Boston University Daniel Taylor Nima Badizadegan R. Terry Black Pantelis Thomadis
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Boston University
Daniel Taylor Nima BadizadeganR. Terry Black Pantelis Thomadis
Mission 1: Communications
• Determine packet loss in near-space environment– Measuring rate of packet loss
at varying altitudes
• Proof of concept for status beacon– Status beacon will begin
when BUSAT is launched, contains vital status information
– Important part of communications system
Mission 2: Magnetometer
• Testing magnetometer in different thermal environments
• Determine three orthogonal magnetic field vectors
• Determine how well the magnetometer will work near radio and power systems– Large source of interference
SHOT II / UN-7 Connection
• Communications system test– Packet loss– Near space environment– Proof of concept for beacon
• Magnetometer– Thermal testing– Stored data can be used for calibration in the
future– Same setup as on BUSAT
SHOT II Design – Block Diagram
SHOT II Design – Software
• No software needed for radio– Beacon set up automatically
• Microcontroller software:– Read data from Magnetometer every 42 seconds– Data stored in EEPROM (512 bytes total)– 113 data points per axis
SHOT II Design – Mechanical
SHOT II Test Procedure
• Chase balloon around with handheld Yagi antenna– Receive and record any packets received from the
beacon, can be checked for error rate• Magnetometer records data automatically
– One sample every 62 sec– EEPROM can be read when the payload is
recovered
Expected Data
• Magnetometer: 113 data points for each axis– Data comparable to IGRF data– Should indicate that magnetometer correctly
reads magnetic field (with error) over large temperature range
• Communications: packet loss data– Able to decode and read packets on the ground– Low packet loss (75% received)
Test Results• Structural Tests
– Payload survived all tests with minimal damage
• Functional Tests– Testing completed with
expected results– Successfully retrieved
magnetometer data– Communications received
80% of packets transmitted
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