Troubleshooting and fault elimination 10 – Lenze MDFQA Operating Instructions User Manual
Page 46
Troubleshooting and fault elimination
EN
46
Lenze ¯ BA 33.0006 ¯ 3.0
Fault
Cause
Remedy
Motor too hot
Can only be evaluated by
measuring the surface
temperature:
¯
Non−ventilated motors
> 140 °C
¯
Externally ventilated or
self−ventilated motors
> 110 °C
Insufficient cooling air, blocked air
ducts.
Ensure unimpeded circulation of cooling air
Preheated cooling air
Ensure a sufficient supply of fresh cooling air
Overload, with normal mains voltage
the current is too high and the speed
too low
Use larger drive (determined by power measurement)
Rated operating mode exceeded (S1 to
S8 IEC/EN 60034−1)
Adjust rated operating mode to the specified operating conditions.
Determination of correct drive by expert or Lenze customer service
Loose contact in supply cable
(temporary single−phase operation!)
Tighten loose contact
Fuse has blown (single−phasing!)
Replace fuse
Overload of the drive
¯ Check load and, if necessary, reduce by means of longer
ramp−up times
¯ Check winding temperature
Heat dissipation impeded by deposits
Clean surface and cooling fins of the drives
Motor too hot
Can only be evaluated by
measuring the surface
temperature:
¯
Non−ventilated motors
> 140 °C
¯
Externally ventilated or
self−ventilated motors
> 110 °C
Insufficient cooling air, blocked air
ducts.
Ensure unimpeded circulation of cooling air
Preheated cooling air
Ensure a sufficient supply of fresh cooling air
Overload, with normal mains voltage
the current is too high and the speed
too low
Use larger drive (determined by power measurement)
Rated operating mode exceeded (S1 to
S8 IEC/EN 60034−1)
Adjust rated operating mode to the specified operating conditions.
Determination of correct drive by expert or Lenze customer service
Loose contact in supply cable
(temporary single−phase operation!)
Tighten loose contact
Fuse has blown (single−phasing!)
Replace fuse
Overload of the drive
¯ Check load and, if necessary, reduce by means of longer
ramp−up times
¯ Check winding temperature
Heat dissipation impeded by deposits
Clean surface and cooling fins of the drives
Motor suddenly stops and
does not restart
Overload monitoring of the inverter is
activated
¯
Check controller settings
¯
Reduce load caused by longer acceleration times
Incorrect direction of
rotation of the motor,
correct display on the
controller
Motor cable polarity is reversed
Check the polarity and correct
Polarity of encoder cable reversed
Motor rotates normally but
does not reach the expected
torque
Motor cable interchanged cyclically
Connect the phases at the motor cable connection correctly
Motor turns in one direction
at maximum speed in an
uncontrolled manner
Motor cable interchanged cyclically
Check motor connector and, if necessary, correct
Polarity of encoder cable reversed
Check encoder connection and, if necessary, correct
Motor rotates slowly in one
direction and cannot be
influenced by the controller
Polarity of motor cable and encoder
cable reversed
Check the polarity and correct
Irregular running
Insufficient shielding of motor or
resolver cable
Checking shielding and earth connection
Drive controller gain too large
Adjust the gains of the controllers (see Drive controller operating
instructions)
Vibrations
Insufficiently balanced coupling
elements or machine
Rebalance
Inadequate alignment of drive train
Realign machine unit, check foundation if necessary
Loose fixing screws
Check and tighten screw connections
Running noises
Foreign particles inside the motor
Repair by manufacturer if necessary
Bearing damage
Surface temperature > 140°C Overload of the drive
¯
Check load and, if necessary, reduce by means of longer
ramp−up times
¯
Check winding temperature
Heat dissipation impeded by deposits
Clean surface and cooling fins of the drives