NASA Jet Propulsion Laboratory California Institute of Technology JPL HOME EARTH SOLAR SYSTEM STARS & GALAXIES SCIENCE & TECHNOLOGY JPL Email News RSS Mobile Video
Follow this link to skip to the main content
JPL banner - links to JPL and CalTech
left nav graphic Overview Science Technology The Mission People Spotlights Events Multimedia All Mars
Mars for Kids
Mars for Students
Mars for Educators
Mars for Press
+ Mars Home
+ Rovers Home
image link to mission page
image link to summary page
image link to rovers update
Where are they now?
month in review
image link to mission team
image link to launch vehicle
image link to spacecraft
image link to mission timeline page
image link to communications page
Summary
Antennas Size and Strength
Preventing Busy Signals
Navigation
Special Signal Tones
Communication
X-band Radio Waves
How Fast and How Much Data
Communications With Earth

X-band radio waves used by the rovers to communicate

The rovers communicate with the orbiters and the DSN through radio waves. They communicate with each other through X-band, which are radio waves at a much higher frequency than radio waves used for FM stations.

The radio waves to and from the rover are sent through the orbiters using UHF antennas, which are close-range antennas that are like walkie-talkies compared to the long range of the low-gain and high-gain antennas. One UHF antenna is on the rover and one is on the petal of the lander to aid in gaining information during the critical landing event. The Mars Global Surveyor will be in the appropriate location above Mars to track the landing process. (2001 Mars Odyssey will not be in the vicinity.)

When the rovers speak directly to Earth, they send messages via both the low-gain antenna (LGA) and the high-gain antenna (HGA). The low-gain antenna sends and receives information in every direction; that is, it is "omni-directional" and it transmits radio waves at a low rate to the DSN antennas on Earth. The high-gain antenna can send a "beam" of information in a specific direction and it is steerable, so the antenna can move to point itself directly to any antenna on Earth. The benefit of having a steerable antenna is that the entire rover doesn´t necessarily have to change positions to talk to Earth. Like turning your neck to talk to someone beside you rather than turning your entire body, the rover can save energy by moving only the antenna.

During cruise, the Mars Exploration Rover uses both the low-gain antenna (LGA) and a separate medium-gain antenna (MGA), which is used only during cruise. The antennas on the cruise stage leave with it. The medium-gain antenna on the cruise stage has a waveguide (a pipe) to the rover that is not used on the surface. The low-gain antenna on the cruise stage connects directly to the low-gain antenna on the backshell, which in turn connects to the low-gain antenna on the rover, in a Russian doll sort of design.

USA.gov
PRIVACY    |     FAQ    |     SITEMAP    |     CREDITS