Parameters, 7 velocity limits, 8 position limits – Lenze S94P01G Position Servo User Manual

S94P01G

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Parameters

5.6.2 Hard Limit Switch Action

Digital inputs IN_A1 and IN_A2 can be used as limit switches if their function is set
to “Fault” or “Stop and Fault”. Activation of these inputs while the drive is enabled
will cause the drive to Disable and go to a Fault state. The “Stop and Fault” action is
available only in Position mode when the “Reference” parameter is set to “Internal”, i.e.,
when the source for the motion is the Trajectory generator. Refer to the PositionServo
Programming Manual for details on “Stop and Fault” behavior. IN_A1 is the negative
limit switch. IN_A2 is the positive limit switch. Both are treated as normally open.

5.7

Velocity Limits

These parameters are active in Velocity Mode Only.

5.7.1 Zero Speed

Specifies the upper threshold for motor zero speed in RPM. When the motor shaft
speed is at or below the specified value the zero speed condition is set to true in the
internal controller logic. The zero speed condition can also trigger a programmable
digital output, if selected.

5.7.2 Speed Window

Specifies the speed window width used with the “In speed window” output.

5.7.3 At Speed

Specifies the speed window center used with the “In speed window” output.
These last two parameters specify speed limits. If motor shaft speed is within these
limits then the condition AT SPEED is set to TRUE in the internal controller logic. The
AT SPEED condition can also trigger a programmable digital output, if selected. For
example if “AT SPEED” is set for 1000 RPM, and the “SPEED WINDOW” is set for
100, then “AT SPEED” will be true when the motor velocity is between 950 -1050 RPM.

5.8

Position Limits

5.8.1 Position Error

Specifies the maximum allowable position error in the primary (motor mounted)
feedback device before enabling the “Max error time” clock. When using an encoder,
the position error is in post-quadrature encoder counts. When using a resolver, position
error is measured at a fixed resolution of 65,536 counts per motor revolution.

5.8.2 Max Error Time

Specifies maximum allowable time (in mS) during which a position error can exceed
the value set for the “Position error” parameter before a Position Error Excess fault is
generated.

5.8.3 Second Encoder Position Error

Specifies the maximum allowable error of the second encoder in post quadrature
encoder counts before enabling the “Second encoder max error time” clock.

5.8.4 Second Encoder Max Error Time

Specifies maximum allowable time (in mS) during which the second encoder’s position
error can exceed the value set for the “Second encoder position error” parameter before
a Position Error Excess fault is generated.