Single solenoid valve electro-hydraulic control system that actuates control valve

The invention claimed is: 1. A system comprising: tubing; an interval control valve (ICV) coupled to the tubing, the ICV having an open side and a close side; a first hydraulic line and a second hydraulic line that are coupled with a hydraulic power system; a first electrical line coupled with an electrical power source; a first set of one or more housings that enclose, a shuttle valve coupled with the first and the second hydraulic lines and hydraulically coupled with a normally closed (NC) solenoid valve (SOV); a check valve hydraulically coupled between the NC SOV and the second hydraulic line; a dynamic flow restrictor that is hydraulically coupled between the NC SOV and first and second inverse shuttle valves; the first inverse shuttle valve coupled with the second hydraulic line and hydraulically coupled with the close side of the ICV; and the second inverse shuttle valve coupled with the first hydraulic line and hydraulically coupled with the open side of the ICV. 2. The system of claim 1 , wherein the first hydraulic line is coupled with an A-port of the shuttle valve, the second hydraulic line is coupled with a B-port of the shuttle valve, and the NC SOV is hydraulically coupled with a C-port of the shuttle valve. 3. The system of claim 2 , wherein the C-port of the shuttle valve is hydraulically coupled with a P-port of the NC SOV, the check valve is hydraulically coupled with a R-port of the NC SOV, and an X-port of the NC SOV is hydraulically coupled with the dynamic flow restrictor. 4. The system of claim 1 , wherein the dynamic flow restrictor is configured to maintain a constant differential pressure across the dynamic flow restrictor. 5. The system of claim 4 , wherein the dynamic flow restrictor comprises an automatically adjustable variable-metering orifice. 6. The system of claim 1 , further comprising a first flow fuse that is hydraulically coupled between a third hydraulic line and a fourth hydraulic line, wherein the third hydraulic line couples the first inverse shuttle valve with the close side of the ICV and the fourth hydraulic line coupled the second inverse shuttle valve with the open side of the ICV. 7. The system of claim 6 , wherein the third hydraulic line is coupled with a C-port of the first inverse shuttle valve and the fourth hydraulic line is coupled with a C-port of the second inverse shuttle valve. 8. The system of claim 6 , wherein the first flow fuse is a bidirectional fuse. 9. The system of claim 6 , further comprising a second flow fuse, wherein the second flow fuse is oriented in an opposite direction from the first flow fuse and coupled in parallel with the first flow fuse. 10. The system of claim 1 further comprising: a second ICV coupled to the tubing; a second set of one or more housings that enclose, a second shuttle valve coupled with the first and the second hydraulic lines and hydraulically coupled with a second NC SOV; a second check valve hydraulically coupled between the second NC SOV and the second hydraulic line; a second dynamic flow restrictor that is hydraulically coupled between the second NC SOV and third and fourth shuttle valves; the third shuttle valve coupled with the second hydraulic line and hydraulically coupled with a close side of the second ICV; and the fourth shuttle valve coupled with the first hydraulic line and hydraulically coupled with an open side of the second ICV. 11. The system of claim 10 , wherein the second NC SOV is coupled with the first electrical line or a second electrical line. 12. An apparatus comprising: a first hydraulic conduit and a second hydraulic conduit; a shuttle valve coupled with the first and second hydraulic conduits and coupled by a third hydraulic conduit with a normally closed (NC) solenoid valve (SOV); a check valve coupled by a fourth hydraulic conduit with the NC SOV and coupled with the second hydraulic conduit; a dynamic flow restrictor that is coupled by a fifth hydraulic conduit with the NC SOV and coupled by a sixth hydraulic conduit with a first and a second inverse shuttle valves; the first inverse shuttle valve coupled with the second hydraulic conduit and coupled with a seventh hydraulic conduit; and the second inverse shuttle valve coupled with the first hydraulic conduit and coupled with an eighth hydraulic conduit, wherein the seventh and eighth hydraulic conduits are adapted to couple with a control valve external to the apparatus. 13. The apparatus of claim 12 , wherein the sixth hydraulic conduit branches to couple the dynamic flow restrictor with the first inverse shuttle valve by a first branch and with the second inverse shuttle valve by a second branch. 14. The apparatus of claim 12 , wherein the first hydraulic conduit is coupled with an A-port of the shuttle valve, the second hydraulic conduit is coupled with a B-port of the shuttle valve, and the third hydraulic conduit couples the NC SOV with a C-port of the shuttle valve. 15. The apparatus of claim 14 , wherein the third hydraulic conduit couples the C-port of the shuttle valve with a P-port of the NC SOV, the fourth hydraulic conduit couples the check valve with a R-port of the NC SOV and a branch off the second hydraulic conduit couples the check valve with the second hydraulic conduit, and the fifth hydraulic conduit couples an X-port of the NC SOV with the dynamic flow restrictor. 16. The apparatus of claim 12 further comprising a housing having apertures to route the first, second, seventh, and eighth hydraulic conduits. 17. The apparatus of claim 12 , further comprising a first flow fuse that is coupled between the seventh and eighth hydraulic conduits. 18. The apparatus of claim 17 , wherein the first flow fuse is a bidirectional fuse.