Of the main circuit, Fig. 3.3-8 – Rockwell Automation Low-Voltage Switchgear and Controlgear User Manual

Lower transient currents peaks with correct wiring (clockwise rotation)

Fig. 3.3-8
Correct connection of motor phases for clockwise rotation

During the de-energized switching interval, the rotor falls back against the rotating field of the
power supply. Its magnetic field induces a decaying residual voltage in the stator – in the
voltage phasor diagram

Fig. 3.3-9

for the pole conductor L1 entered as U

L1’-N

.

When connecting to delta (

Fig. 3.3-8

und

Fig. 3.3-9

) the mains voltage U

L1-L3

is applied to the

stator winding, across which this residual voltage is still present. The differential voltage

∆U is

relatively small, thanks to the favorable vectorial position of the residual voltage U

L1’-N

and the

supply voltage U

L1-L3

that are approximately oriented in the same direction. Thus the current

surge generated by this resultant voltage will also remain small.

Fig. 3.3-9
Phasor diagram for star-delta with correctly connected motor phases for clockwise rotation

High transient current surge with incorrect wiring

The motor also turns clockwise when the terminals are connected according to

Fig. 3.3-10

.

Fig. 3.3-10
Incorrect connection of the motor phases also produces clockwise turning

A decaying residual voltage acts again with lagging phase position in the stator during the
switching interval. On switching to delta, the phase winding with the phasor U

L1’-N

is connected

to the supply phase U

L1-L2

. These two voltages however have totally different vectorial direc-

tions, the differential voltage

∆U is high and results in a correspondingly high transient current

surge.

LVSAM-WP001A-EN-P - April 2009

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