Technical data
The inverter turns off after 5-10 s and the frequency
converter displays a fault code, although this depends
on impedance and motor frequency.
Earth fault
The IGBT module cuts out within 100 s in case of an
earth fault on one of the motor terminals U, V, W (96,
97, 98), although depending on impedance and motor
frequency.
Output connection
Motor terminals U, V, W (96, 97, 98) for the motor can
be connected/disconnected as often as required.
There is no way that the frequency converter can be
destroyed by connecting/disconnecting the motor ter-
minals. However, fault messages may appear.
Motor-generated overvoltage
The voltage in the intermediate circuit is increased
when the motor acts as a generator. To protect the
frequency converter the IGBT module is disconnected
when a specific voltage level is reached.
Motor-generated overvoltage can occur in two instan-
ces:
1. The load drives the motor, i.e. the load gen-
erates energy.
2. During deceleration (ramp-down) if the mo-
ment of inertia is high, the load is low and the
ramp-down time too short for the energy to
be dissipated as a loss in the frequency con-
verter, the motor and the unit. The control unit
attempts to correct the ramp if possible.
The fault can be removed by connecting a brake re-
sistor, if the frequency converter has an integrated
brake module. If the frequency converter does not
have an integrated brake module an AC brake can be
used, see parameter 400 Brake function.
See the section entitled Brake resistors.
Static overloading
When the frequency converter is overloaded (current
limit in parameter 221 Current limit I
LIM
is reached), the
control reduces the output frequency in an attempt to
reduce the load. If the overloading is extreme, there
might be an output current that causes the frequency
converter to trip after approx. 1.5 sec. See parameter
409 Trip delay overcurrent, I
LIM
.
An extreme overload will cause the switching frequen-
cy to be derated to 3000 Hz.
dU/dt on motor
When a transistor in the inverter is opened, the voltage
across the motor terminals will rise by a voltage/time
ratio (dU/dt) determined by:
-
the motor cable (type, cross-section, induc-
tion, capacity, length and screened/arm-
oured/unscreened/unarmoured)
-
the mains voltage
Self-induction in the motor cable leads to an overswing
U
PEAK
of the output voltage each time a transistor in
the inverter is opened. After U
PEAK
the output voltage
will stabilise at a level determined by the voltage in the
intermediate circuit. U
PEAK
and dU/dt influence the life-
time of the motor, especially motors without phase
insulation paper in the coils. If the motor cable is short
(a few metres), the overshoot U
PEAK
is low, while the
dU/dt is high. If the motor cable is long (>20 m),
U
PEAK
is increased to about twice the intermediate vot-
age, while dU/dt decreases. When using small motors
without phase insulation paper or submerged water
pumps, it is recommended that an LC-filter is connec-
ted after the frequency converter.
Switching on the input
The waiting time between switching the mains voltage
on terminals 91, 92 and 93 must be min. 30 sec. Start
up time appr. 2.3 sec.
Peak voltage on motor
When a transistor in the inverter is opened, the voltage
across the motor increases by a dU/dt ratio that de-
pends on:
-
the motor cable (type, cross-section, length
screened or unscreened)
-
inductance
The natural induction causes an overshot U
PEAK
in the
motor voltage before it stabilises itself at a level which
depends on the voltage in the intermediate circuit. The
rise time and the peak voltage U
PEAK
affect the service
life of the motor. If the peak voltage is too high, motors
without phase coil insulation are the ones that will pri-
marily be affected. If the motor cable is short (a few
metres), the rise time is higher and the peak voltage is
lower.
If the motor cable is long (100 m), the rise time will
decrease and the peak voltage will increase to about
twice the intermediate voltage.
If very small motors without phase insulation, paper or
submerged water pumps are used, it is recommended
to fit a LC filter after the frequency converter.
VLT
®
2800 Series
140 MG.27.E3.02 - VLT
®
is a registered Danfoss trademark