ComPacT NSX100-630 - Limitation Curves
Presentation
The limiting capacity of a circuit breaker is its aptitude to let through a current, during a short-circuit, that is less than the prospective short-circuit current.
The exceptional limiting capacity of the ComPacT NSX range is due to the rotating double-break technique (very rapid natural repulsion of contacts and the appearance of 2 arc voltages in-series with a very steep wave front).
Ics = 100% Icu
The exceptional limiting capacity of the ComPacT NSX range greatly reduces the forces created by fault in devices.
The result is a major increase breaking performance.
In particular, the service breaking capacity Ics is equal to 100% of Icu.
The Icu value, defined by standard IEC/EN 60947-2, is guaranteed by tests comprising the following steps:
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Break the three times consecutively a fault current equal to 100% of Icu
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Check that the device continues to function normally, that is:
-
it conducts the rated current without abnormal temperature rise.
-
protection functions perform within the limits specified by the standard.
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suitability for isolation is not impaired.
-
Longer Service Life of Electrical Installations
Current-limiting circuit breakers greatly reduce the negative effects of short-circuits on installations.
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Thermal effects:
Less temperature rise in conductors, therefore longer services life for cables.
-
Mechanical effects:
Reduces electrodynamic forces, therefore less risk of electrical contacts, or busbar being deformed or broken.
-
Electromagnetic effects:
Fewer disturbances for measuring devices located near electric circuits.
Economy by Means of Cascading
Cascading is a technique directly derived from current limiting. Circuit breaker with breaking capacities less than the prospective short-circuit current may be installed downstream of a limiting circuit breaker. The breaking capacity is reinforced by the limiting capacity of the upstream device. It follows that substantial savings can be mode on downstream equipment and enclosures.
Current and Energy Limiting Curves
The limiting capacity of a circuit breaker is expressed by two curves which are a function of the prospective short-circuit current (the current which would flow if no protection devices were installed):
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The actual peak current (limited current)
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Thermal stress (A²s), that is, the energy dissipated by the short-circuit in a condition with a resistance of 1 Ω.
Example:
What is the real value of a 150 kA rms prospective short-circuit (that is, 330 kA peak) limited by an NSX250L upstream?
Maximum Permissible Cable Stresses
The following table indicates the maximum permissible thermal stresses for cables depending on their insulation, conductor (Cu or Al), and their cross-sectional area (CSA). CSA values are given in mm² and thermal stresses in A²s.
|
CSA |
Conductor |
1.5 mm² |
2.5 mm² |
4 mm² |
6 mm² |
10 mm² |
|---|---|---|---|---|---|---|
|
PVC |
Cu |
2.97x104 |
8.26x104 |
2.12x105 |
4.76x105 |
1.32x106 |
|
Al |
– |
– |
– |
– |
5.41x105 |
|
|
PRC |
Cu |
4.1x104 |
1.39x105 |
2.92x105 |
6.56x105 |
1.82x106 |
|
Al |
– |
– |
– |
– |
7.52x105 |
|
CSA |
Conductor |
16 mm² |
25 mm² |
35 mm² |
50 mm² |
|---|---|---|---|---|---|
|
PVC |
Cu |
3.4x106 |
8.26x106 |
1.62x107 |
3.31x107 |
|
Al |
1.39x106 |
3.38x106 |
6.64x106 |
1.35x107 |
|
|
PRC |
Cu |
4.69x106 |
1.39x107 |
2.23x107 |
4.56x107 |
|
Al |
1.93x106 |
4.7x106 |
9.23x106 |
1.88x107 |
Example:
Is a Cu/PVC cable with a CSA of 10 mm² adequately protected by an NSX160F? The table above indicates that the permissible stress is 1.32x106 A2s.
All short-circuit currents at the point where an NSX160F (Icu = 35 kA) is installed are limited with a thermal stress less than 6x105 A2s.
Cable protection is therefore ensured up to the limit of the breaking capacity of the circuit breaker.
Current-limiting Curves
Energy-limiting Curves
|
Voltage 400/440 Vac |
Voltage 660/690 Vac |
|---|---|
|
Limited energy |
Limited energy |