Electro-pneumatic converters and related methods

What is claimed is: 1. A valve controller comprising: a relay including: a piston disposed in a chamber; a seat disposed in a flow path between a high pressure supply and an actuator for a valve; and a plug coupled to the piston, the plug moveable toward or away from the seat to control a flow of high pressure fluid to the actuator; a controller body having a first passageway to be fluidly coupled to a supply pressure source and a second passageway fluidly coupled to the chamber; and an electro-pneumatic converter disposed in the controller body between the first passageway and the second passageway, the electro-pneumatic converter including: a converter body defining an axial passageway between a first opening and a second opening, a supply port formed by the first opening and fluidly coupled to the first passageway; an output port fluidly coupling the axial passageway and the second passageway; and a solenoid disposed in the axial passageway near the second opening, the solenoid including a coil and an armature, the coil wrapped around a core, an exhaust passageway formed through the core, the armature disposed in and movable in the axial passageway, the armature movable between a first position blocking pressurized fluid from flowing from the supply pressure source to the chamber, and a second position allowing the pressurized fluid to flow from the supply pressure source to the chamber to move the piston, thereby moving the plug relative to the seat, the exhaust passageway fluidly coupling the axial passageway to atmosphere when the armature is in the second position. 2. The valve controller of claim 1 , wherein the relay includes a return spring to bias the plug toward the seat. 3. The valve controller of claim 1 , wherein the second passageway is fluidly coupled to a first side of the chamber, and a second side of the chamber is vented to atmosphere. 4. The valve controller of claim 1 , wherein the flow path and the chamber of the relay are defined in the controller body. 5. The valve controller of claim 1 , wherein the controller body has a bore between the first and second passageways, the electro-pneumatic converter disposed in the bore. 6. The valve controller of claim 5 , further including a seal disposed between the converter body and an inner wall of the bore to fluidly seal the electro-pneumatic converter in the bore. 7. The valve controller of claim 1 , wherein the exhaust passageway is axially aligned with the axial passageway. 8. The valve controller of claim 1 , wherein, in the first position, the armature is spaced apart from the core and a flow path is defined between the output port and the exhaust passageway and, in the second position, the armature is engaged with the core and blocks the exhaust passageway. 9. The valve controller of claim 1 , wherein the output port extends from the axial passageway in a direction that is perpendicular to the axial passageway. 10. The valve controller of claim 1 , wherein the output port is a first output port, and wherein the electro-pneumatic converter includes a second output port extending from the axial passageway in a direction opposite to the first output port. 11. The valve controller of claim 1 , further including an electronic controller to activate the solenoid, wherein, when the solenoid is activated, the armature is moved to the second position, and when the solenoid is deactivated, the armature is moved to the first position. 12. The valve controller of claim 11 , wherein the electronic controller is configured to activate the solenoid by applying a first current to the coil for a period of time and then applying a second current to the coil, the second current less than the first current. 13. A controller for operating an actuator, the controller comprising: a relay including: a first body defining a relay input chamber to be fluidly coupled to a high pressure supply and a relay output chamber to be fluidly coupled to the actuator, the first body further defining a piston chamber; a seat disposed around an orifice between the relay input chamber and the relay output chamber; a plug movable relative to the seat to control a flow of high pressure fluid to the actuator; and a piston disposed in the piston chamber, the piston coupled to the plug; and an electro-pneumatic converter including: a second body defining a passageway between a supply port and an exhaust port, the supply port to receive pressurized fluid from a supply pressure source and the exhaust port to be vented to atmosphere; an output port fluidly coupling the passageway and the piston chamber of the relay; and a solenoid disposed in the passageway, the solenoid including a coil and an armature, the coil wrapped around a core, the exhaust port formed through the core, the armature movable in the passageway between the supply port and the exhaust port, the armature movable between a first position blocking the pressurized fluid from flowing in the passageway and creating a flow path between the output port and the exhaust port, and a second position blocking the exhaust port and creating a flow path for the pressurized fluid between the supply port and the output port, thereby enabling the pressurized fluid to flow into the piston chamber to move the piston and the plug, the exhaust port fluidly coupling the passageway to atmosphere when the armature is in the second position. 14. The controller of claim 13 , wherein the first body includes a bore, the electro-pneumatic converter disposed in the bore of the first body. 15. The controller of claim 13 , wherein the output port extends from the passageway in a direction that is perpendicular to an axis of the passageway. 16. The controller of claim 13 , wherein the output port is a first output port, and wherein the electro-pneumatic converter includes a second output port extending from the passageway in a direction opposite to the first output port. 17. The controller of claim 13 , wherein the piston divides the piston chamber into a first portion and a second portion, the first portion fluidly coupled to the output port of the electro-pneumatic converter, the second portion vented to atmosphere. 18. The controller of claim 13 , wherein the electro-pneumatic converter includes a travel stop disposed in the passageway near the supply port, a travel stop passageway defined through the travel stop, and wherein, in the first position, the armature is engaged with the travel stop to block the pressurized fluid from flowing through the travel stop passageway and, in the second position, the armature is spaced apart from the travel stop to allow the pressurized fluid to flow through the travel stop passageway. 19. The controller of claim 13 , wherein the supply port and the exhaust port are axially aligned. 20. The controller of claim 13 , wherein, in the first position, the armature is spaced apart from the core and, in the second position, the armature is engaged with the core.