The star contactor is selected according to i, 34 · i, 3 = 0.58 · i – Rockwell Automation Low-Voltage Switchgear and Controlgear User Manual

Faults like shown in

Fig. 3.3-3

and

Fig. 3.3-4

can also be avoided with the interruption-free

(closed transition) star-delta circuit (Section

3.3.4

).

When the load torque is too high the star-connected motor only accelerates to a fraction of the
speed and “sticks” at this speed. The switching process would proceed as in

Fig. 3.3-5

and the

purpose of the star-delta start up would not be achieved.

Moreover this condition means that the contactors have to switch off a multiple of the motor
rated current. In the example in

Fig. 3.3-5

the breaking current is around 1.3 · I

emotor

. The star

contactor is selected according to I

e(Y contactor)

= 0.34 · I

emotor

(see below) and must accordingly

switch off

1.3/0.34

≈ 4 · I

e(Y contactor)

In practice this means AC-4 operation with a correspondingly reduced electrical life span. In this
case a motor for amplified star-delta starting (Section

3.3.5

) should be used.

0.00

1.00

2.00

3.00

4.00

5.00

6.00

I/I

e

0

20

40

60

80

100

n/n

s

[%]

0.00

0.50

1.00

1.50

2.00

2.50

T /T

e

I

Δ

I

Y

T

Δ

T

Y

Fig. 3.3-5
Switching-over at speed- that is too low

Selecting the starter components

With star-delta circuits in accordance with

Fig. 3.3-6

in delta mode the circuits of main contac-

tor, delta contactor and motor protection relays are connected in series to the motor windings
(

Fig. 3.3-7

). The devices are therefore loaded with the phase current I

p

:

I

p

= I

e/

√3 = 0.58 · I

e

I

>

I

>

I

>

M
3~

U1

U2

V1

V2

W1

W2

Q1

B

A F1

Fig. 3.3-6
Starter for normal star-delta starting

LVSAM-WP001A-EN-P - April 2009

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