Tag Archives: CubeSat

Nov 22 2022

FUNcube-1 (AO73) Now celebrating nine years in orbit!

FUNcube-1 (AO73) Battery Voltage Telemetry Nov 21, 2022

FUNcube-1 (AO73) Battery Voltage Telemetry Nov 21, 2022

Another year has passed and FUNcube 1 has continued to operate from its orbit around 600km above the earth. To start with some statistics. The spacecraft creates and downlinks data in frames that run for two minute periods. It has now transmitted more that 16 million of these frames or “Sequence Numbers”. Another big statistic is that more than 10 million data packets have been received by stations that have forwarded them to our Data Warehouse.

You can see the leading ground stations here http://warehouse.funcube.org.uk/ui/fc1-fm/satellite_ranking – special congratulations to those at the top scorers…many of them have individually forwarded more than 1 million packets. Thanks to all contributors around the world. Having this network of ground stations has enabled us to easily monitor the status of the spacecraft easily.

Back here on earth, as mentioned, we have continued to monitor the health of the spacecraft as these illumination levels and spin/tumble rates have changed over the months.

Whilst mentioning big numbers, we are now approaching 48500 orbits and this equates to a distance travelled of 2174091840000000000000000000 fermis since launch. That’s 2.1 ronnafermis. Yes these are genuine SI Units of Measure and are equivalent to 14.16 AU or almost half way to Neptune.

After some time in full sun, the spacecraft is now experiencing “normal” eclipse periods of around 25 minutes each orbit. This will reduce the on board temperatures and may influence the tumble rate which has been between 2 and 5 seconds for some time. The is quite fast and is not helping telemetry reception with our 5 second data frame mentioned above.

The present operational schedule is for high power telemetry when in sunlight and receive only when in eclipse. This seems to suit the EPS quite well and the battery bus voltages have been quite stable.

At least that was correct until early morning on Friday 11th November when the indicated bus voltage appeared to “drop off a cliff” over the period of just four orbits. Further analysis showed that the 3.3V bus consumption had suddenly jumped four times normal. As can be seen by the graph above this problem then disappeared just as suddenly and the bus voltage recovered quite quickly. Investigations are continuing!

Please keep the telemetry reports coming in and let us know if you would like a Fitter message uploaded for any educational or outreach events.

Aug 24 2022

AMSAT-EA satellites to launch

GENESIS-J and GENESIS-G satellites

GENESIS-J and GENESIS-G satellites

Felix EA4GQS reports Spain’s latest amateur radio satellites to launch will be GENESIS-G and GENESIS-J on September 11

The AMSAT Bulletin Board post says:

This is to confirm that the launch of our new GENESIS-G and GENESIS-J satellites with Firefly will take place, if all goes well, on September 11, with the launch window starting at 3 PM Pacific Time (22h GMT), from Vanderberg. The expected orbit altitude is 300 km with an inclination of 137 degrees.

As many of you know, this will be the second attempt of Firefly to reach orbit after the first attempt made in September 2021 and which had to be aborted after two minutes of flight, causing our previous GENESIS-N and GENESIS-L to be lost, among others.

These new GENESIS have a more powerful on-board computer than their predecessors and updated software that allows FM voice repeater functionality, AFSK/FSK non-regenerative repeater up to 2400 bps, FSK regenerative repeater up to 50 bps, CW, digitized voice pre-recorded FM and FSK telemetry at 50 bps. The correct retransmission of AX25 / APRS frames over FM up to 2400 bps has been verified in the laboratory.

A small drawback we still have is the antenna deployment mechanism, that is the first version that was made and requires a plenty charged battery. The satellites have been stored for several months, so it is a weak point. Hopefully it will work.

These satellites also have the names of ASTROLAND-1 and ASTROLAND-2 to say thanks to the sponsorship of the project by the Astroland Planetary Agency. We also thank the private companies and Universities that helped in the project.

As on the previous occasion, two experimental propellants are flown, although this time they are from the Madrid company IENAI Space and, unlike the previous GENESIS mission, they use a liquid ionic fuel. Only the one from GENESIS-J is functional. The one from GENESIS-G carries the electronics but without the fuel.

The frequencies coordinated with IARU are the following:

GENESIS-G/ASTROLAND-1
145.875 MHz uplink, Modes: FM voice (no subtone) and FSK 50 bps, AFSK, AX.25, APRS 1200 / 2400 bps
436.888 MHz downlink, Modes: FM voice, CW, FSK 50 bps, FM voice beacon with AM2SAT callsign

GENESIS-J/ASTROLAND-2
145.925 MHz uplink, Modes: FM voice (no subtone) and FSK 50 bps, AFSK, AX.25, APRS 1200 / 2400 bps
436.666 MHz downlink, Modes: FM voice, CW FSK 50 bps, SSTV Robot 36, FM voice beacon with AM3SAT callsign

We encourage all of you to try to receive their first transmissions once the first keplerians are available.

This flight will be streamed by Everyday Astronaut: https://everydayastronaut.com/

More information on the Firefly website: https://firefly.com/alpha-flight-2-to-the-black/

73, Felix EA4GQS – AMSAT EA team

AMSAT Bulletin Board http://www.amsat.org/mailman/listinfo/amsat-bb

Aug 2 2022

QSL cards and award for receiving SWSU satellites

CubeSat released from the ISS

CubeSat released from the ISS

On July 21 ten amateur radio CubeSats built by students at the Southwestern State University were deployed from the ISS. QSL cards and a diploma are available for receiving the SSTV, APRS and Voice messages

On his website Dmitry Pashkov R4UAB reports:

Small spacecraft (ICA), created on the YUZGU-55 platform, have been operating in real space flight for more than ten days. The cyclogram of work includes the transmission of voice messages, telemetry, call sign and SSTV images.

In view of the great interest in the space experiment “Radioskaf”, which is aimed at popularizing space research, Southwestern State University will be happy to send a QSL card to all radio amateurs who have successfully conducted a communication session with satellites.

To receive a QSL card, you need to send information: call sign, location, session date and time, carrier frequency, modulation type (APRS, FM-Voice, Robot36) and the result of a successful session (audio sample, telemetry text and image). The data is sent in the form of Applications for QSL. In the return letter you will receive the address where you need to send the card.

To obtain a diploma, you need to take 10 different SSTV images and voice messages, as well as decode 10 APRS telemetry messages (AFSK 1142 baud format) from any of the satellites, and apply for a Diploma

Satellite frequencies:

437.0000 MHz — SWSU-55 #8 — RS6S
437.0125 MHz — KETs#2 — RS12S
437.0250 MHz — KETs#1 — RS9S
437.0500 MHz — SWSU-55 #1 & R-390 #1 — RS10S
437.0750 MHz — SWSU-55 #2 — RS11S
437.0750 MHz — SWSU-55 #3 — RS1S
437.0870 MHz — SWSU-55 #4 — RS2S
437.0870 MHz — SWSU-55 #6 — RS4S
437.1000 MHz — SWSU-55 #5 — RS3S
437.1125 MHz — SWSU-55 #7 & R-390 #2 — RS5S

Source R4UAB
https://r4uab.ru/2022/08/02/diplomnaya-programma-mka-yuzgu-55/
https://twitter.com/R4UAB

Nader Omer ST2NH describes how to receive the satellites at
https://twitter.com/st2nh/status/1554223850329718785

Ten amateur radio CubeSats deployed from ISS
https://amsat-uk.org/2022/07/21/ten-amateur-radio-cubesats-deployed-from-iss/

Jul 21 2022

Ten amateur radio CubeSats deployed from ISS

CubeSat released from the ISS

CubeSat released from the ISS

On July 21, 2022, during a spacewalk by Samantha Cristoforetti IZ0UDF and Oleg Artemyev, 10 amateur radio CubeSats were deployed from the International Space Station.

On his website Dmitry Pashkov R4UAB reports:

On July 21, 2022, during extravehicular activities (VKD-54), Russian cosmonaut Oleg Artemyev deployed ten Russian small spacecraft (MKA) – SWSU-55 No. 1 & R-390 (SWSU No. 5), SWSU-55 No. 2 (SWSU No. 6), SWSU-55 No. 3 (SWSU No. 7), SWSU-55 No. 4 (SWSU No. 8), SWSU-55 No. 5 (SWSU No. 9), SWSU-55 No. 6 (SWSU No. 10), SWSU-55 No. 7 & R-390 (SWSU No. 11), SWSU-55 No. 8 (SWSU No. 12), “Tsiolkovsky-Ryazan 1” and “Tsiolkovsky-Ryazan 2” according to the program of the space experiment “Radioskaf”.

The SWSU series satellites were developed at the Research Institute of Space Instrumentation (part of Roscosmos) and radio-electronic systems of southwestern State University (SWSU). The main developer of the SWSU series satellites is Egor Shilenkov (UB3WCL), Candidate of Technical Sciences, Director of the Center for Space Instrumentation, Advanced Research and Development of Southwestern State University.

The mission of the SWSU series satellites is to
create a peer-to-peer information network. Within the network, retransmission and parallel transmission to the ground monitoring point are organized.
– Study of the Earth’s magnetic field.
– measurement of the noise of the radio broadcast in outer space.
– transmission of photos (SSTV) and voice messages (AUDIO) to radio amateurs around the world. For each satellite, a personal phrase will be selected, which is translated into 8 different languages.

The Tsiolkovsky-Ryazan 1/2 satellites have special radio transmitting equipment designed to perform the scientific task of calibrating the sensitivity of radio telescopes of the Pushchino Radio Astronomy Observatory of the AstroSpace Center of the Lebedev Physical Institute of the Russian Academy of Sciences (PRAO ACC FIAN, http://www.prao.ru ). Also, these satellites can emit specialized radio signals to study the effects of the propagation of radio waves through the ionosphere using radio receiving equipment, which is supposed to be manufactured at the RSRTU and used as part of the radio telescopes of the PRAO ACCC FIAN.

The Radioskaf space experiment is carried out within the framework of the student program on space education of the youth of Russia and implements projects for the development, training and launch of experimental ultra-small spacecraft for various purposes in the process of extravehicular activities of cosmonauts. The director of the experiment “Radioskaf” is RSC Energia named after “S.P. Korolev”.

Frequency SWSU-55 No1 & R-390 (SWSU No5)
• Call Sign: RS10S
• Telemetry: 437.050 MHz 1200 bps . AX25 AFSK;
• Payload: 437.050 MHz 1200/2400/4800 bps . AX25 AFSK, SSTV, AUDIO, TEXT;

Frequency SWSU-55 No2 (SWSU No6)
• Call Sign: RS11S
• Telemetry: 437.050MHz 1200 bps. AX25 AFSK;
• Payload: 437.062 MHz 1200/2400/4800 bps . AX25 AFSK, SSTV, AUDIO, TEXT;

Frequency SWSU-55 No3 (SWSU No7)
• Call Sign: RS1S
• Telemetry: 437.050 MHz 1200 bps . AX25 AFSK;
• Payload: 437.075 MHz 1200/2400/4800 bps . AX25 AFSK, SSTV, AUDIO, TEXT;

Frequency SWSU-55 No4 (SWSU No8)
• Call Sign: RS2S
• Telemetry: 437.050 MHz 1200 bps . AX25 AFSK;
• Payload: 437.082 MHz 1200/2400/4800 bps . AX25 AFSK, SSTV, AUDIO, TEXT;

Frequency SWSU-55 (SWSU No9)
• Call Sign: RS3S
• Telemetry: 437.050 MHz 1200 bps . AX25 AFSK;
• Payload: 437.100 MHz 1200/2400/4800 bps . AX25 AFSK, SSTV, AUDIO, TEXT;

Frequency SWSU-55 No6 (SWSU No10)
• Call Sign: RS4S
• Telemetry: 437.050 MHz 1200 bps . AX25 AFSK;
• Payload: 437.087 MHz 1200/2400/4800 bps . AX25 AFSK, SSTV, AUDIO, TEXT;

Frequency SWSU-55 No7 & R-390 (SWSU No11)
• Call Sign: RS5S
• Telemetry: 437.050 MHz 1200 bps . AX25 AFSK;
• Payload: 437.1125 MHz 1200/2400/4800 bps . AX25 AFSK, SSTV, AUDIO, TEXT;

Frequency SWSU-55 No8 (SWSU No12)
• Call Sign: RS6S
• Telemetry: 437.050 MHz 1200 bps . AX25 AFSK;
• Payload: 437.000 MHz 1200/2400/4800 bps . AX25 AFSK, SSTV, AUDIO, TEXT;

Frequency Tsiolkovsky-Ryazan 1
• Call Sign: RS9S
• Telemetry: 437.050 MHz 1200 bps . AX25 AFSK;
• Payload: 437.025 MHz 1200 bps . AX25 AFSK, SSTV, AUDIO, TEXT;

Frequency Tsiolkovsky-Ryazan 2
• Call Sign: RS12S
• Telemetry: 437.050 MHz 1200 bps . AX25 AFSK;
• Payload: 437.0125 MHz 1200 bps . AX25 AFSK, SSTV, AUDIO, TEXT;

Watch TV News item about the CubeSats with Sergey Samburov RV3DR
Broadcast Feb 2022 – enable YouTube Closed Captions, Auto-translate

Source R4UAB https://r4uab.ru/2022/07/21/kosmonavt-oleg-artemev-s-borta-mks-zapustil-rossijskie-sputniki-po-programme-ke-radioskaf/
https://twitter.com/R4UAB

Jul 7 2022

Summer 2022 OSCAR News now available to download

2022-06 Oscar News Front CoverE-members of AMSAT-UK can now download the Summer 2022 edition of OSCAR News, issue 238, here.

The paper edition edition will be sent to postal members and should arrive in the next 2-3 weeks.

In this issue:
• From the Secretary’s Keyboard
• CelesTrak Changing Domain Used
• Our thanks to – Frank Heritage M0AEU
• Retirement Letter
• FUNcubes update June 2022
• FUNcube-Next
• STAR-XL: Student Transponder for Satellite Ranging on X & L-band
• First flight of Vega-C
• New HO-113 AMSAT Distance Record Set
• Satlist a valuable resource!
• Satellite Operations from the Gambia
• Electromagnetic Field
• G3OUA Works CN88
• Increase in Satellite activity from Jersey
• GB70U Guernsey
• IARU Region 1 Satellite Coordinator’s report
• ARISS Women in Space SSTV Activity

AMSAT-UK FUNcube Mission Patch

AMSAT-UK FUNcube Mission Patch

Membership of AMSAT-UK is open to anyone who has an interest in amateur radio satellites or space activities, including the International Space Station (ISS).

E-members of AMSAT-UK are able to download the quarterly publication OSCAR News as a convenient PDF that can be read on laptops, tablets or smartphones anytime, anyplace, anywhere. Join as an E-member at Electronic (PDF) E-membership

PDF sample copy of “Oscar News” here.

Join AMSAT-UK using PayPal, Debit or Credit card at
http://shop.amsat-uk.org/

E-members can download their copies of OSCAR News here.