2 flying restart function, Flying restart function, Flying restart – Lenze 8400 User Manual

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

245

5

Motor control (MCTRL)

5.10

Parameterisable additional functions

_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _

5.10.2

Flying restart function

The flying restart circuit for asynchronous motors uses a simple motor model which requires

knowledge of the motor stator resistance RS and the rated motor current.



Tip!
In association with the flying restart function, we recommend information provided in this

documentation on the following topic:



Automatic DC-injection braking (Auto-DCB)

( 249)

General information
This function serves to activate a mode which is used to "catch" a coasting motor during operation

without speed feedback. This means that the synchronicity between controller and motor is to be

adjusted in such a way that a jerk-free transition to the rotating machines is achieved in the instant

of connection.
The drive controller determines the synchronicity by identifying the synchronous field frequency.

Duration
The "catching" process is completed after approx. 0.5 ... 1.5 seconds. The duration is influenced by

the starting value. If the field frequency is not known, we recommend a fixed starting value of 10

Hz (or -10 Hz with systems rotating in negative direction).



Note!

• Currently, the flying restart circuit is only available for asynchronous motors. (A flying

restart circuit for synchronous motors is in preparation.)

• For a correct functioning of the flying restart circuit, we recommend to perform a

parameter identification first.



Automatic motor data identification

( 134)

• The flying restart function works safely and reliably for drives with great centrifugal

masses.

• Do not use the flying restart function if several motors with different centrifugal

masses are connected to a controller.

• After the controller is enabled, the motor can start for a short time or reverse when

machines with low friction and low mass inertia are used.

• The flying restart function serves to identify max. field frequencies up to ±200 Hz.
• When power-adapted standard asynchronous motors are used (rated motor power

approximately corresponds to the rated inverter power), a motor parameter

identification is not required.

• On drive systems with feedback, you do not need to use the flying restart function

because the synchronisation to the speed detected by the feedback is always carried

out in a jerk-free manner.