FC_OverloadDetectionSet

 

FC_OverloadDetectionSet - General Information

Overview

Task

Axis overload after the torque exceeding lasted a certain time.

Description

This function activates overload monitoring in the axis i_stAxisId.

Overload detection is used to monitor the deviation of the torque (relative to the motor shaft) from the expected torque (feed forward). When the monitoring system is enabled, the drive is stopped (overload stop). The power supply must be parameterized so that the expected torque is calculated.

i_lrTorque indicates the threshold of the deviation from the expected torque. The deviation can be detected via the FeedbackCurrent. The FeedbackCurrent can be converted into the deviation from the expected torque using the TorqueConstant.

Torque deviations are caused for instance by:

oFriction (if not taken into account in the parameters StaticFriction and ViscousFriction)

oExternal torques (for example, moving against limit stop)

oVariable moment of inertia

oOscillations in the system (for example, mechanical resonances)

oTransient response of the controller (especially at strong jerks)

NOTE: J_Load must be entered correctly in the PLC configuration. It is also assumed that the mass moment of inertia is constant.

Monitoring is only active in a specific position range. This position range is defined by i_lrLowLimit (low position limit) and i_lrHighLimit (high position limit).

If the threshold i_lrTorque is exceeded within the position range, an internal timer is incremented. If the threshold is undershot during the time i_uiOverloadTime, the internal timer is decremented. If the internal timer reaches the value i_uiOverloadTime, the monitoring system is enabled. The following diagram illustrates this behavior.

 

 

If an overload occurs, the position of the axis i_stAxisId is kept in an internal parameter after the time i_uiOverloadTime has elapsed. This position is used as reference position. The drive remains in position control.

The state of the monitoring system can be read using the function FC_OverloadDetectionGetState.

The threshold i_lrTorque is exceeded if the overall torque is greater than the expected torque plus the parameterized threshold of the deviation.

 

 

Current oscillation and high noise in the current signal (FeedbackCurrent) may cause mistripping. You can avoid this by using smooth motions.

NOTE: Processing this function typically takes 10 ms as parameters are transferred to the axis via the Sercos service channel. There must be a one-time increase in the times for the cycle check of the task in which the function is executed. For example FC_CycleCheckTimeSet(500, 2).

Interface

Return Value

Examples

The following program example moves an axis with two positioning instructions. Torque monitoring (FC_Overload) is activated during the procedure.

PROGRAM PLC_PRG
VAR
   lState: DINT:=1;
   lResult: DINT;
END_VAR
CASE lState OF
1:  

   FC_CycleCheckTimeSet(100, 200);
   FC_ControllerEnableSet(Axis.stLogicalAddress);
   lResult:=FC_OverloadDetectionSet(i_stAxisId:= Axis.stLogicalAddress, i_lrTorque :=0.08,
   i_lrLowLimit:=10, i_lrHighLimit:=350, i_uiOverloadTime:=500);
   lState:=lState+1;
2:  

   IF Axis.AxisState = 3 THEN
      FC_PosStartSmooth(Axis.stLogicalAddress,0, 250, 0, 1000, 1000, 0, 0,
      ET_PosMode.Absolute, 0);
      lState:=lState+1;
   END_IF;
3:  

   IF Axis.AxisState = 3 THEN
      FC_PosStartSmooth(Axis.stLogicalAddress,360, 250, 0, 1000, 1000, 0, 0, ET_PosMode.Absolute, 0);
      lState:=2;
   END_IF;
END_CASE;

The axis (motor shaft) was braked to test the function, resulting in a rise in current and an increase in torque. The figure shows the current increase (or torque increase) and the triggering of the diagnostic message (vertical dotted line).