NASA Contacts Voyager 2 Using Upgraded Deep Space Network Dish

The only radio antenna that can command the 43-year-old spacecraft has been offline since March as it gets new hardware, but work is on track to wrap up in February.

On Oct. 29, mission operators sent a series of commands to NASA’s Voyager 2
for the first time since mid-March. The spacecraft has
been flying solo while the 70-meter-wide (230-foot-wide) radio antenna used to
talk to it has been offline for repairs and upgrades. Voyager 2 returned a
signal confirming it had received the “call” and executed the
commands without issue.

The call to Voyager 2 was a test of new hardware recently
installed on Deep Space Station 43, the only dish in the world that can send
commands to Voyager 2. Located in Canberra, Australia, it is part of NASA’s Deep
Space Network
(DSN), a collection of radio antennas around
the world used primarily to communicate with spacecraft operating beyond the
Moon. Since the dish
went offline
, mission operators have been able to receive
health updates and science data from Voyager 2, but they haven’t been able to
send commands to the far-flung probe, which has traveled billions of miles from
Earth since its 1977 launch.

Among the upgrades to DSS43, as the dish is known, are two
new radio transmitters. One of them, which is used to talk with Voyager 2,
hasn’t been replaced in over 47 years. Engineers have also upgraded heating and
cooling equipment, power supply equipment, and other electronics needed to run
the new transmitters.

The successful call to Voyager 2 is just one indication
that the dish will be back online in February 2021.

“What makes this task unique is that we’re doing work
at all levels of the antenna, from the pedestal at ground level all the way up
to the feedcones at the center of the dish that extend above the rim,” said
Brad Arnold, the DSN project manager at NASA’s Jet Propulsion Lab in Southern
California. “This test communication with Voyager 2 definitely tells us
that things are on track with the work we’re doing.”


The Deep Space Network consist of radio antenna facilities spaced
equally around the globe in Canberra; Goldstone, California; and Madrid, Spain.
The positioning of the three facilities ensures that almost any spacecraft with
a line of sight to Earth can communicate with at least one of the facilities at
any time.

Voyager 2 is the rare exception. In order to make a close
flyby of Neptune’s moon Triton in 1989, the probe flew over the planet’s north
pole. That trajectory deflected it southward relative to the plane of the
planets, and it has been heading in that direction ever since. Now more than 11.6
billion miles (18.8 billion kilometers) from Earth, the spacecraft is so far
south that it doesn’t have a line of sight with radio antennas in the Northern Hemisphere.

Click on this interactive visualization of NASA’s Voyager 2 spacecraft and take it for a spin Launched in 1977, the spacecraft is now more than 11.6 billion miles (18.8 billion kilometers) from Earth. Trace its dramatic history through Eyes on the Solar System. Credit: NASA/JPL-Caltech

DSS43 is the only dish in the Southern Hemisphere that has a
transmitter powerful enough and that broadcasts the right frequency to send
commands to the distant spacecraft. Voyager 2’s faster-moving twin, Voyager 1, took a different path past
Saturn and can communicate via antennas at the two DSN facilities in the
Northern Hemisphere. The antennas must uplink commands to both Voyagers in a radio
frequency range
called S-band, and the antennas downlink data
from the spacecraft in a range called X-band.

While mission operators haven’t been able to command
Voyager 2 since DSS43 went offline, the three 34-meter-wide (111-foot-wide)
radio antennas at the Canberra facility can be used together to capture the
signals that Voyager 2 sends to Earth. The probe is sending back science data
from interstellar
, or the region outside our Sun’s heliosphere – the protective bubble of particles and magnetic fields
created by the Sun that surrounds the planets and the Kuiper Belt (the
collection of small, icy bodies beyond Neptune’s orbit).

DSS43 began operating in 1972 (five years before the launch
of Voyager 2 and Voyager 1) and was only 64 meters (210 feet) wide at the time.
It was expanded to 70 meters (230 feet) in 1987 and has received a variety of
upgrades and repairs since then. But the engineers overseeing the current work
say this is one of the most significant makeovers the dish has received and the
longest it’s been offline in over 30 years.

“The DSS43 antenna is a highly
specialized system; there are only two other similar antennas in the world, so
having the antenna down for one year is not an ideal situation for Voyager or
for many other NASA missions,” said Philip Baldwin, operations manager for
NASA’s Space Communications and Navigation (SCaN) Program. “The agency made the decision to conduct
these upgrades to ensure that the antenna can continue to be used for current
and future missions. For an antenna that is almost 50 years old, it’s better to
be proactive than reactive with critical maintenance.”

The repairs will benefit other missions, including the Mars Perseverance rover,
which will land on the Red Planet Feb. 18, 2021. The network will also play a
critical role in Moon
to Mars
exploration efforts, ensuring communication and navigation
support for both the precursor Moon and Mars missions and the crewed Artemis missions.

The Deep Space Network is managed by JPL for the SCaN Program,
located at NASA Headquarters within the Human Exploration and Operations
Mission Directorate. The Canberra station is managed on NASA’s behalf by
Australia’s national science agency, the Commonwealth Scientific and Industrial
Research Organisation.

The Voyager spacecraft were built by JPL, which continues
to operate both. JPL is a division of Caltech in Pasadena. The Voyager missions
are a part of the NASA Heliophysics System Observatory, sponsored by the
Heliophysics Division of the Science Mission Directorate in Washington. For
more information about the Voyager spacecraft, visit:

News Media Contact

Calla Cofield

Jet Propulsion Laboratory, Pasadena, Calif.



Source: Jet Propulsion Laboratory

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