Remotely manage and monitor all energy systems through a centralized interface with our energy management solution.
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Data center power systems are moving from "basic supply" to being visible, controllable, and Optimized. To meet the needs of high-density IT loads, our solution uses a "Sense-Control-Platform" structure. It connects everything from MV/LV power and UPS to busways and server racks. This creates a full data link to help you measure energy use, get early fault warnings, plan capacity, and keep improving energy efficiency. It provides a solid data foundation for your DCIM/iEMS.
Against the backdrop of expanding 5G service scale and continuously rising power consumption at base stations, communication sites must simultaneously meet multi-dimensional requirements such as "sub-item metering, differentiated backup power strategies, device-level power on/off control, generator/mains switching, and air conditioning & battery supervision". Based on an "integrated AC + DC intelligent power distribution" architecture, this solution aggregates site energy usage and operational status into a management platform via modular metering and control components (AC metering/control, DC metering/control, communication gateway). It enables refined energy consumption management and control, remote operation and maintenance (O&M), and energy-saving optimization at both site and device levels, supporting large-scale deployment and standardized O&M.
Under the goals of "Dual Carbon" targets and the digital transformation of energy, building and campus energy consumption is evolving from traditional power supply to an intelligent, perceptible, analyzable, and optimizable system. Facing challenges like diverse load types, complex operating conditions, and the need for refined management, traditional power distribution systems can no longer support modern energy management models. Building on established medium and low-voltage (MV/LV) distribution architectures and digital technologies, this solution creates a smart power distribution system for commercial and industrial scenarios. It achieves end-to-end visibility and control, from the medium-voltage incoming line and low-voltage distribution down to the final loads. By combining a standardized hardware architecture with digital monitoring capabilities, the system effectively improves power supply reliability, operational transparency, and energy efficiency management. It provides a stable, safe, and sustainably evolvable energy foundation for smart campuses, commercial complexes, and various public buildings.
In today's environment, where distributed energy resources, storage systems, and electrical loads are increasingly interconnected, traditional power distribution systems for homes and small businesses struggle to meet demands for detailed energy management, reliable backup power, and user-driven control. HEMS addresses this with its core principle of "Circuit-Level Monitoring + Strategic Control + Platform-Based Management." Through the coordinated operation of smart power distribution and the backup power execution unit (Backup Box), it delivers clear visibility into energy usage, schedulable loads, and orchestrated backup power. This creates a secure, controllable, and future-ready smart energy foundation for residential and light commercial applications.
In unattended scenarios such as communication equipment rooms, edge cabinets, distributed sites, underground facilities, and remote terminals, if a power system trips due to an instantaneous fault, it typically requires manual on-site intervention for recovery. This leads to long response times, high costs, and the risk of prolonged power outages for critical equipment. This solution is based on terminal circuit breaker auto-reclosing and circuit-level control technologies. Within strict safety boundaries, it enables automatic recovery from transient faults and reliable lockout for persistent faults. This endows terminal power distribution systems with basic autonomous capabilities, significantly reducing reliance on manual intervention and improving power supply reliability in unattended environments.
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