Post by TTK

🚀 The shift to liquid cooling in data centers is well underway — driven primarily by the thermal requirements of AI and HPC workloads. A rack running AI GPUs draws over 80 kW*⚡, compared to 5–10 kW for a standard air-cooled rack — generating heat that air cooling cannot efficiently remove. 🔥8× more heat from AI GPU racks vs standard servers 📊 2× liquid cooling market expected to more than double by 2030 Direct-to-chip (D2C) cooling addresses this by circulating coolant directly through cold plates on processors. It is efficient — but it also means that coolant💧is now centimeters away from the most critical components in the rack. In these environments, a leak at a quick-connect fitting🔩, a manifold, or a flexible hose needs to be detected at rack level, not when it reaches the floor. That is the context in which we designed the FG-DLC — a point sensor specifically built for conductive coolants in D2C installations. FG-DLC — Smart Point Sensor for Liquid Cooling 🎯Detects leaks within seconds, precisely at quick disconnects, cold plates and manifolds 💦 Detect all conductive coolants including PG25 🔲In-rack and above-rack coverage, inside and outside the server rack 💡High-visibility LED status indicator, with faults instantly reported to the FG-NET digital monitoring panel 🔌Native integration with BMS and DCIM systems via MODBUS protocol To know more about how FG-DLC is used in D2C application, read here: 👉 https://lnkd.in/eH844_8a As liquid cooling becomes standard infrastructure for high-density environments, having detection at the right level — server and rack — is part of sound facility design. 💬 How is your organisation approaching leak risk as you scale liquid-cooled capacity? 👇Contact our teams to discuss specific installation configurations. https://lnkd.in/e5EwmhwS *source: 80 kW figure based on NVIDIA H100 TDP specs and typical 8-GPU rack configurations #TTKLeakDetection #TTK #DataCenter #LiquidCooling #DirectToChip #LeakDetection #CriticalInfrastructure