Sensorless control for synchronous motors (slpsm), 5motor control (mctrl), Stop – Lenze 8400 User Manual

5

Motor control (MCTRL)

5.8

Sensorless control for synchronous motors (SLPSM)

198

Lenze · 8400 protec HighLine · Reference manual · DMS 3.0 EN · 03/2013 · TD05

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5.8

Sensorless control for synchronous motors (SLPSM)

This function extension is available from version 12.00.00!

The sensorless control for synchronous motors is based on a decoupled and separated control of the

torque-creating and field-creating current share of synchronous motors. In contrast to the servo

control, the actual speed value and the rotor position are reconstructed via a motor model.



Stop!

• The sensorless control for synchronous motors is only possible up to a maximum

output frequency of 650 Hz!

• Depending on the number of motor pole pairs, the reference speed (

C00011

) may

only be selected that high that the output frequency displayed in

C00059

is lower

than 650 Hz.

• We recommend to select a power-adapted combination of inverter and motor.
• The Lenze setting permits the operation of a power-adapted motor. Optimal

operation is only possible if either:

• the motor is selected via the Lenze motor catalogue
• the motor nameplate data are entered and motor parameter identification is

carried out afterwards

- or -

• the nameplate data and equivalent circuit data of the motor (motor leakage

inductance and motor stator resistance) are entered manually.

• When you enter the motor nameplate data, take into account the phase connection

implemented for the motor (star or delta connection). Only enter the data applying to

the selected connection type.

• In order to protect the motor (e.g. from demagnetisation), we recommend setting the

ultimate motor current in

C00939

. This ensures motor protection even with an

unstable operation.



Maximum current monitoring

( 291)

• Controller enable is only possible if the motor is at standstill.

• In the Lenze setting, the rotor displacement angle is identified with every controller

enable and thus a jerk in the machine after controller enable can be avoided.



Pole

position identification without motion

( 214)

• A flying restart circuit for synchronising to rotating motors is in preparation.

• The injection of a constant current may cause an unwanted heating of the motor at

controlled operation.

• We recommend using a temperature feedback via PTC or thermal contact.



Motor

temperature monitoring (PTC)

( 285)



Note!

Currently, the sensorless control does not contain a flying restart function that enables

a synchronisation of the controller to a rotating machine.

• Thus, we recommend taking measures for preventing overvoltages at operation in

generator mode (e.g. brake resistor).

• By any means, the delay time for the "DC-bus overvoltage" error trigger in

C00601/1

must be set to 0 s.