Note: This article is based on the 2023 NEC.

• A floating pier, in which case it’s a horizontal plane 30 in. above the water level and 12 in. above the level of the deck at the floating pier [555.3 (A)].
• Area subject to tidal fluctuations, in which case the line is 2 ft above the highest normal tide level [553.3(B)].
• Area not subject to tidal fluctuations, in which case the line is highest normal water level.
  

Service equipment
The service equipment for a floating dock or marina must be on land at least 5 ft horizontally from the floating structure and one foot above the datum plane [555.4]. Transformers and enclosures must be identified for wet locations [555.7(A) and (B)].

Sign
A permanent safety sign is required. It must give notice of electrical shock hazard risks to persons using or swimming near a docking facility, boatyard, or marina. The safety sign must meet all the requirements of 555.10. For example, it must be clearly visible from all approaches to a marina or boatyard facility. Figure 01

Fuel
Electrical wiring and equipment serving motor fuel dispensing locations must comply with Article 514 [555.11]. Electrical wiring and equipment at marine craft repair facilities containing flammable or combustible liquids or gases must comply with Article 511 [555.12].

Equipment and connections
Electrical equipment (excluding wiring methods) and connections (splices and terminations) not intended for operation while submerged must be located at least 12 in. above the deck of a pier or dock, but not below the electrical datum plane [555.30(A)].

Sealed wire connector systems are limited to use with Types USE, RHW, XHHW, RW90 EP, RW90, XLPE, or TWU conductors, size 30 AWG through 2,000 kcmil copper or aluminum per the UL Guide Information Sheet for “Sealed Wire Connector Systems (ZMWQ).”

Receptacles
Mount receptacles at least 12 in. above the surface of a fixed pier but not below the electrical datum plane [555.33]. Shore power receptacles must be:

• Part of a listed marina power outlet enclosure listed for wet locations or installed in listed weatherproof enclosures.
• Rated at least 30A.
• Of the pin and sleeve type if rated 60A or higher.
  

Wiring methods
You can use any Chapter 3 wiring method identified for wet locations containing an insulated equipment grounding conductor (EGC) [555.34(A)(1)].

Sunlight resistant, extra-hard usage cord and extra-hard usage portable power cables listed for use in the environment within which they are installed, are permitted [555.34(A)(2)]:
(1) As permanent wiring on the underside of piers (floating or fixed).
(2) Where flexibility is necessary as on piers composed of floating sections.

Install overhead wiring such that it avoids possible contact with masts and other boat parts [555.34(B)(1)]. Overhead branch-circuit and feeder wiring in locations of the boatyard other than those described in 555.34(B)(1) must be at least 18 ft above grade. Multiple feeders and branch circuits are permitted for marina installations per Article 225 [555.34(B)(2)].

Portable power cables permitted by 555.13(A)(2) must meet the five criteria of 555.34(B)(3). For example, you must run them on the underside of the pier.

Rigid metal conduit, intermediate metal conduit, reinforced thermosetting resin conduit (RTRC) listed for aboveground use, or rigid polyvinyl chloride (PVC) conduit suitable for the location must be used to protect wiring to a point at least 8 ft above the docks, decks of piers, and landing stages [555.34(B)(4)].

Ground-fault protection (GFPE and GFCI)
Feeder conductors installed on docking facilities must be provided with GFPEs set to open at trip currents not exceeding 100 mA [555.35(A)]. Coordination with the feeder GFPE overcurrent protective device is permitted.

Ex: Transformer secondary conductors of a separately derived system that do not exceed 10 ft, and are installed in a raceway, can be installed without ground-fault protection. This exception also applies to the supply terminals of the equipment supplied by the transformer secondary conductors.

Shore power receptacles installed per 555.33(A) must have individual GFPE protection set to open at trip currents not exceeding 30 mA [555.35(B)(1)]. GFCI protection is required for docking facility outlets rated 60A and less, single-phase, and 100A and less, three-phase for electrical systems not exceeding 150V to ground [555.35(B)(2)].

Ex: Circuits not requiring grounding, not exceeding the low-voltage contact limit, and supplied by listed transformers or power supplies complying with 680.23(A)(2) can be installed without GFCI protection.

Boat hoist outlets on docking facilities must be GFCI protected where the circuit voltage does not exceed 240V [555.35(C)].

Where more than three receptacles supply shore power to boats, a leakage current measurement device for marina applications must be used to determine leakage current from each boat that will utilize shore power [555.35(D)].

Ex: Where the shore power equipment includes a leakage indicator and leakage alarm, a separate leakage test device is not required.

Disconnecting means
Provide a disconnecting means for each shore power receptacle. It must be a circuit breaker or switch that identifies which shore power receptacle it controls. It must be readily accessible and not more than 30 in. from the receptacle it controls [555.36].

Each marina power outlet or enclosure that provides shore power to boats must have a listed emergency shutoff device or disconnect that is marked “Emergency Shutoff” per 110.22(A) [555.36(C)]. This disconnect provides a means to shut off power if a swimmer comes in contact with an energized metal boat, dock, or ladder and anytime it appears that Electric Shock Drowning (ESD) is occurring.

The emergency shutoff device or disconnect must be within sight of the marina power outlet, readily accessible, externally operable, and manually resettable. It must de-energize the power supply to all circuits supplied by the marina power outlet(s). You cannot use a circuit breaker handle for this purpose.

Equipment grounding conductor<text1>Metallic items likely to become energized in a marina, boatyard, or docking facility must be connected to an EGC of the wire-type run with the circuit conductors. There’s a list in 555.37(A).

For all circuits in a marina, boatyard, or docking facility, provide an insulated equipment grounding conductor sized per 250.122 but at least 12 AWG.

A feeder to a panelboard or distribution equipment must have an insulated equipment grounding conductor [555.37(B)] run from the service to the panelboard or distribution equipment. The required insulated equipment grounding conductor [555.37(B)] must terminate at a grounding terminal in a panelboard, distribution equipment, or service equipment.

Luminaires
All luminaires and retrofit kits must be listed and identified for use in their intended environment. Luminaires and their supply connections must be secured to limit damage from watercraft and prevent entanglement of, and interaction with, sea life [555.38(A)].

Luminaires installed below the highest high tide level or electrical datum plane and likely to be periodically submersed are limited to the following [555.38(B)]:
(1) Identified as submersible
(2) Operate below the low-voltage contact limit
(3) Supplied by a swimming pool transformer per 680.23(A)(2).

Preventing mistakes
The main strategy of Article 555 is to keep water and electricity away from each other. Knowing and respecting the datum plane is the key to a Code-compliant installation. Note that all of the requirements in Article 555 also apply to replacements. The replacement aspect is repeated many times in Article 555. Following this requirement is essential to performing a Code-compliant repair or upgrade.

Key definitions
These are defined in Article 100

• Boatyard: A facility used for constructing, repairing, servicing, hauling from the water, storing (on land and in water), and launching of boats.
  
• Docking facility: A covered or open, fixed, or floating structure that provides access to the water and to which boats are secured.
• Electrical datum plane: A specified vertical distance above the normal high-water level at which electrical equipment can be installed and electrical connections made.
  
• Marina: A facility, generally on the waterfront, which stores and services boats in berths, on moorings, and in dry storage or dry stack storage.
  
• Pier: A structure extending over the water on a fixed or floating structure that provides access to the water.
  
• Power outlet, marina: An enclosed assembly that can include equipment such as receptacles, circuit breakers, watt-hour meters, and panelboards.
  
• Shore power: The electrical equipment required to power a floating vessel including, but not limited to, the receptacle and cords.