Latest News

SUPERCHARGE SEAMASTER BATTERY … THE ULTIMATE MARINE BATTERY

SUPERCHARGE SEAMASTER BATTERY … THE ULTIMATE MARINE BATTERY

The Supercharge Seamaster battery, a beacon of reliability in marine power solutions, is renowned for its unwavering dependability, durability, and advanced technology. Crafted to meet the rigorous demands of users navigating challenging sea states, this battery is a steadfast and efficient power source. The Supercharge Seamaster battery is engineered to consistently deliver power, ensuring your adventures are never cut short.

SUPERIOR PERFORMANCE AND LONGEVITY

The Supercharge Seamaster battery is built to provide outstanding performance across a wide range of demanding sea conditions. Its advanced design incorporates heavy-duty lead-calcium grids and high-density paste, which work together to deliver superior cranking power and deep cycling capabilities. This ensures that the battery can handle heavy loads and repeated discharge and recharge cycles without compromising performance. The Seamaster battery’s robust construction allows it to endure high vibrations, extreme weather conditions, and other environmental stresses that challenge ordinary batteries, making it an ideal choice for marine enthusiasts.

CUTTING-EDGE TECHNOLOGY FOR MAXIMUM POWER

What sets the Supercharge Seamaster battery apart is its integration of cutting-edge technology that maximises power output and efficiency.

Featuring advanced separators, corrosion resistant terminals, and a sealed maintenance-free design, the Seamaster battery minimises the risks associated with acid leaks, spills, and terminal corrosion. The battery’s low self-discharge rate allows it to retain charge for extended periods, even during off-season storage, ensuring it is always ready to perform when needed.

MAINTENANCE-FREE AND ENVIRONMENTALLY RESPONSIBLE

The Supercharge Seamaster battery’s sealed lead acid construction eliminates the need for regular maintenance, such as topping up with distilled water, simplifying usage and reducing the need for routine checks. This maintenance-free design not only offers convenience but also enhances safety by preventing acid leaks and the release of harmful fumes. The Seamaster battery’s sealed design ensures clean operation, making it suitable for confined spaces, including engine compartments and interior storage areas in boats.

From an environmental standpoint, the Supercharge Seamaster battery is a responsible choice. It is fully recyclable, and the manufacturer supports lead recycling initiatives that help reduce the environmental impact of battery disposal. This commitment to sustainability aligns with global standards for environmentally friendly manufacturing, making the Seamaster battery a smart choice for eco-conscious users.

VERSATILITY FOR DIVERSE APPLICATIONS

The Supercharge Seamaster battery’s versatility is a key feature that sets it apart in the market. It is designed to provide reliable power for various applications, including starting and semi-deep cycling. Whether you need a reliable start every time or require a steady power flow for extended periods, the Seamaster battery can adapt to your needs. It’s perfect for powering trolling motors and navigation systems, thus making it an invaluable asset for any marine activity.

The Supercharge Seamaster battery offers unparalleled performance, durability, and eco friendliness, making it the ultimate power solution for marine applications. Its advanced technology ensures consistent, reliable power in the most demanding conditions. At the same time, its maintenance-free and environmentally responsible design makes it an excellent choice for users who value convenience and sustainability. Trust the Supercharge Seamaster battery to deliver the power you need to keep your adventures strong.

With its exceptional reliability, durability, and advanced technology, the Seamaster battery is designed to meet the high demands of marine enthusiasts, making it the ultimate power solution for marine applications.

www.supercharge.com.au/find-a-dealer

Published in print January-March 2025