Feature(may vary by option.)
●IP68 Waterproof design (IP68 CLASS III) / Underwater Boat Light
●Due to the friction force that occurs while the boat is in motion, the recommended application area for the product is the aft of the boat. Impact resistant special glass.
●The thermal conductivity coefficient of the carbon-containing thermal resin raw material used in the body of our product is 20W/mK. The thermal conductivity coefficient is 500 times higher according to normal plastics. Thanks to its high technology and heat conducting resin material, it does not accumulate the heat generated in LED`s.
●The Aker Underwater boat Light is resistant to the shipworm that may occur under the boat. It has a salt water resistant thermal resin body.
●25W Green LED`s 1700 lumens.12VDC. Current 12V : 2.10A , 1 piece LED Underwater Boat Light, 1 pc user manual, 2 pcs 316L Stainless Steel mounting screws
[Green (1700 lumen)]
Description
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| AL UWL402 SM WH | AL UWL402 SM BL | AL UWL402 SM GR | AL UWL401 SM WH | AL UWL401 SM BL | |
| LED Colour | White Colour | Blue Colour | Green Colour | White Colour | Blue Colour |
| Watts | 25W | 25W | 25W | 64W | 64W |
| Lumen | 2500 Lumen | 1300 Lumen | 1700 Lumen | 9000 Lumen | 3360 Lumen |
| Volt | 12 VDC | 12 VDC | 12 VDC | 10-30 VDC | 10-30 VDC |
| Body | Thermal Resin Body | Thermal Resin Body | Thermal Resin Body | Aluminium Bronze Marine Body | Aluminium Bronze Marine Body |
Underwater Boat Light Specification
- IP68 Waterproof design (IP68 CLASS III)
- Underwater boat and yacht light
- Salt water resistant product.
- High-Tech SMD LED with high wattage.
- 110° LED Degree.
- White and Blue LED colour options.
- 25W White LEDs 2500 lumens. 25W Blue LEDs 1300 lumens.
- Due to the friction force that occurs while the boat is in motion, the recommended application area for the product is the aft of the boat.
- It is resistant to the shipworm that may occur under the boat. It has a salt water resistant thermal resin body.
- Impact resistant special glass.
- Thanks to its special thermal resin cooler body, it increases the performance and life of LEDs.
- Body assembly is practical. 0.3937in (10 mm) cable hole is drilled on the surface of the hull and the surface of the boat is mounted underwater.
- Light Head Diameter: 4.980in (126,5mm) , Head height: 0.9449in (24mm) , Full Length: 1.575in (40mm)
High Thermal Conductivity Thermal Resin Body Technology
What is the Thermal Resin?
Thermal resin is not a normal plastic. It is a special plastic containing carbon. The thermal conductivity coefficient in normal plastic type is approximately 0.04 W/mK. (W/mK = The Thermal conductivity measurement unit.) The thermal conductivity coefficient of the carbon-containing thermal resin raw material used in the body of our product is 20W/mK. The thermal conductivity coefficient is 500 times higher than according to normal plastics. Due to the carbon content of the raw material, the thermal resin is smoked gray. Thanks to its high technology and heat conducting resin material, it does not accumulate the heat generated in LED`s. It quickly transfers to the environment it is in. Thus, LEDs work long-lasting. Due to the excessive heat seen in many plastic products, problems such as plastic deformation and burning of LED`s are observed. Thermal resin material is resistant to salt water and corrosion that may occur in water.
Boat Light Application Guide
Underwater boat lights should create a pool of light that covers the full width of the transom. On an average boat, two lights will do. But if your boat has a wide beam or multiple outboards, you will need three or more lights.
The first step is to decide where you want to mount your lights. The best mounting location is usually on the transom as low in the water as is possible. Also, separating the lights by at least three feet will give you the best light coverage across your transom.
Next, use a template to check to make sure the lights fit and to mark the location of the power cord hole.
IMPORTANT! Do NOT mark the location of the screw holes at this time. You will use the light itself to mark the screw hole location.
Check inside of the boat to make sure there is room to feed the power cord through. You are also making sure you are not going to drill into anything important such as wiring or hoses. If in doubt, find a different location for your lights.
If everything looks OK you can drill the hole for the power cord.