Remotely operated bypass for a suspension damper

What we claim is: 1. A vehicle suspension damper comprising: a damper cylinder; damping fluid disposed within said damper cylinder; a piston assembly disposed within said damper cylinder, said piston assembly comprising: a piston having a flow path formed through said piston; a shim disposed to meter flow of said damping fluid through said flow path; and a piston rod coupled to said piston; a bypass assembly providing a fluid pathway between a first side of said piston and a second side of said piston, said bypass assembly comprising: a remotely controllable needle valve for controlling the flow of said damping fluid through said bypass assembly, said remotely controllable needle valve controlled by an operator-actuated switch located in a passenger compartment of a vehicle to which said vehicle suspension damper is coupled, said remotely controllable needle valve comprising: a valve body; a movable piston housed within said valve body, an axial position of said movable piston controllable with respect to said valve body, said axial position of said movable piston controlling fluid flow through said remotely controllable needle valve, said movable piston having a shaft extending from a first end of said movable piston; a spring mounted coaxially on said shaft; a movable member telescopically mounted to said shaft, said spring biasing said movable member in an extended position with respect to said first end of said movable piston; an inlet formed in said valve body; an outlet formed in said valve body, said inlet and said outlet for enabling said fluid flow through said valve body; and a control fluid inlet formed in said valve body, a pressure of control fluid at said control fluid inlet configured to adjust said axial position of said movable piston and determine a bypass pressure required to open said remotely controllable needle valve, wherein said axial position of said movable piston is changed when said movable member is in a locked out position with respect to said inlet and a pressure acting over a surface area of said movable member exceeds a pressure of said control fluid acting over a surface area of said movable piston. 2. The vehicle suspension damper of claim 1 further comprising: a reservoir in fluid communication with said damper cylinder. 3. The vehicle suspension damper of claim 1 wherein said reservoir further comprises: a reservoir cylinder portion; a rebound portion in fluid communication with said damper cylinder; and a floating piston disposed within said reservoir cylinder portion. 4. The vehicle suspension damper of claim 1 , wherein said remotely controllable needle valve is configured to selectively permit said flow of said damping fluid through said bypass assembly. 5. The vehicle suspension damper of claim 1 , wherein said remotely controllable needle valve is configured to selectively prevent said flow of said damping fluid through said bypass assembly. 6. The vehicle suspension damper of claim 1 wherein said damper cylinder further comprises: an entry pathway, said entry pathway located in said damper cylinder and fluidically coupling said bypass assembly and said damper cylinder, said entry pathway disposed at a location in said damper cylinder such that said damping fluid will not flow from said damper cylinder into said bypass assembly after said piston passes said entry pathway during a compression stroke. 7. The vehicle suspension damper of claim 1 wherein said remotely controllable needle valve is coupled to an on-board source of pressurized hydraulic fluid for said vehicle to which said vehicle suspension damper is coupled. 8. The vehicle suspension damper of claim 1 wherein said remotely controllable needle valve is coupled to a power steering system for said vehicle to which said vehicle suspension damper is coupled. 9. The vehicle suspension damper of claim 1 wherein said remotely controllable needle valve is coupled to pneumatic pressure, said pneumatic pressure is generated by an on-board compressor and accumulator system and conducted to said remotely controllable valve via a fluid conduit, said on-board compressor and said accumulator system coupled to said vehicle to which said vehicle suspension damper is coupled. 10. A vehicle suspension damper comprising: a cylinder; damping fluid disposed within said cylinder; a piston assembly disposed within said cylinder, said piston assembly comprising: a piston having a flow path formed through said piston; a shim disposed to meter flow of said damping fluid through said flow path; and a piston rod coupled to said piston; a bypass assembly providing a fluid pathway between a first side of said piston and a second side of said piston, said bypass assembly comprising: a remotely controllable needle valve for permitting or preventing the flow of said damping fluid through said bypass assembly, said remotely controllable needle valve controlled based upon a variable parameter associated with a vehicle to which said vehicle suspension damper is coupled, said remotely controllable needle valve comprising: a valve body; a movable piston housed within said valve body, an axial position of said movable piston controllable with respect to said valve body, said axial position of said movable piston controlling fluid flow through said remotely controllable needle valve, said movable piston having a shaft extending from a first end of said movable piston; a spring mounted coaxially on said shaft; a movable member telescopically mounted to said shaft, said spring biasing said movable member in an extended position with respect to said first end of said movable piston; an inlet formed in said valve body; an outlet formed in said valve body, said inlet and said outlet for enabling said fluid flow through said valve body; and a control fluid inlet formed in said valve body, a pressure of control fluid at said control fluid inlet configured to adjust said axial position of said movable piston and determine a bypass pressure required to open said remotely controllable needle valve, wherein said axial position of said movable piston is changed when said movable member is in a locked out position with respect to said inlet and a pressure acting over a surface area of said movable member exceeds a pressure of said control fluid acting over a surface area of said movable piston. 11. The vehicle suspension damper of claim 10 wherein said variable parameter associated with said vehicle is selected from the group consisting of: vehicle speed, piston rod speed, and piston rod position. 12. The vehicle suspension damper of claim 10 further comprising: a reservoir in fluid communication with said damper cylinder. 13. The vehicle suspension damper of claim 10 wherein said reservoir further comprises: a reservoir cylinder portion; a rebound portion in fluid communication with said damper cylinder; and a floating piston disposed within said reservoir cylinder portion. 14. The vehicle suspension damper of claim 10 , wherein said remotely controllable needle valve is configured to selectively permit said flow of said damping fluid through said bypass assembly. 15. The vehicle suspension damper of claim 10 , wherein said remotely controllable needle valve is configured to selectively prevent said flow of said damping fluid through said bypass assembly. 16. The vehicle suspension damper of claim 10 wherein said damper cylinder further comprises: an entry pathway, said entry pathway located in said damper cylinder and fluidically coupling said bypass assembly and said damper