Apparatus to bias spool valves using supply pressure

What is claimed is: 1. An apparatus comprising: a housing of a spool valve, the housing having a supply port, a first adjacent port, a second adjacent port, a first outside port, and a second outside port, the first and second adjacent ports disposed on opposite sides of the supply port, the first adjacent port disposed between the first outside port and the supply port, the second adjacent port disposed between the second outside port and the supply port; a spool within the housing, the spool having a first land, a second land, and a third land, a position of the spool within the housing defining a flow path through the spool valve for a fluid received at the supply port, a variable input force acting on a first end of the spool to urge the spool in a first direction within the housing, a biasing force acting on a second end of the spool to urge the spool in a second direction within the housing opposite the first direction, when the position of the spool corresponds to a null position: (1) the first land blocks a first opening associated with the first outside port, (2) the second land blocks a second opening associated with the supply port, and (3) the third land blocks a third opening associated with the second outside port; a first fluid line to carry the fluid at a supply pressure to the supply port of the housing; and a second fluid line branching off the first fluid line to carry the fluid at the supply pressure to the second end of the spool, the biasing force based on the supply pressure of the fluid, the variable input force based on a range of proportions of the supply pressure of the fluid, the range of proportions of the supply pressure including a first proportion, a second proportion that is greater than the first proportion, and a third proportion that is greater than the second proportion. 2. The apparatus of claim 1 , wherein a maximum value for the variable input force is greater than the biasing force and a minimum value of the variable input force is less than the biasing force. 3. The apparatus of claim 2 , wherein an increase in the supply pressure results in a proportional increase in each of the minimum value of the variable input force, the maximum value of the variable input force, and the biasing force. 4. The apparatus of claim 2 , wherein the second end of the spool has a smaller area than the first end of the spool. 5. The apparatus of claim 4 , wherein the biasing force corresponds to the fluid at the supply pressure acting on the second end of the spool. 6. The apparatus of claim 4 , wherein the area of the second end of the spool is defined by one of a diaphragm, a piston, or a bellows. 7. The apparatus of claim 2 , wherein the first end of the spool has a first area and the second end of the spool has a second area, the first area substantially the same size as the second area. 8. The apparatus of claim 7 , wherein the biasing force corresponds to the fluid at a biasing pressure acting on the second end of the spool, the biasing pressure being a proportion of the supply pressure that is less than the supply pressure. 9. The apparatus of claim 8 , further including: a first flow restrictor fluidly coupling the second fluid line and a chamber within the housing adjacent the second end of the spool; and a second flow restrictor fluidly coupling the chamber to a second pressure less than the biasing pressure. 10. The apparatus of claim 1 , further including a current-to-pressure converter to receive the fluid at the supply pressure and to provide the fluid at an input pressure corresponding to one of the first, second, or third proportions of the supply pressure, the variable input force corresponding to the input pressure acting on the first end of the spool. 11. An apparatus comprising: a sleeve of a spool valve, the sleeve having a first opening, a second opening adjacent the first opening, a third opening adjacent the second opening, a fourth opening adjacent the third opening, and a fifth opening adjacent the fourth opening; and a spool within the sleeve to control a flow of fluid at a supply pressure through the spool valve via different ones of the openings as the spool is moved relative to the sleeve in response to a variable input force, wherein a biasing force is to bias the spool opposite the variable input force, the biasing force to be generated from a biasing pressure of the fluid within a chamber adjacent a biasing end of the spool, the biasing pressure to be based on the fluid at the supply pressure provided directly to the chamber from a supply of the fluid independent of the flow of the fluid through the spool valve, the variable input force controllable to a range of values, the range of values including a minimum value, an intermediate value greater than the minimum value, and a maximum value greater than the intermediate value, the spool including a first land, a second land, and a third land, a spacing of the first, second, and third lands corresponding to a spacing of the first, third, and fifth openings. 12. The apparatus of claim 11 , wherein ones of the values in the range of values are greater than the biasing force and other ones of the values in the range of values are less than the biasing force. 13. The apparatus of claim 12 , wherein the variable input force is to be generated from a variable input pressure acting on an input end of the spool, the input end being opposite the biasing end, the variable input pressure based on the fluid at variable proportions of the supply pressure. 14. The apparatus of claim 13 , wherein the maximum value for the range of values of the variable input force corresponds to when the variable input pressure corresponds to the supply pressure. 15. The apparatus of claim 13 , further including a current-to-pressure converter to define the variable proportions of the supply pressure based on an electrical control signal. 16. The apparatus of claim 15 , wherein separate fluid lines carry the fluid at the supply pressure from the supply to the current-to-pressure converter, the chamber adjacent the biasing end of the spool, and an input port of the spool valve. 17. The apparatus of claim 11 , wherein the biasing pressure corresponds to a fixed proportion of the supply pressure that is less than the supply pressure. 18. An apparatus comprising: a spool within a spool valve, the spool having three lands, the spool to be urged in a first direction within the spool valve in response to an input pressure applied to a first area associated with a first end of the spool, a position of the spool within the spool valve to control a flow of fluid between an input port and first and second output ports in the spool valve, the three lands spaced apart to block the input port and first and second exhaust ports of the spool valve when the position of the spool corresponds to a null position, the first output port positioned between the first exhaust port and the input port, the second output port positioned between the second exhaust port and the input port; and means for generating a biasing force to bias the spool in a second direction opposite the first direction, the biasing force corresponding to a biasing pressure applied to a second area associated with a second end of the spool opposite the first end, both the input pressure and the biasing pressure based on a supply pressure of the fluid, the fluid to be independently supplied from a common source to each of the first end of the spool, the second end of the spool, and the input port of the spool valve, the input pressure being varia