Adjusting The Machine Zero Proximity Switch; Machine Zero Speed And Acceleration - Parker Compax3 Operating Instructions Manual

Parker EME

Adjusting the machine zero proximity switch

This is helpful in some cases with homing modes that work with the home switch
and motor reference point.
If the motor reference point happens to coincide with the position of the MN
initiator, there is a possibility that small movements in the motor position will cause
the machine reference point to shift by one motor revolution (to the next motor
reference point).
Via status value "Distance MN sensor - motor zero", (O1130.13) you can check if
the distance between machine home sensor and motor zero point is too short.
1
2
-
+
1: Motor zero point
2: Logic state of the home switch
A solution to this problem is to move the MN initiator by means of software. This is
done using the value initiator adjustment.
Initiator adjustment
Unit: Range: -180 ... 180
Motor angle in degrees
Move the machine reference initiator using software
As an aid you can use the status value "distance MN sensor - motor zero" in the
"Positions" chapter under "status values"
Machine reference offset
1
1: Machine reference offset
The machine reference offset is used to determine the actual reference point for
positioning.
That is: Zero point = Machine zero + Machine zero offset
Note: If the machine zero proximity switch is at the positive end of the travel range,
the machine zero offset must be = 0 or negative.
A change in the machine reference offset does not take effect until the next

Machine zero speed and acceleration

With these values you can define the motion profile of the machine zero run.
192-120113 N08 C3I12T11 - December 2010
0
machine reference run.
Setting up Compax3
Standard value: 0
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