Title
TESLA-C Optical Bench
Author
Bol, J.C.P.
Pettazzi, F.
de Man, H.
de Lange, T.J.
van Werkhoven, W.P.
Crowcombe, W.E.
Oosterling, J.A.J.
Verhoven, R.
de Goeje, M.P.
Verhofstad, F.
Nijkerk, M.D.
Gruijters, C.
van Neer, S.
Publication year
2019
Abstract
To accommodate such a massive satellite constellation with OCT’s, the following key drivers are identified for the space terminals: - Low Size, Weight and Power (SWaP): One of the key advantages of using optical communication wavelengths over RF wavelength is that it allows for highly compact and low power OCT’s. To fully realize this potential, all components in the laser communication terminal should be targeted for high compactness, and low power dissipation – Low Recurring cost: For large constellations of satellites are with multiple communication terminals per satellites, the recurring cost of the terminals and its components need to be low for commercial viability - Low latency, high reliability and security: To guarantee secure, and reliable communication with minimum latency, this also should account for the OCT.
Subject
High Tech Systems & Materials
Industrial Innovation
OCT
OCT design drivers
SWaP
To reference this document use:
http://resolver.tudelft.nl/uuid:e56e3381-7954-4dc1-a521-f75d0877018a
TNO identifier
874780
Publisher
TNO, Delft
Source
TNO Optical SATCOM Day, Delft, 7 November 2019
Bibliographical note
Presented poster
Document type
other