Damper assembly with frequency adaptive orifice

What is claimed is: 1. A damper assembly comprising: a housing having a tubular shape extending along a center axis; a piston movable through the housing along the center axis; a body defining a frequency-adaptive orifice (FAO) passage providing fluid communication between a first chamber and a second chamber; an FAO valve assembly having an FAO cover member configured to cover the FAO passage to block fluid flow therethrough in response to application of a low-frequency excitation below a predetermined frequency, the FAO valve assembly further configured to allow fluid flow through the FAO passage in response to application of a high-frequency excitation above the predetermined frequency; and the FAO valve assembly further comprising a tappet configured to translate relative to the body to bias the FAO cover member to cover the FAO passage in response to the application of the low-frequency excitation in an at least one of a compression direction or a rebound direction opposite the compression direction, wherein the housing defines a main chamber, the piston divides the main chamber into a compression chamber and a rebound chamber, the first chamber includes the compression chamber, and the second chamber includes the rebound chamber; and wherein the piston includes a piston body and the piston body is the body defining the FAQ passage, wherein the piston body defines an FAO chamber with the tappet disposed therein; and wherein the FAO chamber is in fluid communication with the compression chamber, wherein the piston body defines a rebound passage in fluid communication with the rebound chamber; wherein the piston further comprises a rebound valve assembly including a rebound disc stack covering an end of the rebound passage to regulate fluid flow from the rebound chamber to the compression chamber during a rebound stroke; and wherein the FAO passage extends between the rebound passage and the FAO chamber to provide fluid communication therebetween. 2. The damper assembly of claim 1 , wherein the tappet is configured to bias the FAO cover member to cover the FAO passage in response to the application of the low-frequency excitation in the rebound direction. 3. The damper assembly of claim 1 , further comprising: a damper rod extending along the center axis and including a rod end located within the main chamber; wherein the piston is attached to the damper rod adjacent to the rod end; wherein the piston further comprises a guiding sleeve disposed about the damper rod; and wherein the tappet has ring shape disposed around and engaging the guiding sleeve. 4. The damper assembly of claim 3 , wherein the piston further comprises a compression valve assembly configured to regulate fluid flow from the compression chamber to the rebound chamber during a compression stroke, the compression valve assembly including a compression disc stack disposed annularly around the guiding sleeve. 5. The damper assembly of claim 3 , wherein the guiding sleeve includes a distal tubular portion disposed coaxially with and tightly against the damper rod; and wherein the tappet is disposed around the distal tubular portion and is configured to slide therealong. 6. The damper assembly of claim 5 , wherein the distal tubular portion of the guiding sleeve includes an outer surface defining a first seal slot receiving a first O-ring seal for sealing against an inner surface of the tappet. 7. The damper assembly of claim 6 , wherein the guiding sleeve further includes a disc-shaped portion that extends annularly around the damper rod and radially outwardly from the distal tubular portion; wherein the tappet includes an inner tubular portion disposed around the distal tubular portion of the guiding sleeve and configured to slide therealong; wherein the tappet further includes a flange portion and an outer tubular portion, the flange portion having an annular shape extending radially outwardly from the inner tubular portion, the outer tubular portion extending annularly around the flange portion; and wherein the outer tubular portion of the tappet is disposed annularly around the disc-shaped portion of the guiding sleeve and configured to slide therealong. 8. The damper assembly of claim 7 , wherein the tappet and the guiding sleeve together define a tappet chamber extending between the flange portion of the tappet and the disc-shaped portion of the guiding sleeve; and wherein the tappet chamber is in fluid communication with the rebound chamber via a balance passage. 9. The damper assembly of claim 7 , wherein the disc-shaped portion of the guiding sleeve includes an outer surface defining a second seal slot with a second O-ring seal disposed therein and sealing against an inner surface of the outer tubular portion of the tappet. 10. The damper assembly of claim 3 , wherein the tappet defines at least in part, a tappet chamber; wherein the tappet chamber is in fluid communication with the rebound chamber via a balance passage; and wherein the guiding sleeve defines, at least in part, the balance passage. 11. The damper assembly of claim 10 , wherein the guiding sleeve includes a proximal tubular portion having a tubular shape disposed around the damper rod and spaced apart therefrom to define, at least in part, the balance passage therebetween. 12. The damper assembly of claim 1 , wherein the tappet defines, at least in part, a tappet chamber; wherein the tappet chamber is in fluid communication with the rebound chamber via a balance passage; and wherein the FAO valve assembly further comprises a control orifice configured to restrict fluid flow between the rebound chamber and the tappet chamber. 13. The damper assembly of claim 12 , further comprising a damper rod extending along the center axis and including a rod end located within the main chamber; wherein the piston is attached to the damper rod adjacent to the rod end; wherein the damper rod includes a rod body having a first diameter, a rod shoulder spaced apart from and facing toward the rod end, and a rod extension extending from the rod shoulder to the rod end and having a second diameter smaller than the first diameter; and wherein the FAO valve assembly further comprises a valve control disc disposed around the rod extension and defining, at least in part, the control orifice. 14. A piston for a damper assembly, comprising: a piston body defining a frequency-adaptive orifice (FAO) passage for providing fluid communication between a compression chamber and a rebound chamber; an FAO valve assembly having an FAO cover member configured to cover the FAO passage to block fluid flow therethrough in response to application of a low-frequency excitation below a predetermined frequency, the FAO valve assembly further configured to allow fluid flow through the FAO passage in response to application of a high-frequency excitation above the predetermined frequency; and the FAO valve assembly further comprising a tappet configured to translate relative to the piston body to bias the FAO cover member to cover the FAO passage in response to the application of the low-frequency excitation in an at least one of a compression direction or a rebound direction opposite the compression direction, wherein the piston further comprises a guiding sleeve; and wherein the tappet has ring shape disposed around and engaging the guiding sleeve, wherein the guiding sleeve includes a distal tubular portion having a tubular shape; and wherein the tappet is disposed around the distal tubular portion and is configured to slide therealong, wherein the guiding sleeve further includes a disc-shaped p