Methods and apparatus for suspending vehicles

What we claim is: 1. A gas spring assembly comprising: a gas spring having a main damper chamber, said main damper chamber including a main gas chamber and a secondary gas chamber, said secondary gas chamber separated from said main gas chamber by a sealed positionally-fixed bulkhead, said sealed positionally-fixed bulkhead disposed within said main damper chamber, a volume of said secondary gas chamber not altered by movement of said gas spring assembly, a pressure within said second chamber not altered by said movement of said gas spring assembly until a pressure in said main gas chamber reaches a preset valve cracking pressure; a first valve disposed along a first fluid path coupling said main gas chamber and said secondary gas chamber, said first valve of said gas spring assembly having an open position which allows fluid to flow from said main gas chamber to said secondary gas chamber when said pressure in said main gas chamber reaches said preset valve cracking pressure, said first valve having a closed position which prevents said fluid from flowing from said main gas chamber to said secondary gas chamber; a user-operable adjustment rod coupled with said first valve of said gas spring assembly, said user-operable adjustment rod configured to control said preset valve cracking pressure; and a second valve disposed along a second fluid path coupling said main gas chamber and said secondary gas chamber, said second valve having an open position which allows said fluid to flow from said secondary gas chamber to said main gas chamber, said second valve having a closed position which prevents said fluid from flowing from said secondary gas chamber to said main gas chamber, said second valve biased towards said closed position. 2. The gas spring assembly of claim 1 further comprising: a spring coupled with said first valve and said user-operable adjustment rod, said spring biasing said first valve in said closed position. 3. The gas spring assembly of claim 2 wherein said user-operable adjustment rod controls an amount of compression applied to said spring. 4. The gas spring assembly of claim 1 wherein said secondary gas chamber has an annular shape. 5. The gas spring assembly of claim 1 further comprising: a spring coupled with said second valve, said spring biasing said second valve in said closed position. 6. The gas spring assembly of claim 1 wherein said first valve and said second valve are integrated into a common assembly. 7. The gas spring assembly of claim 1 wherein said first valve at least partially surrounds said second valve. 8. A shock absorber having a gas spring, said gas spring comprising: a main damper chamber, said main damper chamber including a main gas chamber at a first pressure; a secondary gas chamber at a second pressure, said secondary gas chamber disposed within said main damper chamber, said secondary gas chamber separated from said main gas chamber by a sealed positionally-fixed bulkhead, said sealed positionally-fixed bulkhead disposed within said main damper chamber, a volume of said secondary gas chamber not altered by movement of said shock absorber, a pressure within said second chamber not altered by said movement of said shock absorber until a pressure in said main gas chamber reaches a preset valve cracking pressure; a first valve disposed along a first fluid path coupling said main gas chamber and said secondary gas chamber, said first valve having an open position which allows fluid to flow from said main gas chamber to said secondary gas chamber, said first valve having a closed position which prevents said fluid from flowing from said main gas chamber to said secondary gas chamber, said first valve moving to said open position provided said first pressure reaches said preset valve cracking pressure; a user-operable adjustment rod coupled with said first valve, said user-operable adjustment rod configured to adjust a value of said preset valve cracking pressure at which said first valve moves from said closed position to said open position; and a second valve disposed along a second fluid path coupling said main gas chamber and said secondary gas chamber, said second valve having an open position which allows said fluid to flow from said secondary gas chamber to said main gas chamber, said second valve having a closed position which prevents said fluid from flowing from said secondary gas chamber to said main gas chamber. 9. The shock absorber of claim 8 , wherein said main gas chamber of said gas spring and said secondary gas chamber of said gas spring are operable in combination to increase a range of travel for said shock absorber during which said shock absorber achieves a linear portion of a spring curve, wherein said second valve of said gas spring moves to said open position provided said second pressure reaches a pressure difference with respect to said first pressure. 10. The shock absorber of claim 8 wherein said secondary gas chamber of said gas spring has an annular shape. 11. The shock absorber of claim 8 wherein said preset valve cracking pressure of said gas spring is set during manufacture of said shock absorber. 12. The shock absorber of claim 8 further comprising: a spring coupled with said second valve of said gas spring, said spring biasing said second valve in said closed position. 13. The shock absorber of claim 8 wherein said first valve of said gas spring and said second valve of said gas spring are integrated into a common assembly. 14. The shock absorber of claim 8 wherein said first valve of said gas spring at least partially surrounds said second valve of said gas spring.