Fault isolation and decontamination procedures for electrohydraulic valves

What is claimed is: 1. A method for isolating a fault condition or a blocked work port in an electco-hydraulic system comprising: (a) setting a system pump to a first predetermined pressure; (b) commanding a valve assembly to a center position; (c) recording a center position (xc) of the valve; (d) opening the valve assembly to place a work port associated with the valve in fluid communication with the pump; (e) recording a first end position (xp) of the valve, a first work port pressure (P 1 ), and a first pump supply pressure (Ps); (f) opening the valve assembly to place the work port in fluid communication with a tank reservoir; (g) recording a second end position (xt) of the valve and a fluid pressure (Plow) associated with the work port; (h) setting the pump to a second predetermined pressure; (i) opening the valve assembly to place the work port in fluid communication with the pump; (j) measuring a second work port pressure (P 2 ) and a second system pump pressure (Ps 2 ) associated with the pump; and (k) analyzing the recorded and measured data to identify the fault condition or blocked work port, including comparing the second work port pressure (P 2 ) to the second system pump pressure (Ps 2 ) and by comparing the recorded first work port pressure (P 1 ) to the second system pump pressure (Ps 2 ). 2. The method for isolating a fault condition or a blocked work port in an electro-hydraulic system of claim 1 , further comprising the steps of: (a) recording the second work port pressure (P 2 ) and the second system pump pressure (Ps 2 ); (b) setting the pump to a third predetermined pressure; (c) opening the valve assembly to place the work port in fluid communication with the pump; and (d) measuring a third work port pressure (P 3 ) and a third system pump pressure (Ps 3 ) associated with the pump. 3. The method for isolating a fault condition or a blocked work port in an electro-hydraulic system of claim 1 , wherein the step of analyzing the recorded and measured data includes: (a) comparing the recorded center position (xc), first end position (xp), and second end position (xt) to stored values in a controller. 4. The method for isolating a fault condition or a blocked work port in an electro-hydraulic system of claim 1 , wherein the step of analyzing the recorded and measured data includes: (a) comparing the first work port pressure (P 1 ) to the first system pump pressure (Ps). 5. The method for isolating a fault condition or a blocked work port in an electro-hydraulic system of claim 2 , wherein the step of analyzing the recorded and measured data includes: (a) comparing the third work port pressure (P 3 ) to the third system pump pressure (Ps 3 ). 6. The method for isolating a fault condition or a blocked work port in an electro-hydraulic system of claim 5 , wherein the step of analyzing the recorded and measured data includes: (a) comparing the third work port pressure (P 3 ) to the second system pump pressure (Ps 2 ). 7. A method for isolating a blocked work port in an electro-hydraulic system comprising: (a) configuring a first valve and a second valve associated with opposite sides of a actuator to switch between a flow control operational mode and a pressure control operational mode depending upon an operational state of the actuator, wherein only one of the valves is in a pressure control mode and only one of the valves is in a flow control mode at the same time; (b) commanding a first valve and a second valve associated with an actuator to move the actuator in a first direction to place the actuator in a passive state or an overrunning state; (c) comparing a design flow rate with a calculated flow rate for the valve in the flow control operational mode and comparing a system pressure set point with a measured work port pressure for the valve in the pressure control operational mode to identify and isolate the fault condition or blocked work port. 8. The method for isolating a blocked work port in an electro-hydraulic system of claim 7 , further comprising: (a) commanding the first valve and the second valve associated with the actuator to move the actuator in a second direction to place the actuator in a passive state or an overrunning state that is different from the actuator state of the first direction; (b) comparing a second design flow rate with a second calculated flow rate for the valve in the flow control operational mode and comparing a second system pressure set point with a second measured work port pressure for the valve in the pressure control operational mode. 9. An anti-contamination method for a blocked work port in an electro-hydraulic system comprising the steps of: (a) providing a first valve assembly and a second valve assembly associated with opposite sides of an actuator via a first and second work port; (b) fully opening a second valve assembly associated with a second side of the actuator to place the second work port in fluid communication with a system pump; (c) ramping an output of the system pump up to a maximum output for a period of time; (d) pulsing the input to the second valve at a frequency; (e) closing the second valve assembly and ramping the output of the pump downward; and (f) repeating steps (b), (c), and (d) until the work port associated with the second valve assembly is freed from blockage or until a command is received to stop the procedure. 10. The anti-contamination method for a blocked work port in an electro-hydraulic system of claim 9 , further comprising the step of: (a) partially opening the first valve assembly. 11. The anti-contamination method for a blocked work port in an electro-hydraulic system of claim 9 , wherein the step of pulsing the input to the second valve at a frequency includes pulsing the input to the second valve at a frequency of about 1 hertz.