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ATI Develops Space-Rated Force/Torque Sensor for Mars 2020 Rover
When it comes to space exploration, renowned technological entrepreneur and philanthropist Elon Musk says, "You want to be inspired by things. You want to wake up in the morning and think the future is going to be great - and that’s what being a spacefaring civilization is all about. It’s about believing in the future and thinking that the future will be better than the past. And I can’t think of anything more exciting than going out there and being among the stars.”

The possibility of being better in the future is a driving ambition for many in the technology industry. For ATI Industrial Automation, it's a foundational aspect of their corporate culture and underscores the development of their products. ATI robotic end-effectors appear in a wide variety of applications ranging from extreme temperatures to harsh chemical environments. Their engineering team prides itself on delivering creative solutions to manufacturing and automation challenges, and now faces an opportunity to rise to such an occasion in outer space.

ATI reached out to NASA’s Jet Propulsion Laboratories (JPL) with an offer to develop a custom Force/Torque Sensor for Perseverance, the latest Mars 2020 Rover project. JPL is the leading US research entity for robotic exploration of our solar system and manages NASA’s Deep Space Network, the hardest-working telecommunications system on the planet. The Mars 2020 mission is a collaborative effort undertaken by NASA, JPL, and many other organizations commissioned to develop new technology to explore the surface of Mars.

The purpose of this particular mission, part of NASA’s Mars Exploration Program, is to learn about the red planet from firsthand experience. This project has a full agenda that includes searching for signs of ancient microbial life, categorizing the climate and geology of Mars to help determine the existence of inhabitable conditions, recovering samples from the planet’s surface, and, arguably the most exciting objective of this mission, preparing for human exploration of Mars.

The Perseverance Rover is an unmanned robotic vehicle about the size of a car; during its exploration, it will collect and index small samples of rock and soil from prime locations. Once on-board, sample tubes are cached inside the Rover for eventual return to earth.

It was clear that JPL needed an automated system for collecting and handling space material as well as moving it through the indexing process. To accomplish this, engineers developed the Adaptive Caching Assembly, an application that resembles a pick and place operation commonly found on a factory floor. Actually developing the systems and components that would perform in the Rover mission would be a huge challenge to overcome.

The Sample Caching Subsystem consists of the Adaptive Caching Assembly, a large robotic arm with a drill and an assortment of drill bits used to collect samples from designated areas on the surface of Mars. Once collected, a small robotic arm, known as the Sample Handling Assembly or SHA, inspects and seals the samples in the rover’s on-board laboratory. An ATI Force/Torque (F/T) sensor integrated within the SHA end effector assembly provides enhanced responsiveness. With force sensing from ATI, the SHA is equipped to maneuver easily through the tight workspace, performing demanding tasks with acute accuracy.

This subsystem emulates automated processes found in the agriculture and manufacturing industries, where robots are used to make repetitive operations more precise. ATI’s Force/Torque sensors are often used with robots in these types of applications to enable greater process control and provide process verification, such as indicating that a pin is inserted properly into a fixture.

Certain application settings such as foundries and refineries require unusual environmental considerations for which ATI has developed specialized sensors. However, nothing quite compares to the conditions expected from the Mars 2020 mission; where subzero surface temperatures and rugged terrain are typical. Before landing on Mars, the rover and its subsystems have to survive the initial Atlas 5 rocket launch.

To deliver a robust force sensing solution for the Perseverance project, ATI adapted their Force/Torque Sensor technology to offset the wide range of environmental conditions. The Space-Rated Force/Torque Sensor from ATI boasts a new design that provides signal redundancy and compensates for temperature variation, ensuring accurate resolution of forces and torques throughout the mission. This sensor is thermally calibrated and proven to operate optimally in a spectrum of extreme temperatures. To develop and test these breakthrough features, the ATI engineering team designed specialized calibration equipment and conducted 24-hour surveillance of product trials.

Components made of thermally-stable, low-outgassing materials were added to fortify the sensor against the drastic environmental fluctuations. These materials also prevent cross-contamination of samples during the mission, which is one of the most important considerations of the Mars 2020 Rover project.

After years of development, the highly anticipated Mars 2020 Rover is fully assembled and ready to begin its mission. Perseverance is set to launch in the late summer of 2020 from Cape Canaveral, Florida and will arrive at Mars in February of 2021.

Beyond outer space applications, ATI’s Space-Rated Force/Torque sensor provides active force control for applications where repair opportunities are limited or in situations with high vacuum or extreme temperature variability.

Through this project, ATI developed new technology that will be a part of NASA history and provide robust and reliable force sensing to applications here on earth. The temperature compensation, thermally-stable components, and additional signal redundancy benefit users in industries such as radioactive decommissioning, oil and gas, metal casting and foundries, and other applications where conditions dictate continuous use in extreme environments. ATI looks forward to following Perseverance, the Mars 2020 Rover during its mission and to the innovative new applications that will feature this Space-Rated Force/Torque sensor.

To view more about Perseverance, the Mars 2020 Rover Mission, click here.

Click here to learn more about ATI's Force/Torque Sensors.

Listen to a podcast episode of Robot Nation featuring JPL and ATI.




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From top: JPL and NASA scientists inspect the rover's robotic sub assembly, inspection of the Adaptive Caching Assembly, Adaptive Caching Assembly system layout, ATI's Space-Rated F/T Sensor

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NASA and JPL unveil Perseverance, the Mars 2020 Rover.


 
 
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