3 protection requirements, 1 switching capacity, 2 current limitation – Rockwell Automation Low-Voltage Switchgear and Controlgear User Manual

4.1.3.3 Protection

requirements

4.1.3.3.1 Switching capacity

The most important requirement for a short-circuit-protective device is sufficient switching
capacity so that it is able to reliably manage the fault current. The project engineers and users
have to ensure that the switching capacity I

cu

or I

cc

of the short-circuit protective devices or

device combinations (for example circuit breaker plus contactor) at the given operating voltage
is equal to or larger than the prospective short-circuit current occurring at the site of installation.
The reference quantity for rating is thereby the symmetrical value. While with fuses it is naturally
a question of the breaking capacity only, circuit breakers must also have a corresponding
making capacity, as they also may make a circuit in which a short-circuit is present. This is
ensured by means of test sequences.

With circuit breakers a distinction is made between the ultimate short-circuit switching capacity
and the service short-circuit switching capacity that relates to reusability after a short-circuit.
See Section

4.2.2.3.3

.

4.1.3.3.2 Current limitation

Due to the potential dangers of short-circuits it is desirable that they are quickly detected and to
break them already in the first phase of current rise as far as possible (

Fig. 4.1-18

). This is

intended to reduce the destructive energy to a minimum and to keep the extent of damage low.
The smaller the damage due to a short-circuit, the lower will be the repair costs, the operational
interruption and the resulting production losses. Modern circuit breakers and fuses have
strongly current limiting properties.

IEC 60439 (low-voltage switchgear assemblies) takes these factors into account by dispensing
from the requirement of verification of the short-circuit withstand capacity, if the symmetrical
short-circuit current is

≤ 10 kA or the cut-off current I

D

≤ 17 kA.

t [ms]

10

20

30

40

50

60

70

80

9

8

7

6

5

4

3

2

1

Prospective short-circuit current at
50 kA symm. s-c-current and 50 Hz

Cut-off current of a
current-zero quenching
circuit breaker

Let-through current of a
fast acting current
limiting circuit breaker

I [kA]

I

D

0

t

k

Fig. 4.1-18
Current limiting circuit breakers or fuses reduce the fault current and hence the mechanical and thermal
stresses in the event of a fault
I

D

Cut-off

current

t

k

Total breaking time

LVSAM-WP001A-EN-P - April 2009

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