Method and apparatus for an adjustable damper

What is claimed is: 1. A vehicle suspension damper comprising: a primary valve; a pilot valve assembly, said pilot valve assembly comprising: an adjustable pilot spool configured for controlling a pressure inside said primary valve; a bleed passage; and a flow control orifice for limiting flow through into said bleed passage, said flow control orifice for limiting fluid flow through said bleed passage during compression of said vehicle suspension damper, said flow control orifice limiting a boost force exerted by said primary valve; an externally-adjustable adjuster, wherein said pilot valve assembly meters fluid to said primary valve, and movement of said externally-adjustable adjuster varies an effective orifice size of said adjustable pilot spool, said externally-adjustable adjuster disposed at a top cap of said vehicle suspension damper, and wherein said adjuster moves said primary valve in response to a current delivered from a power source; a set of shims coupled to said primary valve, wherein a position of said adjustable pilot spool corresponds to an increase of pressure inside said primary valve and an increase of said boost force on said set of shims by said primary valve; a damper cylinder; a base valve assembly; an elastic bladder; a first fluid flow path configured for providing a first fluid pathway for a movement of a first portion of said fluid through and between said damper cylinder, said base valve assembly, and said elastic bladder, wherein during at least one of a compression and a rebound of said vehicle suspension damper, said first portion of said fluid flows through said first fluid flow path, and during a damping of said compression and said rebound, said pilot valve assembly at least partially obstructs said first fluid flow path; a set of shims coupled to said base valve assembly, wherein a position of said pilot valve assembly corresponds to an increase of pressure inside said base valve assembly and an increase of an axial force on said set of shims by said base valve assembly. 2. The vehicle suspension damper of claim 1 further comprising: an armature coupled with said externally-adjustable adjuster and said pilot valve assembly. 3. The vehicle suspension damper of claim 1 further comprising: a coil, wherein said coil electromagnetically interacts with said armature in response to a current delivered from a power source, wherein when said armature moves, an adjustable pilot spool of said pilot valve assembly moves in corresponding axial positions relative to said coil. 4. The vehicle suspension damper of claim 3 , wherein an amount of said current to be delivered by said power source is predetermined. 5. The vehicle suspension damper of claim 3 , wherein said power source comprises: a solenoid. 6. The vehicle suspension damper of claim 1 further comprising: a latching solenoid coupled to said pilot valve assembly, said latching solenoid configured to adjust said pilot valve assembly. 7. The vehicle suspension damper of claim 6 , wherein said latching solenoid assembly and a rotatable low speed adjuster can be turned in or out to vary an effective orifice size of said pilot spool when said pilot spool is in an open position. 8. The vehicle suspension damper of claim 1 , further comprising: a rotatable low speed adjuster, wherein upon rotation of said low speed adjuster, an axial movement of said pilot valve assembly occurs, wherein upon said pilot spool being retained between a permanent magnet and said pilot valve assembly by a magnetic force, said magnetic force sufficient to overcome a spring biasing said pilot spool toward said position obstructing a set of ports. 9. The vehicle suspension damper of claim 8 , further comprising: an orifice block having a tailored orifice there through, said orifice configured for metering low speed damping fluid for low speed bump response of said vehicle suspension damper by allowing a predetermined amount of pressure to be applied to said valve body through said set of ports.