Pressure activated down hole systems and methods

What is claimed is: 1. A system for activating a down hole tool in a wellbore, the system comprising: a base pipe having an interior and defining a port that extends between the interior and an activation chamber defined on an exterior of the base pipe; a piston having a first end exposed to the activation chamber and a second end coupled to the down hole tool such that movement of the piston within the activation chamber acts on and activates the down hole tool; a sleeve positioned in the interior of the base pipe and including a constant inner diameter and a stepped outer diameter such that a first axial end of the sleeve has a first area and a second axial end of the sleeve has a second area smaller than the first area; an annular collar provided within the interior of the base pipe to receive the second axial end of the sleeve, the sleeve being moveable between an unactivated position, where the sleeve blocks the port, and an activated position, where the port is exposed and fluid communication between the interior and the activation chamber is allowed; and a latch member that prevents movement of the sleeve from the unactivated position to the activated position until a predetermined force is assumed by the sleeve, wherein increasing a pressure in the interior generates a force differential between the first and second axial ends, and when the force differential is substantially equal to the predetermined force, the latch member releases and the sleeve moves to the activated position, thereby pressurizing the activation chamber to force the piston to activate the down hole tool. 2. The system of claim 1 , wherein the sleeve is moveable in a generally axial direction within the interior. 3. The system of claim 2 , wherein the first area is a first axially projected area and wherein the second area is a second axially projected area. 4. The system of claim 2 , wherein the force differential is an axial force that is substantially equal to the pressure in the interior multiplied by the difference between the first and second areas. 5. The system of claim 1 , wherein the sleeve is substantially annular and wherein the first axial end has a first outer diameter and the second axial end has a second outer diameter less than the first outer diameter. 6. The system of claim 1 , wherein the latch member includes at least one shear pin having a first end fixed with respect to the base pipe and a second end fixed with respect to the sleeve. 7. The system of claim 6 , wherein the latch member couples the sleeve to the base pipe at the annular collar. 8. A method for controlling activation of a down hole tool in a wellbore, comprising: advancing the down hole tool into the wellbore, the down hole tool being coupled to a base pipe that defines an interior and a port that extends between the interior and an activation chamber defined about an exterior of the base pipe, wherein a sleeve is positioned in the interior of the base pipe and provides a constant inner diameter and a stepped outer diameter such that a first axial end of the sleeve has a first area and a second axial end of the sleeve has a second area smaller than the first area; increasing a fluid pressure within the interior of the base pipe and thereby generating a force differential between the first and second axial ends that acts on the first axial end to move the sleeve from an unactivated position, where the sleeve blocks the port, to an activated position, where the port is exposed; pressurizing the activation chamber with the fluid pressure via the port, wherein a piston is positioned on the exterior of the base pipe and has a first end exposed to the activation chamber and a second end coupled to the down hole tool; and activating the down hole tool with the piston as acted upon by the fluid pressure. 9. The method of claim 8 , further comprising, with the sleeve in the activated position, further increasing pressure in the interior to activate the down hole tool. 10. The method of claim 8 , wherein moving the sleeve from the unactivated position to the activated position further comprises establishing fluid communication between the interior and the activation chamber to pressurize the activation chamber. 11. The method of claim 8 , wherein a latch member prevents movement of the sleeve from the unactivated position to the activated position, the method further comprising increasing the fluid pressure until a predetermined force required to release the latch member is applied to the sleeve. 12. A system, comprising: a base pipe defining an interior and a port that extends between the interior and an activation chamber defined about an exterior of the base pipe; a sleeve positioned in the interior of the base pipe and including a constant inner diameter and a stepped outer diameter such that a first axial end of the sleeve has a first area and a second axial end of the sleeve has a second area smaller than the first area, wherein the sleeve is moveable between an unactivated position, where the sleeve blocks the port, and an activated position, where the port is exposed and fluid communication between the interior and the activation chamber is allowed; a down hole tool coupled to the base pipe; and a piston having a first end exposed to the activation chamber and a second end coupled to the down hole tool such that movement of the piston activates the down hole tool, wherein increasing a pressure in the interior generates a force differential between the first and second axial ends and moves the sleeve to the activated position, thereby opening the port and pressurizing the activation chamber to permit the piston to act on and activate the down hole tool. 13. The system of claim 12 , wherein the pressure in the interior creates a force differential between the first and second ends that urges the sleeve toward the second end. 14. The system of claim 12 , further comprising a collar fixed with respect to the base pipe and slidably receiving the sleeve. 15. The system of claim 12 , wherein the sleeve is moveable in a generally axial direction within the base pipe. 16. The system of claim 12 , further comprising at least one latch member that prevents movement of the sleeve from the unactivated position to the activated position until a pressure in the interior is increased to a predetermined level, at which point the latch member releases the sleeve.