Dual inline starter air valve

What is claimed is: 1. A starter air valve comprising: a housing comprising an inlet at a first end, an outlet at a second end opposite the first end, and a center portion between the first end and the second end, the outlet being fluidly connected to the inlet through a fluid passage; a first piston located within the housing between the first end and the center portion, the first piston comprising: a first cupped portion configured to form a first chamber with the housing proximate the first end; and a second cupped portion opposite the first cupped portion, the second cupped portion being configured to form a second chamber with the housing proximate the center portion; and a second piston located within the housing between the second end and the center portion, the second piston comprising: a third cupped portion configured to form a third chamber with the housing proximate the second end; and a fourth cupped portion opposite the third cupped portion, the fourth cupped portion being configured to form a fourth chamber with the housing proximate the center portion, wherein the first piston is configured to regulate airflow through the fluid passage by adjusting at least one of a first pressure within the first chamber and a second pressure within the second chamber, wherein the second piston is configured to regulate airflow through the fluid passage by adjusting at least one of a third pressure within the third chamber and a fourth pressure within the fourth chamber, wherein movement of the first piston in either a first direction or a second direction is caused by a balance of forces created solely by the first pressure within the first chamber and the second pressure within the second chamber, and wherein movement of the second piston in either the first direction or the second direction is caused by a balance of forces created solely by the third pressure within the third chamber and the fourth pressure within the fourth chamber. 2. The starter air valve of claim 1 , wherein: a first outer wall of the first cupped portion is configured to extend across the fluid passage and block the airflow through the fluid passage when the first pressure is decreased relative to the second pressure. 3. The starter air valve of claim 1 , wherein: a second outer wall of the third cupped portion is configured to extend across the fluid passage and block the airflow through the fluid passage when the third pressure is decreased relative to the fourth pressure. 4. The starter air valve of claim 1 , wherein: the first piston and the second piston are inline along a common center axis. 5. The starter air valve of claim 1 , wherein: the second pressure within the second chamber is equal to about a selected percentage of a supply pressure at the inlet. 6. The starter air valve of claim 5 , further comprising: an orifice divider network fluidly connecting the second pressure chamber to the fluid passage at a first orifice proximate the inlet, the orifice divider network is configured to provide air from the fluid passage to the second pressure chamber at the selected percentage of the supply pressure at the inlet. 7. The starter air valve of claim 1 , further comprising: a solenoid valve configured to adjust the first pressure. 8. The starter air valve of claim 1 , further comprising: a torque motor valve configured to adjust the third pressure. 9. The starter air valve of claim 1 , further comprising: a torque motor valve configured to adjust the first pressure. 10. The starter air valve of claim 1 , further comprising: a solenoid valve configured to adjust the third pressure. 11. The starter air valve of claim 1 , further comprising: a pressure sensor configured to detect airflow pressure within the fluid passage and activate an alarm when airflow pressure within the fluid passage is below a selected fluid passage air pressure. 12. The starter air valve of claim 1 , wherein: the first pressure within the first chamber acts on a first surface and the second pressure within the second chamber acts on a second surface directly opposite the first surface; and the third pressure within the third chamber acts on a third surface and the fourth pressure within the fourth chamber acts on a fourth surface directly opposite the third surface. 13. The starter air valve of claim 12 , wherein: a surface area of the first surface is greater surface area than a surface area of the second surface. 14. The starter air valve of claim 13 , wherein: the surface area of the first surface is about twice the surface area of the second surface. 15. The starter air valve of claim 12 , wherein: a surface area of the third surface is greater surface area than a surface area of the fourth surface. 16. The starter air valve of claim 15 , wherein: the surface area of the third surface is about twice the surface area of the fourth surface. 17. The starter air valve of claim 1 , further comprising: an ambient fluid network fluidly connecting air located outside of the housing to the fourth chamber, the ambient fluid network configured to provide air from the outside of the housing to the fourth chamber at about an ambient pressure. 18. A method of operating a starter air valve comprising a housing having an inlet at a first end, an outlet at a second end opposite the first end, and a center portion between the first end and the second end, the outlet being fluidly connected to the inlet through a fluid passage, the method comprising: regulating the airflow through the fluid passage using a first piston located within the housing between the first end and the center portion, the first piston comprising: a first cupped portion configured to form a first chamber with the housing proximate the first end; and a second cupped portion opposite the first cupped portion, the second cupped portion being configured to form a second chamber with the housing proximate the center portion; and regulating the airflow through the fluid passage using a second piston located within the housing between the second end and the center portion, the second piston comprising: a third cupped portion configured to form a third chamber with the housing proximate the second end; and a fourth cupped portion opposite the third cupped portion, the fourth cupped portion being configured to form a fourth chamber with the housing proximate the center portion; wherein the first piston is configured to regulate airflow through the fluid passage by adjusting at least one of a first pressure within the first chamber and a second pressure within the second chamber, wherein the second piston is configured to regulate airflow through the fluid passage by adjusting at least one of a third pressure within the third chamber and a fourth pressure within the fourth chamber, wherein movement of the first piston in either a first direction or a second direction is caused by a balance of forces created solely by the first pressure within the first chamber and the second pressure within the second chamber, and wherein movement of the second piston in either the first direction or the second direction is caused by a balance of forces created solely by the third pressure within the third chamber and the fourth pressure within the fourth chamber. 19. The method of claim 18 , further comprising: blocking the airflow through the fluid passage using a first outer wall of the first cupped portion, the first outer wall being configured to extend across the fluid passage when th