Flying Laptop

The German Flying Laptop satellite, launched on 14 July 2017 on a Soyuz launch vehicle from Baikonur Cosmodrome in Kazakhstan,^[1] hosts the OSIRISv1 laser communications experiment.^[2] The satellite has a total mass of 110 kg.^[3] It operates at a 600 kilometres (370 mi) Sun-synchronous orbit with an inclination of 97.6 degrees.^[4]

The satellite is part of the Stuttgart Small Satellite Program, a program led by the German Space Agency.

Optical communications tests have been carried out with ground stations in Japan, Europe, and Canada,^[5] with a data rate of up to 200 Mbit/s, from orbit to ground only.

The two fixed lasers of OSIRISv1 are aimed at ground stations by 'body pointing', attitude control of the entire satellite, using four reaction wheels.^[3] The reaction wheels can be desaturated using three internal magnetorquers.^[3]

Flying Laptop carries a de-orbit mechanism called DOM2500 developed by Tohoku University and manufactured by Nakashimada Engineering Works, Ltd., which upon activation will unfurl a sail to increase atmospheric drag.^[6]^[7] The device will be used at the end of the satellite mission.^[8]

References

↑ "'Flying Laptop' and 'TechnoSat' successfully launched". www.dlr.de. Retrieved 2023-05-10.
↑ DLR laser terminal in space establishes contact with Japanese ground station Mar 2021
1 2 3 OSIRISv1 on Flying Laptop: Measurement Results and Outlook preprint Fuchs 2019
↑ "Flying Laptop". www.eoportal.org. Retrieved 2023-05-10.
↑ Japan-Germany international joint experiment on space optical communication Mar 2021
↑ "Stuttgart University small satellite mission capacities built up along with its Flying Laptop project" (PDF). United Nations Office for Outer Space Affairs. November 14, 2018. Retrieved 2023-06-03.
↑ "DOM Feature". Nakashimada Engineering Works, Ltd. Retrieved 2023-06-03.
↑ "Flying Laptop Academic Small Satellite Flying Laptop" (PDF). University of Stuttgart. Retrieved 2023-06-03.

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[1] "'Flying Laptop' and 'TechnoSat' successfully launched". www.dlr.de. Retrieved 2023-05-10.

[2] DLR laser terminal in space establishes contact with Japanese ground station Mar 2021

[Fuchs-2019-3] 1 2 3 OSIRISv1 on Flying Laptop: Measurement Results and Outlook preprint Fuchs 2019

[4] "Flying Laptop". www.eoportal.org. Retrieved 2023-05-10.

[5] Japan-Germany international joint experiment on space optical communication Mar 2021

[6] "Stuttgart University small satellite mission capacities built up along with its Flying Laptop project" (PDF). United Nations Office for Outer Space Affairs. November 14, 2018. Retrieved 2023-06-03.

[7] "DOM Feature". Nakashimada Engineering Works, Ltd. Retrieved 2023-06-03.

[8] "Flying Laptop Academic Small Satellite Flying Laptop" (PDF). University of Stuttgart. Retrieved 2023-06-03.

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← 2016 · Orbital launches in 2017 · 2018 →
January	TJS-2 Jilin-1 Video-03 Iridium NEXT × 10 TRICOM-1 USA-273 / SBIRS GEO-3 DSN-2 Hispasat AG1
February	Intelsat 32e / SkyBrasil1 , Telkom-3S Cartosat-2D, Al Farabi-1, BGUSAT, DIDO-2, Flock-3p × 88, Lemur-2 × 8 Dragon CRS-10 Progress MS-05
March	USA-274 / Intruder 8 Tiankun-1 Sentinel-2B EchoStar 23 IGS-Radar 5 USA-275 / WGS-9 SES-10
April	Shijian 13 Cygnus CRS OA-7 , (ALTAIR , CXBN-2 , IceCube , SG-Sat , SHARC) Soyuz MS-04 Tianzhou 1, SilkRoad-1
May	USA-276 / NROL-76 Koreasat 7, SGDC-1 GSAT 9 / South Asia Satellite Inmarsat-5 F4 SES-15 "It's a Test" EKS-2
June	QZS-2 ViaSat-2, Eutelsat 172B Dragon CRS-11 (NICER, BRAC Onnesha, GhanaSat-1, Mazaalai, Nigeria EduSat-1) GSAT-19 EchoStar 21 Progress MS-06 HXMT / Insight, ÑuSat 3 ChinaSat 9A Cartosat-2E, Max Valier Sat, Aalto-1, Blue Diamond, Green Diamond, Red Diamond, CICERO-6, COMPASS-2, InflateSail, Lemur-2 × 8, LituanicaSAT-2, ROBUSTA-1B Kosmos 2519 / Nivelir, Kosmos 2521 / Sputnik Inspektor BulgariaSat-1 Iridium NEXT × 10 EuropaSat / Hellas Sat 3, GSAT-17
July	Shijian-18† Intelsat 35e Kanopus-V-IK, Flying Laptop, Flock-2k × 48, Landmapper BC 1, Landmapper BC 2, Lemur-2 × 8 Soyuz MS-05
August	OPTSAT-3000, VENµS Dragon CRS-12, ASTERIA Blagovest 11L TDRS-M Michibiki 3 Formosat-5 ORS-5 IRNSS-1H
September	USA-277 / OTV-5 Amazonas 5 Soyuz MS-06 Kosmos 2522 / GLONASS-M 752 USA-278 / NROL-42 AsiaSat 9 Yaogan-30-01 × 3 Intelsat 37e, BSAT-4a
October	VRSS-2 Iridium NEXT × 10 QZS-4 SES-11 / EchoStar 105 Sentinel-5 Precursor Progress MS-07 USA-279 / Quasar 21 Koreasat 5A SkySat × 6 , Flock-3m × 4
November	BeiDou-3 M1, BeiDou-3 M2 Mohammed VI-A Cygnus CRS OA-8E (Asgardia-1, EcAMSat, Lemur-2 × 8, TechEdSat-6) Fengyun-3D NOAA-20 Jilin-1 Video × 3 Yaogan-30-02 (3 satellites) Meteor-M No.2-1, Landmapper BC 3, Lemur-2 × 10
December	Kosmos 2524 LKW-1 Alcomsat-1 Galileo FOC 15-18 Dragon CRS-13 Soyuz MS-07 GCOM-C, SLATS Iridium NEXT 31–40 Yaogan-30-03 × 3 AngoSat 1
Launches are separated by dots ( • ), payloads by commas ( , ), multiple names for the same satellite by slashes ( / ). Cubesats are smaller. Crewed flights are underlined. Launch failures are marked with the † sign. Payloads deployed from other spacecraft are (enclosed in parentheses).

Further reading

See also

References