Directional control valve with double-solenoid configurations

The invention claimed is: 1. A double-solenoid directional control valve comprising: a valve body; a first solenoid actuator; a second solenoid actuator; and a valve spool within the valve body, wherein: the valve spool is configured to move within the valve body between a first position, a second position and a third position, where the third spool position lies between the first and second spool positions, and where the spool is maintained in the first and third positions by energizing at least the first or the second solenoid actuator, and where the spool is maintained in the second position by de-energizing both the first and the second solenoid actuators; the first and second solenoid actuators are configured as pilot-operated type solenoid actuators; and one of the first or second solenoid controls a normally-closed pilot valve and the other solenoid controls a normally-open pilot valve. 2. The valve of claim 1 , further comprising a set of centering springs configured to maintain the spool in the third position in the absence of pressurization from the normally-closed pilot valve or the normally-open pilot valve. 3. The valve of claim 2 , where energizing both the first and second solenoids pressurizes the first pilot and maintains the valve spool in the first position. 4. The valve of claim 2 , where de-energizing both the first and second solenoids pressurizes the second pilot and maintains the valve spool in the second position. 5. The valve of claim 2 , where de-energizing the first solenoid and energizing the second solenoid de-pressurizes both pilots, and allows the centering springs to maintain the valve spool in the third position. 6. The valve of claim 5 , wherein the valve is operated by a single electrical input, which is high (energized) when the spool is commanded to the first position, and low (de-energized) when the spool is commanded to the second position. 7. The valve of claim 6 , wherein a high electrical input energizes both the first and second solenoids and maintains the spool in the first position. 8. The valve of claim 6 , where electrical energy from the single electrical input is stored in the valve when the spool is in the first position. 9. The valve of claim 8 , where at least one of a capacitor, a supercapacitor, or a battery is used to store electrical energy. 10. The valve of claim 8 , where upon a transition of the single electrical input from high to low, stored electrical energy supplies power to temporarily energize at least one of the solenoid actuators. 11. The valve of claim 10 , where upon a transition of the single electrical input from high to low, the stored electrical energy is used to energize the second solenoid actuator for a prescribed interval of time, which maintains the spool in the third position. 12. The valve of claim 6 , where upon a transition of the single electrical input from low to high, only the second solenoid is initially energized for a prescribed period of time, which maintains the spool in the third position. 13. The valve of claim 6 , where upon a transition of the single electrical input from low to high, the first solenoid is energized only after the second solenoid has been energized for a prescribed interval of time.