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BAS | Cooling Source and HVAC Control System

Supports control capability, equipment linkage, and system coordination in complex environments.

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A professional control module for cooling source and HVAC systems, responsible for equipment linkage, operating strategy optimization, and closed-loop control execution.

DIPUONE BAS Cooling Source and HVAC Control System is built for data center cooling and HVAC environments. It collects status data, executes control logic, and coordinates linkage for chillers, pumps, cooling towers, valves, CDUs, precision air conditioners, and other critical equipment. Based on DIPU long-term cooling process know-how, control logic libraries, and project experience, the system covers traditional water cooling, air cooling, cold-plate liquid cooling, CDU, and other cooling scenarios, supporting high-reliability cooling system operation and energy efficiency optimization.

A professional control module for cooling source and HVAC systems, responsible for equipment linkage, operating strategy optimization, and closed-loop control execution.
Core Delivery Value

Full visibility of cooling systems

Full visibility of cooling systems

Centralized monitoring and visualization of chiller units, supply and return water piping, cooling towers, pumps, valves, and key operating parameters, including cooling topology, equipment status, operating modes, key values, and fault information to help customers understand cooling system status quickly.

Precise control and linkage execution

Precise control and linkage execution

Control logic libraries, equipment driver libraries, and on-site control strategies enable equipment start/stop, mode switching, fault-based switchover, and system linkage. Depending on project configuration, the system can support active/standby, redundancy, bumpless transfer, and other high-reliability control capabilities.

Energy efficiency optimization and stable operation

Energy efficiency optimization and stable operation

Control strategies are continuously optimized based on load changes, temperature differentials, pressure differentials, flow, and operating status to improve system efficiency and support PUE optimization.

For more information on DIPU's project experience across different application scenarios, please view our featured cases or contact us.