maxon motor is on its way to Mars again for NASA’s fifth rover mission. The Swiss drive specialist delivers brushless flat motors to the Jet Propulsion Laboratory, which builds the Mars 2020 rover for NASA.
Sample handling for soil samples
The maxon drives are being used for mission-critical tasks. The plan is for the rover to take dozens of soil samples, seal them in containers, and deposit these in caches on the surface of Mars, where a future mission may retrieve and return them to Earth. Nine brushless DC electric (BLDC) motors from Switzerland are responsible for the rover’s sample handling.
The drives can be found in the sample caching system, including the end effector (a sample tube holder). The sample handling arm moves the sample containers from station to station within the sampling system. Additional motors are used to assist with obtaining the samples and seal the containers.
For this project, maxon motor uses brushless flat motors from the standard range — EC 32 flat and EC 20 flat combined with a GP 22 HD planetary gearhead.
However, the drives have been modified specifically for the mission. They need to survive a dynamic entry, descent, and landing sequence, as well as the harsh daily conditions on Mars, with sandstorms and temperatures ranging from -130 to +70 degrees Celsius.
From the outside, the Mars 2020 rover looks similar to its predecessor Curiosity, which is still operating on Mars. The upcoming mission will have several new instruments on board that will deliver unique new data for scientists.
A key mission goal will be to search the environment for biosignatures. Another instrument on board will test whether it is possible to generate oxygen from the atmosphere as a precursor for future human visits. However, the most significant innovation is the capability to take rock samples in several locations and prepare them for return to Earth.
maxon motor is a critical part of several current Mars missions
Currently, maxon motor is involved in several projects destined for Mars. NASA’s InSight Lander is scheduled to fly to the red planet in 2018 to measure its seismic activities and temperature. A maxon DC motor will power the mole that hammers the measuring sensor into the ground.
Two years later, both NASA and the European Space Agency (ESA) will send rovers to Mars. More than 50 maxon drives are installed in ESA’s ExoMars vehicle, including some complex actuator systems that were assembled in maxon’s high-tech manufacturing facilities. These actuators provide the main drive and steering systems for the vehicle.
Additional precision motors are used in the drill head, the onboard laboratory, and the camera mast.
Editor’s note: This article is a special sponsored submission by maxon motor ag and appears in driven: The maxon motor magazine.
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