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I0OJJ  > SPACE    19.01.22 11:47l 184 Lines 8618 Bytes #999 (0) @ WW
BID : 58395I0OJJ
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Subj: [AMSAT-UK] EASAT-2 and HADES Update
Path: IW8PGT<LU4ECL<VK2RZ<I0OJJ
Sent: 220118/2146z @:I0OJJ.ITA.EU [Rome] $:58395I0OJJ

AMSAT-UK

///////////////////////////////////////////
EASAT-2 and HADES Update

Posted: 18 Jan 2022 07:56 AM PST
https://amsat-uk.org/2022/01/18/easat-2-and-hades-update/


AMSAT-EA Mission Manager Felix EA4GQS provides an update on the status of  
the EASAT-2 and HADES satellites launched on January 13.

On the AMSAT Bulletin Board he writes:

We confirm the reception of both EASAT-2 and HADES, as well as the decoding  
of telemetry and the FM recorded voice beacon with the callsign AM5SAT of  
the first one. EASAT-2 appears to be working well except for the deployment  
of the antennas, something that apparently has not yet occurred and causes  
weak signals. However, the AMSAT-EA team confirms that, based on the  
reception of FSK, CW, the FM voice beacon and the telemetry data that has  
been decoded, it can be said that the satellite is working perfectly. In  
the event of low battery or system malfunction, the on-board computer would  
not transmit CW messages or the voice beacon-callsign, as it would be in a  
safe state with only fast and slow telemetry transmissions.

These signals that have been able to confirm the operation of both  
satellites were received by Dr. Daniel Estévez EA4GPZ at 18:07 UTC on  
Saturday, January 15, using two antennas from the Allen Telescope Array.  
The TLEs used were obtained from the radio amateur community, with Doppler  
observations from the Delfi-PQ satellite, deployed together with EASAT-2  
and Hades.

TLEs used were these ones:

https://github.com/AMSAT-EA/easat2-tle-lottery/blob/main/satnogs-2022-01-16-DELFI-PQ.tle

Daniel EA4GPZ performed a preliminary analysis using just one polarization  
of one of the satellite dishes. EASAT-2 has been detected with a relatively  
strong signal, close to the Delfi-PQ signal, obtaining said recorded voice  
FM beacon transmissions and FSK, FSK-CW at 50 baud.

The CW beacon clearly shows the message: VVV AM5SAT SOL Y PLAYA, which is  
one of several that both satellites emit, although the callsign AM5SAT  
confirms that it is EASAT-2.

In the recording made by Daniel EA4GPZ there is also a faint trace  
confirmed to be from Hades and stronger packets probably from the IRIS-A  
satellite.

HADES, like EASAT-2, is transmitting weak signals, weaker than the ones of  
EASAT-2, most likely because the on-board computer has not yet managed to  
deploy the antennas either, although it will continue trying regularly. The  
reason the signals are suspected to be weaker at Hades is that the antennas  
are more tightly folded than those of EASAT-2. In any case, this is great  
news, since the transmission pattern confirms the proper functioning of the  
satellite. In the observations you can see the FSK tones with a deviation  
of about 5 kHz interspersed with the FM carrier corresponding to the voice  
beacon of the satellite, which has callsign AM6SAT. The AMSAT-EA team is  
working to try to decode the telemetry signals and obtain more detailed  
information on the state of the satellite.

We kindly ask you, if you have very high gain antennas, to try to receive  
them, specially Hades. If we could decode telemetry it would be very  
helpful for us.

Until antennas are deployed it will be very difficult to use their  
repeaters or to receive any SSTV camera images from Hades, but we hope that  
this will happen sooner or later, at least because even if the computer  
doesnt succeed applying heat to the resistor where the thread is attached,  
with time, the thread should break due to the space environment conditions.

Details of the decoded telemetry and voice, as well as more details in:

https://www.amsat-ea.org/ (Texts are in Spanish)

And in the following Twitter threads:

EASAT-2 transmissions:

https://twitter.com/ea4gpz/status/1482457631566487553

EASAT-2 decodings by Gabriel Otero:

https://twitter.com/gaoterop/status/1482758196037050382

HADES transmissions:

https://twitter.com/ea4gpz/status/1482696274797338625

Thanks a lot and 73,

Felix EA4GQS  AMSAT EA Mission manager


///////////////////////////////////////////
IARU-R1: 23cm Band and RNSS - Compromises need to be found

Posted: 17 Jan 2022 10:48 AM PST
https://amsat-uk.org/2022/01/17/iaru-r1-23cm-band-and-rnss-compromises-need-to-be-found/

RNSS  Credit IARU Region 1

The Chair of IARU Region 1 Spectrum Affairs, Barry Lewis G4SJH, reports on  
the work being done in defending the interests of the Amateur Services in  
the 1240-1300 MHz band.

On the IARU Region 1 site he writes:

As we head into 2022 the ITU‑R and CEPT work considering the 23cm band and  
coexistence with the RNSS systems (GALILEO, COMPASS, GLONASS, GPS…) will  
continue so where have we got to and where is it heading?

The IARU has provided extensive information regarding the amateur and  
amateur satellite service applications in the band 1240 – 1300MHz as well  
as operational characteristics and data indicating the density of active  
transmitting stations and the busiest periods when these are most likely to  
be operational. Using this data, one CEPT administration has provided an  
extensive set of propagation model predictions for a number of amateur  
operating scenario assumptions (including satellite working and EME  
operation) that predict an “interfered area” over which an amateur  
transmissions may be received by a RNSS receiver at levels exceeding a  
defined protection level. Another ITU‑R member administration contributed a  
smaller set of predictions using the same model. The received RNSS  
interference level that the RNSS can tolerate (receiver protection level)  
is based on ITU‑R recommended criteria and depends on whether narrowband or  
wideband interfering signals are being transmitted.

The propagation model predicts that an interfered area can extend out to  
several tens of km (depending on the scenario) but at the extremes of the  
area, the time probability of exceeding the protection level is very low  
(1%) and for only 50% of locations. The model can only assume a full power  
continuous transmission.

In addition much attention has been paid to documenting an interference  
case recorded in Italy between an Italian 23cm band repeater and GALILEO  
receivers at the nearby European Commission Joint Research Centre in Ispra  
where work is undertaken to develop and test GALILEO system applications.  
The impact of traffic through this very local repeater (12.5km distant) on  
three different GALILEO receivers has been documented. This work suggests  
that whilst RNSS receiver bandwidth can have a part to play in enabling  
coexistence, beyond that nothing has been reported that could help develop  
any coexistence criteria. Nothing is reported about the mode of failure in  
the receivers beyond degradation on C/N.

This one case is often cited as the “proof” that interference can occur.

At present the conclusions from this work are being developed (in ITU‑R and  
CEPT) and IARU work continues to ensure these results are put into a real  
world context to understand what they imply with respect to successful  
coexistence.

Amateur transmissions virtually anywhere in the band will be co-frequency  
with the RNSS receivers from one system or another. It is therefore obvious  
that any RNSS receiver will be open to any co-frequency amateur  
transmission and amateur operators have no way of knowing where or when a  
RNSS service user is active. Therefore IARU has expressed a view that for  
successful coexistence guidance to be developed, some compromises will need  
be necessary.

As we move through the work in 2022 we need these compromises will become  
apparent so that the amateur community can know how to respond  
appropriately in a way that can allow our diverse set of applications to  
continue to develop whilst minimising any potential disruption to RNSS  
services. It is anticipated that the international views on the ITU‑R  
studies will need to stabilise by the middle of this this year in order to  
meet the timetable for the WRC-23 preparatory work. These views will likely  
propose technical and operational measures to be applied to the amateur and  
amateur satellite services that could be formalised in the Radio  
Regulations.

As the study activities work towards conclusions it is vital that the  
national societies engage with their national amateur radio regulators to  
ensure they understand and hear about the importance of this band for the  
amateur radio community.

Source IARU-R1

https://www.iaru-r1.org/2022/23cm-band-and-rnss-compromises-need-to-be-found/







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