Telecommunications

Lightweight woven antenna could replace field-deployed dishes

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Co-creator Asst. Prof. Maria Sakovsky with the bi-stable deployable quadrifilar helix antenna
Andrew Brodhead
The antenna in its satellite (left) and ground crew configurations
Reconfigurable & Active Structures Lab
Co-creator Asst. Prof. Maria Sakovsky with the bi-stable deployable quadrifilar helix antenna
Andrew Brodhead

Ordinarily, in order to establish communications at locations such as disaster sites, rescuers have to transport and set up relatively bulky, costly satellite dishes. Soon, however, a simple tubular antenna made of woven strips of material may get the job done.

Developed by scientists from Stanford University and the American University of Beirut, the prototype device is a form of what's known as a helical antenna. In general, this type of antenna consists of one or more conductive wires wound in a helix (like a corkscrew) around a central support mast.

The new "bi-stable deployable quadrifilar helix antenna" does away with the support, and replaces the wires with strips of a conductive fiber composite material – these are wound together in a helix pattern, to form a hollow cylinder.

Importantly, that cylinder can be pulled out into a long skinny configuration about one foot tall (305 mm), or pushed down to form a ring about one inch tall by five inches across (25 by 127 mm).

In its long state – and when connected to electronics such as a transceiver, ground plane and battery – the antenna emits a low-power signal in all directions, allowing for radio communications with ground-based team members. In its short state, it sends a high-power signal in a specific direction, allowing for satellite communications.

The frequencies utilized in either state are determined by the exact dimensions of each individual antenna.

The antenna in its satellite (left) and ground crew configurations
Reconfigurable & Active Structures Lab

One thing that helps keep setup simple is the device's bi-stable construction. This means that when pulled or pushed by hand, it will automatically pop itself into the desired configuration – so there's no guesswork as to whether or not it's been properly deployed, whether at a disaster site, battlefield, or potentially even in a spacecraft.

"The state-of-the-art solutions typically employed in these areas are heavy, metallic dishes. They’re not easy to move around, they require a lot of power to operate, and they’re not particularly cost-effective," said Stanford's Asst. Prof. Maria Sakovsky. "Our antenna is lightweight, low-power, and can switch between two operating states. It’s able to do more with as little as possible in these areas where communications are lacking."

A paper on the research was recently published in the journal Nature Communications.

Source: Stanford University

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6 comments
Trylon
So basically Chinese finger traps using conductive elements.
Tim
With the imminent release of direct to satellite sms & calls & even data from existing phones, the uses cases for this antenna are shrinking!
SpaceX & AST Space Mobile have been busy signing contracts with many of the world's major telcos.
Adrian Akau
Good article.
Burton
Very interesting! The extended shape of the helix antenna has been extensively used for satellite weather map reception on VHF, due to their omnidirectional pattern (pretty much a hemisphere upon the horizon) since the satellites are LEO and move quickly across the sky. The really interesting part is that the article suggests that the collapsed helix exhibits an upward signal, I have not seen this before. I'm going to run some NEC models and look at this. But congratulations on coming up with a simple mechanical solution for the structure, this is a difficult structure to build simply and practically!
Calcfan
Why not include the frequency of the model shown in the article?
ANTIcarrot
"Ordinarily, in order to establish communications at locations such as disaster sites, rescuers have to plug in a starlink terminal." - Fixed it for you.

Also... Something Something Starlink recently demonstrated sending SMS messages from its satellites to ordinary mobile phones Something.

I suspect this will end up as a neat physics trick that has zero market value.