Methods and apparatus to diagnose a pneumatic actuator-regulating accessory

What is claimed is: 1. A method comprising: stroking a fluid valve operatively coupled to a field instrument and a pneumatic actuator-regulating accessory by pressurizing an actuator operatively coupled to the fluid valve; blocking a supply to the pneumatic actuator-regulating accessory and the field instrument; exhausting pressurized air from the actuator via the field instrument by commanding the field instrument to cause successive reductions in the pressure in the actuator at a predetermined rate to cause a travel rate of the fluid valve to be less than a maximum travel rate of the fluid valve, the maximum travel rate of the fluid valve occurring when the exhaust of the field instrument is fully open; measuring at least one of (1) positions of the fluid valve or (2) an output pressure of the field instrument as the pressurized air is exhausted from the actuator; and identifying a first operation of the pneumatic actuator-regulating accessory based on at least one of the travel rate of the fluid valve or the output pressure of the field instrument, the travel rate of the fluid valve based on the measured positions of the fluid valve. 2. The method of claim 1 , wherein the pneumatic actuator-regulating accessory is a trip valve. 3. The method of claim 2 , wherein the first operation is a trip point of the trip valve. 4. The method of claim 3 , wherein identifying the trip point of the trip valve includes at least one of (1) comparing the travel rate of the fluid valve to the maximum travel rate of the fluid valve when exhausting the pressurized air via the field instrument or (2) identifying a change in the output pressure of the field instrument. 5. The method of claim 4 , further comprising determining the maximum travel rate of the fluid valve by: stroking the fluid valve by pressurizing the actuator; exhausting the pressurized air from the actuator via the field instrument by commanding the field instrument to exhaust at a maximum rate; and measuring the travel rate of the fluid valve while the pressurized air is exhausted at the maximum rate. 6. The method of claim 1 further including communicating with the field instrument to initiate the exhausting of the pressurized air, the measuring at least one of (1) positions of the fluid valve or (2) an output pressure of the field instrument as the pressurized air is exhausted from the actuator, and the identifying the first operation of the pneumatic actuator-regulating accessory based on at least one of the travel rate of the fluid valve or the output pressure of the field instrument. 7. The method of claim 6 , wherein communicating with the field instrument includes communicating via a local interface of the field instrument. 8. The method of claim 1 , wherein blocking the supply includes a person changing a configuration of a supply line fluidly coupled to the pneumatic actuator-regulating accessory and the field instrument. 9. A method comprising: stroking a fluid valve operatively coupled to a field instrument and a trip valve by pressurizing an actuator operatively coupled to the fluid valve; blocking a supply to the trip valve and the field instrument; exhausting pressurized air from the actuator via the field instrument; measuring at least one of (1) positions of the fluid valve or (2) an output pressure of the field instrument as the pressurized air is exhausted from the actuator; and identifying a trip point of the trip valve based on at least one of a travel rate of the fluid valve or the output pressure of the field instrument, the travel rate of the fluid valve based on the measured positions of the fluid valve, the identification of the trip point including at least one of (1) comparing the travel rate of the fluid valve to a maximum travel rate of the fluid valve when exhausting the pressurized air via the field instrument or (2) identifying a change in the output pressure of the field instrument, the trip point corresponding to the output pressure of the field instrument that causes an activation of the trip valve, the activation of the trip valve causing the actuator to move to a predetermined position. 10. The method of claim 9 , further comprising determining the maximum travel rate of the fluid valve by: stroking the fluid valve by pressurizing the actuator; exhausting the pressurized air from the actuator via the field instrument by commanding the field instrument to exhaust at a maximum rate; and measuring the travel rate of the fluid valve while the pressurized air is exhausted at the maximum rate. 11. The method of claim 9 , wherein exhausting the pressurized air from the actuator via the field instrument includes commanding the field instrument to cause successive reductions in a pressure of the pressurized air in the actuator at a predetermined rate to cause the travel rate of the fluid valve to be less than the maximum travel rate of the fluid valve. 12. The method of claim 9 , further including communicating with the field instrument to initiate the exhausting of the pressurized air, the measuring at least one of (1) positions of the fluid valve or (2) an output pressure of the field instrument as the pressurized air is exhausted from the actuator, and the identifying the trip point of the trip valve based on at least one of the travel rate of the fluid valve or the output pressure of the field instrument. 13. The method of claim 12 , wherein communicating with the field instrument includes communicating via a local interface of the field instrument. 14. The method of claim 9 , wherein blocking the supply includes a person changing a configuration of a supply line fluidly coupled to the trip valve and the field instrument.