Shore Power Solutions

Fluctuating shore power problems? Yacht Boost gives you shore power solutions.

Boat electronics require sufficient and balanced power to operate efficiently. When the power drops or spikes, it can burn out the onboard electronics which may result in costly repairs or replacements. It’s a common problem when boats are connected to shore power.

Shore power notoriously runs under the optimum requirement for yachts. Even new installations that promote 240-volt power rarely reach that level of output. When a marina is full and everyone’s plugged in with air conditioning and refrigeration units running, power levels easily drop to 208 volts and lower.

“Everyone has problems with all the uneven power; it’s just life in the boating industry,” says Gerald Berton, president of The Yacht Group. “We know we’ve got to give boats over
two hundred volts or everything will brown out. On older docks, they’re striving to give you two hundred and eight, so on a summer day, you might get a hundred ninety-nine. Now your equipment is starting to suffer and will burn out the electronics, just as if you got a sudden spike…. It’s better to have no power than a brown-out.”

Yacht Boost

The Yacht Group recently introduced the Yacht Boost Marine Isolation Transformer, a shore power solution that not only isolates electrical current from shore power, but also regulates voltage, provides surge and low voltage protection and boosts voltage to keep electrical systems onboard powered to safe levels.

“This is a two-stage booster that boosts the power up to give the power you need and will continue as the power fluctuates,” says Berton. “If you get down to one eighty-two, you lose most stuff on your boat. You will brown out and burn out the electronics. Your equipment would be trashed at a hundred seventy-four volts.”

During a demonstration of the transformer, an incoming power voltage of 182 volts was boosted to 210 volts, thus keeping above the safety threshold of 200 volts. If the dock power reaches a low of 172 volts, Yacht Boost will automatically shut off to protect the equipment on board.

On the other side of the power spectrum, “If you all of a sudden have high voltage or a sudden spike or lightning that comes through, the transformer’s reaction is immediate,”
says Berton. “When it hits over two-fifty, then it’s going to shut you down. Your boat is protected because the surge can’t go through.”

When the system does shut down— from low- or high-voltage anomalies—Yacht Boost has an auto-restart system. This keeps the transformer online to continuously protect the yacht’s electronics.

How it Works

The electronic circuitry built into the transformer keeps the boat’s power supply at the correct level. If shore power is within the 220V-240V range, Yacht Boost is equipped with a BY-PASS system that allows the shore power to directly power the boat, yet remains an isolation transformer with the booster ready to kick in to respond to any fluctuations.

Yacht Boost increases the output voltage in two steps.

STEP 1: From 175V to 209V, there is a 15 percent increase which results in output voltage from 210V to 240V.
STEP 2: From 210V to 227V, there is a 7.5 percent increase which results in output voltage from 224V to 242V.

From 228V to 253V, non-boost mode, the transformer is allowing shore power to pass through directly. In addition to keeping power levels consistent, one very important role Yacht Boost plays on board is its ability to isolate electrical current. The transformer has a shore grounding conductor connected to a shield between primary (shore) and secondary (boat) transformer windings.

Safety Issue

“If the dock has a loose grounding wire, you can have electric current coming into your boat; your boat then becomes the ground and causes an electrical current right
in the water,” says Berton.

Fault current follows a path through the boat’s DC ground, which is usually connected to the engine and underwater fittings, and tries to find a way back to the source (in this case, the shore power on the dock). There have been numerous incidents where swimmers suffer electric shock drowning (ESD) in marinas.

Even if it’s not strong in the water, a swimmer who touches the boat then becomes
the ground. “The booster is an isolator that prevents that electrical current going from the boat to the water,” adds Berton.

Yacht Boost is available in seven sizes from 3.6 kVa to 30 kVa. The most common unit is the 12.5 kVa for 50-to 75-foot boats. Boats between 35 and 40 feet, including center consoles, typically use the 3.6 kVa transformer. It weighs 75 pounds and measures 12 inches square with a 13.5-inch height. For today’s center consoles that sport cabins with TVs and a plethora of electronic gear, Yacht Boost offers a maintenance-free, easy, Low-operation system to protect a significant investment.

Some marinas are proactively addressing older shore power systems by renting the dockside version of Yacht Boost. A boat can plug into the booster on the dock that’s
attached to the shore power. Due to swimmers suffering ESD in marinas, some states are mandating that marinas use the isolation transformers or replace their systems altogether.

theyachtgroup.com

By Steve Davis, Southern Boating July 2019

Shore Power Tips

It’s a Shore Thing: tips to solve your shore power connection problems.

Keeping a boat shipshape at the dock pays dividends. Neat and clean looks great and passersby say what a “well-maintained vessel you have.” Feels good, doesn’t it? Yet every boat owner knows problems are just over the horizon, and keeping shore power connections shipshape is a no-brainer. But when you take care of your power connections, they will take care of you. For example, always power down before connecting or disconnecting cords. That’s one of the shore power tips from experts who understand the challenges consumers face with marine shore power, and they advise that it’s not as difficult as it seems.

Shore power tips and tricks

Top of the list of challenges is keeping the flow of electricity constant and safe. “Maintaining a reliable connection between the boat, cord and dock pedestal is the biggest challenge for recreational boat owners,” explains Matt Elsner, product manager for Marinco, a leading manufacturer of shore power products. “This is solved by ensuring the cord is properly twisted into the inlet and receptacle and using the included locking ring (15A, 20A, 30A or 50A locking devices) to connect the cord to the inlet.”

Another challenge is the identification of connections, specifically differentiated between 50A 125V or 50A 125/250V. “The vast majority of 50A connections are 50A 125/250V,” Elsner adds. “Users confuse the two configurations as they look very similar.” Consumers should verify the voltage (125 or 125/250) which will be noted on the inlet or receptacle. Additionally, 50A 125/250V inlets and female connectors contain a visible grounding plate that can be used for identification.

Keeping connections dry is another challenge. It’s the marine environment, and moisture is everywhere. Water from the ocean or lake, or from rain, fog or morning dew, penetrates critical connection points. “Pigtail adapters are recommended for use in wet locations as they use locking rings to ensure a watertight seal between the cord and the adapter,” Elsner states. “Single-piece adapters are not recommended for use in wet locations as they do not provide a watertight seal.”

Inspecting shore power connections for wear takes just a few moments but can pay off by preventing a failure in electrical power that could be a minor inconvenience, or worse, a fire that could cause catastrophic damage to life and property. If you have stressed or strained the cord for some reason, take care to ensure it’s not damaged.

One of the most important shore power tips: Inspect all connection points (cord, inlet, receptacle, and adapters) before using if there’s been an event that could have caused damage. Corrosion or excessive wear on any connection point can be a sign of future issues, and an appropriate time to inspect these at least once a season is during your boat’s annual haul-out. Consider replacing the affected product as soon as possible.“If either end of a cord is damaged, a replacement end can be installed,” Elsner advises. “When installing a replacement end, also install a weatherproof cover to maintain cord integrity.”

When it comes to marine cord sets, you can’t skimp on quality. It is critical that the cord set is constructed to be durable enough to withstand a marine environment. “The best cord sets have a flexible outer jacket which facilitates routing and storage,” Elsner continues. “They are UV resistant to withstand exposure to the sun without compromising integrity, and most importantly, maximize wire strand count to ensure optimum conductivity.”

A clean cord is a happy cord

Keep it clean is one of the top shore power tips. A messy dock where shore power connections are in harm’s way is more than unsightly—it can cause problems. Storage bags can be used to cover extra cord as well as hold additional adapters. Clips for the handrail and deck on your boat keeps the cord in place.

If a cord is dropped into saltwater, rinse it with fresh water and apply a water dispersing spray on the blades and sockets. One of the most important shore power tips is keeping salt at bay. Saltwater can lead to corrosion which can cause the cords to heat up. “Although shore power cords are designed to be used in a marine environment, they are not designed to be in the water at any time,” Elsner adds. “Routing and coiling cords is important to avoid potential issues.”

A warm cord is the first sign that you have a corrosion problem, so check the temperature of the cords often. If all is well, the cord should be within two degrees of the ambient temperature. Once it gets higher than that—say 10 degrees above ambient temperature—then that’s the sign of a problem. Some people use infrared thermometers to check the temperature of their shore power connections.

marinco.com

By Doug Thompson, Southern Boating February 2018

Hubbell Marine YQ100PLUS Intelligent Y Adapter

Hubbell Marine’s YQ100PLUS Intelligent Y Adapter allows yacht owners with 100-amp, 125/250 AC electricity the capability to hook up to pedestals with one or two same-phased 50-amp 125/250V AC receptacles. This ideal shore power adapter features indicator lights that detect and communicate whether or not the dockside wiring is safe for operation. MSRP $4,999; hubbell-marine.com

Hubbell Marine’s Twist-Lock Circuit Tester

Safe and reliable shore power connections are crucial—sometimes all it takes is a quick test to ensure all is well. Hubbell Marine’s new 30A/125V Twist-Lock Circuit Tester is styled and sized like a standard Hubbell Twist-Lock Plug and specifically comfigured to fit all locking receptacles at marinas. Simply plug it into the outlet at the dock and LED back panel immediately identifies if the connections are made correctly and in the right position. The yellow tester is compact and can easily clip onto a tool belt. It’s UL and C-UL listed. MSRP $89; hubbell-marine.com

By Nathalie Gouillou, Southern Exposure, January 2016