Suspension system with improved articulation

That which is claimed: 1. An adaptive suspension damper comprising: a body defining a working chamber; and a sleeve operably coupled to the body to alternately: open the working chamber to enable a working fluid to enter or leave the working chamber to selectively adjust a damping force based on position of a piston head in the working chamber relative to compression and rebound events experienced at the adaptive suspension damper, and close the working chamber to enable the piston head to act as a hydraulic ram inside the working chamber to adjust a height of a corner of a vehicle at which the adaptive suspension damper is located. 2. The adaptive suspension damper of claim 1 , wherein the body includes a first orifice on a first side of the piston head and a second orifice on a second side of the piston head, wherein the sleeve includes a third orifice at a same axial position as the first orifice, and a fourth orifice at a same axial position as the second orifice, and wherein the sleeve is movable to align the first orifice with the third orifice and the second orifice with the fourth orifice to open the working chamber. 3. The adaptive suspension damper of claim 2 , wherein the sleeve is movable to misalign the first orifice with the third orifice and the second orifice with the fourth orifice to close the working chamber. 4. The adaptive suspension damper of claim 3 , wherein the sleeve is moved to close the working chamber responsive to operation of a hydraulic circuit, and wherein the sleeve is spring loaded to open the working chamber responsive to the hydraulic circuit not operating. 5. The adaptive suspension damper of claim 1 , wherein a transition between opening and closing the working chamber is controlled by a controller, and wherein the controller controls one or more solenoids that open or close bypass paths in or around the piston head. 6. The adaptive suspension damper of claim 5 , wherein the controller is operably coupled to wheel speed sensors and the adaptive suspension damper to selectively adjust a height of a selected corner of the vehicle to shift vehicle weight balance responsive to a measured wheel speed indicating a slipping wheel. 7. The adaptive suspension damper of claim 1 , wherein a hydraulic circuit comprising a pump and reservoir is operably coupled to the controller, and wherein the hydraulic circuit is operable by the controller to selectively adjust the height of the selected corner. 8. A suspension control system for a vehicle, the system comprising: a plurality of wheels associated with respective corners of the vehicle; a plurality of wheel speed sensors, at least one of the wheel speed sensors corresponding to each respective one of the wheels to detect wheel speed of the each respective one of the wheels; an adaptive suspension damper associated with each of the respective corners of the vehicle; and a controller operably coupled to the wheel speed sensors and the adaptive suspension damper to selectively adjust a height of a selected corner of the vehicle to shift vehicle weight balance responsive to a measured wheel speed indicating a slipping wheel, wherein the system comprises a hydraulic circuit comprising a pump and reservoir, and wherein the hydraulic circuit is operable to selectively adjust the height of a selected corner. 9. The system of claim 8 , wherein the adaptive suspension damper comprises a body defining a working chamber and a sleeve operably coupled to the body to alternately open the working chamber to enable a working fluid to enter or leave the working chamber relative to compression and rebound events experienced at the adaptive suspension damper, and close to enable a piston head to act as a hydraulic ram inside the working chamber to selectively adjust the height of the selected corner. 10. The system of claim 9 , wherein the body includes a first orifice on a first side of the piston head and a second orifice on a second side of the piston head, wherein the sleeve includes a third orifice at a same axial position as the first orifice, and a fourth orifice at a same axial position as the second orifice, and wherein the sleeve is movable to align the first orifice with the third orifice and the second orifice with the fourth orifice to open the working chamber. 11. The system of claim 10 , wherein the sleeve is movable to misalign the first orifice with the third orifice and the second orifice with the fourth orifice to close the working chamber. 12. The system of claim 11 , wherein the sleeve is moved to close the working chamber responsive to operation of the hydraulic circuit, and wherein the sleeve is spring loaded to open the working chamber responsive to the hydraulic circuit not operating. 13. The system of claim 9 , wherein the controller controls one or more solenoids that open or close bypass paths in or around the piston head. 14. The system of claim 8 , wherein the controller executes a control algorithm to shift vehicle weight balance by adjusting the height of the selected corner. 15. The system of claim 14 , wherein the controller executes the control algorithm as a leveling algorithm based on leveling information provided by a gyro, and wherein the controller interfaces with a keyboard to accept user inputs to manually adjust the height of the selected corner. 16. The system of claim 14 , wherein each of the wheels includes a strain gauge to detect contact pressure, and wherein the control algorithm receives information indicative of the contact pressure to adjust the vehicle weight balance when the contact pressure of one of the each of the wheels is below a threshold. 17. The system of claim 14 , wherein the control algorithm accesses a lookup table to determine how to shift the vehicle weight balance. 18. The system of claim 8 , wherein the controller compares the wheel speed of the each respective one of the wheels to determine if the measured wheel speed is different from other wheel speeds by greater than a threshold amount. 19. The system of claim 8 , wherein the controller compares the wheel speed of the each respective one of the wheels to vehicle speed to determine if the measured wheel speed is different from the vehicle speed by greater than a threshold amount.