2RUAG Aerospace Sweden

RUAG corporate structure and markets

RUAG Holding RUAG Land Systems

RUAG Electronics

RUAG Aerospace

RUAG Ammotec

RUAG Components

Aviation & Space

Defence & Security

Ammunition & Products

Companies Market Areas

100 % Swiss confederation-owned technology holding company with HQ in Berne.

6 500 employees

3200 employees

www.ruag.com

3RUAG Aerospace Sweden

Space Business Unit at RUAG Aerospace

• Independent international space equipment supplier

• 650 employees in Austria, Sweden and Switzerland

• Sites in Berndorf, Emmen, Göteborg, Linköping, Nyon, Vienna and Wallisellen

LinköpingGöteborg

Berndorf

Vienna

Emmen

Wallisellen

Nyon

4RUAG Aerospace Sweden

Sales 2007

8 %0

100

200

300

400

500

600

700

800

900

1992

1993

1994

1995

1996

1997

1998

1999

2000

2001

2002

2003

2004

2005

2006

2007

Governmental ESA Commercial

46 %

46 %

MSEK

Includes RUAG Aerospace Austria

5RUAG Aerospace Sweden

Sales 2007 - Countries

Others 4%

Germany 25%

Great Britain 18%

The Netherlands 12%

USA 9% Sweden 6%

France 14%

Italy 2%

Austria 2%

Russia 4%Japan 1%

Spain 3%

Includes RUAG Aerospace Austria

6RUAG Aerospace Sweden

Our joint product portfolio is comprehensive

Space product portfolio

Services

Computer&Data handling

Signal Processing

Instruments

Microwave Electronics &

Antennas

Mechanical and Thermal

Systems

• GPS receivers • Navigation signal generators• Payload data processors• Radar P/L processing• Spread spectrum receiver

• Control electronic for science instruments

• Radio Occultation• Instruments for Life

Science and Space experiments

• Payload Fairings• Separation mechanisms• Structures• Position/deployment mechanisms• Sliprings• MGSE• Thermal Hardware

• Data Handling S/S• On-Board Computers• Interface Control Units• Guidance systems

• Frequency converters & Receivers

• Reflector antennas• TT&C antennas

• Applications, e.g. Security/Homeland Security

7RUAG Aerospace Sweden

Competencies and products

RUAG Aerospace in Sweden has expertise in:

AntennasMicrowave electronicsComputers & Data HandlingSeparation systemsSounding rocket guidance

And all that is needed to accomplish delivery of reliable hardware:Design & Analysis toolsElectronics manufacturing facilityTest FacilitiesMaterials and components laboratory

8RUAG Aerospace Sweden

• Staff 110 persons

• ManufacturingMulti Chip Module TechnologiesSurface Mount TechnologiesPlated Through Hole TechnologiesElectrical & Physical TestingEnvironmental testing:

- Thermal Vacuum- Vibration- EMC

• Process Development

• Component Technology

• Procurement

• Analysis Laboratory

• Clean Room- 2.700 m2 class 100.000 - 110 m2 class 10.000

Electronics Production Division

9RUAG Aerospace Sweden

Example: RosettaMission: To increase understanding of our solar system’s creation by analyzing a comet and its constituents. It will enter orbit around the comet 67P/Churyumov-Gerasimenko in 2014. It will place a lander on the comets surface. Rosetta began it’s journey on March 2, 2004

Saab Space High Gain Antenna in front.

Latest news: Rosetta made a flyby of the asteroid Steins September 5:th.

EXPRESS News: The Rosetta sisters Mars Express and Venus Express are all performing well equipped with Saab Space Data Handling Systems.

Rosetta releasing its lander.

10RUAG Aerospace Sweden

Example: GOCEMission: to investigate the Earth’s gravitational field and to map the reference shape of our planet

Saab Space contribution: GOCE widecoverage antennas with test cap.

STATUS: To be launched on a Rockot vehicle to a 260 km polar orbit from Plesetsk 10 September 2008!

11RUAG Aerospace Sweden

Customer: Thales Alenia Space /ESA

Example: Herschel/Planck

Command and Data Management Unit (CDMU): 3 FM incl. Basic Software (BSW)

Attitude Control Computer (ACC): 3 FM incl. Basic Software (BSW)

RUAG Aerospace Sweden delivers:

Separation system

Austria: Herschel Cryostat cover, MLI

Switzerland:

12RUAG Aerospace Sweden

Example: Proteus platform

Saab Space contributions:COROT was launched December 27,2006. Will study stars for 3 years.(CNES)

In 1996 CNES started the development of Proteus, a general mini-satellite platform for applications in Earth Observation, Telecommunication and Science. The first mission was the radar altimeter satellite JASON-1. Proteus launch mass is in the range 500-700 kg and is primarily intended for LEO operation.The Proteus platform is also used for the satellites CALIPSO, COROT, SMOS and JASON-2

Combined Data Handling and AOCS Unit

S-band TT&C antenna

STATUS: Six units delivered, fourlaunched. SMOS planned for spring -09.

Last unit could become JASON-3 (ex Megha-Tropique)

13RUAG Aerospace Sweden

Example: GAIA

The mission: To create a three-dimensional map of our Galaxy and to study the composition, formation and evolution of the Galaxy. GAIA will provide unprecedented positional and radial velocity measurements. GAIA will map about one billion stars in our Galaxy (1 per cent of the galactic stellar population).

Launch date: December 2011Mission end: 2020Launch vehicle: Soyuz-Fregat

Saab Space contribution:

•Control and Data Management Unit: Housekeeping, Reconfiguration, Attitudecontrol, science data storage & downlinking

•ERC-32 core asin Aeolus/Pleiades

STATUS:

•EM delivered

•PFM January-09

•Excellent projectperformance!

14RUAG Aerospace Sweden

Example: SWARM

The mission: The three-satellite Swarm mission, due for launch in the 2010 timeframe, will provide the best-ever survey of the Earth's geomagnetic field and its variations with position and time. Thespacecraft will operate in polar orbits between 400 and 550 km altitude.

The Earth’s Magnetic Field and Environment Explorers

Saab Space and Austrian Aerospace are developing a space qualified Precise Orbit Determination (POD) GPS receiver for SWARM.

The receiver will be used to control orbit parameters and to pinpoint positions of data registrations with 1 meter accuracy through post-processing.

STATUS: EQM equipment have been delivered to AAe for instrument integration and test

New orders: GMES Sentinel 1, 2 and -3!

Swarm POD receiver

SWARM POD receiver antenna

Technical data:Dimensions: 300x240x104 mmMass: 3 kgNavigation accuracy: 20 mPOD: 1 m (post–processing on ground)Range measurement accurracy: 5/10 mm

15RUAG Aerospace Sweden

Carries a 70 kg multifunction microwaveinstrument:

•Radar Altimeter

•Synthetic Aperture Radar (SAR)

•Interferometer

•Three year mission in 720 km polar orbit

Saab Space is buildingthe instrument antennapair with extreme requirements on thermal/mechanical stability

Antennas for Telemetry and telecommand are also Saab Space contributions

Mission: To measure variations and trends in polar ice sheets to verify climate change theories and to understand seaice impact on ocean circulation

Example: Cryosat-Siral

STATUS: Antenna delivery in December 2007.

Antenna performance evenbetter than for SIRAL-1

Satellite environmental tests ongoing

Dnepr launch during fall 2009.

16RUAG Aerospace Sweden

Example: Prisma

7 Antennas and 6 test caps are delivered to TAS/CNES for usein the RF-based position measurement system.

Manufacture and integrate the structure of the mothercraft.

Layout, procurement & manufacture of system unit.

17RUAG Aerospace Sweden

RUAG Aerospace delivers for IOV (In Orbit Validation):

Galileo C-band antenna

Launcher dispenser system for multiple satellite launch.

Example: Galileo

Navigation Signal Generation Unit

Security unit processor

Mission receiver

Platform computer (ICDU)

S-band antenna

Austria: NSGU, ICDU boards, MLI, MGSE

Switzerland: SADM Slip Rings