High-temperature torque motor actuator

What is claimed is: 1. A torque motor valve actuator, comprising: a first magnetic pole piece of a first magnetic polarity; a second magnetic pole piece of a second magnetic polarity, the second magnetic pole piece spaced apart from the first magnetic pole piece to define a gap; a rotationally mounted armature disposed in the gap between the first and second magnetic pole pieces, the armature including a first end, a second end, and an opening that extends from the first end and partially into the armature; an armature spring coupled to the armature and extending into the opening, the armature spring configured to bias the armature to a null position; and a coil surrounding at least a portion of the armature and disposed such that it is not surrounded by either the first magnetic pole piece or the second magnetic pole piece, the coil adapted to receive electric current and configured, upon receipt thereof, to generate a magnetic force that causes the armature to rotate. 2. The actuator of claim 1 , wherein the armature spring comprises a beam spring. 3. The actuator of claim 1 , wherein the first magnetic pole piece and the second magnetic pole piece form a single permanent magnet. 4. The actuator of claim 1 , wherein: the first magnetic pole piece is part of a first permanent magnet; and the second magnetic pole piece is part of a second permanent magnet. 5. The actuator of claim 1 , further comprising: a third magnetic pole piece of the first magnetic polarity; a fourth magnetic pole piece of the second magnetic polarity, the fourth magnetic pole piece spaced apart from the third magnetic pole piece. 6. The actuator of claim 5 , wherein: the first magnetic pole piece and the second magnetic pole piece form a first permanent magnet; and the third magnetic pole piece and the fourth magnetic pole piece form a second permanent magnet. 7. The actuator of claim 5 , wherein: the first magnetic pole piece is part of a first permanent magnet; the second magnetic pole piece is part of a second permanent magnet; the third magnetic pole piece is part of a third permanent magnet; and the second magnetic pole piece is part of a fourth permanent magnet. 8. The actuator of claim 1 , wherein the coil comprises anodized aluminum embedded in a ceramic. 9. The actuator of claim 1 , wherein: the coil is a first coil; and the actuator further comprises a second coil disposed adjacent the first coil, the second coil surrounding at least a portion of the armature and disposed such that it is not surrounded by either the first magnetic pole piece or the second magnetic pole piece, the second coil adapted to receive electric current and configured, upon receipt thereof, to generate a magnetic force that causes the armature to rotate. 10. A torque motor valve actuator, comprising: an actuator housing; a first magnetic pole piece of a first magnetic polarity mounted within the actuator housing; a second magnetic pole piece of a second magnetic polarity mounted within the actuator housing, the second magnetic pole piece spaced apart from the first magnetic pole piece to define a gap; an armature rotationally mounted within the actuator housing and disposed in the gap between the first and second magnetic pole pieces, the armature including a first end, a second end, and an opening that extends from the first end and partially into the armature; an armature spring coupled to the armature and extending into the opening, the armature spring configured to bias the armature to a null position; and a coil mounted within the actuator housing and surrounding at least a portion of the armature, the coil disposed such that it is not surrounded by either the first magnetic pole piece or the second magnetic pole piece, the coil adapted to receive electric current and configured, upon receipt thereof, to generate a magnetic force that causes the armature to rotate. 11. The actuator of claim 10 , wherein the armature spring comprises a beam spring having a first end and a second end, the first end fixedly coupled to the actuator housing, the second end fixedly coupled to the armature. 12. The actuator of claim 10 , wherein the coil comprises anodized aluminum embedded in a ceramic. 13. A valve assembly, comprising: a valve housing; a first nozzle disposed within the valve housing; a second nozzle disposed within the valve housing and spaced apart from the first nozzle; a flapper element disposed between the first and second nozzles; and a torque motor valve actuator coupled to the valve housing and configured to move the flapper element to selectively engage one of the first or second nozzles, the torque motor valve actuator comprising: a first magnetic pole piece of a first magnetic polarity; a second magnetic pole piece of a second magnetic polarity, the second magnetic pole piece spaced apart from the first magnetic pole piece to define a gap; a rotationally mounted armature disposed in the gap between the first and second magnetic pole pieces and coupled to the flapper element, the armature including a first end, a second end, and an opening that extends from the first end and partially into the armature; an armature spring coupled to the armature and extending into the opening, the armature spring configured to bias the armature to a null position; and a coil surrounding at least a portion of the armature and disposed such that it is not surrounded by either the first magnetic pole piece or the second magnetic pole piece, the coil adapted to receive electric current and configured, upon receipt thereof, to generate a magnetic force that causes the armature to rotate and thereby move the flapper element. 14. The valve assembly of claim 13 , wherein the armature spring comprises a beam spring. 15. The actuator of claim 13 , wherein the coil comprises anodized aluminum embedded in a ceramic.