Vaisala's humidity sensor technology is ready for final testing onboard Nasa's next mission to the red planet
The BAROCAP is a silicon-based micromechanical pressure sensor. It is part of instrumentation used to gather accurate readings of pressure and humidity in the extreme environmental conditions of the Martian atmosphere
Finnish Meteorological Institute (FMI) is delivering pressure and humidity measuring devices based on Vaisala's technology to NASA's Mars 2020 Rover. The pressure measurement devices were finalised earlier this year and now also the humidity measuring instruments are completed and ready for the final testing.
NASA's next mission to Mars will take Vaisala's innovative technology to the surface of the red planet. The devices are provided by Finnish Meteorological Institute as part of Spanish MEDA (Mars Environmental Dynamic Analyzer) device package, which will be installed in the Mars 2020 Rover.
The Rover will also carry Vaisala's newest and advanced pressure and humidity sensors, which have never been used on Mars terrain before.
FMI's MEDA PS and MEDA HS instruments will measure the pressure and humidity of the atmosphere of Mars. The measuring instrumentation is being calibrated and finalised.
Thee devices are tested in Spain with the MEDA package's main computer before handing over to NASA later this year.
The humidity and pressure measurements are in the core of Vaisala. Since the first introduction of HUMICAP almost 50 years ago, Vaisala has become the market leader in relative humidity measurements. The thin-film capacitive humidity sensors have been adopted widely as a global industry standard and beyond.
"Humidity and pressure measurements are Vaisala's bread and butter. Our HUMICAP and BAROCAP sensor technologies are used in numerous applications. At Vaisala we are very proud to be able to contribute also to planetary study on Mars," said Liisa Astrom, Vice President, Products and Systems.
"The sensors' long-term stability and accuracy, as well as their ability to tolerate dust, chemicals, and harsh environmental conditions, makes them suitable for very demanding measurement needs, also on Mars," she concluded.