Damper with digital valve

What is claimed is: 1. A shock absorber comprising: a pressure tube forming a working chamber; a piston assembly slidably disposed within said pressure tube, said piston assembly dividing said working chamber into an upper working chamber and a lower working chamber, said piston assembly including a piston body defining a first fluid passage extending through said piston body and a first valve assembly controlling fluid flow through said first fluid passage; a piston rod assembly attached to said piston assembly; a second fluid passage separate from said first fluid passage, said second fluid passage extending from one of said upper and lower working chambers to a fluid chamber; and a digital valve assembly controlling fluid flow through said second fluid passage; wherein fluid flow through said first valve assembly generates a high damping load for said shock absorber; fluid flow through said first and digital valve assemblies generates a low damping load, lower than said high damping load, for said shock absorber; said second fluid passage is defined by said piston rod assembly; said digital valve assembly is disposed within said piston rod assembly; said second fluid passage extends between said upper and lower working chambers; the other of said upper and lower working chambers defines said fluid chamber; said digital valve assembly includes a first member, a second member disposed within said first member to move in an axial direction within said first member and a third member configured to move said second member in the axial direction; said digital valve assembly includes a single inlet, a first outlet and a second outlet separate from the first outlet; and fluid flow from said single inlet to said first outlet is in a first direction parallel to said axial direction and fluid flow from said single inlet to said second outlet is in a second direction parallel to said axial direction, said second direction being opposite to said first direction. 2. The shock absorber according to claim 1 , further comprising: a third fluid passage extending through said piston body; a second valve assembly controlling fluid flow through said third fluid passage. 3. The shock absorber according to claim 1 , wherein said digital valve assembly includes a plurality of digital valves. 4. The shock absorber according to claim 3 , wherein said plurality of digital valves are aligned in an axial direction of said piston rod assembly. 5. The shock absorber according to claim 1 , further comprising a circuit board disposed within said piston rod assembly. 6. The shock absorber according to claim 1 , wherein said first member is a sleeve, and said single inlet is in communication with one of said upper and lower working chambers and said first and second outlets are in communication with the other of said upper and lower working chambers; said second member is a spool movably disposed within said sleeve; and said third member is a coil assembly disposed adjacent said spool. 7. The shock absorber according to claim 6 , wherein said digital valve assembly includes a plurality of digital valves. 8. The shock absorber according to claim 1 , wherein said first member is a sleeve; said second member is a spool movably disposed within said sleeve; and said third member is a coil assembly disposed adjacent said spool. 9. A shock absorber comprising: a pressure tube forming a working chamber; a piston assembly slidably disposed within said pressure tube, said piston assembly dividing said working chamber into an upper working chamber and a lower working chamber, said piston assembly including a piston body defining a first fluid passage extending through said piston body and a valve assembly controlling fluid flow through said first fluid passage; a tubular piston rod assembly attached to said piston assembly, and having an internal bore forming a second fluid passage at least partially therethrough, and an outlet passage to allow flow communication between the working chamber and the internal bore; a digital valve assembly including at least one axially movable digital valve housed within said tubular piston rod for controlling fluid flow between said second fluid passage and said outlet passage, said digital valve having a first position blocking flow communication between said internal bore and said outlet passage, and a second position permitting flow between said internal bore and said outlet passage; wherein said valve assembly and said digital valve assembly are selectively controlled to change a damping load of said shock absorber; said digital valve assembly includes a first member, a second member disposed within said first member to move in an axial direction within said first member and a third member configured to move said second member in the axial direction; said digital valve assembly includes a single inlet, a first outlet and a second outlet separate from the first outlet; and fluid flow from said single inlet to said first outlet is in a first direction parallel to said axial direction and fluid flow from said single inlet to said second outlet is in a second direction parallel to said axial direction, said second direction being opposite to said first direction.