The operator should place the controller into manual mode prior to any work being done on the transmitter circuit. If any PV alarms are con?gured on the controller, they should be temporarily disabled as well prior to doing the work.
The DeltaV Explorer is the main utility used to initiate changes to the control algorithms and physical hardware.
In our case we will be using the Explorer to open each experiment with the “Control Studio”. Our experiments are under “AREA_A” As we have discussed, feedforward control is a way to improve the stability of a feedback control system in the face of changing loads. Rather than rely on feedback to make corrective changes to a process only after some load change has driven the process variable away from setpoint, feedforward systems monitor the relevant load(s) and use that inbation to preemptively make stabilizing changes to the final control element such that the process variable will not be affected. In this way, the feedback loop’s role is to merely “trim” the process for factors lying outside the realm of the feedforward system.At least, this is how feedforward control is supposed to work. One way feedforward controls commonly fail to live up to their promise is if the effects of load changes and of manipulated variable changes possess different time lags in their respective effects on the process variable. This is a problem in feedforward control systems because it means the corrective b called for in response to a change in load will not affect the process variable at the same time, or in the same way over time, as the load will. In order to correct this problem, we must inbligently insert time lags (or advancing time-based functions called leads) into the control system to equalize the time lags of load and feedforward correction. This is called dynamic compensation.
