This Inside-Out Motor for EVs Is Power Dense and (Finally) Practical

Belgian startup Magnax has found a way to mass-produce the axial-flux motor

10 min read
Illustration of Magnax machine vs a radial-flux machine.
Image: Magnax

The world is electrifying fast. Manufacturing processes, cars, trucks, motorcycles, and now airplanes are making the move to electrons that Edison predicted more than a century ago. And they are all doing so for much the same reasons: quieter operation, reduced maintenance requirements, better performance and efficiency, and a more flexible use of energy sources.

At the heart of this great process of electrification stands the electric machine, filling either the role of a generator, for turning mechanical energy into electricity, or that of a motor, for doing the opposite.

Keep reading... Show less

Stay ahead of the latest trends in technology. Become an IEEE member.

This article is for IEEE members only. Join the world’s largest professional organization devoted to engineering and applied sciences and get access to all of Spectrum’s articles, podcasts, and special reports. Learn more →

Membership includes:

  • Get unlimited access to IEEE Spectrum content
  • Follow your favorite topics to create a personalized feed of IEEE Spectrum content
  • Save Spectrum articles to read later
  • Network with other technology professionals
  • Establish a professional profile
  • Create a group to share and collaborate on projects
  • Discover IEEE events and activities
  • Join and participate in discussions

Before Ships Used GPS, There was the Fresnel Lens

This bright idea revolutionized lighthouses and saved lives

3 min read
 A Fresnel lens at the Seguin Island Light Station in Maine.

The Fresnel lens used in the Seguin Island Light Station in Georgetown, Maine.

Edwin Remsberg/AP

Ships today use satellite-based radio navigation, GPS, and other tools to prevent accidents. But back at the beginning of the 19th century, lighthouses guided ships away from rocky shores using an oil lamp placed between a concave mirror and a glass lens to produce a beam of light.

The mirrors were not very effective, though, and the lenses were murky. The light was difficult to see from a distance on a clear night, let alone in heavy fog or a storm.

Keep Reading ↓ Show less

Researchers Develop Smaller Photonic Topological Insulator

A novel device covers a wider range of frequencies and could boost 5G, radar, and quantum computers

3 min read
Illustration shows a gold surface marked to show non-overlapping clock generator 12.5% duty cycle clocks and to the left 2GHz cock input. Rising from 4 sections each containing 4 triangles are 12 cylinders .

Conceptual diagram of the Floquet TI implemented in a 45 nm silicon-on-insulator CMOS process.

CUNY/Nature Electronics

Novel devices known as photonic topological electromagnetic circuits may one day support 5G wireless broadband networks and advanced radar systems, a new study finds.

Topology is the branch of mathematics that explores what features of shapes may survive deformation. For instance, an object shaped like a doughnut can be deformed into the shape of a mug, so that the doughnut’s hole forms the hole in the cup’s handle. However, the object couldn’t lose its hole without changing into a fundamentally different shape.

Keep Reading ↓ Show less

Bridge the Gaps in Your ADAS Test Strategy

Full-scene emulation in the lab is key to developing robust radar sensors and algorithms needed to realize ADAS capabilities

1 min read
Keysight
Keysight

Achieving the next level in vehicle autonomy demands robust algorithms trained to interpret radar reflections from automotive radar sensors. Overcome the gaps between software simulation and roadway testing to train the ADAS / AV algorithms with real-world conditions. Sharpen your ADAS' radar vision with full-scene emulation that allows you to lab test complex real-world scenario, while emulating up to 512 objects at distances as close as 1.5 meters.

Get this free whitepaper now!