AMPHERR PRODUCTS ARE
SAFE.
INNOVATIVE.
LONG-LASTING.
This milestone underscores AMPHERR’s unwavering commitment to delivering safe, reliable, and high-quality battery solutions that meet the industry’s highest standards, particularly in marine applications where environmental sustainability is increasingly essential.
In preparation for this certification, AMPHERR’s High Voltage Battery Packs underwent a series of rigorous tests. As a result of these evaluations and the certification we obtained, it has been proven that our batteries comply with the stringent standards set by Lloyd’s certification body in terms of performance, safety, and reliability. Achieving this certification marks an important step in AMPHERR’s mission to redefine power solutions for a sustainable future in applications for commercial vehicles, construction machinery, ground support, rails, as well as marine.
“Receiving Lloyd certification reflects AMPHERR’s dedication to the highest levels of product excellence and safety,” said Göksel Tetik, CSO & Founder of AMPHERR Battery Technologies. “This certification enables us to make a substantial impact in the marine sector by providing a powerful, reliable battery solution that meets the specific needs of the maritime industry while aligning with environmental goals.”
The Lloyd certification not only validates the performance of AMPHERR’s batteries but also opens up new opportunities for sustainable marine applications. As an essential part of the green transition, AMPHERR Batteries are designed to reduce harmful emissions in marine environments. By powering hybrid and fully electric marine vessels, these batteries contribute to reduced fuel consumption and lower air and water pollution, making waterways cleaner and enhancing air quality around ports.
With reliable, high voltage battery pack solutions, AMPHERR enables vessel operators to transition to cleaner energy sources, aligning with global efforts to reduce maritime carbon emissions. These batteries help ensure efficient, zero-emission operations in hybrid and electric vessels while maintaining optimal performance and durability in challenging marine conditions.
