Instruction Manual

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Part 4 Commands

[Example 1] LET 290 3 Set the target axis pattern (axes 1 and 2) in integer

variable 290.

LET 291 80 Set the steady-state torque limit in integer variable 291.

LET 292 1000 Set the detection time for steady-state torque limit over

error in integer variable 292.

ECMD 250 290 Read the values of three consecutive variables, starting

from variable 290:

Setting of axes 1 and 2

Steady-state torque limit: 80%

Detection time for steady-state torque limit over error:

10000 msec

MOVP 2 Move to position No. 2 under the condition set by

ECMD250.

* When reverting to a normal condition

[Example 2] LET 290 3 Set the target axis pattern (axes 1 and 2) in integer

variable 290.

LET 291 1000 Set the steady-state torque limit (upper limit specified

for each axis) in integer variable 291.

LET 292 20000 Clear the detection time for steady-state torque limit

over error in integer variable 292. (20000 = Clear)

STOP *290 Clear the low-torque axis deviation counter.

ECMD 250 290 Read the values of three consecutive variables, starting

from variable 290:

Setting of axes 1 and 2

Steady-state torque limit: Upper-limit value specified for

each axis (reverting to the maximum torque)

Detection time for steady-state torque limit over error

(20000 msec)

MOVP 2 Move to position No. 2 at the steady-state torque.

(Note 1) If a low torque is set, the load may drop (in the case of a vertical axis, etc.) or overshooting

may occur. If a low torque is set while the actuator is operating at high speed, overshooting will

occur due to insufficient torque.

(Note 2) If positioning operation is performed at a low torque, the actuator may stop near the target

position due to insufficient torque and remain stopped there.

(Note 3) When changing the torque setting from a very low level at which axis movement cannot be

guaranteed, to a high level, be sure to issue a STOP command to the low-torque axis before

the setting is changed to high torque (= while the torque is still low) in order to clear the

deviation counter.

(Note 4) When the setting of “steady-state (non-push) torque limit (upper limit)” or “detection time for

steady-state (non-push) torque limit over error” has been changed, the new setting will remain

effective even after the SEL program ends.

(Note 5) Even at a normal load, the torque becomes slightly higher during acceleration/deceleration.

Determine appropriate settings (steady-state torque limit and detection time for steady-state

torque limit over) so that a steady-state torque limit over will not be detected.