Tensioner with spring force control in a second bore

What is claimed is: 1. A tensioner for a passive tensioner system tensioning a span of chain or a belt comprising: a housing having a first axially extending bore with a first fluid input and a second axially extending bore with a second fluid input; a first piston slidably received by the first axially extending bore, the first piston comprising a body having a first end and a second end; a first pressure chamber for biasing the first piston outwards from the housing, defined between the first piston and the first axially extending bore and in fluid communication with the first fluid input; a second piston slidably received within the second axially extending bore, the second piston comprising a body having a first end and a second end; a third piston slidably received within the second axially extending bore, the third piston comprising a body having a first end with a top surface and a second end; a second piston spring received in the second axially extending bore, the second piston spring having a first end in contact with the second piston and a second end in contact with the top surface of the third piston; a third piston spring received in the second axially extending bore, the third piston spring having a first end in contact with the third piston and a second end in contact with the second axially extending bore; a second pressure chamber defined between the third piston and the second axially extending bore, in fluid communication with the second fluid input; and a check valve between the second pressure chamber and the second fluid input; wherein when dynamic load from the chain or belt moves the first piston and the second piston inwards and outwards from the housing, fluid from the second fluid input is drawn into the second pressure chamber through the check valve, creating a fluid pressure in the second pressure chamber, causing the third piston to move outwards from the housing and exert an outward force on the second piston through the second piston spring, opposing an inward force of the dynamic load. 2. The tensioner of claim 1 , wherein the body of the second piston further comprises an open end at the second end and a closed end at the first end, a bottom surface at the open end, a top surface at the closed end, and a hollow interior having an inner diameter. 3. The tensioner of claim 2 , wherein the second piston spring is received by the hollow interior of the second piston, the second piston spring having a first end in contact with the hollow interior of the second piston. 4. The tensioner of claim 1 , wherein the body of the third piston further comprises an open end at the second end and a closed end at the first end, a bottom surface at the open end, and a hollow interior having an inner diameter. 5. The tensioner of claim 4 , wherein the third piston spring is received by the hollow interior of the third piston, the third piston spring having a first end in contact with the hollow interior of the third piston. 6. The tensioner of claim 1 , wherein the first piston and the second piston are coupled for movement together. 7. The tensioner of claim 6 , wherein the first piston and the second piston are coupled for movement together by coupling the body of the first piston and the body of the second piston. 8. The tensioner of claim 6 , wherein the first piston further comprises an extension having a top surface and a bottom surface, wherein the second piston pushes on the bottom surface of the first extension, coupling the second piston to the first piston for movement together. 9. The tensioner of claim 6 , wherein the coupling is flexible. 10. The tensioner of claim 6 , wherein the coupling is rigid. 11. The tensioner of claim 1 , wherein the body of the first piston further comprises an open end at the second end and a closed end at the first end, a bottom surface at the open end, a top surface at the closed end, and a hollow interior having an inner diameter. 12. The tensioner of claim 11 , further comprising a first piston spring received within the hollow interior of the first piston, for biasing the first piston outwards from the housing, the first piston spring having a first end contacting the hollow interior of the first piston and a second end contacting the first axially extending bore. 13. The tensioner of claim 12 , wherein the second piston spring has a greater spring constant than the first piston spring and the third piston spring. 14. The tensioner of claim 11 , further comprising a volume reducer received by the hollow interior of the first piston. 15. The tensioner of claim 1 , further comprising a first piston spring for biasing the first piston outwards from the housing, the first piston spring having a first end contacting the second end of the first piston and a second end contacting the first axially extending bore. 16. The tensioner of claim 1 , further comprising a vent for venting fluid from the first pressure chamber. 17. The tensioner of claim 1 , wherein the first fluid input and the second fluid input are connected to the same fluid supply. 18. The tensioner of claim 1 , wherein the first fluid input and the second fluid input are connected to different fluid supplies. 19. The tensioner of claim 1 , wherein the first bore is parallel to the second bore. 20. The tensioner of claim 1 , wherein the first bore is perpendicular to the second bore.