Sikorsky is Designing a New Hybrid Electric Tilt Wing VTOL Demonstrator
Lockheed Martin subsidiary Sikorsky has unveiled its plan to build, test and fly a hybrid-electric vertical takeoff and landing demonstrator (HEX / VTOL) with a tilt-wing configuration.
The design is the first in a series of large, next generation VTOL aircraft — ranging from more traditional helicopters to winged configurations — which will feature varying degrees of electrification, and an advanced autonomy system for optionally piloted flight.
“We never stop innovating at Sikorsky,” said Sikorsky President Paul Lemmo. “Autonomy and electrification will bring transformational change to flight safety and operational efficiency of large VTOL aircraft. Our HEX demonstrator program will provide valuable insights as we look to a future family of aircraft built to the scale and preferred configurations relevant to commercial and military customers.”
The HEX program will put a premium on greater than 500 nautical mile range at high speed, fewer mechanical systems to reduce complexity, and lower maintenance costs.
Sikorsky Innovations, the company’s prototyping group, and GE Aerospace are finalizing designs to build a hybrid-electric power systems testbed with a 600 kilowatt electric motor. The testbed is a first step to evaluate hover performance of the follow-on HEX demonstrator — a 9,000-pound maximum gross weight aircraft with 1.2 megawatt-class turbogenerator and associated power electronics.
“Within Sikorsky’s electric pillar, we are designing electric motors, power electronics and our own vehicle management hardware and actuation,” said Igor Cherepinsky, Sikorsky Innovations Director. “HEX will integrate these components, showcase the growing maturity of our MATRIX™ autonomy suite, and the potential for maintenance-free systems. Seeing the results will lead us to more efficient overall designs.”
Top Stories
INSIDERAerospace
Are Boeing 737 Rudder Control Systems at Risk of Malfunctioning?
NewsPropulsion
Off-Highway Hybrids Are Entering Prime Time
INSIDERDefense
Is the Department of Defense Stockpiling Enough Critical Materials?
INSIDERSensors/Data Acquisition
Designing Next-Generation Carbon Dioxide Removal Technology for Better Life in...
INSIDERRF & Microwave Electronics
Barracuda: Anduril's New Software-Defined Autonomous Air Vehicles
NewsTransportation
Webcasts
RF & Microwave Electronics
The Benefits and Challenges of Enabling Direct-RF Sampling
Test & Measurement
The Testing Equipment You Need to Keep Pace with Evolving EV...
Automotive
Advances in Zinc Die Casting Driving Quality, Performance, and...
Transportation
Fueling the Future: Hydrogen Solutions for Commercial Vehicle...
Aerospace
Maximize Asset Availability in the Aerospace and Defense Industry
Aerospace
Similar Stories
Application BriefsPower
INSIDERPropulsion
Hydraulic Propulsion an Alternative to Drone Batteries
INSIDERAerospace
Morphing Wings Make Jets More Efficient
INSIDERPower
Collins Aerospace Completes Preliminary Design of 1MW Electric Motor
INSIDERManufacturing & Prototyping
These Four Companies Will Build DARPA High-Speed VTOL X-Plane Prototypes
INSIDEREnergy
Raytheon Completes First Engine Run of Hybrid-Electric Flight Demonstrator