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A0511 motor overtemperature, A0523 output fault, A0535 braking resistor hot – Siemens MICROMASTER 411 User Manual

Page 88: A0541 motor data identification active, A0542 speed control optimisation active, A0590 encoder feedback loss warning

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6 Troubleshooting

Issue 03/01

MICROMASTER 411 & COMBIMASTER 411 Operating Instructions

88

6SE6400-5CA00-0BP0

Load duty cycle must lie within specified limits

Motor power (P0307) must match inverter power (r0206)

A0511 Motor

OverTemperature

Possible Causes

Motor overloaded

Load duty cycle too high

Diagnose & Remedy

Independently of the kind of temperature determination check the following:

Load duty cycle must be correct

Motor nominal overtemperatures (P0626-P0628) must be correct

Motor temperature warning level (P0604) must match

If P0601 = 0 or 1, check the following:

Check if name plate data are correct (if not perform quick commissioning)

Accurate equivalent circuit data can be found by performing motor identification (P1910=1)

Check if motor weight (P0344) is reasonable. Change if necessary

Via P0626, P0627, P0628 the standard overtemperatures can be changed, if the motor is not a
Siemens standard motor

If P0601 = 2, check the following:

Check if temperature shown in r0035 is reasonable

Check if the sensor is a KTY84 (other sensors are not supported)

A0522 I2C read out timeout

Possible Causes

The cyclic access to the UCE Values and powerstack temperatures via the I2C bus (MM440 Frame size
FX & GX) is disturbed

A0523 Output

fault

Possible Causes

One motor phase is disconnected

A0535 Braking Resistor Hot

Diagnose & Remedy

Increase duty cycle P1237

Increase ramp down time P1121

A0541 Motor Data Identification Active

Possible Causes

Motor data identification (P1910) selected or running

A0542 Speed Control Optimisation Active

Possible Causes

Speed Control Optimisation (P1960) is selected or running

A0590 Encoder feedback loss warning

Possible Causes

Signal from Encoder lost and Inverter has switched to sensorless vector control

Diagnose & Remedy

Stop inverter and then

Check encoder fitted. If encoder not fitted, set P0400 = 0 and select SLVC mode (P1300 = 20 or 22)

If encoder fitted, check correct encoder selected (check encoder set-up in P0400).

Check connections between encoder and inverter

Check encoder not faulty (select P1300 = 0, run at fixed speed, check encoder feedback signal in
r0061)

Increase encoder loss threshold in P0492