During the first few hours of Lightsail’s deployment, our own Justin Foley was in Australia. Thankfully he was still able to receive packets through a hand held yagi antenna and a tripod while on travel!
On the first pass the Cal Poly UHF groundstations heard the first few packets of data from the satellite! In addition to providing ground support, Cal Poly designed the avionics and UHF comms boards for the mission.
Thanks to Justin Foley, John Bellardo, Robert Potter and Nik Powell for operating the groundstations on the first pass and decoding packets.
IPEX was launched December 6th, 2013. The last transmission heard from it was on January 30th, 2015. IPEX completed its mission, autonomous image processing and data reduction, fairly early after launch. During the remainder of its functional life, it continued to transmit down health data. With nearly a years worth of health files, the team has been able to observe how the electronics behave in harsh environments. We have learned a great deal from IPEX.
Thank you IPEX for over a year of service! Orbit in Peace.
ExoCube was launched January 31st 2015 on a Delta II from Vandenberg Air Force Base as a secondary payload.
Since deployment ExoCube has been a little quiet. Unfortunately, the transmit power has been lower than expected. Thankfully there is been great support in the community. SRI has been generous and has allowed us to use their 150′ dish. Members of the Cal Poly team drove to SRI on Sunday (2/8/15) to use the dish for the night and the following morning. We received a significant amount of health and telemetry data from the spacecraft!
The Cal Poly team reviewed the telemetry data and determined that the antenna unfortunately hasn’t deployed. Multiple deploy commands have been sent to the antenna. At some point during shock and vibes testing and the ride up the mechanism broke.
We have been investigating options for long term solutions. The team has investigated ways to still receive important data from the payload with limited data capacity from the satellite. The mission will move on!
Thank you to all the people who have offered their stations to help the mission.
Also thank you Bryan Klofas and Steve Muther for making time in their schedule to operate the SRI dish.
This morning SMAP launched on top a Delta II rocket. Along for the ride were four CubeSats: Exocube, Firebird-2 and GRIFEX.
The ExoCube decoder is now available here. Java 1.6 is required to run it.
The TLEs can be found here.
Watch the launch below!
PolySat and CubeSat at the launch.
KCOY stopped by Cal Poly to interview some of the students about ExoCube. The new ground station also got some love from the camera. Check it out below.
Cal Poly’s third ground station Friis is coming together after significant work by the PolySat lab.
Friis will be able to track LEO satellites and operates at 437MHz and will be capable of achieving significantly higher data rates than Cal Poly’s other two ground stations Marconi and Hertz. The radio transceiver and the the controller processor are identical to the ones on IPEX and ExoCube, the difference is the amplifier on the transmit size will be able to do about 400 watts out through four phased yagi antennas.
Wednesday October 15th, NASA JPL hosted an event to celebrating the Cal Poly and JPL partnership. CubeSat and PolySat received much recognition.
Cal Poly’s President Jeffrey Armstrong and the Engineering Dean Debra Larson sat on a panel with JPL to answer questions regarding the CubeSat/PolySat programs and the JPL partnership.
The IPEX team was chosen for a group achievement award from NASA. Thank you everyone for the hard work that went into that mission and the continued work of operating it.
ExoCube has been delivered!
The ExoCube (CP10) flight model pictured below was delivered to CubeSat for the ELaNa X mission with SMAP. The PPOD with the integrated satellite has passed acceptance testing and will soon be mounted to the rocket. SMAP will launch in a few months from Vandenberg Air Force Base atop a Delta II.
Exocube is a combined effort of Scientific Solutions, Cal Poly, NASA Goddard, The National Science Foundation, University of Illinois and University of Wisconsin.
ExoCube will characterize [O], [H], [He], [N2], [O+], [H+], [He+], [NO+], and total ion density by taking in-situ measurements within the exosphere, while taking particular interest in orbital locations above various radio observatories. ExoCube uses an active control system to point itself in the desired direction for measurements, and uses passive control to maintain this orientation.