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Hillary Beltran, Edward Crawford, Nicole Harris, Edward Lowe, Emily Proano, and Kevin Wong
05 October 2010
Mission objective: Take measurements of the concentrations of carbon monoxide, carbon dioxide, and methane gases
Expectations: Stagnant to slightly increased levels of each gas
Hypothesis: Concentrations have increased during the course of the year ◦ Not enough time to see effects of transition◦ Effects of Fourmile Canyon, Loveland, and Grand County
fires
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Purpose of Mission: The team’s interest in the quality of air and changes that were recently experienced over the past few years◦ World’s recent transition to more environmentally
sustainable resources and fuels◦ Recent forest fires in Colorado◦ Document any measured changes◦ Data retrieved from this flight will provide
standard
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Level Number Requirements
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1Payload must ascend to an altitude of approximately thirty kilometers with a balloon provided by the Edge of Space Sciences
2Payload must collect and store science data related to the mission objective
3 The internal temperature of the payload must remain above -10°C4 The total mass of the payload must not exceed 850 grams
5The payload must allow for a HOBO H08-004-02 and the provided external temperature cable
6The payload must allow for a Canon A570IS Digital Camera with two AA lithium batteries
7 The payload must carry an active heater system8 The payload must be constructed from foam core
9The payload must have contact information written on the external of the payload, alongside an United States flag
10The team will be ready to launch on November 6, 2010, at Windsor, Colorado, at 6:50 AM.
11The team shall adhere to all safety procedures outlined in the proposal
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Level Number Requirements
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1 Payload must remain attached to the flight string during the mission
2The payload will carry carbon monoxide, carbon dioxide, and methane gas sensors to record the concentrations of each gas at different altitudes
3The entire payload, including all electrical components and structural materials, shall weigh 760 grams
4The HOBO H08-004-02 shall measure and record measurements of internal and external temperature and relative humidity with the provided external temperature cable during the mission.
5The Canon A570IS Digital Camera will take and store images during the flight.
6Program the Arduino microcontroller with the integrated development environment using the Java programming language
7a Interface the carbon monoxide gas sensor to the Arduino microcontroller7b Interface the carbon dioxide gas sensor to the Arduino microcontroller7c Interface the methane gas sensor to the Arduino microcontroller
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Test the functionality of the gas sensors individually and then test the functionality of the sensors integrated together on the Arduino microcontroller by placing the sensors behind the exhaust pipe of a running automobile that belongs to a member of the team.
8Provide the necessary power to each electrical component and ensure that the recorded data is being properly stored
9Create a structure that can withstand the forces and extreme temperatures experienced during flight
Basic Circuit Structure & Implementation of Sensors◦ CH4, CO, CO2
◦ Calibration Writing Arduino Based IDE Software (Java) Testing of hardware and software (together) Analyzing Data
◦ Functions (ppm vs. altitude)◦ Colorado Department of Public Health and
Environment
Equipment overview:◦ Provided:
Foam core, digital camera, HOBO and external temperature probe, resistors, non-metal flight tube
◦ Purchased: Arduino microcontroller, carbon monoxide sensors, carbon
dioxide sensors, methane sensors, microSD card, breakout board, prototype board
Additional hardware will require approximately three days to arrive
◦ Not purchased: Dry ice, additional batteries, desiccants These can be purchased at a local store and can be
purchased within a day
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Materials & DeviceBudgeted
CostSource
Budgeted Weight
Structure
Foam Core Provided Gateway 20gInsulation Provided Gateway 10g
Desiccants $10 SilicaGelPackets.com 12g
HardwareCanon Camera Provided Gateway 220gHOBO Provided Gateway 30gHeater System Provided Gateway 100g
Arduino (2) $59.90 SparkFun 20g
ProtoBoard (2) $9.00 SparkFun 15g
Methane Gas Sensor (2)
$9.90 Sparkfun 30g
CO2 Gas Sensor (2) $33.98 Parallax 30g
CO Gas Sensor (2) $9.90 SparkFun 30g
Wiring Provided Gateway 20g Switches Provided Gateway 10g
1GB MicroSD $10 Sparkfun 3g
Batteries $50 Safeway 210gTOTAL $192.58 N/A 760g
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Date ScheduleSeptember 10, 2010 Team meeting (5:00pm – 8:00pm)September 12, 2010 Team meeting (3:00pm – 5:00pm)September 14, 2010 Complete Request for Proposal (RFP)September 15, 2010 Complete Conceptual Design Review (CoDR)September 16, 2010 Turn in RFP and give presentation on CoDRSeptember 19, 2010 Team meeting (4:00pm – 5:00pm)September 21, 2010 Turn in order form for electrical components and spare partsSeptember 21, 2010 Receive electrical components
October 4, 2010Begin programming the Arduino on the integrated development environment (IDE); code, interface with the Arduino, and test CO sensor; begin communications tests; begin power tests
October 5, 2010Design Document Revisions A/B and Critical Design Review due at 7:00amPre-Critical Design Review presentation (CDR)
October 6, 2010 Drop, roll, and whip testOctober 8, 2010 Code, interface with the Arduino, and test the carbon monoxide sensorOctober 10, 2010 Cooler testOctober 11, 2010 Code, interface with the Arduino, and test the carbon dioxide sensorOctober 18, 2010 Code, interface with the Arduino, and test the methane sensor
October 22, 2010Integrate electrical components and structures and perform all of subsystem tests to assess the functionality of the system as a whole
October 25, 2010 Final testing completed; final satellite completedOctober 26, 2010 Pre-launch inspectionOctober 28, 2010 In-class mission simulation testNovember 2, 2010 Design Document Revision C and Launch Readiness Review (LRR) dueNovember 5, 2010 Final satellite weight-in and turn-inNovember 6, 2010 Launch day (5:00am – 4:00pm)
November 30 – December 2, 2010 Final team presentations and reportsDecember 4, 2010 Integrated Technology and Learning Laboratory (ITLL) Design Exposition
Must be able to measure concentrations of carbon monoxide, carbon dioxide, and methane gases◦ Retrieve and store data on external memory
source Take and store images
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Using three individual sensors that independently measure the three prescribed gases◦ Store retrieved data on microSD card◦ Embedded by insulation and heated by heater
system, since directly exposed to atmosphere Images will be taken by the provided digital
camera Images will be stored on the camera’s microSD card
HOBO ◦ Store data recorded by external temperature cable
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Two major aspects to testing:◦ Structural tests◦ Hardware tests
Individual subsystem tests Integration of entire system
◦ Repeat tests performed for subsystem tests to ensure full system functionality and integration
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First test will be performed on Wednesday, October 6◦ Drop, roll, and kick test for preliminary model of
stucture Future tests and testing schedule will be
discussed later
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Structures Subsystem:◦ Drop, roll, and kick tests◦ Cooler test
Software Subsystem:◦ Test individual sensors◦ Interface sensors together and test using the 1-2-3 method◦ Test functionality with mission simulation test
Communications and Power Subsystems:◦ Interface power sources with HOBO, AVR, and heater◦ Test to see data retrieved is properly stored on microSD card
Entire system:◦ Repeat tests mentioned above
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In reference with the schedule shown earlier:◦ October 4: Begin programming the microcontroller on the
integrated development environment (IDE); code, interface, and test CO sensor; begin
communications tests; begin power tests◦ October 6: Drop, roll, and kick tests◦ October 10: Cooler test◦ October 11: Code, interface, and test CO2 sensor; continue
communications tests◦ October 18: Code, interface, and test CH4 sensor; continue
communications tests◦ October 22: Integration of entire system and repeat tests◦ October 25: Final testing completed; final satellite
constructed
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Carbon monoxide, carbon dioxide, and methane gas levels are within the normal range (good air quality and healthy)
Rise in levels of gases since Fourmile Canyon, Loveland, and Grand County fires
During mission flight, cut off of data after about sixteen kilometers
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Edward Lowe, JuniorElectrical System Engineer
University of Colorado at Boulder9202 Hallett Hall, Boulder, Colorado, 80310
Edward CrawfordSoftware Engineer
University of Colorado at Boulder9071 Libby Hall, Boulder, Colorado, 80310
Emily ProanoStructural System Engineer
University of Colorado at Boulder9119 Andrews Hall, Boulder, Colorado, 80310
Kevin WongProject Manager
University of Colorado at Boulder9041 Aden Hall, Boulder, Colorado, 80310
Hillary BeltranStructural System Engineer
University of Colorado at Boulder9071 Andrews Hall, Boulder, Colorado, 80310
Nicole HarrisElectrical System Engineer
University of Colorado at Boulder9019 Cockerell Hall, Boulder, Colorado, 80310
Integration of the electrical components
with power subsystem
Storage of data
Heating our electrical components
Stable readings from the sensors
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