High-performance charging stations built for commercial, residential, and off-grid utility applications.
Why TUV Mark approval is the ultimate industry standard for EVSE safety, efficiency, and international compliance.
TUV approval guarantees compliance with IEC 61851 and IEC 62196. Standardized testing evaluates insulation resistance, dielectric strength, and thermal runaway prevention, ensuring risk-free operation in commercial and industrial deployment environments.
TUV certifies that charging hardware complies with strict Electromagnetic Compatibility (EMC) guidelines. This prevents localized grid disturbances, electrical noise interference, and harmonic distortions that could compromise smart grids.
TUV-certified EV chargers are designed to withstand extreme environments, utilizing certified IP54 and IP65 enclosures. Systems are rigorously tested under conditions of heavy precipitation, dust entry, and saline humidity.
For international fleet operators, municipalities, and charging networks, procurement goes beyond simple unit costs. Key requirements include Risk Mitigation, Total Cost of Ownership (TCO) predictability, modular hardware scalability, and interoperability.
Our infrastructure products conform to ISO 15118 (Plug & Charge) and OCPP 1.6J/2.0.1 protocols. This software-hardware decoupling gives global procurement managers the freedom to select SaaS management platforms while retaining hardware investments.
Operating a Factory 4.0 infrastructure, we deliver complete reliability and manufacturing speed. By integrating Automated Optical Inspection (AOI), automated module assembly lines, and end-of-line (EOL) digital simulation chambers, we guarantee consistent manufacturing quality.
Through our technical division, Fonsencharge, we independently develop and manufacture core motherboard PCBs. This level of vertical integration allows us to offer custom board designs, custom branding, and custom communication protocols for OEM and ODM customers worldwide.
Our parent organization has secured certifications including DEKRA CB, CE, ISO9001, and has been recognized as a high-tech enterprise with numerous utility patents, software copyrights, and structural designs.
Tailored charging topologies engineered to address specific localized deployment challenges.
Continuous operational cycles require predictable high-capacity charging. Using our Megawatt High Power systems and V2G-compliant DC chargers, operators can schedule fast charging sequences during driver breaks while feeding power back to the facility during grid demand peaks.
Modern urban grids need responsive charging infrastructure. Our smart-city charging systems feature cloud dashboard integrations, local environmental sensors, and dynamic power distribution that adjusts system output based on regional grid demand.
For areas without direct utility grid access, our 26kWh and 141kWh mobile battery-supported DC charging platforms act as dynamic microgrids. These supply buffer power for remote heavy machinery, logistics routes, and emergency vehicles.
Technical clarifications on safety approvals, interface standards, and system design.
Select the ideal charging configuration for your regional grid standards and utility infrastructure requirements.