ABB ACH480 Drive

ABB ACH480 Drive Fault Codes:

Fault Code and MeaningCause and Remedy
A2B1

Overcurrent
Cause: Output current has exceeded internal fault limit. In addition to an actual overcurrent situation, this warning may also be caused by an earth fault or supply phase loss.



Remedy:

  • Check motor load.

  • Check acceleration times in parameter group 23 Speed reference ramp (speed control) or 28 Frequency reference chain (frequency control).

  • Check parameters 46.01 Speed scaling, 46.02 Frequency scaling and 46.03 Torque scaling.

  • Check motor and motor cable (including phasing and delta/star connection).

  • Check for an earth fault in motor or motor cables by measuring the insulation resistances.

  • Check there are no contactors opening and closing in motor cable.

  • Check that the start-up data in parameter group 99 Motor data corresponds to the motor rating plate.

  • Check that there are no power factor correction capacitors or surge absorbers in motor cable.
A2B3

Earth leakage
Cause: Drive has detected load unbalance typically due to earth fault in motor or motor cable.



Remedy:

  • Check there are no power factor correction capacitors or surge absorbers in motor cable.

  • Check for an earth fault in motor or motor cables by measuring the insulation resistances of motor and motor cable.

  • If an earth fault is found, fix or change the motor cable and/or motor.

  • If no earth fault can be detected, contact your local ABB representative.
A2B4

Short circuit
Cause: Short-circuit in motor cable(s) or motor.



Remedy:

  • Check motor and motor cable for cabling errors.

  • Check motor and motor cable (including phasing and delta/star connection).

  • Check for an earth fault in motor or motor cables by measuring the insulation resistances.

  • Check there are no power factor correction capacitors or surge absorbers in motor cable.
A2BA

IGBT overload
Cause: Excessive IGBT junction to case temperature. This warning protects the IGBT(s) and can be activated by a short circuit in the motor cable.

See also aux codes: 0001 (U-phase upper), 0002 (U-phase lower), 0004 (V-phase upper), etc.



Remedy:

  • Check motor cable.

  • Check ambient conditions.

  • Check air flow and fan operation.

  • Check heatsink fins for dust pick-up.

  • Check motor power against drive power.
A3A1

DC link overvoltage
Cause: Intermediate circuit DC voltage too high (when the drive is stopped).



Remedy:

  • Check the supply voltage setting (parameter 95.01 Supply voltage). Note that the wrong setting may cause the motor to rush uncontrollably.

  • Check for overloads on the brake chopper or resistor.
A3A2

DC link undervoltage
Cause: Intermediate circuit DC voltage too low (when the drive is stopped).



Remedy:

  • Check the supply voltage.

  • If the problem persists, contact your local ABB representative.
A3AA

DC not charged
Cause: The voltage of the intermediate DC circuit has not yet risen to operating level.



Remedy:

  • If the problem persists, contact your local ABB representative.
A490

Incorrect temperature sensor setup
Cause: Temperature cannot be supervised due to incorrect adapter setup.



Remedy:

  • Check the settings of temperature source parameters 35.11 and 35.21.
A491

External temperature 1
(Editable message text)
Cause: Measured temperature 1 has exceeded warning limit.



Remedy:

  • Check the value of parameter 35.02 Measured temperature 1.

  • Check the cooling of the motor (or other equipment whose temperature is being measured).

  • Check the value of 35.13 Temperature 1 warning limit.
A492

External temperature 2
(Editable message text)
Cause: Measured temperature 2 has exceeded warning limit.



Remedy:

  • Check the value of parameter 35.03 Measured temperature 2.

  • Check the cooling of the motor (or other equipment whose temperature is being measured).

  • Check the value of 35.23 Temperature 2 warning limit.
A4A0

Control board temperature
Cause: Control board temperature is too high.

Aux codes:

– (none): Temperature above warning limit

– 0001: Thermistor broken



Remedy:

  • Check ambient conditions.

  • Check air flow and fan operation.

  • Check heatsink fins for dust pick-up.

  • For code 0001: Contact an ABB service representative for control board replacement.
A4A1

IGBT overtemperature
Cause: Estimated drive IGBT temperature is excessive.



Remedy:

  • Check ambient conditions.

  • Check air flow and fan operation.

  • Check heatsink fins for dust pick-up.

  • Check motor power against drive power.
A4A9

Cooling
Cause: Drive module temperature is excessive.



Remedy:

  • Check ambient temperature. If it exceeds 50 °C /122 °F, ensure that load current does not exceed derated load capacity.

  • Check drive module cooling air flow and fan operation.

  • Check inside of cabinet and heatsink of drive module for dust pick-up. Clean whenever necessary.
A4B0

Excess temperature
Cause: Power unit module temperature is excessive.



Remedy:

  • Check ambient conditions.

  • Check air flow and fan operation.

  • Check heatsink fins for dust pick-up.

  • Check motor power against drive power.
A4B1

Excess temperature difference
Cause: High temperature difference between the IGBTs of different phases.



Remedy:

  • Check the motor cabling.

  • Check cooling of drive module(s).
A4F6

IGBT temperature
Cause: Drive IGBT temperature is excessive.



Remedy:

  • Check ambient conditions.

  • Check air flow and fan operation.

  • Check heatsink fins for dust pick-up.

  • Check motor power against drive power.
A581

Fan
Cause: Cooling fan feedback missing.



Remedy:

  • Check the auxiliary code to identify the fan. Code 0 denotes main fan 1.

  • Other codes (format XYZ): “X” = state (1: ID run, 2: normal). “Z” = index (1: Main fan 1, 2: Main fan 2, 3: Main fan 3).

  • Check fan operation and connection.

  • Replace fan if faulty.
A5A0

Safe torque off
(Programmable warning 31.22)
Cause: Safe torque off function is active, i.e., safety circuit signal(s) connected to connector STO is lost.



Remedy:

  • Check safety circuit connections. See chapter “The Safe torque off function” in Hardware manual.

  • Check the value of parameter 95.04 Control board supply.
A5EA

Measurement circuit temperature
Cause: Problem with internal temperature measurement of the drive.



Remedy:

  • Check the auxiliary code. They depend on the control unit type.

  • Frames R1…R4: Contact your local ABB representative.

  • Frames R6…R11: Check specific aux codes (0001: U-phase IGBT, 0002: V-phase, etc.) and contact your local ABB representative.

  • FAh code (1111 1010): Ambient temperature.
A5EB

PU board powerfail
Cause: Power unit power supply failure.



Remedy:

  • Contact your local ABB representative.
A5ED

Measurement circuit ADC
Cause: Measurement circuit fault.



Remedy:

  • Contact your local ABB representative.
A5EE

Measurement circuit DFF
Cause: Measurement circuit fault.



Remedy:

  • Contact your local ABB representative.
A5EF

PU state feedback
Cause: State feedback from output phases does not match control signals.



Remedy:

  • Contact your local ABB representative.
A5F0

Charging feedback
Cause: Charging feedback signal missing.



Remedy:

  • Check the feedback signal coming from the charging system.
A682

Flash erase speed exceeded
Cause: The flash memory (in the memory unit) has been erased too frequently, compromising the lifetime of the memory.



Remedy:

  • Avoid forcing unnecessary parameter saves by parameter 96.07 or cyclic parameter writes.

  • Check the auxiliary code (format XYYY YZZZ). “X” specifies source (1: generic). “ZZZ” specifies the flash subsector number.
A686
Checksum mismatch
Cause:

The calculated parameter checksum does not match any enabled reference checksum.

Programmable warning: 96.54 Checksum action.



Remedy:

  • Check that all necessary approved (reference) checksums (96.71…96.72) are enabled in 96.55 Checksum control word.

  • Check the parameter configuration.

  • Using 96.55 Checksum control word, enable a checksum parameter and copy the actual checksum into that parameter.
A687
Checksum configuration
Cause:

An action has been defined for a parameter checksum mismatch but the feature has not been configured.



Remedy:

  • Contact your local ABB representative for configuring the feature.

  • Or, disable the feature in 96.54 Checksum action.
A6A4
Motor nominal value
Cause:

The motor parameters are set incorrectly. The drive is not dimensioned correctly.

Aux codes:

0001: Slip frequency is too small.

0002: Synchronous and nominal speeds differ too much.

0003: Nominal speed is higher than synchronous speed with 1 pole pair.

0004: Nominal current is outside limits.

0005: Nominal voltage is outside limits.

0006: Nominal power is higher than apparent power.

0007: Nominal power not consistent with nominal speed and torque.

0008: Motor nominal power factor is not within limits [0.5…0.97].



Remedy:

  • Check the auxiliary code.

  • Check the settings of the motor configuration parameters in groups 98 and 99.

  • Check that the drive is sized correctly for the motor.
A6A5
No motor data
Cause:

Parameters in group 99 have not been set.



Remedy:

  • Check that all the required parameters in group 99 have been set.

  • Note: It is normal for this warning to appear during start-up until motor data is entered.
A6A6
Voltage category unselected
Cause:

The voltage category has not been defined.



Remedy:

  • Set voltage category in parameter 95.01 Supply voltage.
A6A7
System time not set
Cause:

System time is not set. Timed functions cannot be used and fault log dates are not correct.



Remedy:

  • Set the system time manually or connect the control panel to the drive to synchronize the clock.

  • If basic control panel is used, synchronize the clock through the EFB or a fieldbus module.

  • Set parameter 34.10 Timed functions enable to Disabled to disable the timed functions if they are not used.
A6B0
User lock is open
Cause:

The user lock is open, ie, user lock configuration parameters 96.100…96.102 are visible.



Remedy:

  • Close the user lock by entering an invalid pass code in parameter 96.02 Pass code.

  • See section Parameter checksum calculation (page 214).
A6B1
User pass code not confirmed
Cause:

A new user pass code has been entered in parameter 96.100 but not confirmed in 96.101.



Remedy:

  • Confirm the new pass code by entering the same code in 96.101.

  • To cancel, close the user lock without confirming the new code.
A6D1
FBA A parameter conflict
Cause:

The drive does not have a functionality requested by a PLC, or requested functionality has not been activated.



Remedy:

  • Check PLC programming.

  • Check settings of parameter group 50 Fieldbus adapter (FBA).
A6E5
AI parametrization
Cause:

The current/voltage hardware setting of an analog input does not correspond to parameter settings.



Remedy:

  • Check the event log for an auxiliary code to identify the analog input in conflict.

  • Adjust either the hardware setting (on the drive control unit) or parameter 12.15/12.25.

  • Note: Control board reboot (via power cycle or param 96.08) is required to validate hardware changes.
A6E6
ULC configuration
Cause:

User load curve configuration error.

Aux codes:

0000: Speed points inconsistent.

0001: Frequency points inconsistent.

0002: Underload point above overload point.

0003: Overload point below underload point.



Remedy:

  • Check the auxiliary code and see actions below.

  • 0000: Check speed points (37.11…37.15) increase in value.

  • 0001: Check frequency points (37.20…37.16) increase in value.

  • 0002/0003: Check overload points (37.31…37.35) vs underload points (37.21…37.25).
A6E7
IPC configuration warning
Cause:

IPC configuration error.

Aux codes:

0001: IPC incorrectly configured for EFB.

0002: IPC incorrectly configured for FBA.



Remedy:

  • Check the auxiliary code.

  • 0001: Check parameters 76.21, 58.01, and 76.24.

  • 0002: Check parameters 76.21 and 50.01.
A6E8
IPC version mismatch
Cause:

The master and follower(s) do not have the same IPC version and will not run in IPC mode.



Remedy:

  • Check 07.05 Firmware version of all drives on the IPC network.

  • Load the drive(s) as needed with the desired firmware version.
A780
Motor stall
Cause:

Motor is operating in stall region because of, for example, excessive load or insufficient motor power.

Programmable warning: 31.24 Stall function.



Remedy:

  • Check motor load and drive ratings.

  • Check fault function parameters.
A783
Motor overload
Cause:

Motor current is too high.



Remedy:

  • Check for overloaded motor.

  • Adjust the parameters used for the motor overload function (35.51…35.53 and 35.55…35.56).
A784
Motor disconnect
Cause:

All three output phases are disconnected from motor.



Remedy:

  • Check that switches between drive and motor are closed.

  • Check that all cables between drive and motor are connected and secured.

  • If no issue was detected and drive output was actually connected to motor, contact ABB.
A793
BR excess temperature
Cause:

Brake resistor temperature has exceeded warning limit defined by parameter 43.12 Brake resistor warning limit.



Remedy:

  • Stop drive. Let resistor cool down.

  • Check resistor overload protection function settings (parameter group 43 Brake chopper).

  • Check warning limit setting, parameter 43.12.

  • Check that the resistor has been dimensioned correctly.

  • Check that braking cycle meets allowed limits.
A794
BR data
Cause:

Brake resistor data has not been given.

Aux codes:

0000 0001: Resistance value too low.

0000 0002: Thermal time constant not given.

0000 0003: Maximum continuous power not given.



Remedy:

  • Check settings in parameters 43.08…43.10 based on aux code.

  • 0001: Check value of 43.10 Brake resistance.

  • 0002: Check value of 43.08 Brake resistor thermal tc.

  • 0003: Check value of 43.09 Brake resistor Pmax cont.
A79C
BC IGBT excess temperature
Cause:

Brake chopper IGBT temperature has exceeded internal warning limit.



Remedy:

  • Let chopper cool down.

  • Check for excessive ambient temperature.

  • Check for cooling fan failure.

  • Check for obstructions in the air flow.

  • Check the dimensioning and cooling of the cabinet.

  • Check resistor overload protection function settings (parameters 43.06…43.10).

  • Check minimum allowed resistor value for the chopper being used.

  • Check that braking cycle meets allowed limits.

  • Check that drive supply AC voltage is not excessive.
A7AB
Extension I/O configuration failure
Cause:

Installed extension module is not the same as configured.



Remedy:

  • Check that the installed extension module (shown by parameter 15.02) is the same as selected by parameter 15.01.
A7C1
FBA A communication
Cause:

Cyclical communication between drive and fieldbus adapter module A or between PLC and fieldbus adapter module A is lost.

Programmable warning: 50.02.



Remedy:

  • Check status of fieldbus communication. See user documentation of fieldbus interface.

  • Check settings of parameter groups 50 Fieldbus adapter (FBA), 51 FBA A settings, 52 FBA A data in and 53 FBA A data out.

  • Check cable connections.

  • Check if communication master is able to communicate.
A7CE
EFB comm loss
Cause:

Communication break in embedded fieldbus (EFB) communication.

Programmable warning: 58.14.



Remedy:

  • Check the status of the fieldbus master (online/offline/error etc.).

  • Check cable connections to the EIA-485/X5 terminals 29, 30 and 31 on the control unit.
A7EE
Panel loss
Cause:

Control panel or PC tool selected as active control location for drive has ceased communicating.

Programmable warning: 49.05.



Remedy:

  • Check PC tool or control panel connection.

  • Check control panel connector.

  • Check mounting platform if being used.

  • Disconnect and reconnect the control panel.
A88F
Cooling fan
Cause:

Maintenance timer limit exceeded.



Remedy:

  • Consider changing the cooling fan.

  • Parameter 05.04 Fan on-time counter shows the running time of the cooling fan.
A8A0
AI supervision
Cause:

An analog signal is outside the limits specified for the analog input.

Programmable warning: 12.03.



Remedy:

  • Check signal level at the analog input.

  • Check the wiring connected to the input.

  • Check the minimum and maximum limits of the input in parameter group 12 Standard AI.
A8A1
RO life warning
Cause:

The relay has changed states more than the recommended number of times.

Aux code 0001: Relay output 1

Aux code 0002: Relay output 2

Aux code 0003: Relay output 3



Remedy:

  • Change the control board or stop using the relay output.

  • Check the auxiliary code to identify the specific relay output (1, 2, or 3).
A8A2
RO toggle warning
Cause:

The relay output is changing states faster than recommended.



Remedy:

  • Replace the signal connected to the relay output source with a less frequently changing signal.

  • Check the auxiliary code (e.g., 0001 for Relay output 1).

  • Select a different signal with parameter 10.24 RO1 source.
A8B0
ABB Signal supervision 1
(Programmable warning: 32.06)
Cause: Warning generated by the signal supervision function 1.


Remedy:

  • Check the source of the warning (parameter 32.07 Supervision 1 signal).
A8B1
ABB Signal supervision 2
(Programmable warning: 32.16)
Cause: Warning generated by the signal supervision function 2.


Remedy:

  • Check the source of the warning (parameter 32.17 Supervision 2 signal).
A8B2
ABB Signal supervision 3
(Programmable warning: 32.26)
Cause: Warning generated by the signal supervision function 3.


Remedy:

  • Check the source of the warning (parameter 32.27 Supervision 3 signal).
A8B3
ABB Signal supervision 4
(Programmable warning: 32.36)
Cause: Warning generated by the signal supervision function 4.


Remedy:

  • Check the source of the warning (parameter 32.37 Supervision 4 signal).
A8B4
ABB Signal supervision 5
(Programmable warning: 32.46)
Cause: Warning generated by the signal supervision function 5.


Remedy:

  • Check the source of the warning (parameter 32.47 Supervision 5 signal).
A8B5
ABB Signal supervision 6
(Programmable warning: 32.56)
Cause: Warning generated by the signal supervision function 6.


Remedy:

  • Check the source of the warning (parameter 32.57 Supervision 6 signal).
A8BE
ULC overload warning
(Programmable fault: 37.03)
Cause: Selected signal has exceeded the user overload curve.


Remedy:

  • Check for any operating conditions increasing the monitored signal (for example, the loading of the motor if the torque or current is being monitored).

  • Check the definition of the load curve (parameter group 37 User load curve).
A8BF
ULC underload warning
(Programmable fault: 37.04)
Cause: Selected signal has fallen below the user underload curve.


Remedy:

  • Check for any operating conditions decreasing the monitored signal (for example, loss of load if the torque or current is being monitored).

  • Check the definition of the load curve (parameter group 37 User load curve).
A981
External warning 1
(Programmable warning: 31.01)
Cause: Fault in external device 1.


Remedy:

  • Check the external device.

  • Check setting of parameter 31.01 External event 1 source.
A982
External warning 2
(Programmable warning: 31.03)
Cause: Fault in external device 2.


Remedy:

  • Check the external device.

  • Check setting of parameter 31.03 External event 2 source.
A983
External warning 3
(Programmable warning: 31.05)
Cause: Fault in external device 3.


Remedy:

  • Check the external device.

  • Check setting of parameter 31.05 External event 3 source.
A984
External warning 4
(Programmable warning: 31.07)
Cause: Fault in external device 4.


Remedy:

  • Check the external device.

  • Check setting of parameter 31.07 External event 4 source.
A985
External warning 5
(Programmable warning: 31.09)
Cause: Fault in external device 5.


Remedy:

  • Check the external device.

  • Check setting of parameter 31.09 External event 5 source.
AF88
Season configuration warning
Cause: You have configured a season which starts before the previous season.


Remedy:

  • Configure the seasons with increasing start dates.

  • See parameters 34.60 Season 1 start date…34.63 Season 4 start date.
AFAA
Autoreset
Cause: A fault is about to be autoreset.


Remedy:

  • Informative warning. See the settings in parameter group 31 Fault functions.
AFE1
Emergency stop (off2)
Cause: Drive has received an emergency stop (mode selection off2) command.


Remedy:

  • Check that it is safe to continue operation. Then return emergency stop push button to normal position. Restart drive.

  • If the emergency stop was unintentional, check the source selected by parameter 21.05 Emergency stop source.
AFE2
Emergency stop (off1 or off3)
Cause: Drive has received an emergency stop (mode selection off1 or off3) command.


Remedy:

  • Check that it is safe to continue operation. Then return emergency stop push button to normal position. Restart drive.

  • If the emergency stop was unintentional, check the source selected by parameter 21.05 Emergency stop source.
AFE9
Start delay
Cause: The start delay is active and the drive will start the motor after a predefined delay.


Remedy:

  • Informative warning. See parameter 21.22 Start delay.
AFED
Run permissive
Cause: Run permissive is keeping the drive from running the motor.


Remedy:

  • Check the setting of (and source selected by) parameter 20.40 Run permissive.
AFEE
Start interlock 1
Cause: Start interlock 1 is keeping the drive from starting.


Remedy:

  • Check the signal source selected for parameter 20.41 Start interlock 1.
AFEF
Start interlock 2
Cause: Start interlock 2 is keeping the drive from starting.


Remedy:

  • Check the signal source selected for parameter 20.42 Start interlock 2.
AFF0
Start interlock 3
Cause: Start interlock 3 is keeping the drive from starting.


Remedy:

  • Check the signal source selected for parameter 20.43 Start interlock 3.
AFF1
Start interlock 4
Cause: Start interlock 4 is keeping the drive from starting.


Remedy:

  • Check the signal source selected for parameter 20.44 Start interlock 4.
AFF2
Run permissive forced warning
Cause: A forced DI is used as a source for parameter 20.40 Run permissive.


Remedy:

  • If 20.40 Run permissive uses DIx as the source, check if the bit corresponding to DIx in parameter 10.03 DI force selection is 1.
AFF3
Start interlock forced warning
Cause: One or more forced DIs is used as a source for one or more of parameters 20.41 Start interlock 1 … 20.44 Start interlock 4.


Remedy:

  • Check all parameters 20.41 Start interlock 1 … 20.44 Start interlock 4.

  • If any of these parameters uses DIx as the source, check if the bit corresponding to DIx in parameter 10.03 DI force selection is 1.
AFF5
Override new start required
Cause: The Safe torque off function was active and has been reset while in Override.


Remedy:

  • A new start signal is required to start the drive again.
AFF6
Identification run
Cause: Motor ID run will occur at next start.


Remedy:

  • Informative warning.
AFF8
Motor heating active
Cause: Pre-heating is being performed.


Remedy:

  • Informative warning. Motor pre-heating is active.

  • Current specified by parameter 21.16 Pre-heating current is being passed through the motor.
AFFE
Override active
Cause: Drive is in Override mode.


Remedy:

  • Informative warning.
B5A0
STO event
(Programmable event: 31.22)
Cause: Safe torque off function is active, ie, safety circuit signal(s) connected to connector STO is lost.


Remedy:

  • Informative warning. Check safety circuit connections.

  • For more information, see chapter The Safe torque off function in the Hardware manual.

  • See description of parameter 31.22 STO indication run/stop.
B5A2
Power applied
Cause: The drive was powered up or the control board was rebooted successfully.


Remedy:

  • Informative event.
B681
Hand mode selected
Cause: The drive was placed in Hand mode.


Remedy:

  • Informative event. Check the control panel to ensure that the current control location is correct.
B682
Off mode selected
Cause: The drive was placed in Off mode.


Remedy:

  • Informative event. Check the control panel to ensure that the current control location is correct.
B683
Auto mode selected
Cause: The drive was placed in Auto mode.


Remedy:

  • Informative event. Check the control panel to ensure that the current control location is correct.
B686
Checksum mismatch
(Programmable event: 96.54)
Cause: The calculated parameter checksum does not match any enabled reference checksum.


Remedy:

  • See A686 Checksum mismatch (page 226).
B687
Auto start command
Cause: The drive received a start command while in Auto mode.


Remedy:

  • Informative event.
B688
Auto stop command
Cause: The drive received a stop command while in Auto mode.


Remedy:

  • Informative event.
B689
Modulating started
Cause: The drive started modulating.


Remedy:

  • Informative event.
B68A
Modulating stopped
Cause: The drive stopped modulating.


Remedy:

  • Informative event.
D501
No more available PFC motors
Cause: No more PFC motors can be started because they can be interlocked or in the Hand mode.


Remedy:

  • Check that there are no interlocked PFC motors, see parameters: 76.81…76.84.

  • If all motors are in use, the PFC system is not adequately dimensioned to handle the demand.
D502
All motors interlocked
Cause: All the motors in the PFC system are interlocked.


Remedy:

  • Check that there are no interlocked PFC motors, see parameters 76.81…76.84.
D503
VSD controlled PFC motor interlocked
Cause: The motor connected to the drive is interlocked (unavailable).


Remedy:

  • Motor connected to the drive is interlocked and thus cannot be started.

  • Remove the corresponding interlock to start the drive controlled PFC motor. See parameters 76.81…76.84.
D504
Damper timeout
Cause: Discharge air or outside air damper has timed out.


Remedy:

  • Check the auxiliary code, which identifies the parameter to be checked (see below).
D504 (Aux: 0001)
Damper timeout
Cause: Discharge air damper was commanded to open and it timed out while opening.


Remedy:

  • See parameter 84.05.
D504 (Aux: 0002)
Damper timeout
Cause: Discharge air damper was commanded to close and it timed out while closing.


Remedy:

  • See parameter 84.08.
D504 (Aux: 0003)
Damper timeout
Cause: Outside air damper was commanded to open and it timed out while opening.


Remedy:

  • See parameter 84.15.
D504 (Aux: 0004)
Damper timeout
Cause: Outside air damper was commanded to close and it timed out while closing.


Remedy:

  • See parameter 84.18.
D50A
Running dry
(Programmable warning: 82.20)
Cause: Dry run protection is activated.


Remedy:

  • Check the pump inlet for sufficient water level.

  • Check dry run protection settings in parameters 82.20 Dry run protection and 82.21 Dry run source.
D50B
Pipe fill-timeout
(Programmable warning: 82.25)
Cause: Soft pipe fill is reached the timeout limit. The PID output is not reached the setpoint after reference ramping is ended and timeout limit is elapsed.


Remedy:

  • Check the pipe for possible leakage.

  • See parameter 82.25 Soft pipe fill supervision and 82.26 Time-out limit.
D50C
Maximum flow protection
(Programmable warning: 80.17)
Cause: Actual flow is exceeded the defined warning level.


Remedy:

  • Check the system for leakages.

  • Check flow protection settings in parameters 80.15 Maximum flow, 80.17 Maximum flow protection and 80.19 Flow check delay.
D50D
Minimum flow protection
(Programmable warning: 80.18)
Cause: Actual flow is below the defined warning level.


Remedy:

  • Check that the inlet and outlet valves are open.

  • Check flow protection settings in parameters 80.16 Minimum flow, 80.18 Minimum flow protection and 80.19 Flow check delay.
D50E
Outlet minimum pressure
(Programmable warning: 82.30)
Cause: Measured outlet pressure is below the defined warning limit.


Remedy:

  • Check the pump outlet for leakages.

  • Check the configuration of outlet pressure protection.

  • See parameters 82.30 Outlet minimum pressure protection and 82.31 Outlet minimum pressure warning level.
D50F
Outlet maximum pressure
(Programmable warning: 82.35)
Cause: Measured outlet pressure is above the defined warning limit.


Remedy:

  • Check the pump outlet for blockages or closed valve.

  • Check the configuration of outlet pressure protection.

  • See parameters 82.35 Outlet maximum pressure protection and 82.37 Outlet maximum pressure warning level.
D510
Inlet minimum pressure
(Programmable warning: 82.40)
Cause: Measured inlet pressure is below the defined warning level.


Remedy:

  • Check the pump inlet for blockages or closed valve.

  • Check the configuration of inlet pressure protection.

  • See parameters 82.40 Inlet minimum pressure protection and 82.41 Inlet minimum pressure warning level.
D590
Restart delay
Cause: The restart delay is active.


Remedy:

  • Check parameter 21.40 Restart delay.

  • The drive cannot be started until the restart delay has elapsed. The restart delay can be bypassed by setting parameter 21.42 Restart delay remaining to 0.
D590 (Aux: 0000)
Restart delay
Cause: Contact your local ABB representative.


Remedy:

  • Contact your local ABB representative.
D590 (Aux: 0002)
Restart delay
Cause: Pump short cycle protection.


Remedy:

  • Wait for the delay to expire or check protection settings.
1080
Backup/Restore timeout
Cause: Control panel or PC tool has failed to communicate with the drive when backup was being made or restored.



Remedy:

  • Request backup or restore again.
1081
Rating ID fault
Cause: Drive software has not been able to read the rating ID of the drive.



Remedy:

  • Reset the fault to make the drive try to reread the rating ID.

  • If the fault reappears, cycle the power to the drive. You may have to repeat this.

  • If the fault persists, contact your local ABB representative.
2310
Overcurrent
Cause: Output current has exceeded internal fault limit. In addition to an actual overcurrent situation, this fault may also be caused by an earth fault or supply phase loss.



Remedy:

  • Check the received auxiliary code (format XXXYYYZZ). The ZZ part indicates the overcurrent type and the phase (bit0=U, bit1=V, bit2=W). Bit7=1 indicates SW overcurrent.

  • Check the motor load.

  • Check acceleration times in parameter group 23 Speed reference ramp or 28 Frequency reference chain.

  • Check parameters 46.01 Speed scaling, 46.02 Frequency scaling and 46.03 Torque scaling.

  • Check the motor and motor cable (including phasing and delta/star connection).

  • Check there are no contactors opening and closing in motor cable.

  • Check that the start-up data in parameter group 99 Motor data corresponds to the motor rating plate.

  • Check that there are no power factor correction capacitors or surge absorbers in motor cable.

  • Check for an earth fault in motor or motor cables by measuring the insulation resistances.
2330
Earth leakage
Cause: Drive has detected load unbalance typically due to earth fault in motor or motor cable.



Remedy:

  • Check there are no power factor correction capacitors or surge absorbers in motor cable.

  • Check for an earth fault in motor or motor cables by measuring the insulation resistances.

  • Try running the motor in scalar control mode if allowed (See parameter 99.04).

  • If no earth fault can be detected, contact your local ABB representative.
2340
Short circuit
Cause: Short-circuit in motor cable(s) or motor.

Auxiliary codes:

0001: Short U-phase upper (R6-R11)

0002: Short U-phase lower (R6-R11)

0004: Short V-phase upper (R6-R11)

0008: Short V-phase lower (R6-R11)

0010: Short W-phase upper (R6-R11)

0020: Short W-phase lower (R6-R11)

0040: DC capacitor short circuit (R6-R11)

0080: State feedback mismatch (R6-R7)



Remedy:

  • Check motor and motor cable for cabling errors.

  • Check there are no power factor correction capacitors or surge absorbers in motor cable.

  • Cycle the power to the drive.
2381
IGBT overload
Cause: Excessive IGBT junction to case temperature. This fault protects the IGBT(s) and can be activated by a short circuit in the motor cable.



Remedy:

  • Check motor cable.

  • Check ambient conditions.

  • Check air flow and fan operation.

  • Check heatsink fins for dust pick-up.

  • Check motor power against drive power.
3130
Input phase loss
Cause: Intermediate circuit DC voltage is oscillating due to missing input power line phase or blown fuse. (Programmable fault 31.21).



Remedy:

  • Check input power line fuses.

  • Check for loose power cable connections.

  • Check for input power supply imbalance.
3181
Wiring or earth fault
Cause: Incorrect input power and motor cable connection (i.e. input power cable is connected to drive motor connection). (Programmable fault 31.23).



Remedy:

  • Check input power connections.
3210
DC link overvoltage
Cause: Excessive intermediate circuit DC voltage.



Remedy:

  • Check that overvoltage control is on (parameter 30.30).

  • Check that the supply voltage matches the nominal input voltage of the drive.

  • Check the supply line for static or transient overvoltage.

  • Check brake chopper and resistor (if present).

  • Check deceleration time.

  • Use coast-to-stop function (if applicable).

  • Retrofit drive with brake chopper and brake resistor.

  • Check that the brake resistor is dimensioned properly and the resistance is between acceptable range.
3220
DC link undervoltage
Cause: Intermediate circuit DC voltage is not sufficient because of a missing supply phase, blown fuse or fault in the rectifier bridge.



Remedy:

  • Check supply cabling, fuses and switchgear.
3381
Output phase loss
Cause: Motor circuit fault due to missing motor connection (all three phases are not connected). (Programmable fault 31.19).



Remedy:

  • Connect motor cable.
4110
Control board temperature
Cause: Control board temperature is too high.



Remedy:

  • Check proper cooling of the drive.

  • Check the auxiliary cooling fan.
4210
IGBT overtemperature
Cause: Estimated drive IGBT temperature is excessive.



Remedy:

  • Check ambient conditions.

  • Check air flow and fan operation.

  • Check heatsink fins for dust pick-up.

  • Check motor power against drive power.
4290
Cooling
Cause: Drive module temperature is excessive.



Remedy:

  • Check ambient temperature. If it exceeds 50 °C / 122 °F, ensure that load current does not exceed derated load capacity.

  • Check drive module cooling air flow and fan operation.

  • Check inside of cabinet and heatsink of drive module for dust pick-up. Clean whenever necessary.
42F1
IGBT temperature
Cause: Drive IGBT temperature is excessive.



Remedy:

  • Check ambient conditions.

  • Check air flow and fan operation.

  • Check heatsink fins for dust pick-up.

  • Check motor power against drive power.
4310
Excess temperature
Cause: Power unit module temperature is excessive.



Remedy:

  • Check ambient conditions.

  • Check air flow and fan operation.

  • Check heatsink fins for dust pick-up.

  • Check motor power against drive power.
4380
Excess temperature difference
Cause: High temperature difference between the IGBTs of different phases.



Remedy:

  • Check the motor cabling.

  • Check cooling of drive module(s).
4981
External temperature 1
Cause: Measured temperature 1 has exceeded fault limit. (Editable message text).



Remedy:

  • Check the value of parameter 35.02 Measured temperature 1.

  • Check the cooling of the motor (or other equipment whose temperature is being measured).
4982
External temperature 2
Cause: Measured temperature 2 has exceeded fault limit. (Editable message text).



Remedy:

  • Check the value of parameter 35.03 Measured temperature 2.

  • Check the cooling of the motor (or other equipment whose temperature is being measured).
5080
Fan
Cause: Cooling fan feedback missing.



Remedy:

  • See A581 Fan (page 224 of manual).
5090
STO hardware failure
Cause: STO hardware diagnostics has detected hardware failure.



Remedy:

  • Contact your local ABB representative for hardware replacement.
5091
Safe torque off
Cause: Safe torque off function is active, i.e., safety circuit signal(s) connected to connector STO is broken during start or run. (Programmable fault 31.22).



Remedy:

  • Check safety circuit connections.

  • Check parameter 31.22 STO indication run/stop.

  • Check the value of parameter 95.04 Control board supply.
5092
PU logic error
Cause: Power unit memory has cleared.



Remedy:

  • Contact your local ABB representative.
5093
Rating ID mismatch
Cause: The hardware of the drive does not match the information stored in the memory. This may occur, for example, after a firmware update.



Remedy:

  • Cycle the power to the drive. You may have to repeat this.
5094
Measurement circuit temperature
Cause: Problem with internal temperature measurement of the drive.



Remedy:

  • Contact your local ABB representative.
5098
I/O communication loss
Cause: Internal standard I/O communication failure.



Remedy:

  • Try resetting the fault or reboot the drive.
50A0
Fan
Cause: Cooling fan stuck or disconnected.



Remedy:

  • Check fan operation and connection.

  • Replace fan if faulty.
5681
PU communication
Cause: Communication errors detected between the drive control unit and the power unit.



Remedy:

  • Check the connection between the drive control unit and the power unit.

  • Check the value of parameter 95.04 Control board supply.
5682
Power unit lost
Cause: Connection between the drive control unit and the power unit is lost.



Remedy:

  • Check the connection between the control unit and the power unit.
5691
Measurement circuit ADC
Cause: Measurement circuit fault.



Remedy:

  • Contact your local ABB representative.
5692
PU board powerfail
Cause: Power unit power supply failure.



Remedy:

  • Contact your local ABB representative.
5693
Measurement circuit DFF
Cause: Measurement circuit fault.



Remedy:

  • Contact your local ABB representative.
5697
Charging feedback
Cause: Charging feedback signal missing.


Remedy:

  • Check the feedback signal coming from the charging system.
5698
Unknown PU fault
Cause: The power unit logic has generated a fault which is not known by the software.


Remedy:

  • Check the logic and software compatibility.
6181
FPGA version incompatible
Cause: Firmware and FPGA versions are incompatible.


Remedy:

  • Reboot the control unit (using parameter 96.08 Control board boot) or by cycling power.

  • If the problem persists, contact your local ABB representative.
6200
Checksum mismatch
Cause: The calculated parameter checksum does not match any enabled reference checksum.


Remedy:

  • See A686 Checksum mismatch (page 226).
6306
FBA A mapping file
Cause: Fieldbus adapter A mapping file read error.


Remedy:

  • Contact your local ABB representative.
6481
Task overload
Cause: Internal fault.


Remedy:

  • Reboot the control unit (using parameter 96.08 Control board boot) or by cycling power.

  • If the problem persists, contact your local ABB representative.
6487
Stack overflow
Cause: Internal fault.


Remedy:

  • Reboot the control unit (using parameter 96.08 Control board boot) or by cycling power.

  • If the problem persists, contact your local ABB representative.
64A1
Internal file load
Cause: File read error.


Remedy:

  • Reboot the control unit (using parameter 96.08 Control board boot) or by cycling power.

  • If the problem persists, contact your local ABB representative.
64A4
Rating ID fault
Cause: Rating ID load error.


Remedy:

  • Contact your local ABB representative.
64A6
Adaptive program
Cause: Error running the adaptive program.
Check the auxiliary code (format XXYY ZZZZ).


Remedy:

  • “XX” specifies the number of the state (00=base program).

  • “YY” specifies the number of the function block (0000=generic error).

  • “ZZZZ” indicates the problem.
64B1
Internal SSW fault
Cause: Internal fault.


Remedy:

  • Reboot the control unit (using parameter 96.08 Control board boot) or by cycling power.

  • If the problem persists, contact your local ABB representative.
64B2
User set fault
Cause: Loading of user parameter set failed because:

  • requested set does not exist

  • set is not compatible with control program

  • drive was switched off during loading



Remedy:

  • Ensure that a valid user parameter set exists.

  • Reload if uncertain.
64B3
Macro parameterization error
Cause: Loading of macro parameter set failed.


Remedy:

  • Reboot the control unit (using parameter 96.08 Control board boot) or by cycling power.

  • If the problem persists, contact your local ABB representative.
64E1
Kernel overload
Cause: Operating system error.


Remedy:

  • Reboot the control unit (using parameter 96.08 Control board boot) or by cycling power.

  • If the problem persists, contact your local ABB representative.
64FF
Fault reset
Cause: A fault has been reset from the control panel, Drive composer PC tool, fieldbus or I/O.


Remedy:

  • Event. Informative only.
6581
Parameter system
Cause: Parameter load or save failed.


Remedy:

  • Try forcing a save using parameter 96.07 Parameter save manually.

  • Retry.
6591
Backup/Restore timeout
Cause: During backup creating or restoring operation a control panel or PC tool has failed to communicate with the drive.


Remedy:

  • Check control panel or PC tool communication.

  • Check if it is still in backup or restore state.
65A1
FBA A parameter conflict
Cause: The drive does not have a functionality requested by PLC, or requested functionality has not been activated.


Remedy:

  • Check PLC programming.

  • Check settings of parameter groups 50 Fieldbus adapter (FBA) and 51 FBA A settings.
6681
EFB comm loss
Cause: Communication break in embedded fieldbus (EFB) communication.


Remedy:

  • Check the status of the fieldbus master (online/offline/error etc.).

  • Check cable connections to the EIA-485/X5 terminals on the control unit.
6682
EFB config file
Cause: Embedded fieldbus (EFB) configuration file could not be read.


Remedy:

  • Contact your local ABB representative.
6683
EFB invalid parameterization
Cause: Embedded fieldbus (EFB) parameter settings inconsistent or not compatible with selected protocol.


Remedy:

  • Check the settings in parameter group 58 Embedded fieldbus.
6684
EFB load fault
Cause: Embedded fieldbus (EFB) protocol firmware could not be loaded. Version mismatch between EFB protocol firmware and drive firmware.


Remedy:

  • Contact your local ABB representative.
6685
EFB fault 2
Cause: Fault reserved for the EFB protocol application.


Remedy:

  • Check the documentation of the protocol.
6686
EFB fault 3
Cause: Fault reserved for the EFB protocol application.


Remedy:

  • Check the documentation of the protocol.
6882
Text 32-bit table overflow
Cause: Internal fault.


Remedy:

  • Reset the fault.

  • Contact your local ABB representative if the fault persists.
6885
Text file overflow
Cause: Internal fault.


Remedy:

  • Reset the fault.

  • Contact your local ABB representative if the fault persists.
7081
Control panel loss
Cause: Control panel or PC tool selected as active control location for drive has ceased communicating.


Remedy:

  • Check PC tool or control panel connection.

  • Check control panel connector.

  • Disconnect and reconnect the control panel.
7082
I/O module comm loss
Cause: Communication between IO module and drive is not working properly.


Remedy:

  • Check the IO module installation.
7085
Incompatible option module
Cause: Fieldbus option module not supported.


Remedy:

  • Replace the module with a supported type.
7086
AI Overvoltage
Cause: An overvoltage has been detected on an analog input.


Remedy:

  • Check AI signal levels.
7087
I/O module configuration fault
Cause: I/O module configuration not supported or illegal.


Remedy:

  • See the auxiliary code.
7100
Excitation current
Cause: Excitation current feedback low or missing.


Remedy:

  • (No remedy specified in source)
7121
Motor stall
Cause: Motor is operating in stall region (e.g. excessive load or insufficient motor power).


Remedy:

  • Check motor load and drive ratings.

  • Check fault function parameters.
7122
Motor overload
Cause: Motor current is too high.


Remedy:

  • Check for overloaded motor.

  • Adjust the parameters used for the motor overload function (35.51…35.53) and 35.55…35.56.
7181
Brake resistor
Cause: Brake resistor broken or not connected.


Remedy:

  • Check that a brake resistor has been connected.

  • Check the condition of the brake resistor.

  • Check the dimensioning of the brake resistor.
7183
BR excess temperature
Cause: Brake resistor temperature has exceeded fault limit defined by parameter 43.11.


Remedy:

  • Stop drive. Let resistor cool down.

  • Check resistor overload protection function settings (parameter group 43 Brake chopper).

  • Check fault limit setting, parameter 43.11 Brake resistor fault limit.

  • Check that braking cycle meets allowed limits.
7184
Brake resistor wiring
Cause: Brake resistor short circuit or brake chopper control fault.


Remedy:

  • Check brake chopper and brake resistor connection.

  • Ensure brake resistor is not damaged.
7191
BC short circuit
Cause: Short circuit in brake chopper IGBT.


Remedy:

  • Ensure brake resistor is connected and not damaged.

  • Check the electrical specifications of the brake resistor.

  • Replace brake chopper (if replaceable).
7192
BC IGBT excess temperature
Cause: Brake chopper IGBT temperature has exceeded internal fault limit.


Remedy:

  • Let chopper cool down.

  • Check for excessive ambient temperature.

  • Check for cooling fan failure or obstructions.

  • Check resistor overload protection function settings (group 43).

  • Check that braking cycle meets allowed limits.

  • Check that drive supply AC voltage is not excessive.
7310
Overspeed
Cause: Motor is turning faster than highest allowed speed.


Remedy:

  • Check minimum/maximum speed settings (30.11, 30.12).

  • Check adequacy of motor braking torque.

  • Check applicability of torque control.

  • Check need for brake chopper and resistor(s).
73B0
Emergency ramp failed
Cause: Emergency stop did not finish within expected time.


Remedy:

  • Check the settings of parameters 31.32 and 31.33 (Ramp supervision).

  • Check the predefined ramp times (23.11 – 23.15 for mode Off1, 23.23 for mode Off3).
73F0
Overfrequency
Cause: Maximum allowed output frequency exceeded.


Remedy:

  • Check the auxiliary code.
7510

FBA A communication
Cause: Cyclical communication between drive and fieldbus adapter module A or between PLC and fieldbus adapter module A is lost.



Remedy:

  • Check status of fieldbus communication (see fieldbus user docs).

  • Check settings of parameter groups 50 Fieldbus adapter (FBA), 51 FBA A settings, 52 FBA A data in, and 53 FBA A data out.

  • Check cable connections.

  • Check if communication master is able to communicate.
8001

ULC underload fault
Cause: User load curve: Signal has been too long under the underload curve.



Remedy:

  • See parameter 37.04 ULC underload actions.
8002

ULC overload fault
Cause: User load curve: Signal has been too long over the overload curve.



Remedy:

  • See parameter 37.03 ULC overload actions.
80A0

AI supervision
Cause: An analog signal is outside the limits specified for the analog input.



Remedy:

  • Check signal level at the analog input.

  • Check the wiring connected to the input.

  • Check minimum/maximum limits in parameter group 12 Standard AI.

  • Aux Codes:

    • 0001: AI1 Less MIN

    • 0002: AI1 Greater MAX

    • 0003: AI2 Less MIN

    • 0004: AI2 Greater MAX
80B0

Signal supervision 1
Cause: Fault generated by the signal supervision function 1.



Remedy:

  • Check the source of the fault (parameter 32.07 Supervision 1 signal).
80B1

Signal supervision 2
Cause: Fault generated by the signal supervision function 2.



Remedy:

  • Check the source of the fault (parameter 32.17 Supervision 2 signal).
80B2

Signal supervision 3
Cause: Fault generated by the signal supervision function 3.



Remedy:

  • Check the source of the fault (parameter 32.27 Supervision 3 signal).
80B3

Signal supervision 4
Cause: Fault generated by the signal supervision function 4.



Remedy:

  • Check the source of the fault (parameter 32.37 Supervision 4 signal).
80B4

Signal supervision 5
Cause: Fault generated by the signal supervision function 5.



Remedy:

  • Check the source of the fault (parameter 32.47 Supervision 5 signal).
80B5

Signal supervision 6
Cause: Fault generated by the signal supervision function 6.



Remedy:

  • Check the source of the fault (parameter 32.57 Supervision 6 signal).
9081

External fault 1
Cause: Fault in external device 1.



Remedy:

  • Check the external device.

  • Check setting of parameter 31.01 External event 1 source.
9082

External fault 2
Cause: Fault in external device 2.



Remedy:

  • Check the external device.

  • Check setting of parameter 31.03 External event 2 source.
9083

External fault 3
Cause: Fault in external device 3.



Remedy:

  • Check the external device.

  • Check setting of parameter 31.05 External event 3 source.
9084

External fault 4
Cause: Fault in external device 4.



Remedy:

  • Check the external device.

  • Check setting of parameter 31.07 External event 4 source.
9085

External fault 5
Cause: Fault in external device 5.



Remedy:

  • Check the external device.

  • Check setting of parameter 31.09 External event 5 source.
D404

Running dry
Cause: Dry run protection is activated.



Remedy:

  • Check the pump inlet for sufficient water level.

  • Check dry run protection settings in parameters 82.20 Dry run protection and 82.21 Dry run source.
D405

Pipe fill-timeout
Cause: Soft pipe fill has reached timeout limit. The PID output has not reached the setpoint after reference ramping ended.



Remedy:

  • Check the pipe for possible leakage.

  • See parameter 82.25 Soft pipe fill supervision and 82.26 Time-out limit.
D406

Maximum flow protection
Cause: Actual flow is exceeded the defined fault level.



Remedy:

  • Check the system for leakages.

  • Check flow protection settings in parameters 80.15 Maximum flow, 80.17 Maximum flow protection and 80.19 Flow check delay.
D407

Minimum flow protection
Cause: Actual flow is below the defined fault level.



Remedy:

  • Check that the inlet and outlet valves are open.

  • Check flow protection settings in parameters 80.16 Minimum flow, 80.18 Minimum flow protection and 80.19 Flow check delay.
D408

Outlet minimum pressure
Cause: The measured outlet pressure is below the defined fault limit.



Remedy:

  • Check the pump outlet for leakages.

  • Check the configuration of outlet pressure protection.

  • See parameters 82.30 Outlet minimum pressure protection and 82.32 Outlet minimum pressure fault level.
D409

Outlet maximum pressure
Cause: The measured outlet pressure is above the defined fault limit.



Remedy:

  • Check the pump outlet for blockages or closed valve.

  • Check the configuration of outlet pressure protection.

  • See parameters 82.35 Outlet maximum pressure protection and 82.38 Outlet maximum pressure fault level.
D40A

Inlet minimum pressure
Cause: The measured inlet pressure is below the defined fault level.



Remedy:

  • Check the pump inlet for blockages or closed valve.

  • Check the configuration of inlet pressure protection.

  • See parameters 82.40 Inlet minimum pressure protection and 82.42 Inlet minimum pressure fault level.
D40B

Damper timeout
Cause: Discharge air or outside air damper has timed out.



Remedy:

  • Check the auxiliary code to identify the parameter:

  • 0001: Discharge air damper open fail (See 84.05).

  • 0002: Discharge air damper close fail (See 84.08).

  • 0003: Outside air damper open fail (See 84.15).

  • 0004: Outside air damper close fail (See 84.18).
D40C

Multipump run permissive timeout
Cause: The run permissive setting (20.40) was not satisfied within the time set in parameter 20.40 or 76.64.



Remedy:

  • Check the signal source selected for parameter 20.40 Run permissive.
FA81

Safe torque off 1
Cause: Safe torque off function is active, that is, STO circuit 1 is broken.



Remedy:

  • Check safety circuit connections.

  • See chapter “The Safe torque off function” in Hardware manual.

  • See parameter 31.22 STO indication run/stop.

  • Check value of parameter 95.04 Control board supply.
FA82

Safe torque off 2
Cause: Safe torque off function is active, that is, STO circuit 2 is broken.



Remedy:

  • Check safety circuit connections (See remedy for FA81).
FF61

ID run
Cause: Motor ID run was not completed successfully.



Remedy:

  • Check the nominal motor values in parameter group 99 Motor data.

  • Check that no external control system is connected to the drive.

  • Cycle the power to the drive.

  • Check that no operation limits prevent completion. Restore default settings and try again.

  • Check that the motor shaft is not locked.

  • Auxiliary Codes:

    • 0001: Max current limit too low (Check 99.06, 30.17).

    • 0002: Max speed limit/field weakening too low (Check 30.11, 30.12, 99.07-99.09).

    • 0003: Max torque limit too low (Check 99.12, Group 30).

    • 0004: Current measurement calibration failed (Contact ABB).

    • 0005-0008: Internal error (Contact ABB).

    • 0009: Acceleration didn’t finish (Async motors).

    • 000A: Deceleration didn’t finish (Async motors).

    • 000B: Speed dropped to zero (Async motors).

    • 000C: First accel fail (PM motors).

    • 000D: Second accel fail (PM motors).

    • 000E-0010: Internal error (Contact ABB).

    • 0011: Pulse test error (Sync reluctance motors).

    • 0012: Motor too large for advanced standstill ID run.

    • 0013: Motor data error (Async motors).
FF63

STO diagnostics failure
Cause: SW internal malfunction.



Remedy:

  • Reboot the control unit (using parameter 96.08 Control board boot) or by cycling power.
FF81

FB A force trip
Cause: A fault trip command has been received through fieldbus adapter A.



Remedy:

  • Check the fault information provided by the PLC.
FF8E

EFB force trip
Cause: A fault trip command has been received through the embedded fieldbus interface.



Remedy:

  • Check the fault information provided by the PLC.