|Mars Exploration Rover Mission Status
NASA’s Mars Exploration Rover Opportunity is beginning on Thursday what controllers expect to be frequent use of an overnight “deep sleep” mode to conserve energy.
Opportunity has managed only one to two hours of activity on many recent days while it has been examining a stadium-sized impact crater from vantage points around the rim. Shutting down more completely overnight will conserve enough battery charge to add several hours of science operations during the day, according to Jim Erickson, Mars Exploration Rover deputy project manager at NASA’s Jet Propulsion Laboratory, Pasadena, Calif.
There is a calculated tradeoff: an increased risk that, without an overnight heater running, one of the six scientific instruments might be disabled by the cold. The susceptible instrument is Opportunity’s miniature thermal emission spectrometer, called the Mini-TES. It makes infrared observations used for identifying minerals from afar to help the science team decide where to send the rover. Its observations also provide close-up evaluation of rock and soil targets, and thermal information about surface materials and the atmosphere. “The Mini-TES gives us insight into the minerals in rocks and the role of liquid water in their formation, so this choice is a carefully considered decision to weigh the risk of losing this capability against the benefit of continuing and increasing Opportunity’s ability to continue to do science and exploration in the long run,” said Dr. Jim Garvin, lead scientist for Mars and lunar exploration at NASA Headquarters, Washington, D.C.
Both Opportunity and its twin rover, Spirit, have already provided several weeks of bonus operations after successfully completing their primary missions: three months of examining geological evidence about past environments at their landing sites.
As the Mars’ southern-hemisphere winter advances and dust accumulates on the solar panels, the amount of electricity the rovers can generate is decreasing. The decline is more serious for Opportunity because the robotic arm of that rover has a heater with a malfunctioning switch. The switch cannot be turned off. A properly functioning thermostat turns the heater off during the day, but the heater stays on overnight even when it’s not needed. The amount of energy wasted was not enough to hinder Opportunity from succeeding in its primary mission, but is now sapping about one-third of the rover’s diminished amount of solar-generated electricity.
“Deep sleep gives us a way to turn that heater off overnight,” said Opportunity Mission Manager Matt Wallace of JPL. The capability to do so results from a software upgrade transmitted to both rovers in April. The first use of deep sleep, on Opportunity on May 6, verified its benefit to the useful power supply.
Dr. Steve Squyres of Cornell University, Ithaca, N.Y., principal investigator for the rovers’ science instruments, said, “Deep sleep is going to buy us back a huge amount of capability to drive farther, take more pictures, use the arm more.” The deep sleep mode turns off a heater for the miniature thermal emission spectrometer as well as the troublesome heater in the arm. The spectrometer’s heater uses less power but provides important protection. Scientists and engineers decided not to use deep sleep again after May 6 until the spectrometer had completed high-priority observations from two different overlook points of the crater informally named “Endurance.” Those observations were completed Tuesday.
Tests on Earth indicate the spectrometer’s beam splitter, a disc of potassium bromide salt about the size of a four-coin stack of quarters, would become ruined somewhere in the temperature range of minus 50 to minus 60 degrees Celsius (minus 58 to minus 76 degrees Fahrenheit).
Dr. Phil Christensen of Arizona State University, Tempe, lead scientist for the instrument, said, “The thermal models predict that with deep sleep, we’ll go to about minus 48 Celsius. That has me concerned because it’s getting close.” The May 6 deep sleep did no damage, but next time the temperature could go lower, and it probably will drop lower during deep sleep later in the martian winter. Christensen concurs with the decision to take that risk in order for the rover to have adequate power for its other activities. “We always knew that as dust built up and we ran low on power, eventually there would come a time when we couldn’t use the Mini-TES heater,” he said. “We’re getting to that point sooner because of the stuck heater on the arm.”
Meanwhile, engineers and scientists are assessing how well Opportunity would be able to climb out of Endurance Crater. The assessment will aid in deciding whether to send the rover into the crater for up-close examination of rock layers there. Opportunity may complete a circuit around the crater’s rim by mid-June and be ready for a decision about entering the crater.
Spirit, halfway around Mars, resumed normal operations May 23 after engineers diagnosed a software glitch that halted the rover’s activities on May 21. The symptoms resembled a problem seen about a week earlier, where again the computer encountered a conflict between two onboard tasks. However the errors are understood and the two incidents are unrelated. If they recur, neither pose a threat to the rovers’ health. Spirit is now less than 700 meters (0.4 miles) from the base of the “Columbia Hills,” having traveled more than 2.5 kilometers (1.5 miles) since landing. Controllers are optimistic that Spirit will reach the base of the hills by mid-June.
JPL, a division of the California Institute of Technology, manages the Mars Exploration Rover project for NASA’s Office of Space Science, Washington, D.C. Additional information about the project is available from JPL at https://mars.nasa.gov/mer/ and from Cornell University at http://athena.cornell.edu .
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