Extreme Operating Conditions; Du/Dt On Motor; Switching On The Input; Peak Voltage On Motor - Danfoss VLT 2800 Design Manual

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5.1.3 Extreme Operating Conditions

Short circuit

The frequency converter is protected against short circuits

on motor terminals U, V, W (96, 97, 98). A short circuit-

between 2 motor terminals would lead to an overcurrent

in the IGBT module, which means that all transistors in the

IGBT module would independently cut out.

The inverter turns off after 5-10 s and the frequency

converter displays a fault code, although this depends on

impedance and motor frequency.

Ground fault

The IGBT module cuts out within 100 s if there is a ground

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. The

frequency converter cannot be destroyed by connecting/

disconnecting the motor terminals. 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 2 instances:

The load drives the motor, that is, the load

generates energy.

During deceleration (ramp-down) if the inertia

moment 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 converter,

the motor and the unit. The control unit attempts

to correct the ramp if possible.

The fault can be removed by connecting a brake resistor, 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 chapter 1.11 Brake Resistors for further

details.

Static overloading

hen the frequency converter is overloaded (current limit in

parameter 221 Current limit I

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 s. See parameter 409 Trip delay overcurrent,

LIM

An extreme overload may cause the switching frequency

to be derated to 3000 Hz.

128

Design Guide

is reached), the control

LIM

5.1.4 dU/dt on Motor

When a transistor in the inverter is opened, the voltage

across the motor terminals rises by a voltage/time ratio

(dU/dt) determined by:

•

the motor cable (type, cross-section, induction,

capacity, length and screened/armoured/

unscreened/unarmoured).

•

the mains voltage.

Self-induction in the motor cable leads to an overswing

of the output voltage each time a transistor in the

PEAK

inverter is opened. After U

PEAK

stabilises at a level determined by the voltage in the

intermediate circuit. U

and dU/dt influence the lifetime

PEAK

of the motor, especially motors without phase insulation

paper in the coils. If the motor cable is short (a few

metres), the overshoot U

is low, while the dU/dt is

PEAK

high. If the motor cable is long (>20 m), U

to about twice the intermediate voltage, while dU/dt

decreases. When using small motors without phase

insulation paper or submerged water pumps, connect an

LC-filter after the frequency converter.

5.1.5 Switching on the Input

The waiting time between switching the mains voltage on

terminals 91, 92 and 93 must be minimum 30 s. Start up

time appr. 2.3 s.

5.1.6 Peak Voltage on Motor

When a transistor in the inverter is opened, the voltage

across the motor increases by a dU/dt ratio that depends

on:

•

the motor cable (type, cross-section, length

screened or unscreened).

•

inductance.

The natural induction causes an overshot U

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

of the motor. If the peak voltage is too high, motors

without phase coil insulation are primarily 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 decreases

and the peak voltage increases to about twice the

intermediate voltage.

If very small motors without phase insulation, paper or

submerged water pumps are used, fit an LC filter after the

frequency converter.

, the output voltage

is increased

PEAK

in the

PEAK

affect the service life

PEAK

MG27E402

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Extreme Operating Conditions; Du/Dt On Motor; Switching On The Input; Peak Voltage On Motor - Danfoss VLT 2800 Design Manual

5.1.3 Extreme Operating Conditions

5.1.4 dU/dt on Motor

5.1.5 Switching on the Input

5.1.6 Peak Voltage on Motor

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