SubsidieMeestersStarCom Optical Inter-Satellite Link.
Mbryonics Ltd. develops advanced optical terminals and photonics solutions for intersatellite links and ground stations, leveraging innovative technologies to enhance space communication and sustainability.
Projectdetails
Introduction
Mbryonics Ltd. is an independent Deep tech development company, based in Galway, Ireland, specialising in the design and manufacture of Optical terminals for Optical Intersatellite Links (OISLs) and Optical Ground Station (OGS) and adaptive optics systems.
Technology Leadership
Technology leaders in the application of Freeform Optics for OISLs and Photonic Integrated Circuits in condensed packaging to enable PIC chiplet co-integration with electronics (ASICs/FPGAs) known as ‘co-packaged optics’ or ‘in-package optics’ for technology applications including:
- Intersatellite links
- Telecom
- Quantum Networks (QKD)
- Data Relay
- Earth Observation
- PNT Pointing, Navigation and Timing
- Optical Feederlinks
Company Background
Established in 2014, with almost a decade of experience developing high-tech solutions through integrated skills in the areas of ICT, photonics, optics, optoelectronics, adaptive optics, and aerospace engineering, the team is ideally positioned to deliver advanced optical terminals and photonics solutions for a new era of proliferated space with the advent of mega constellations and a new market for space data over the next decade.
Innovative Solutions
Mbryonics are uniquely positioned with an innovative solution based on disruptive application of fibre-coupled free space optical communication (FSOC), silicon photonics, and novel application of Additive Manufacturing of Freeform Telescopes and innovation in Assembly, Integration and Test (MAIT) which will overcome previous challenges for volume manufacturing of optical terminals.
Sustainability Objectives
Mbryonics will utilise a Digital Twin to optimise MAIT and build lean processes to facilitate Sustainability objectives for 2030.
Financiële details & Tijdlijn
Financiële details
| Subsidiebedrag | € 2.499.999 |
| Totale projectbegroting | € 3.714.062 |
Tijdlijn
| Startdatum | 1-5-2024 |
| Einddatum | 30-4-2026 |
| Subsidiejaar | 2024 |
Partners & Locaties
Projectpartners
- MBRYONICS LIMITEDpenvoerder
- ATLANTIC SPACE LIMITED
Land(en)
Vergelijkbare projecten binnen EIC Accelerator
| Project | Regeling | Bedrag | Jaar | Actie |
|---|---|---|---|---|
Smart PHotonic devices Using Novel metamaterialsThe SPHUN project aims to create a digital platform for an innovative library of metamaterial-based photonic building blocks to enhance the design of advanced photonic integrated circuits. | EIC Accelerator | € 1.799.999 | 2022 | Details |
Photonic Integrated Circuits For Access System in TelecomPICadvanced aims to develop a novel Photonic Integrated Circuit design for Optical Network Units, enabling 10Gbps broadband with minimal upgrades, reduced costs, and lower environmental impact. | EIC Accelerator | € 2.444.378 | 2024 | Details |
NEWPhotonics: The Future of Data Center TechnologiesNEWPhotonics develops efficient all-optical chip solutions to reduce energy consumption and costs in hyperscale data centers, enhancing speed, reliability, and scalability. | EIC Accelerator | € 2.499.742 | 2022 | Details |
Smart PHotonic devices Using Novel metamaterials
The SPHUN project aims to create a digital platform for an innovative library of metamaterial-based photonic building blocks to enhance the design of advanced photonic integrated circuits.
Photonic Integrated Circuits For Access System in Telecom
PICadvanced aims to develop a novel Photonic Integrated Circuit design for Optical Network Units, enabling 10Gbps broadband with minimal upgrades, reduced costs, and lower environmental impact.
NEWPhotonics: The Future of Data Center Technologies
NEWPhotonics develops efficient all-optical chip solutions to reduce energy consumption and costs in hyperscale data centers, enhancing speed, reliability, and scalability.
Vergelijkbare projecten uit andere regelingen
| Project | Regeling | Bedrag | Jaar | Actie |
|---|---|---|---|---|
Geïntegreerde detector voor FBG sensorsystemenDit project ontwikkelt geavanceerde Photonic Integrated Circuits voor een nauwkeuriger glasfiber-optisch meetsysteem, gericht op het verhogen van meetcapaciteit en resolutie in hightech toepassingen. | Mkb-innovati... | € 156.085 | 2015 | Details |
FODAMED - Disruptief fotonisch platform voor datacom en medische diagnostiekHet FODAMED-project ontwikkelt een nieuw productieplatform voor fotonica, gericht op hoge snelheid optische communicatie en medische toepassingen, om te voldoen aan de groeiende databehoefte. | Mkb-innovati... | € 237.941 | 2017 | Details |
Adaptive microcombs for innovative connectivity in datacenter applications and optical clocksAmica aims to revolutionize datacentre interconnects by developing a scalable microcomb technology for multi-wavelength laser sources, targeting petabit-per-second speeds and efficient mass production. | EIC Transition | € 2.499.340 | 2024 | Details |
Multilayer photonic integration platform for free space opticsThe BEAMS project aims to develop advanced silicon photonic devices using 3D integration for enhanced free-space optical communication, improving bandwidth, efficiency, and control flexibility. | ERC Starting... | € 1.499.878 | 2022 | Details |
OPTOLOCKHet OPTOLOCK-project ontwikkelt een innovatief productieplatform voor geïntegreerde fotonica, gericht op het verbeteren van optische communicatie en medische diagnostiek door flexibele golflengte management devices. | Mkb-innovati... | € 312.998 | 2019 | Details |
Geïntegreerde detector voor FBG sensorsystemen
Dit project ontwikkelt geavanceerde Photonic Integrated Circuits voor een nauwkeuriger glasfiber-optisch meetsysteem, gericht op het verhogen van meetcapaciteit en resolutie in hightech toepassingen.
FODAMED - Disruptief fotonisch platform voor datacom en medische diagnostiek
Het FODAMED-project ontwikkelt een nieuw productieplatform voor fotonica, gericht op hoge snelheid optische communicatie en medische toepassingen, om te voldoen aan de groeiende databehoefte.
Adaptive microcombs for innovative connectivity in datacenter applications and optical clocks
Amica aims to revolutionize datacentre interconnects by developing a scalable microcomb technology for multi-wavelength laser sources, targeting petabit-per-second speeds and efficient mass production.
Multilayer photonic integration platform for free space optics
The BEAMS project aims to develop advanced silicon photonic devices using 3D integration for enhanced free-space optical communication, improving bandwidth, efficiency, and control flexibility.
OPTOLOCK
Het OPTOLOCK-project ontwikkelt een innovatief productieplatform voor geïntegreerde fotonica, gericht op het verbeteren van optische communicatie en medische diagnostiek door flexibele golflengte management devices.