4 optimising the control mode, Optimising the control mode, 5motor control (mctrl) – Lenze 8400 HighLine User Manual

Lenze · 8400 HighLine · Referenzhandbuch · DMS 10.0 EN · 06/2014 · TD05/TD14

237

5

Motor control (MCTRL)

5.9

Servo control (SC)

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5.9.4

Optimising the control mode

The "optimisation steps" given in the table below serve to further optimise the control behaviour of

the servo control and adjust it to the concrete application.

• Detailed information on the individual steps can be found in the following subchapters.

Generally, the following optimisation steps are recommended:



Note!

When the controller has been enabled, starting up is delayed by the magnetization

process of the motor. The speed setpoint is only enabled for motor control if 87 % of the

motor magnetising current are available. If this delay is not tolerable for certain

applications, the preset percentage threshold can be reduced in

C00918

.

From version 12.00.00:

• Following successful motor parameter identification, the current controller

parameters (

C00075

,

C00076

) and field controller parameters (

C00077

,

C00078

) are

calculated automatically.

• If these parameters are not to be calculated, bit 4 of

C02865/1

must be set to "1".

• Following successful motor parameter identification, the speed controller parameters

(

C00070/2

,

C00071/2

,

C00072

) can be calculated automatically.

• If these parameters are to be calculated, bit 6 of

C02865/1

must be set to "5".

• Following successful motor parameter identification, other controller parameters

(

C00011

,

C00022

,

C00497

) can be calculated automatically.

• If these parameters are to be calculated, bit 6 of

C02865/1

must be set to "6".

Optimisation steps

1.

Optimise current controller

.

( 238)

• The current controller should always be optimised if a motor of a third-party manufacturer with

unknown motor data is used!

2.

Optimise speed controller

.

( 239)

• The setting of the speed controller must be adapted depending on the mechanical path.

3.

Optimise response to setpoint changes and determine mass inertia

.

( 242)

• For an optimal reference behaviour, the total moment of inertia can be used to make a feedforward

control of the speed setpoint.