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In this question and answer pair I see that the ISS can maintain data links to earth through direct access to ground stations as well as through the TDRSS geostationary satellite network.

What kind of antennae are used on the ISS for these links? Are they directional? Do they have to continuously move to maintain a live link - for example in the case of the live streaming HDEV views? I'm wondering if they are phased arrays which can be steered (potentially very quickly) electronically, or a more conventional gimbaled dish, a little like the picture below.

I got excited when I found this image through a google search for space antenna GIFs, but it turns out to be something completely different. (also here)

enter image description here

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The US side of the ISS has a number of antennas to support its rather complicated comm system. Most visible are the two Ku-band High Gain Antennas which are 6 foot diameter azimuth/elevation gimbaled dish antennas mounted on the Z1 truss segment (near the center of the ISS truss). These antennas are sometimes referred to as SGANTs (Space-to-Ground ANTennas).

enter image description here

For most of its life, the ISS only had one SGANT. A second one was carried up on one of the later shuttle missions. This system carries the video and experiment data to the ground and would normally be gimbaling continuously to point at the selected geosynchronous comsat (i.e. TDRS).

You can see one tracking a TDRS satellite in this video (ignore the ammonia venting!)

The S-band system uses S-band Antenna Support Assemblies (SASAs) which contain a conical high gain antenna and an omnidirectional antenna. The SASAs can move in elevation and azimuth as well to point at the TDRS in use. They are located on the S1 and P1 truss sections, near the center of the truss. S-band is used for voice and data communications.

enter image description here

There are also two Ultra High Frequency antennas on the ISS, primarily used to communicate with extravehicular activity crewmembers, formerly used to communicate with the space shuttle orbiter. They are non-gimbaling omni antennas.

My information on the Russian ISS comm system is very limited and possibly outdated but they have (or had) a system analogous to the S-band system called Regul that communicates with Russian ground stations and the former Luch satellite system. There is also a Russian UHF system used for space-to-space comm.

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    $\begingroup$ Very nice! With a Ku band wavelength of the order of 2cm, those SGANTs need to track better than 0.5 degree. If they point at the ground they have to slew up to 1.3 degrees per second, but towards TDRS, about 100x slower. Do you know if they do, or even can access ground stations? You mentioned it in your previous answer but I don't know if you meant the live streaming was sometimes direct to ground, or to TDRS and then ground. $\endgroup$ – uhoh Jun 5 '16 at 12:15
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    $\begingroup$ I am far from an ISS com expert but I'm reasonably sure that the SGANTs have never been used to communicate directly with the ground stations, both for the slew rate reason you mention, and because the TDRSS system pre-dates the ISS, so there would not have been a reason to. Is it possible? I don't know. $\endgroup$ – Organic Marble Jun 5 '16 at 12:18
  • $\begingroup$ OK got it. So in general, streaming data is most likely always (can I say that?) via TDRS. Really nice photo!! The PDF is really helpful (I like the image on page 41, not sure if it's a real photo or just an illustration) - thanks! $\endgroup$ – uhoh Jun 5 '16 at 12:32
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    $\begingroup$ I believe they alternate between the 2 Ku band systems at six month intervals or some such. Also kind of a random comment - there are only 2 TDRSS ground terminals, and they are both in White Sands, New Mexico. $\endgroup$ – Organic Marble Jun 6 '16 at 16:00
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    $\begingroup$ Great clip! I just moved it up in the answer out of the Russian section. $\endgroup$ – Organic Marble May 15 '17 at 19:59

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