Description
Optimized Refrigeration System
Engineered for Extreme Heat: Optimized for high-ambient climates, delivering continuous and ultra-reliable climate control at ambient temperatures up to 55°C.
Eco-Friendly R134a System: Driven by green R134a refrigerant, guaranteeing zero Ozone Depletion Potential (ODP) and minimized Global Warming Potential (GWP).
Enhanced Lifespan & Safety: Low-pressure refrigerant design directly mitigates system mechanical stress, reducing leak risks while ensuring maximum uptime.
Green Energy Efficiency
Premium Tier-1 Components: Built exclusively with top-tier hardware from industry-leading global brands to guarantee maximum system uptime and rock-solid reliability.
Smart Precision Control: Integrating advanced inverter compressors and EC fans with automated intelligence for dynamic, ultra-precise temperature regulation.
Optimized Airflow Dynamics: Engineered for seamless compatibility with hot and cold aisle containment setups to maximize cooling efficiency across the server room.
Sustainable Green Cooling: Utilizes eco-conscious R134a refrigerant, delivering high-performance thermal management with zero Ozone Depletion Potential (ODP).
Advanced Controller with Smart Function
Insightful Sensor Data
Data-Rich Sensor Array: Deep refrigeration diagnostics powered by a comprehensive sensor network, capturing complete system analytics.
Seamless Remote Support: Troubleshoot and debug effortlessly from afar, delivering rapid, high-confidence customer technical support.
Gauge-Free Maintenance: Digital pressure tracking eliminates the need to carry physical pressure gauges during installation or servicing.
Predictive Lifecycle Analytics: Full-perspective system data streams enable deep architectural insight and advanced technical performance analysis.
Builtin Teamwork Function
Integrated Teamwork Logic: Native group-control architecture seamlessly supports master/standby switching and automated, scheduled rotation management.
Flexible Scaling Capacity: Clusters up to 8 units as standard configuration, with bespoke scalability customizing up to 200 units for large-scale data centers.
Plug-and-Play Networking: Direct interconnection via standard RJ45 ethernet cables, eliminating the need for expensive external hardware or gateways.
Coordinated Master Control: Synchronized operation mode ensuring all secondary modules precisely mirror and execute the primary master unit’s cooling logic.
Rich Remote Access Portal
Browser-Based Remote Access: Native built-in web server allows for seamless remote management and real-time configuration directly via any standard browser.
Standard Industrial Protocol: Equipped with integrated Modbus-RTU connectivity by default, ensuring effortless compatibility with existing building management systems.
Extensive Monitoring Options: Scalable architecture with optional support for SNMP, Email alerts, Modbus-TCP, BACnet, and IPv6 to deliver flexible multi-platform remote monitoring.
Key Components
Inverter Compressor
Dynamic output adjustment ranging from 30% to 100% to perfectly match real-time heat loads.
Modulating variable-speed technology eliminates frequent cycling, ensuring stable operation and prolonged component life.
Smart working mode prevents severe start-up inrush current, protecting the data center power grid.
Utilizes sustainable R134a refrigerant, delivering high-performance climate control with zero Ozone Depletion Potential (ODP).
EC Fans
Features a best-in-class structural design to guarantee maximum operational stability and industrial-grade longevity.
Driven by a top-tier EC fan system that maximizes energy savings while delivering peak aerodynamic performance.
Supports precise 0% to 100% variable-speed adjustment to seamlessly match fluctuating airflow demands.
Beltless direct-drive engineering eliminates wear-and-tear components, ensuring easier servicing and hassle-free replacement.
Robust static pressure capabilities offer ultimate flexibility, adapting effortlessly to specialized or demanding application layouts.
Electronic Expansion Valve
Dynamically modulates chemical flow in real-time to precisely mirror shifting system thermal demands.
Delivers significantly higher energy efficiency ratios during low-temperature seasons compared to traditional TEV setups.
Ensures precise, smooth refrigerant supply during initial compressor activation, drastically boosting operational reliability.
