shaft further comprises a shaft channel. 12. The thread compensation apparatus of claim 11 , further comprising a mud sleeve fluidly connecting and sealing the drive channel and the shaft channel, the drive channel the mud sleeve and the shaft channel defining a continuous fluid passageway through the thread compensation apparatus through which fluid can flow. 13. The thread compensation apparatus of claim 1 , wherein the rotating inner portion of the drive connection comprises an upper shaft coupled to the drive apparatus via the drive interface. 14. The thread compensation apparatus of claim 13 , wherein the upper shaft is coupled to the sleeve. 15. The thread compensation apparatus of claim 14 , wherein the upper shaft is slidably coupled to an annular housing. 16. The thread compensation apparatus of claim 1 , further comprising a control system operable to facilitate control of various functions of the thread compensation apparatus. 17. The thread compensation apparatus of claim 16 , wherein the control system is configured to facilitate application of a predetermined force to the actuators, to support a weight of an extending tubular as tubulars are connected or disconnected. 18. The thread compensation apparatus of claim 16 , wherein the control system is configured to facilitate retraction of the actuator to a predetermined position. 19. The thread compensation apparatus of claim 16 , further comprising one or more sensors operable to sense an operating characteristic of the thread compensation apparatus, wherein the sensors are in communication and operable with the control system. 20. A tubular threading system, comprising: a drive apparatus having a rotating shaft; a thread compensation apparatus comprising: a drive connection having an outer portion coupled to the drive apparatus, and a rotating inner portion coupled to the rotating shaft of the drive apparatus; a sleeve rotatable with the inner portion of the drive connection, the inner portion imparting rotation to the sleeve, and the sleeve being rotatable relative to the outer portion of the drive connection; a lower shaft having proximal and distal ends, wherein the lower shaft engages the sleeve about the proximal end, such that the sleeve imparts rotation to the lower shaft, the lower shaft being displaceable relative to the sleeve, the lower shaft further comprising a lower connection interface about the distal end; and an actuator coupled to the outer portion of the drive connection, wherein the actuator is operable to displace the lower shaft relative to the sleeve to compensate for tubular threading axial displacement as tubulars are connected or disconnected; a tubular gripping apparatus holding a connecting tubular at a second end; and a string of tubulars having a top tubular, the top tubular having an exposed end. 21. The system of claim 20 , wherein the thread compensation apparatus comprises a first retracted position, wherein the lower shaft, the tubular gripping apparatus, and the connecting tubular are lifted, such that these are caused to be suspended about the exposed end of the top tubular of the & string of tubulars. 22. The system of claim 21 , wherein the drive apparatus imparts rotation via the thread compensation apparatus to the connecting tubular and the thread compensation apparatus is caused to move from the first retracted position to a second interim position, wherein the lower shaft, the tubular gripping apparatus, and the connecting tubular are lowered to facilitate threading of the connecting tubular to the top tubular. 23. The system of claim 20 , wherein the thread compensation apparatus further comprises a third extended position, wherein displacement of the lower shaft is limited by a limiting system. 24. The system of claim 23 , wherein the limiting system comprises a load shoulder about an inner surface of an annular housing, the proximal end of the lower shaft further comprising a shaft shoulder operable to engage the load shoulder to limit displacement of the lower shaft. 25. The system of claim 23 , wherein the limiting system comprises a load shoulder on