Summary The increasing demand for data centers worldwide has led to a surge in energy consumption. Cooling systems account for 37% of the energy they use.1 As data centers strive
In this blog, we will investigate the various factors contributing to efficiency losses in electric motors, shedding light on the challenges faced by traditional motor designs. Understanding the Landscape of
With its PrintStator SaaS and New Industrial OEM Products Division, ECM extends the benefits of PCB Stator technology across the globe. If your business makes or uses electric motors, you’ll
Revolutionizing Motor Design with PCB Stator Technology ECM’s groundbreaking PrintStator CAD and PCB Stator technology are transforming the electric motor design landscape. These innovations allow businesses and motor designers to
In the dynamic landscape of electric motor design, innovation is the driving force. The PCB Stator, an axial flux electric motor topology, has emerged as transformative technology across a variety
In the dynamic landscape of the HVACR (Heating, Ventilation, Air Conditioning, and Refrigeration) industry, Axial Flux Electric Motors have emerged as a transformative force, bringing unprecedented efficiency and sustainability to
Data centers are the backbone of the digital economy, but their growth comes with a challenge: heat. Cooling systems account for 37% of data center energy. Improving the motorized fans
There’s lots of buzz on PCB Stator technology disrupting the electric motor industry. But how exactly does a PCB Stator work? We break it down in this new ECM video
