Cansat 2011 PDR (UYARI) 1 UYARI TEAM PRELIMINARY DESIGN REPORT.

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Presentation transcript:

Cansat 2011 PDR (UYARI) 1 UYARI TEAM PRELIMINARY DESIGN REPORT

Cansat 2011 PDR (UYARI) 2  Quick Overview  Technical Presentation  Missions  Budgets  Emissions Contents

Cansat 2011 PDR (UYARI) 3 Quick Overview Parachute Mechanic Electronic Airbag Missions: Atmospheric Sounding Deploying of RF Antenna Taking Photo Airbag Terraforming Open Class Diameter 80 mm Height 200mm Mass < 1Kg Volume < 1lt

Cansat 2011 PDR (UYARI) 4 Landing System We will use autonomous structure in our landing system Our system aimed at stroke to ten-meter diameter of landing point will be controlled by the servo, using software The parachute system is designed to leave the satellite when the satellite neared the ground Parachute Parachute’s area is 48 cm 2 Designed to free parachute-type has seven cells

Cansat 2011 PDR (UYARI) 5 Mechanic One servo to control parachute One servo to seperate parachute system Airbag Terraforming Equipments RF Antenna Deploying Mechanism

Cansat 2011 PDR (UYARI) 6 Electronic Microcontroller GPS Module RF Module, Antenna Camera Module (Separate unit from RF Module) Humidity Sensor

Cansat 2011 PDR: (UYARI) 7 Missions 1.Atmospheric Sounding Degree of humidity Altitude value 2.Deploying of a RF antenna after landing Communication with ground station 3.Photo Taking enough quality photo 4.Airbag Airbags open when altitude is less than 4 meters 5.Terraforming Drilling a hole and leaving a crop

Cansat 2011 PDR (UYARI) C osts ComponentsPrice Battery 19 £ Rf Antenne – module 107 £ Photo – module 98 £ Servo (2) 7 £ (*2) GPS 48 £ Humdity Sensor 24 £ Structure 17 £ Terraforming 7 £ Total 334 £

Cansat 2011 PDR (UYARI) 9 Emissions: RF Module is CC1110EMK433 Apparent radiating power (ARP) (dBW) calculation: APR = 10*log10(Pe) + Ge Pe =1mW = W Ge= 1 (maximum) APR = 10*log (10*0.001) APR = APR = dbW 10mW = -2 dbW dbW< -2dbW

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