Advanced Technology

ARTES Advanced Technology is dedicated to long term technological development of the satcom industry based on ESA's initiative. This element focuses on research and development of new technologies and techniques in telecom satellites, ground and user equipment for future or evolving satcom systems.

Download the ARTES AT 2016, 2017 and 2018 Workplan
Download the ARTES AT Planned Activities Summary Table

News and Events

News and Events

  • Ka-band radio characterisation for SatCom...

    Satellite services in the High North are utilised extensively for both communication purposes and for earth and climate observations. The project results are based on up to three year measurements at 20 GHz with co-sited meteorological data. They suggest that services can be provided with 99 % availability for systems with elevation angles as low...

  • HRDCP

    The project’s first objective was the development of a Data Collection Platform Transmitter for METEOSAT HRDCP as well as for SRDCP and GOES. The transmitter is an essential component within autonomous DCPs working in environments with little or even no infrastructure for communication and electrical power supply. The second objective was the...

  • High Power Q Band Isolator

    The project was to design, manufacture and test a Q-Band 100 Watt class isolator EM capable to operate in full reverse power.

  • L-Band SSPA

    A high efficiency GaN based SSPA for avionics SATCOM applications has been developed. High efficiency with large HPA output back-off brought in by the Doherty architecture and digital pre-distortion linearisation provides passive cooling, flexibility of installation and size and cost savings.

  • AVAT

    Design and development of a prototype of a low profile aeronautical dual frequency band antenna designed for both Aeronautical Mobile Satellite (Route) Service (AMS(R)S) air-traffic management and other existing aircraft applications.

  • KaUF

    A Ka band feed chain, especially designed for user applications is developed. Dimensions and mass shall be minimised to enable an increased number of feed chains per satellite in order to realise higher data rates.

Contacts

  • Dietmar Schmitt
    • ARTES contact
    • ESA - ESTEC, Keplerlaan 1
      2200 AG , Noordwijk NH
    • +31 (0) 71 565 3534
    • +31 (0) 71 565 4598