Solenoid driven actuator systems

What is claimed is: 1. A solenoid driven actuator system, the system comprising: a first solenoid having at least one pressure input and a pressure outlet downstream from the at least one pressure input; a second solenoid having at least one pressure input and a pressure outlet downstream from the at least one pressure input; a pressure-switching valve operatively coupled to the first and second solenoids; and an actuator valve operatively coupled to the pressure outlet of the second solenoid, wherein the pressure-switching valve includes a first side, a second side and a slidable spool therebetween; and wherein the first side of the pressure-switching valve is in fluid communication with a first pressure source through a first side pressure port. 2. The solenoid driven actuator system of claim 1 , wherein the at least one pressure input of the first solenoid includes a first pressure input and a second pressure input. 3. The solenoid driven actuator system of claim 1 , wherein the at least one pressure input of the second solenoid includes a first pressure input and a second pressure input. 4. The solenoid driven actuator system of claim 3 , wherein the pressure-switching valve is in fluid communication with the first pressure input of the second solenoid. 5. The solenoid driven actuator system of claim 3 , wherein the pressure outlet of the first solenoid is in fluid communication with the second pressure input of the second solenoid. 6. The solenoid driven actuator system of claim 1 , wherein the second side of the pressure-switching valve is in fluid communication with the pressure outlet of the first solenoid through a second side pressure port. 7. The solenoid driven actuator system of claim 1 , wherein the pressure-switching valve includes a secondary pressure port between the first and second sides of the pressure-switching valve, wherein the secondary pressure port is in fluid communication with a first pressure source. 8. The solenoid driven actuator system of claim 7 , wherein the pressure-switching valve includes an additional secondary pressure port between the first and second sides of the pressure-switching valve, wherein the additional secondary pressure port is in fluid communication with a second pressure source. 9. The solenoid driven actuator system of claim 8 , wherein at least one of the secondary pressure port or the additional secondary pressure port of the pressure-switching valve is in fluid communication with a first pressure input of the second solenoid. 10. A method for controlling an actuator valve with dual redundant solenoids, the method comprising: providing a low pressure from a low pressure source to a first solenoid; providing a high pressure from a high pressure source to the first solenoid, wherein the high pressure source is at a higher pressure relative to the low pressure source; providing the low pressure from the low pressure source to a pressure-switching valve; providing the high pressure from the high pressure source to the pressure-switching valve; providing a control pressure from at least one of the first solenoid or the pressure-switching valve to a second solenoid; controlling an actuator valve with an output of the second solenoid when the first solenoid is in a failure mode to at least one of the high pressure or the low pressure by providing at least one of the high pressure or the low pressure from the first solenoid to the pressure-switching valve. 11. The method as recited in claim 10 , wherein controlling the actuator valve with the output of the second solenoid includes controlling the actuator valve with the output of the second solenoid when the first solenoid is in the failure mode to the high pressure by providing the high pressure from the first solenoid to the pressure-switching valve thereby exposing a first inlet of the second solenoid to the low pressure source via the pressure-switching valve. 12. The method as recited in claim 10 , wherein controlling the actuator valve with the output of the second solenoid includes controlling the actuator valve with the output of the second solenoid when the first solenoid is in the failure mode to the low pressure by providing the low pressure from the first solenoid to the pressure-switching valve thereby exposing a first inlet of the second solenoid to the high pressure source via the pressure-switching valve. 13. A method for controlling an actuator valve with a dual redundant solenoids, the method comprising: providing a low pressure from a low pressure source to a first solenoid; providing a high pressure from a high pressure source to the first solenoid, wherein the high pressure source is at a higher pressure relative to the low pressure source; providing the low pressure from the low pressure source to a pressure-switching valve; providing the high pressure from the high pressure source to the pressure-switching valve; providing a control pressure from at least one of the first solenoid or the pressure-switching valve to a second solenoid; controlling an actuator valve with an output of the second solenoid; and controlling the actuator valve with an output of the first solenoid when the second solenoid is in a failure mode by exposing a first side of the pressure-switching valve to at least one of the low pressure source or the high pressure source. 14. The method as recited in claim 13 , wherein controlling the actuator valve with an output of the first solenoid when the second solenoid is in the failure mode includes exposing the first side of the pressure-switching valve to the high pressure source thereby exposing a first inlet of the second solenoid to the low pressure source. 15. The method as recited in claim 13 , wherein controlling the actuator valve with an output of the first solenoid when the second solenoid is in the failure mode includes exposing the first side of the pressure-switching valve to the low pressure source thereby exposing a first inlet of the second solenoid to the high pressure source.