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Science Instrument of Mars 2020 Perseverance Rover

MOXIE of the Mars 2020 Perseverance Rover – part 3

The Perseverance Mars Rover‘s MOXIE runs the oxygen-making experiments autonomously and there are two challenges it is facing.

The first challenge is from the harsh Martian environment. The temperature can fluctuate for over 65 Celsius or 150 Fahrenheit during day and night, and it is yet to find out how the Perseverance Mars Rover‘s MOXIE will react to this abrupt temperature change. Moreover, in every Winter, around 30% of the Martian atmosphere vanishes and the temperature is so low that carbon dioxide solidifies and drops to the Martian surface. Ideally, the Perseverance Mars Rover‘s MOXIE should be able to operate at all times without stopping since it is designed to produce oxygen for human survival. Therefore, the record for how the Perseverance Mars Rover‘s MOXIE will respond to Mars’ harsh environmental condition will be extremely valuable data for MOXIE’s developers and researchers, so that the future MOXIE can be designed to work smoothly no matter the environmental changes. The Perseverance Mars Rover‘s MOXIE is planned to run 10 times totally during the mission under as many different conditions as possible. Our 1:2 Mars Rover Replica may or may not replicate the MOXIE instrument. If we do replicate it, it will not be able to make oxygen, and will not produce that much heat. But we may design it so that it will make the motor running sound effects.

If you are interested in our 1:2 Mars Rover Replic, you may check [1:2 Perseverance Mars Rover Replica Design and Building Diary].

The second challenge the Perseverance Mars Rover‘s MOXIE instrument faces is the byproduct generated. Theoretically, the carbon dioxide will be split into oxygen and carbon monoxide. However, scientists are still researching how to properly run the Perseverance Mars Rover‘s MOXIE instrument. If operating it too gently, the carbon dioxide will just go through the instrument and not produce enough oxygen so the oxygen conversion rate will be very low. But if operating it too heavily, not only will you get carbon monoxide, but also there will be some single carbon atoms. For now, the unwanted solid carbon is cleaned manually to avoid it from blocking the normal operation.

In the future, if humans can set foot on Mars, a much larger version of the Perseverance Mars Rover‘s MOXIE will need to make around 30,000 kg, or 66,000 lbs of oxygen to support a trip home from Mars to Earth. If the Perseverance Mars Rover‘s MOXIE is successful, this means it will save 4 to 5 trips from Earth to Mars for transferring that much liquid oxygen.

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Science Instrument of Mars 2020 Perseverance Rover

PIXL of the Mars 2020 Perseverance Rover Part 2

The Mars 2020 Perseverance Rover’s PIXL’s sensor assembly is a white box connected to the turret of the Mars 2020 Perseverance Rover’s robotic arm by 6 legs that are grouped in three pairs. The sensor assembly consists of the instrument to fire and detect X-ray, to take photos, and to measure how the target is from the Mars 2020 Perseverance Rover. Inside of the Mars 2020 Perseverance Rover’s PIXL’s sensor assembly, there is a Micro-Context Camera or MCC, There are a ring of LEDs on the Mars 2020 Perseverance Rover’s PIXL’s sensor assembly, called the Flood Light Illuminators (FLI), which helps with illuminating the target area for the MCC at night. There is another device called structured light illuminators (SLI) which helps with the measuring by projecting arrays of laser dots onto the target. So the MCC only takes context photos, but also takes photos of the laser dot arrays from the SLI). Although the PIXL assembly of our 1:2 Perseverance Mars Rover replica does not have the X-ray, micro-context camera, or the measuring feature, we will replicate their appearance structure. 

The Mars 2020 Perseverance Rover’s PIXL’s body unit electronics (BUE) has a weight of 3 kg or 6.6 lbs, and the base has a length of 1.41 m or 55 inches, and a width of 1m, or 39 inches. The Mars 2020 Perseverance Rover’s PIXL’s BUE is not located in the sensor assembly on the turret, but instead, the BUE is inside of the Mars 2020 Perseverance Rover’s body. The BUE is connected with the sensor assembly by a cable and connector combination which in total has a length of 1.91 meters. The Mars 2020 Perseverance Rover’s PIXL’s BUE is made of aluminum 6061 and inside of the BUE are the main electronic controls: the power board, the interface board, the control board, and the analog board. The Mars 2020 Perseverance Rover’s PIXL’s BUE is a sophisticated structure, but since it is inside of the rover’s body, you cannot really see it unless you open up the rover’s body. Therefore, we might replicate the BUE after the parts on our Perseverance Mars Rover Replica you can see are replicated, and again, our Perseverance Mars Rover Replica‘s PIXL’s BUE will have functions that the real Mars 2020 Perseverance Rover has, but only the appearance structure. 

The Mars 2020 Perseverance Rover’s PIXL’s calibration target has two purposes. The first purpose is to calibrate the X-ray subsystem, and the second purpose is to help with the physical alignment of the X-ray beam – MCC and SLI. The dimension of the Mars 2020 Perseverance Rover’s PIXL’s calibration target is 39mm (1.53 inches) by 30mm (1.18 inches) by 8mm (0.31 inches) and has a weight of 10g or 0.35oz. The Mars 2020 Perseverance Rover’s PIXL’s calibration target has the following 6 features:

  1. A disk of PTFE (polytetrafluoroethylene) for making sure the stability of the X-ray source spectrum and X-ray detection.
  2. A USGS (United States Geological Survey) basaltic standard BHVO-2 in glass form. It was made by melting and rapidly quenching power BHVO-2, and this was happening in a platinum boat.
  3. A NIST-610 glass disk. NIST is short for the National Institute of Standards and Technology).
    4. A mineral scapolite disk which was epoxied on The Mars 2020 Perseverance Rover’s PIXL’s calibration target by the PIXL team.
  4.  A glass disk in the center of the Mars 2020 Perseverance Rover’s PIXL’s calibration target. It has a metal cross on top where one line is a chromium and the other line is nickel. It is for calibrating the location of the X-ray beam and the SLI laser beams.
  5. Black dots which are distributed randomly on the Mars 2020 Perseverance Rover’s PIXL’s calibration target plates, where the top plate is 5mm (0.2 inches) higher than the lower plate. The dots are for calibrating the Mars 2020 Perseverance Rover’s PIXL’s sensor head location.

Our 1:2 Perseverance Mars Rover replica will also replicate this calibration target but most likely not with the materials that the real Mars 2020 Perseverance Rover’s PIXL’s calibration target uses. We will utilize what we can get our hands on and definitely will replicate the appearance structure like the real one. But naturally, since our Perseverance Mars Rover replica‘s PIXL does not work like the real PIXL, it will not need to calibrate. 

The Mars 2020 Perseverance Rover’s PIXL will collect a huge amount of information and the operating hours often will go up to 16 hours. Therefore, the Mars 2020 Perseverance Rover’s PIXL also has to work at night when the Mars 2020 Perseverance Rover is resting. Although our Mars Rover replica does not process any data or information, you can use whenever you like with the remote,