- Sep 24, 2013
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- Dovecote Electrical
I don't "do" solar, but I've been asked to comment on an aspect of a new domestic solar installation by others.
There is no overload or fault protection, except for the service cut-out fuse (unknown size, assume 80A). TN-C-S.
Installation is as follows (have only seen a photo of part of it, not seen in person):
80A (assumed) cut-out fuse -> energy meter -> Henley blocks
Henley blocks -> main DB (no problem)
Henley blocks -> solar meter (16mm or 25mm tails) -> 20A 3 phase rotary isolator (L1 and N terminals used only) in ~2.5mm single-insulated cables just underneath -> 2.5mm T&E -> inverter. There is ~10mm G/Y from (presumably) the MET to the rotary isolator, connected to the 1.5mm cpc of the T&E with a terminal block inside the isolator enclosure.
I don't know how far the inverter is from the isolator, or the route the cable takes.
To me, this stinks.
Regarding fault protection, none of the provisions of 410.3.9 apply, so fault protection is needed.
The adiabatic suggests a minimum of about 4mm (slightly higher) for protective conductor, making some assumptions about fault currents, fuse rating etc.
I can't think of a reason why overload protection could be omitted, but maybe this is due to the nature of it being connected to an inverter, which probably has its own internal way of limiting current to <=16A?
In any case, if a fault occurred anywhere between the solar meter and the inverter, then the cable would melt/catch fire long before the service fuse blew, right?
I just can't understand how someone can install this, and when questioned, assure the customer it's safe? Or am I missing something really obvious?
Appreciate your thoughts.
There is no overload or fault protection, except for the service cut-out fuse (unknown size, assume 80A). TN-C-S.
Installation is as follows (have only seen a photo of part of it, not seen in person):
80A (assumed) cut-out fuse -> energy meter -> Henley blocks
Henley blocks -> main DB (no problem)
Henley blocks -> solar meter (16mm or 25mm tails) -> 20A 3 phase rotary isolator (L1 and N terminals used only) in ~2.5mm single-insulated cables just underneath -> 2.5mm T&E -> inverter. There is ~10mm G/Y from (presumably) the MET to the rotary isolator, connected to the 1.5mm cpc of the T&E with a terminal block inside the isolator enclosure.
I don't know how far the inverter is from the isolator, or the route the cable takes.
To me, this stinks.
Regarding fault protection, none of the provisions of 410.3.9 apply, so fault protection is needed.
The adiabatic suggests a minimum of about 4mm (slightly higher) for protective conductor, making some assumptions about fault currents, fuse rating etc.
I can't think of a reason why overload protection could be omitted, but maybe this is due to the nature of it being connected to an inverter, which probably has its own internal way of limiting current to <=16A?
In any case, if a fault occurred anywhere between the solar meter and the inverter, then the cable would melt/catch fire long before the service fuse blew, right?
I just can't understand how someone can install this, and when questioned, assure the customer it's safe? Or am I missing something really obvious?
Appreciate your thoughts.
Hence discussion about lack of fault protection. Not sure if overload protection can be ommitted or not, as per 433.3.1(ii). But even this indent mentions the requirement for fault protection, even if overload protection is not needed (and I don't know enough about inverters to be able to say whether oveload protection is needed or not...)
