Winline Technology recently introduced a suite of high-reliability EV charging modules and intelligent energy systems tailored to meet growing demand across North America. The company’s latest suite aims to address the challenges facing the EV charging ecosystem. That includes performance consistency, grid stability, and adaptability in extreme environments.

Liquid-Cooled EV Charging Modules for Harsh Conditions

Winline presented the modules at ACT Expo, where it emphasized liquid-cooled, high-output EV charging modules engineered for heat resistance and rugged use cases. The modules unveiled include:

• UXR100060: A 60kW AC/DC power module that maintains full-load output at ambient temperatures up to 50°C. It supports an ultra-wide voltage output range (100–1000V), making it suitable for varied EV platforms.
• LCR100040A: Designed for coastal, mining, and logistics environments, this 40kW module features full liquid cooling, hydroelectric isolation, and high reliability under extreme conditions.
• UXR100040G: A 40kW flagship solution compliant with IEC 61851-23:2023 and EMC Class B standards. It delivers ultra-low standby power consumption, quiet operation, and excellent thermal tolerance.

Support for Smart Grids and Vehicle-to-Grid Technology

With rising interest in Vehicle-to-Grid (V2G) and smart microgrid integration, Winline also debuted three power conversion modules:

• UXC100040: A unidirectional DC/DC module;
• UXC95050B: A bidirectional DC/DC module;
• UXG1K022: A bidirectional AC/DC module.

Compact Design and Global Certification

Winline further showcased its UXR100030G and UXR100030S series. They are 30kW modules built with high conversion efficiency and robust heat dissipation. Their compact, fully potted design ensures both durability and thermal stability.

All showcased modules have earned international certifications, including CE, CB, UKCA, and UL, Winline said.

The post Winline Technology Unveils High-Efficiency EV Charging Modules appeared first on The Buzz – Electric Vehicle News.

Read the full article here