3DGUIDE | Feasibility demonstration of 3D printing for a new efficient production method of mm-wave waveGUIDE antenna

Summary
Flight delays are costing billions of Euros yearly to the air transportation industry yearly. A large part of delays being linked to low visibility, Enhanced Flight Vision Systems are slowly coming to civil aircrafts and will eventually support pilots to land in any visibility condition. The Systems ITD of Clean Sky 2 aims to accelerate the development of new functions in cockpit systems for flight optimization in all conditions, increased crew awareness and efficiency. These new solution must however remain competitive in an industry under increasing cost pressure.

To address these challenges, the 3DGUIDE project intends to demonstrate an affordable production method for high precision mm-wave waveguide antennas with Additive manufacturing (AM). AM is a promising candidate to produce antennas with complex 3D shapes, reduce assembly steps and decrease overall production costs. The selected process, Laser Powder bed fusion (L-PBF), a metal AM technology, is optimized by CSEM for high printing resolutions and will be benchmarked against traditional manufacturing processes through the manufacturing, testing and performances comparison of printed mm-wave slotted antenna array elements (e.g. WG, single slotted WG array). An inductive iris waveguide bandpass filter operating at 94 GHz is suggested as 3D printed phase shifter and dummy MEMS will be integrated into the phase shifter element structure for the project. Furthermore, a later integration of MEMS biasing lines printed in the WG structure will be tested. The project will target a TRL4.

To reach these objectives, 3DGUIDE brings together an interdisciplinary team of experts including world-class researchers on radiofrequency and antennas (UPM), an industry expert in development and deployment of high frequency antennas in challenging environments (TTI), and finally an industry oriented research and technology organization well versed in leading and managing interdisciplinary international projects (CSEM).
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More information & hyperlinks
Web resources: https://cordis.europa.eu/project/id/886696
Start date: 01-09-2020
End date: 31-08-2022
Total budget - Public funding: 594 950,00 Euro - 530 975,00 Euro
Cordis data

Original description

Flight delays are costing billions of Euros yearly to the air transportation industry yearly. A large part of delays being linked to low visibility, Enhanced Flight Vision Systems are slowly coming to civil aircrafts and will eventually support pilots to land in any visibility condition. The Systems ITD of Clean Sky 2 aims to accelerate the development of new functions in cockpit systems for flight optimization in all conditions, increased crew awareness and efficiency. These new solution must however remain competitive in an industry under increasing cost pressure.

To address these challenges, the 3DGUIDE project intends to demonstrate an affordable production method for high precision mm-wave waveguide antennas with Additive manufacturing (AM). AM is a promising candidate to produce antennas with complex 3D shapes, reduce assembly steps and decrease overall production costs. The selected process, Laser Powder bed fusion (L-PBF), a metal AM technology, is optimized by CSEM for high printing resolutions and will be benchmarked against traditional manufacturing processes through the manufacturing, testing and performances comparison of printed mm-wave slotted antenna array elements (e.g. WG, single slotted WG array). An inductive iris waveguide bandpass filter operating at 94 GHz is suggested as 3D printed phase shifter and dummy MEMS will be integrated into the phase shifter element structure for the project. Furthermore, a later integration of MEMS biasing lines printed in the WG structure will be tested. The project will target a TRL4.

To reach these objectives, 3DGUIDE brings together an interdisciplinary team of experts including world-class researchers on radiofrequency and antennas (UPM), an industry expert in development and deployment of high frequency antennas in challenging environments (TTI), and finally an industry oriented research and technology organization well versed in leading and managing interdisciplinary international projects (CSEM).

Status

CLOSED

Call topic

JTI-CS2-2019-CfP10-SYS-01-17

Update Date

27-10-2022
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Horizon 2020
H2020-EU.3. SOCIETAL CHALLENGES
H2020-EU.3.4. SOCIETAL CHALLENGES - Smart, Green And Integrated Transport
H2020-EU.3.4.5. CLEANSKY2
H2020-EU.3.4.5.6. ITD Systems
H2020-CS2-CFP10-2019-01
JTI-CS2-2019-CfP10-SYS-01-17 New Efficient production methods for 94 GHz (W-band) waveguide antennas