11 setting control loops, 1 setting and optimising the current controller, Setting and optimising the current controller – Lenze i700 User Manual

Lenze · i700 servo inverter · Reference manual · DMS 1.5 EN · 03/2014 · TD05

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5

Motor control & motor settings

5.11

Setting control loops

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5.11

Setting control loops

Subsequent to the motor parameterisation, the different control loops must be set. For quick

commissioning, the calculations and settings can be carried out automatically using the

commissioning functions of the servo inverter. For manual setting, applicable equations are offered

in the following subchapters, too.
The following table shows the corresponding commissioning steps required for the different

control types and motors:

5.11.1

Setting and optimising the current controller

The control system includes two current controllers, a direct-axis current controller and a cross

current controller, whose parameterisation is carried out identically. The direct-axis current

controller controls the field-producing current (D current). The cross current controller controls the

torque-producing current (Q current). There is a coupling between the two control loops which

makes every actuation of every one of the controllers occur as fault in the control loop of the other

controller. This coupling can be compensated for by activating the current controller feedforward

control via object

0x2941

(or

0x3141

for axis B).

Commissioning step

Servo control

SM

Servo control

ASM

V/f characteristic

control

Setting and optimising the current controller

()

()



1

Determining the total moment of inertia





Setting the speed controller





Setting the position controller





Setting the field controller (ASM)

()

Setting the field weakening controller (ASM)

()

Information on the following control loops/commissioning steps for the V/f characteristic control can be found in

the chapter "

Parameterising the V/f characteristic control

"

Set Imin controller



Activating the voltage vector control (lmin controller)



Set Imax controller



Defining the behaviour at the current limit (Imax controller)



Set "restart on the fly" controller



"Flying restart" function





Required

() Only required for other manufacturers' motors

1

Only required if voltage vector control, DC-injection braking, or flying restart process is activated.



Note!

For a servo control, the current controller should always be optimised if a motor of

another manufacturer with unknown motor data is used!
For a V/f characteristic control, the current controller only has to be optimised if voltage

vector control is used, or if DC-injection braking or the flying restart process is activated.