Honeywell, DENSO Partner to Develop Electric Propulsion Systems for UAM

Honeywell, DENSO Partner to Develop Electric Propulsion Systems for UAM

Mobility provider DENSO and aerospace chief Honeywell are collaborating to develop and manufacture electrical propulsion programs for air taxis and supply automobiles.

Through the alliance, the businesses will draw from their automotive and aerospace backgrounds to ship these programs for the city air mobility (UAM) section, based on a information launch. The firms are in superior discussions with present and potential prospects, and plan to ship flight take a look at configurations within the subsequent 12 months.

The aim is to assist firms present safer, quieter and extra environment friendly transportation in and between cities by way of UAM.

“Mobility wants are altering, and this collaboration represents how DENSO is evolving to satisfy them,” mentioned Jiro Ebihara, a senior govt officer and head of the Electrification Systems Business Group at DENSO Corp., based on the discharge “While we have now dedicated to realize a carbon-neutral society, we nonetheless want to scale back site visitors and supply eco-friendly motion in population-dense areas. Working with Honeywell will assist deal with each these points and furthers our aim of making mobility that’s inexperienced and provides peace of thoughts.”

The firms entered an preliminary teaming settlement in 2019. The electrical propulsion programs created will combine with Honeywell’s fly-by-wire, avionics and actuation programs.

“Honeywell applied sciences have helped energy human flight for greater than 100 years, and as electrical propulsion for plane takes form, Honeywell will probably be on the forefront with companions like DENSO,” mentioned Dave Marinick, president, Engines & Power Systems, Honeywell Aerospace, based on the discharge. “DENSO’s management in automotive know-how mixed with our expertise in aerospace will assist result in cleaner and smarter methods for folks to maneuver all through the world.”