Control power transformers: 3 and 5 kVA on its own instrument compartment.
Product Line:
Power Zone 4 Switchgear and QED6 Switchboard
Environment:
Power Products
Cause:
Can be installed additional components no associated to 3kVA or 5kVA transformers and primary and secondary protection in same instrument compartment?
Resolution:
Investigated with UL File - Vol SQ section General, Transformers rated 3000-5000VA shall be mounted in a compartment, otherwise empty, of minimum dimensions 21 by 21 by 15 in. so as long as we can meet that min. space for that application, a compartment may be shared with small components that don't protrude that space.
Released for: Schneider Electric Vietnam
Control power transformers: 3 and 5 kVA on its own instrument compartment.
Product Line:
Power Zone 4 Switchgear and QED6 Switchboard
Environment:
Power Products
Cause:
Can be installed additional components no associated to 3kVA or 5kVA transformers and primary and secondary protection in same instrument compartment?
Resolution:
Investigated with UL File - Vol SQ section General, Transformers rated 3000-5000VA shall be mounted in a compartment, otherwise empty, of minimum dimensions 21 by 21 by 15 in. so as long as we can meet that min. space for that application, a compartment may be shared with small components that don't protrude that space.
Released for: Schneider Electric Vietnam
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1.What is liquid cooling for data centers?
Liquid cooling is a high-efficiency method for data center cooling that uses liquid such as water or dielectric fluids to remove heat from servers and IT equipment. Compared to air cooling, it offers superior thermal performance, enabling high-density computing and energy savings. It’s a core component of modern Liquid Cooling Solutions for both new and existing data centers.
2. Why is liquid cooling important and what are its benefits for data centers?
Liquid cooling is essential for managing the intense heat generated by AI workloads and high-density servers. It enables:
• Greater energy efficiency and reduced cooling costs
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3. What are the main techniques of liquid cooling in data centers?
The two techniques in data center liquid cooling are:
• Direct-to-chip cooling: This method, also known as direct liquid cooling (DLC), circulates coolant directly over heat-generating components like CPUs and GPUs using cold plates. It offers precise thermal control and is ideal for high-performance and AI workloads both in brownfield and greenfield applications.
• Immersion cooling: This technique submerges entire servers in a dielectric fluid, allowing for uniform heat dissipation and minimal reliance on airflow.
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