OEIC Modules for the Access Network

Obiettivo

Project OMAN has the following objectives:

- To establish a common 'core' OEIC chip manufacturing process having reproducible yield.
- To establish a rugged, low cost interfacing/package technology for future use in European foundries.
- To demonstrate the capability of higher functionality components in relation to more advanced implementations of optical termination and cross-connect units for IBC.
- To demonstrate OEIC capabilities, and assess their suitability as IBC network elements, leading to standardisation.
The research had the following objectives:
to establish a common core optoelectronic integrated circuit (OEIC) chip manufacturing process having reproducible yield;
to establish a rugged. Low cost interfacing and package technology for future use in European foundries;
to demonstrate the capability of higher functionality components in relation to more advanced implementations of optical termination and cross connect units for integrated broadband communications (IBC);
to demonstrate OEIC capabilities and assess their suitability as IBC network elements, leading to standardization.

The research has resulted in the following:
the definition of the application areas for OEIC's within the access network from a system stand point;
the specification and design of critical integrable subcomponents for OEIC circuits planned for fabrication on the project;
progress towards rationalization of OEIC chip fabrication process and packaging;
fabrication of the first demonstration OEIC chip, incorporating a distributed feedback (DFB) laser diode, monitor diode, 3 dB coupler and wavelength division multiplexing (WDM) monolithically integrated on a semiinsulating substrate;
the realization of an OEIC module demonstrator based on the system requirements of a single fibre customer and designed to operate as a subscriber or head end optical line termination unit for a passive optical network;
the definition a generic set of optoelectronic modules with complementary functionality and standard defined interfaces for use within the integrate broadband communications network (IBCN).
Technical Approach

Project OMAN builds on demonstrators produced for RACE I by refining the OEIC manufacturing process to enable this technology to be used in early realisations of IBC. In parallel, the project pursues standardisation of optics within the IBC access network and plays a full part in the on-going network definition activities of RACE II.

The project reviews in detail the emerging capabilities of OEIC technology against identified application requirements with respect to performance, cost and functionality. The processes for design and construction of OEIC devices (as complete packaged modules) are being progressively developed towards defined targets for yield and device integrity. Yield data will be used to develop cost projections and establish the economic case for OEIC technology in the access network.

Five prototype module demonstrators and a WDM system demonstrator will be produced and evaluated by the partners within OMAN and by other RACE network projects. Project outputs from OMAN are submitted for inclusion in CFSs and CPRs.

Key Issues

- To demonstrate the advantages of InP based opto-electronics and optical signal processing.
- The contribution that realisable OEIC technology may make to IBC network definition and standardisation.
- Developments in network interface functionality, wavelength allocation, economics of fibre access, and advanced equipment practices.

Expected Impact

The expected benefits of opto-electronic integration within termination and interconnection equipment have been identified as low cost volume manufacture, and increased performance and functionality. Project OMAN will serve to establish this technology through collaboration on a European basis, and prepare a group of European industrial foundries to exploit the technology. The main impact of OEIC's will arise from realisation of cost advantages in equipment manufactured using these devices.

Campo scientifico (EuroSciVoc)

CORDIS classifica i progetti con EuroSciVoc, una tassonomia multilingue dei campi scientifici, attraverso un processo semi-automatico basato su tecniche NLP. Cfr.: Il Vocabolario Scientifico Europeo.

• ingegneria e tecnologia ingegneria meccanica ingegnerizzazione dei prodotti
• scienze naturali scienze fisiche elettromagnetismo ed elettronica optoelettronica
• scienze sociali economia e commercio scienze economiche
• ingegneria e tecnologia ingegneria elettrica, ingegneria elettronica, ingegneria informatica ingegneria elettronica elaborazione del segnale
• ingegneria e tecnologia ingegneria elettrica, ingegneria elettronica, ingegneria informatica ingegneria informatica telecomunicazioni reti di telecomunicazione reti ottiche

Programma(i)

Programmi di finanziamento pluriennali che definiscono le priorità dell’UE in materia di ricerca e innovazione.

• FP3-RACE 2 - Specific research and technological development programme (EEC) in the field of communication technologies, 1990-1994

Argomento(i)

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Invito a presentare proposte

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Meccanismo di finanziamento

Meccanismo di finanziamento (o «Tipo di azione») all’interno di un programma con caratteristiche comuni. Specifica: l’ambito di ciò che viene finanziato; il tasso di rimborso; i criteri di valutazione specifici per qualificarsi per il finanziamento; l’uso di forme semplificate di costi come gli importi forfettari.

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Coordinatore

Partecipanti (7)