• → European Space Agency

      • Space for Europe
      • Space News
      • Space in Images
      • Space in Videos

    • About Us

      • Welcome to ESA
      • DG's News and Views
      • For Member State Delegations
      • Business with ESA
      • ESA Exhibitions
      • ESA Publications
      • Careers at ESA

    • Our Activities

      • Space News
      • Observing the Earth
      • Human Spaceflight
      • Launchers
      • Navigation
      • Space Science
      • Space Engineering
      • Operations
      • Technology
      • Telecommunications & Integrated Applications

    • For Public

    • For Media

    • For Educators

    • For Kids

    • ESA

    • Space Engineering

    • What we do
    • Directorate of Technical and Quality Management (TEC)
    • Electrical
    • Electrical engineering
    • Control Systems
    • Data Systems
    • Radio Frequency Payload Systems
    • Electromagnetics and Space Environment
    • Power and Energy Conversion
    • Mechanical
    • Mechanical engineering
    • Thermal Control
    • Structures and Mechanisms
    • Mechatronics and Optics, incl. robotics and life support
    • Propulsion and Aerothermodynamics
    • Systems
    • Systems and software engineering
    • Software Systems
    • Systems Engineering, incl. cost engineering
    • Technology programmes
    • Product Assurance
    • Product Assurance
    • Flight Safety
    • Dependability
    • Quality Management and Assurance
    • Materials and Processes
    • Electronic Components
    • Software Product Assurance
    • Standards
    • Requirements and standards
    • European Cooperation for Space Standardization (ECSS)
    • European Space Components Coordination (ESCC)
    • Services
    • ESA calendar of events
    • Subscribe

    ESA > Our Activities > Space Engineering

    SMOS payload testing
    SMOS payload testing

    Structures and Mechanisms

    A spacecraft’s structure is its underlying body, tasked with keeping the spacecraft suitably rigid to support its instruments and subsystems. Mechanisms, conversely, are onboard devices whose function is based around movement.

    What is the Structures and Mechanisms domain?

    Structures and Mechanisms involves all activities connected to the launcher and satellite structure and the moving parts associated with it. The structure provides a strong supporting framework to house payloads, instruments and satellite subsystems, especially through the stresses of launch.

    Moving mechanisms attached to the rigid structure are crucial to mission success. They include motors, reaction wheels and deployment systems for folded-down antennas or solar arrays. Other examples include sensor pointing and scanning mechanisms, gravity-detecting gradiometers and valve and turbopump components for propellant systems.

    Last update: 22 April 2010

    Rate this

    Views

    Share
    • Currently 5 out of 5 Stars.
    • 1
    • 2
    • 3
    • 4
    • 5
    Rating: 5/5 (1 votes cast)

    Thank you for rating!

    You have already rated this page, you can only rate it once!

    Your rating has been changed, thanks for rating!
    155
    facebook
    twitter
    reddit
    google plus
    digg
    tumbler
    digg
    blogger
    myspace
    • More information
      • Structures and Mechanisms
        • Why is Structures and Mechanisms important?
          • What innovations does Structures and Mechanisms involve?
            • What applications and missions does Structures and Mechanisms enable?
            • Learn more about...
            • Structures
            • Mechanisms

    Connect with us

    • RSS
    • Youtube
    • Twitter
    • Flickr
    • Google Buzz
    • Subscribe
    • App Store
    • LATEST ARTICLES
    • · CryoSat hits land
    • · Ariane 5 completes seven launches …
    • · Measuring skull pressure without t…
    • · Malargüe station inauguration
    • · The solar wind is swirly

    • FAQ

    • Jobs at ESA

    • Site Map

    • Contacts

    • Terms and conditions