1660263831936 Mattkeennonflorbelacostasaralangbergandbenpipenbergwiththecolliertrophy

NASA’s Mars helicopter receives Collier Trophy

June 16, 2022

From left to right: Matt Keennon, Florbela Costa (maxon), Sara Langberg, Ben Pipenberg, AeroVironment, Inc. Source: NASA & maxon

The Mars helicopter team was awarded the Collier Trophy for being the first aircraft to achieve powered, controlled flight on another planet. NASA’s Ingenuity helicopter flies with electric motors from the Swiss company maxon, a provider of precision drives. The award was presented on June 9 in Washington D.C. by the National Aeronautic Association (NAA)

NASA’s Mars helicopter is the first controlled aircraft in history to be used on a planet other than Earth, laying the way for future airborne exploratory missions to other planets. The pioneer project was developed by a team of engineers, including from NASA’s Jet Propulsion Laboratory (JPL), AeroVironment and maxon. The Robert J. Collier Trophy is awarded by the U.S. National Aeronautic Association (NAA) each year, marking major achievements in the timeline of aviation, including one of the Wright brothers in the 1910s and the Apollo missions to the moon in the late 1960s.

For maxon, the Mars expedition is a special highlight in its space sector experience. Both the Perseverance rover as well as the Ingenuity helicopter are equipped with maxon motors. “It wasn’t easy to meet the incredibly strict requirements of the mission. These successful flights exceeded all our expectations," maxon CEO Eugen Elmiger said.

The helicopter is manufactured by AeroVironment, an unmanned air vehicle (UAV) specialist, under contract from JPL. maxon’s “SpaceLab” engineers have been working closely with their counterparts at AeroVironment. Six precision micro motors (DCX10 S) with a diameter of 10 millimeters were installed to move the swashplates. Swashplates are found on all helicopters and are made to adjust the angle of the rotor blades and thereby to control the helicopter’s flightpath.

It took intense development work for NASA’s Mars missions. For the small helicopter to fly, it takes an incredible engineering effort. The thin air on Mars is comparable to the conditions on Earth at an altitude of 30 kilometers. This means that the helicopter must be extremely light (1.8 kilograms) and can only carry small batteries that must be highly energy-efficient, a requirement that also applies to maxon’s DC motors.

“We’re very proud to have joined the team of AeroVironment and JPL at the Collier Trophy award ceremony and share this great honor," said Florbela Costa, maxon’s SpaceLab project manager. The SpaceLab is an organization within maxon that specializes in developing high-risk new technologies for space missions, as well as supporting the growing commercial space market with high reliability actuators that are suitable for the harsh space environment.  

Sponsored Recommendations

High Sensitivity Accelerometers to Monitor Traffic and Railroad Vibration for Semiconductor Manufacturing

This paper examines highly sensitive piezoelectric sensors for precise vibration measurement which is critical in semiconductor production to prevent quality and yield issues....

Simulation for Automation Guide

How digital twin solutions are expanding the capabilities of plant engineers.

Enhancing HMI Security and Accessibility with Cloud VPN Solutions

Enhance HMI security and remote access with Beijer’s cloud VPN solution. Enjoy advanced encryption, easy setup, and secure access via laptops, smartphones, or tablets. Cut costs...

Motor Encoders: What They Are and How They Work

Motor encoders are rotary encoders adapted to provide information about an electric motor shaft's speed and/or position. Like rotary encoders, motor encoders are most commonly...