Integrating battery-backed EV charging stations allows utilities to enhance infrastructure, meet surging EV demand, and lead the transition to a sustainable energy future, while staying at the forefront of innovation and supporting a resilient grid.
jule vs direct-to-grid Ev Charging infrastructure
By utilizing our Battery Energy Storage System (BESS), utilities can improve load management and predict patterns, minimizing grid input and demand charges. This ensures reliable, optimized charging and reduces the need for infrastructure upgrades.
The system seamlessly integrates renewable resources, storing clean energy for EV chargers and the BESS, ensuring continuous and efficient operation. With backup power for emergencies, it enhances convenience and reliability, optimizing grid performance.
The BESS is designed with modular components and advanced power electronics. Allowing for increased charger output as EV demand grows, optimizing power delivery across multiple chargers for efficient, flexible charging.
seamless integration
Simplifying power conversion steps to minimize power loss.
Factory-integrated DERS and EV charging with integrated microgrid control with a single gateway for grid interfacing.
Functions as a unified grid device to eliminate AC-coupling design challenges for utilities.
Maintains consistent DC circuit insulation across the system to mitigate electrical risks.
Direct DC connection of solar panels to batteries and EVFC enables off-grid capability.
AN INTEGRATED SOLUTION TO SEAMLESSLY SCALE UP AND OUT ALL WHILE MINIMIZING OPEX & CAPEX
Advanced energy storage with high-power cells, proactive fire suppression, and proprietary battery management.
Power electronics featuring flexible input, high output density, and real-time power management for instant response to grid events.
A fully digitized network with AI, machine learning, and a comprehensive management interface for efficient energy control and grid compliance.
