Description
SPD type follow test IEC 61643-11 |
1 +2 |
Network | PV network 1250 Vdc |
PV Network voltage | 1250 Vdc |
Max. PV operating voltage | 1500 Vdc |
Residual Current Leakage current to Ground |
none |
PV Permanent Operating current Current consumption at Ucpv |
None |
Follow current | none |
Nominal discharge current 15 x 8/20 µs impulses |
20 kA |
Max. discharge current max. withstand @ 8/20 µs by pole |
40 kA |
Impulse current by pole max. withstand 10/350µs by pole |
12.5 kA |
Total lightning current max. total withstand @ 10/350µs |
25 kA |
Current withstand short circuit PV | 15000 A |
Connection mode | +/-/PE |
Protection mode(s) | MC/MD |
Protection level @ In (8/20µs) |
3.4 kV |
Protection level L/N @ In (8/20µs) |
3.4 kV |
Protection level L/PE @ In (8/20µs) |
3.4 kV |
Protection level CM/DM @ In (8/20µs) |
4.7/5.4 kV |
Photovoltaic surge protection for residential installation
For low power PV applications, i.e. residences and small offi ces, it is necessary to consider surge protecting the AC output of the Inverter that connects directly into the electric power grid as well as the DC input side of the Inverter fed by the PV modules.
PV surge protection for industrial and public building
Medium to large power PV systems can be installed on industrial and service facilities. In order to avoid very costly downtime and lost productivity resulting from a direct or indirect lightning strike, it is critical, and in some cases mandatory, to install surge protection at key points within your facility and its vital power and communication networks.