ESA Intended Invitation To Tender

18.1TT.79


Title: MULTIPLE OPTICAL RECEIVE SYSTEM FOR A SINGLE OPTICAL TERMINAL (SCYLIGHT SL.017)
AO Number: 1-9682
Program ref.: ScyLight
Tender Type: C
Quarter: 192
Tender Status: ISSUED
Price Range: > 500 KEURO
Budget Ref.: E/0502-01A - ScyLight
Proc. Prop.: DIPC
Special Prov.: DK+FR+DE+IT+NL+CH+GB+IE+AT+LU+CZ+RO+CA+NO
Establishment: ECSAT
Directorate: Directorate Telecom & Integrated Applica
Department: Telecom Technologies,Product&Systems Dep
Division: Technologies and Products Division
Contract Officer: Beardsell, Andrea
Products: Satellites & Probes / Optical Communication / Optical Comm BB / Telescopes
Launchers / Avionics / On-Board Computers / *See Software
Technology Domains: Onboard Data Systems / Payload Data Processing / System Technologies for Payload Data Processing
Industrial Policy Measure: N/A - Not apply
Publication Date: 07-JAN-19

The objective of this activity is to develop, manufacture and test an Engineering Model of a Photonic Lantern Receiver, reducing the complexity of the receiver for optical communication terminals by eliminating the complex pointing and tracking system (tip-tilt mirror) that is otherwise needed to efficiently collect the light onto a fast photodetector.Targeted Improvements: Enabling technology development not existing today in Europe, which will allow the complexity to be reduced by an order of magnitude without compromising performance.Description:Current optical communication terminals require tip/tilt tracking mechanisms to suppress image motion and to keep the optical beam on the detector, which has a very small diameter typically in the order of 50 micron. For data ratesof around 1 Gbps, image motion cannot be compensated without a suitable tip/tilt tracking mechanism. A solution to this issue wouldbe to use a photonic lantern. This demultiplexes light from a large core multi-mode fibre (MMF) into multiple single-mode fibres (SMF). The diameter of the MMF is large enough to cover image motion as well as spreading of the incoming light, thus a tip/tilt tracking mechanism is no longer required. The insertion loss of the photonic lantern would need to be very low and the SMFs would be eachconnected to data detectors.In this activity, an Engineering Model of a Photonic Lantern Receiver will be developed, manufactured andtested, including a demonstration that a tip/tilt mechanism is no longer necessary.