Reverse flow check valve in hydraulic valve with series circuit

What is claimed is: 1. A reverse motion check valve comprising: a valve body, including a flow passage along a flow axis and a bore extending perpendicularly through a plane that the flow passage lies in and extending above and below the flow passage; and a spool having a cylindrical side wall and opposite end walls and being disposed in the bore for movement along a spool axis that extends perpendicularly through the plane that the flow passage lies in, wherein the flow passage and bore are arranged so that flow along the flow axis is transverse to movement of the spool along the spool axis, wherein the spool is biased in a closed position at which the cylindrical side wall prevents fluid flow through the flow passage and the spool is movable by upstream pressure to an open position allowing fluid flow through the flow passage; wherein the flow passage has a flow area in axial cross section through which the fluid flows, and the spool has a diameter that is larger than the span of the flow area, wherein when the spool is biased to the closed position the outer diameter of the spool seals the flow passage at axially upstream and axially downstream sides of the flow passage such that the spool spans the entire flow area of the flow passage to prevent fluid flow through the flow passage. 2. The reverse motion check valve of claim 1 , wherein the bore is larger in diameter than an immediately adjacent and downstream portion of the flow passage. 3. The reverse motion check valve of claim 1 , wherein the valve body is monocast. 4. The reverse motion check valve of claim 1 , wherein an end of the spool opposite a spring causing the biasing is fluidly connected to pressure upstream of the spool and an end of the spool with the spring is fluidly connected to pressure downstream of the spool, and wherein, if the pressure upstream is greater than the pressure downstream, plus load generated by the spring, the spool will move toward the end having the spring and allow flow from upstream of the bore to continue downstream of the bore, and if the pressure downstream is higher than the upstream pressure minus load generated by the spring, then the spool moves in a direction opposite the spring and closes the flow passage. 5. A reverse motion check valve comprising: a valve body, including a flow passage along a flow axis and a bore extending perpendicularly through a plane that the flow passage lies in and extending above and below the flow passage; and a spool having a cylindrical side wall and opposite end walls and being disposed in the bore for movement along a spool axis that extends perpendicularly through the plane that the flow passage lies in, wherein the flow passage and bore are arranged so that flow along the flow axis is transverse to movement of the spool along the spool axis, wherein the spool is biased in a closed position at which the cylindrical side wall prevents fluid flow through the flow passage and the spool is movable by upstream pressure to an open position allowing fluid flow through the flow passage; wherein in the closed position the diameter of the spool seals the flow passage on diametrically opposite sides of the bore to prevent fluid flow through the flow passage, and the portion of the spool spanning the bore in the closed position is the portion that, when the spool is moved to the open position, allows fluid flow through the flow passage. 6. The reverse motion check valve of claim 5 , wherein the bore is larger in diameter than an immediately adjacent and downstream portion of the flow passage. 7. The reverse motion check valve of claim 5 , wherein the valve body is monocast. 8. The reverse motion check valve of claim 5 , wherein an end of the spool opposite a spring causing the biasing is fluidly connected to pressure upstream of the spool and an end of the spool with the spring is fluidly connected to pressure downstream of the spool, and wherein, if the pressure upstream is greater than the pressure downstream, plus load generated by the spring, the spool will move toward the end having the spring and allow flow from upstream of the bore to continue downstream of the bore, and if the pressure downstream is higher than the upstream pressure minus load generated by the spring, then the spool moves in a direction opposite the spring and closes the flow passage. 9. The reverse motion check valve of claim 5 , wherein the portion of the spool spanning the bore in the closed position is configured to check the fluid through the flow passage as the spool moves from the closed position to the open position.