ESA Microelectronics Section

Developing advanced microelectronics devices and technology for the next generation spacecrafts

About Microelectronics

The section is responsible for the microelectronics design, technology, and methodology needed by on-board control, data and signal processing systems for spacecraft platform and payloads.

Responsibilities

The section’s responsibilities include:

  • using microsystems technology and techniques that permit partial or full system integration on a single chip
  • establishing VLSI design methods and techniques to achieve miniaturised low-power high-speed IC design, ensuring good levels of testability, reusability, and reliability
  • evaluating new technologies and CAD tools, assembly, and packaging techniques from an application perspective
  • investigating the usage of deep submicron commercial technologies for space applications by improving radiation performance purely by design

The section provides technical support and expertise in integrated circuits design and technology for spacecraft platform and payloads and for space-related ground applications. This technical support extends to all programme directorates including Navigation and Telecommunications, Earth Observation, Science and Manned Space flight, and Microgravity.

Autocorrelation Spectrometer Chipset by Omnisys AB
Autocorrelation Spectrometer Chipset by Omnisys AB

It defines and launches internal and external activities to ensure the short, medium-, and long-term availability of key components that are qualified for use in space. Examples of suchcomponents are application-specific integrated circuits (ASICs), programmable devices (for example, FPGAs), reusable soft building blocks (synthesisable IP cores or macro cells), multi-chip modules (MCM) and chip-sets, and other specialised and highly integrated semiconductor devices (for example, active pixel sensors).

Background information

LEON2FT processor

The applications, the nature of the technology (digital, analogue, and mixed) and the functions that are of interest to the section is very broad. Examples include such diverse fields as data handling and control, microprocessors and microcontrollers (for example, ERC32, LEON), bus nodes and routers (AMBA, PCI, 1553, CAN, and SpaceWire), CCSDS/ECSS communication protocols (telecommand and telemetry), DSP for image processing, navigation and telecommunication receivers, radiation detectors front-ends, and image sensors.

Some of the section's activities also aim at ensuring the availability, accessibility, and reliability of semiconductor technology and manufacturing processes that are suitable to produce space components (EQML and MIL Silicon technologies of different geometries, Multi-Project Wafer Programmes, Assembly, Packaging and Test resources).

It is heavily involved with ASIC/FPGA/System-on-Chip design methodologies, including emerging hardware-software co-design techniques.

Another significant responsibility is for preventive and mitigation techniques against radiation effects in integrated circuits. Examples of this are radiation hardened by design libraries, single-event upset (SEU) hardening at register transfer level or gate-level netlist topology, safe use of reprogrammable FPGAs in space, SEU emulation, and effects analysis.

Last update: 29 April 2014

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