Depending on whether all exposed conductive parts are interconnected by a protective conductor (collectively earthed) or are earthed in groups or individually, after a first fault, the disconnection conditions of the supply for a second fault must be as follows:
1.In installations where the exposed conductive parts are earthed in groups or individually, the protection conditions for TT systems apply (see 413.1.4.1)
2.In installations where the exposed conductive parts interconnected by a protective conductor collectively earthed, the conditions for TN systems apply
In installations where the neutral is not distributed, the following conditions must be fulfilled:
Zs ≡ | 3 ⋅ U0 | ||
⋅ Ia | |||
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In installations where the neutral is distributed, the following conditions must be fulfilled:
| U0 |
|
Z′s ≤ |
| |
2 | ⋅ Ia |
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In the condition: | ||
| U0 | is the nominal AC RMS voltage between phase and neutral |
| Zs | is the impedance of the fault loop comprising the phase conductor and the protective conductor of |
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| the circuit |
| Z′s | is the impedance of the fault loop comprising the neutral conductor and the protective conductor of |
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| the circuit |
| Ia | is the operating current of the protective device. The disconnecting time is 5 seconds (distribution |
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| circuits) |
Protective devices in IT systems
The following protective devices are recognized in IT systems:
•Insulation monitoring devices
•Overcurrent protective devices
•Residual current protective devices
The following diagram shows a Symmetra® MW installed in a IT system:
• Earthing arrangements and protective conductors - Symmetra® MW in “IT installation”
Symmetra MW II 1200 kW 3 × 400/230 V Installation - | 27 |