Table of Contents
Advertisement
590 Series DC Digital Converter
Subsequently either
• a squarewave signal should be applied to the current demand input (Terminal A3) with
Current Demand Isolate (terminal C8) on
• or "toggle" between two values of current limit into terminal A6 and operate in normal speed
loop mode.
Ideally this input signal should be offset above the Discontinuous level, such that the drive is
operating in the continuous current region. Then you could increase the value of I gain to give a
fast rise with no more than 10% overshoot and subsequently increase the P gain towards
critically damped response, i.e. practically no overshoot.
Current Loop controls incorrectly set.
Integral Time Constant too short
increase Current Loop Integral Time
Constant
Current Loop response
correctly adjusted.
Tuning Hints
If the I gain is too high, the response will be underdamped (overshoot will be excessive with
long oscillatory settling). If the I gain is too low, the response will be overdamped (long
exponential rise).
With the I gain optimally set, if the P gain is too low the response will be overdamped. If P is
too high the response will revert to underdamped with the tendency to go totally unstable.
Diagnostics
The diagnostic point for "real" armature current is the first (left-hand side) test point below the
calibration panel. This will give 1.1V average for 100% current. It will also give the operating
bridge, i.e. it will be negative for the Master bridge (positive current demand) and positive for
the Slave bridge (negative current demand).
Control Loops
Current Loop controls incorrectly set.
Proportional Gain too low - increase
Current Loop Proportional Gain
9-3
Advertisement
Table of Contents
