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- Sleep-power: Will be higher than "expected", need to keep a reasonable amount of minimum operations in order to ensure good operation and wake-up. 3 - 4 W when harvesting. Don’t go to sleep, you may risk everything and power is worse off when waking up.
- ADCS:
- Must look into this exp. on 3U. On bigger buses this is less of an problem.
- Pointing knowledge with star-tracker is very good.
- Pointing accuracy it more challenging, but should be better than 0.5 deg if good calibration.
- Calibrate image with star tracker
- Down to 0.1 to 0.2 degrees
- During slew, error should be at 0.1-0.2 during maneuvers.
- The type of reaction wheels must be looked into for 3 U. A bit more of a challenge.
- Limb-to-limb pointing might be a issue, as to find where the star-tracker can point.
- Must avoid sun into the sensor.
- Higher latitudes should be fine, but further south might be more of an issue.
- Can be a bit of a time-variance wrt. position of sun/moon/earth-interactions.
- Have GPS, better than 10 meters.
- Pointing accuracy:
- Limb-to-limb
- Where on Earth you are w/o sun to saturate star-tracker
- GPS in all
- Slew rate not a problem
- Communications:
- S-band down, UHF up is ok.
- Active pointing of the antenna. S-band at 2 Mbps (with pointing).
- Standard, nominal, mode is more like 128 kbps --> works for all attitudes.
- Uplink is typically 4 kbps. Have always supported re-programming.
- Takes 1 day to engage the software that is uplinked on mission files. Then do verification and load.
- Ground system bought with platform system
- Integration/test
- Operational software are available. Encourage testing using operational software during tests on ground. FFI and Statsat have this.
- Training: Can happen at UITAS, or NTNU.
- Have a flat-sat, made up by spares. Could then be used as spares for the flight model if needed. Does not really make an EM of flight heritage components. Go right to proto-flight if its only small changes. Does not expect any new equipment, but will probably have some suggestions on how to build the payload.
- On-board interfaces: Communication limited to 1 Mbps or 500 kbps. CAN or high-speed serial 0.8 Mbit/s, on-board storage 1 GB (raw images). Should have around 1 GB storage on the onboard-processing. Also used as buffer before transmit. Have a NSP (nanosat communication protocol). Protocol across the bus, RS45.
- Payload-OBC interaction (limited to data exchanges). Could be able to operate on input from the payload, but perhaps go through the GS first.
- Kanu (on-board operating system)
- Runs attitude control and operating software
- Provide software that interfaces with everything
- OS: Cano. In-house system. Not really open for us. ADCS is probably not really accessible; perhaps with permission. Could provide some interface of to software that we could run.
- Interaction between payload and OBC: Should be limited to data exchange. Commanding should go through mission planning software (GS). Upload target, time, when. Time-tagged commands. Not any feedback on what going on. Onboard autonomy means different things.... Using a hand-full of high-level commands. Like "point here", take image. The detailed maneuver will be solved in the space craft. Mission planning software time-tagged commands uploaded on-board rather than feedback on what’s happening
- Flat Sat made up by spares – flight model + electronics. They may then work in paralell during integration & testing
- Uplink info on target, then sat will do maneuver (in sense completely autonomous - you just set the target - no magic on mission operations).
Power
- Power consumption too high in some parts in the mission design. Put lower. Again payload is important. SFL can achieve better than that.
Other
They do not currently have SDR.
Export: Formally, will need an export agreement, should not be a problem. Need to look into which students can be in the project and so on.
Integration in Norway: host group for integration activities at SFL, work with us to incorporate things at NTNU. Possible.
Next steps:
UTIAS: Inform Rob, internal discussion. Size of spacecraft, sharing agreements and so on. Ask for more info when required.
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