THE RED DOT JURY RECOGNISED KEOR FLEX FOR ITS RELIABILITY, EFFICIENCY AND INNOVATIVE USER- CENTRIC DESIGN. power profile without sacrificing runtime or thermal headroom. Enhanced co-ordination between the inverter, charger and BMS will ensure faster energy recovery and optimal cell utilisation, crucial for AI environments that operate continuously at high partial loads.
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THE RED DOT JURY RECOGNISED KEOR FLEX FOR ITS RELIABILITY, EFFICIENCY AND INNOVATIVE USER- CENTRIC DESIGN. power profile without sacrificing runtime or thermal headroom. Enhanced co-ordination between the inverter, charger and BMS will ensure faster energy recovery and optimal cell utilisation, crucial for AI environments that operate continuously at high partial loads.
As AI / ML workloads and Edge computing increase power demands, what continuous evolution will the Keor FLEX platform require to sustain its power density leadership over the next five years?
The acceleration of Artificial Intelligence and Machine Learning has transformed power behaviour inside data centres. GPU-driven workloads now create steep and unpredictable load steps – sometimes reaching 150 % of nominal capacity for brief cycles – that challenge conventional UPS systems. To sustain its leadership, Keor FLEX is evolving beyond static efficiency toward dynamic adaptability, ensuring stability even under the most transient AI loads.
Keor FLEX refines its digital control loop with ultra-fast response algorithms that shorten reaction times to a few milliseconds, maintaining voltage stability during extreme step loads without reverting to bypass or overstressing batteries. Its power stage, based on a high-frequency SiC topology, will incorporate adaptive current-sharing and real-time vector modulation to manage instantaneous load swings while keeping harmonic distortion and switching losses to a minimum.
At the same time, the platform’ s battery interface will advance to support higher- C-rate lithium-ion chemistries and hybrid storage architectures. Intelligent DCbus management will allow the UPS to momentarily buffer peak loads, smoothing
Thermally, Keor FLEX will adopt improved airflow channelling and high-conductivity heat sinks to sustain higher power density within the same frame. These refinements, combined with embedded sensors for real-time thermal mapping, will allow the UPS to operate safely in denser spaces where ambient conditions fluctuate.
Finally, the firmware enables continuous feedback between the hardware and intelligent control logic, ensuring that Keor FLEX not only meets the energy demands of AI-centric facilities but actively optimises them – delivering stable power, faster transient response and measurable sustainability gains across the evolving data centre landscape. �
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