Digital closed loop proportional hydraulic pressure controller

What is claimed is: 1. A current to pressure converter (CPC), comprising: a housing defining a control port, a supply port, and a drain port fluidly coupled therethrough; a digital controller, configured to reduce the effects of thermal drift, enclosed within said housing; a 3-way rotary valve configured to alternatively couple the control port with the drain port, the supply port, or neither the drain port or supply port; a limited angle torque rotary actuator operatively coupled to the digital controller and drivably coupled to the 3-way rotary valve; and a pressure transducer in fluid communication with the control port, the pressure transducer providing pressure feedback to the digital controller; and wherein the digital controller is configured to control the pressure supplied by the control port in proportion to an input analog control signal of 4-20 mA; and wherein the digital controller is configured to periodically impart an anti-silting impulse to the 3-way rotary valve. 2. The CPC of claim 1 , wherein the period of the anti-silting impulse is user programmable. 3. The CPC of claim 2 , wherein the period of the anti-silting impulse is automatically shortened based on a sensed increase in drive current needed to rotate the limited angle torque rotary actuator. 4. The CPC of claim 1 , wherein the anti-silting impulse imparts symmetrically opposed movement of the 3-way rotary valve. 5. The CPC of claim 4 , wherein the anti-silting impulse is symmetrically balances thus unlikely to perturb operation of an external component controlled by the CPC. 6. The CPC of claim 4 , wherein the anti-silting impulse is of a magnitude insufficient to perturb operation of an external component controlled by the CPC. 7. The CPC of claim 4 , wherein the anti-silting impulse is of a duration and a magnitude insufficient to perturb operation of an external component controlled by the CPC. 8. A current to pressure converter (CPC), comprising: a housing defining a control port, a supply port, and a drain port fluidly coupled therethrough; a digital controller, configured to reduce the effects of thermal drift, enclosed within said housing; a 3-way rotary valve configured to alternatively couple the control port with the drain port, the supply port, or neither the drain port or supply port; a limited angle torque rotary actuator operatively coupled to the digital controller and drivably coupled to the 3-way rotary valve; and a pressure transducer in fluid communication with the control port, the pressure transducer providing pressure feedback to the digital controller; wherein the digital controller is configured to control the pressure supplied by the control port in proportion to an input analog control signal of 4-20 mA; and wherein the digital controller is configured to diagnose input signals to determine reasonableness thereof for use in controlling a position of the 3-way rotary valve. 9. A current to pressure converter (CPC), comprising: a housing defining a control port, a supply port, and a drain port fluidly coupled therethrough; a digital controller; a 3-way rotary valve configured to alternatively couple the control port with the drain port, the supply port, or neither the drain port or supply port; a rotary actuator operatively coupled to the digital controller and drivably coupled to the 3-way rotary valve; and wherein the digital controller is configured to periodically impart an anti-silting impulse to the 3-way rotary valve. 10. The CPC of claim 9 , wherein the period of the anti-silting impulse is user programmable. 11. The CPC of claim 10 , wherein the period of the anti-silting impulse is automatically shortened based on a sensed increase in drive current needed to rotate the rotary actuator. 12. The CPC of claim 9 , wherein the anti-silting impulse imparts symmetrically opposed movement of the 3-way rotary valve.