Happy Monday all,
For the installation of a permanently installed "above" ground pool, is equipotential bonding of the perimeter surface required?
Someone called for a quick estimate and I need to get some rough thoughts in my head when looking at the job (residential,single family).
In referencing 680.22, I'm thinking a single twist lock GFCI receptacle for a pool pump located 6' to 10' from the inside wall edge. And a GFCI convenience receptacle located 6' to 20' from the inside wall edge.
I also note 680.21, that "inside" the structure can be "regular" wiring methods....type nm for the pump, but I'm then assuming that "outside" would have to be in a conduit with an insulated grounding conductor.
Questioning the perimeter surface bond, but I'm also assuming bonding would be just from the motor to the metal framing of the pool.
I have to check, I'm not sure of the particulars if there will be a deck around the pool, but if not, how are the ladders (A frame removable) to get in and out of the pool addressed?
Thank you for your insight,
Rich
For the installation of a permanently installed "above" ground pool, is equipotential bonding of the perimeter surface required?
Someone called for a quick estimate and I need to get some rough thoughts in my head when looking at the job (residential,single family).
In referencing 680.22, I'm thinking a single twist lock GFCI receptacle for a pool pump located 6' to 10' from the inside wall edge. And a GFCI convenience receptacle located 6' to 20' from the inside wall edge.
I also note 680.21, that "inside" the structure can be "regular" wiring methods....type nm for the pump, but I'm then assuming that "outside" would have to be in a conduit with an insulated grounding conductor.
Questioning the perimeter surface bond, but I'm also assuming bonding would be just from the motor to the metal framing of the pool.
I have to check, I'm not sure of the particulars if there will be a deck around the pool, but if not, how are the ladders (A frame removable) to get in and out of the pool addressed?
Thank you for your insight,
Rich