Low power consumption electro-hydraulic system with multiple solenoids

What is claimed is: 1. An apparatus comprising: a first hydraulic conduit and a second hydraulic conduit; a first normally closed (NC) solenoid valve (SOV) and a second NC SOV; a first dynamic flow regulator hydraulically coupled with the first NC SOV; a second dynamic flow regulator hydraulically coupled with the second NC SOV; an inverse shuttle valve hydraulically coupled between the first hydraulic conduit and both of the first and the second NC SOVs and hydraulically coupled between the second hydraulic conduit and both of the first and second NC SOVs; and a shuttle valve hydraulically coupled between the first hydraulic conduit and both the first and second NC SOVs and hydraulically coupled between the second hydraulic conduit and both the first and second NC SOVs. 2. The apparatus of claim 1 , wherein the first dynamic flow regulator being hydraulically coupled with the first NC SOV comprises a first port of the first dynamic flow regulator being hydraulically coupled with an X-port of the first NC SOV and wherein the second dynamic flow regulator being hydraulically coupled with the second NC SOV comprises a first port of the second dynamic flow regulator being hydraulically coupled with an X-port of the second NC SOV. 3. The apparatus of claim 1 , further comprising a first filter and a second filter, wherein a first port of the first filter is hydraulically coupled with a second port of the first dynamic flow regulator and a second port of the first filter is adapted to hydraulically couple with a close side of an interval control valve and wherein a first port of the second filter is hydraulically coupled with a second port of the second dynamic flow regulator and a second port of the second filter is adapted to hydraulically couple with an open side of the interval control valve. 4. The apparatus of claim 1 , wherein the inverse shuttle valve being hydraulically coupled between the first hydraulic conduit and both of the first and the second NC SOVs and hydraulically coupled between the second hydraulic conduit and both of the first and the second NC SOVs comprises an A-port of the inverse shuttle valve being hydraulically coupled with the first hydraulic line, a B-port of the inverse shuttle valve being hydraulically coupled with the second hydraulic line, and a C-port of the inverse shuttle valve being hydraulically coupled with an R-port of the first NC SOV and with an R-port of the second NC SOV. 5. The apparatus of claim 1 , wherein the shuttle valve being hydraulically coupled between the first hydraulic conduit and both of the first and the second NC SOVs and hydraulically coupled between the second hydraulic conduit and both of the first and the second NC SOVs comprises an A-port of the shuttle valve being hydraulically coupled with the first hydraulic line, a B-port of the shuttle valve being hydraulically coupled with the second hydraulic line, and a C-port of the shuttle valve being hydraulically coupled with a P-port of the first NC SOV and with a P-port of the second NC SOV. 6. The apparatus of claim 1 , further comprising a housing. 7. The apparatus of claim 1 , wherein the first dynamic flow regulator and the second dynamic flow regulator each have an automatically adjustable variable-metering orifice. 8. The apparatus of claim 1 , wherein the first dynamic flow regulator and the second dynamic flow regulator are configured to maintain a constant differential pressure across each dynamic flow regulator.