PCB Stator Electric Motor Design for Data Center Cooling
This session offers a deep dive into electric motor design to achieve greater efficiency and sustainability targets for data centers.
By 2030, Hyperscale data centers are expected to increase their aggregate power capacity from 142 GW to 289 GW, while the number of Hyperscale data centers is expected to increase from 523 to 738 worldwide. Optimizing copper usage and HVAC efficiency in these facilities will allow data center owners and operators to deliver greater value to their customers by reducing electricity costs and boosting sustainability benefits.
With an estimated 7% of data center electricity used to move air for cooling, efficiency gains in electric motors can drive reductions in copper use, transportation costs, structural costs, and operating costs.
From this context, ECM PCB Stator Tech VP Dan Lisowsky will offer valuable context and insight on the following:
The Future of the Data Center Market
Demand Growth
Electricity in the Data Center
Sustainability Improvements
Disruptive Motor Design
Technology and Innovation
Axial Flux vs. Radial Flux
PCB Stator vs. Copper Wound Stator
Matching Supply with Demand
The case for exact solutions
Impact of regulatory and environmental regulations
PrintStator Advanced Motor CAD Saas Solution