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P14452: Subsystems Design Review . Review. Where we left off. Updated Engineering Specifications. Previous Functional Decomposition. Capture Data. Store Data. Power Device. Protect Device. Chosen Concept. Materials Analysis. Building a Better Box. Plan. Comparisons of Materials
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Review Where we left off
Materials Analysis Building a Better Box
Plan • Comparisons of Materials • Acetal Resin (Delrin®-150) • Polysulfone • Polyester (Ertalyte® PET-P) • Aluminum 6061 • Applied Loads • 100psig applied to external surfaces • 200F applied to bodies
Acetal Resin (Delrin®-150) Properties ANSYS Simulation • Max Operating Temp • 180F • Yield Strength • 10400psi • Modulus • 450ksi • CTE • 278μin/in-°F • Cost: 1.5”x6”x6” sheet • $35.71 • Max Deformation • .060” • Max Stress • ?
Polysulfone (PSU) Properties ANSYS Simulation • Max Operating Temp • 285F • Yield Strength • 10900psi • Modulus • 390ksi • CTE • 29.4μin/in-°F • Cost: 1.5”x6”x6” sheet • $147.83 • Max Deformation • .006” • Max Stress • 6862 psi
Polyester (Ertalyte® PET-P) Properties ANSYS Simulation • Max Operating Temp • 210F • Yield Strength • 12400psi • Modulus • 490ksi • CTE • 33μin/in-°F • Cost: 1.5”x6”x6” sheet • $48.57 • Max Deformation • .007” • Max Stress • 9744 psi
Aluminum 6061 Properties ANSYS Simulation • Max Operating Temp • 500F • Yield Strength • 40000psi • Modulus • 1000ksi • CTE • 13.1μin/in-°F • Cost: 1.5”x6”x6” sheet • $53.44 • Max Deformation • .003” • Max Stress • ?
Weight Mass: Acetal: .0671 lb (30.4g) Polysulfone: .0586 lb (26.6g) Polyester: .0472 lb (21.4g) Aluminum: .1275 lb (57.8g) • Density: • Acetal: • .0513 lb/in3 • Polysulfone: • .0448 lb/in3 • Polyester: • .0361 lb/in3 • Aluminum: • .0975 lb/in3 Volume: 1.3075 in3
Other Properties • Thermal Conductivity • Acetal: • 2.5 BTU-in/hr-ft²-°F • Polysulfone: • 3 BTU-in/hr-ft²-°F • Polyester: • 2 BTU-in/hr-ft²-°F • Aluminum: • 1160 BTU-in/hr-ft²-°F • Electrical Resistivity • Acetal: • 1015 ohm-cm • Polysulfone: • 1016 ohm-cm • Polyester: • 1012 ohm-cm • Aluminum: • 10-6 ohm-cm
Case Geometry The Best Things Come in Small Sizes
PCB Dimensions Show 3D Rendering
Mounting • Two part solution • Flange Base • Through Hole in each corner • Can be used to mount directly • Adapter Plates • Attach to flange base • Allow for Mounting on existing holes • Allow for adhesive, zelcro, magnets, etc.
Generalized Design • Rectangular Prism • 1-3 Ports for Analog I/O • 1 Micro-USB Port • Charging • Data Access • Flange Base • Fasten from Bottom • Locks access to inside of device when mounted • Provides Mounting Holes
Microcontrollers Choosing a Better Brain
Criteria 2: ADC Type Successive Approximation Sigma-Delta 12-24 bit Accuracy Slow Sample Rate (<200kS/s) No External Low-pass Filter Filter is part of sampling process Must be careful of bit width effect on frequency range • 10-12 bit Accuracy • Fast Sample Rate (>200kS/s) • Requires External Low-pass Filter • Costs Board Space • 3 Op-amps (Bi-Quad) • Resistors and capacitors
Criteria 3: Serial Throughput (SD) * at 10kHz sampling rate
Criteria 4: I/O Capability • SD Card • 1 SPI interface • 1 Serial Clock • USB Data Access • 1 USB UART • ADC • 1-4 ADC Channels • GPIO • 1 Digital (SD) • >2 Digital for Hardware Sampling Rate (per channel)
Criteria 5: Processor Speed • ADC requirement • 10000 Samples/s per Channel • May take more than 1 cycle per sample to read from ADC • Estimated Minimum Speed • 40000 Samples/s (4 Channels) • 2 Cycles per Sample Read • 112 Cycles per Sample Write • 5 Bytes Data • 1 Bytes Channel ID • 5 Bytes Timestamp • 2 Bytes “,” • 1 Byte CR • 4.56 MHz
Microcontrollers STM32F373 MSP430F67XX 16-bit RISC ( 8-25 MHz) No Floating Point No DSP Instructions 3 Sigma-Delta ADC 24-bit 31 kHz per channel max DMA Interface ADC Synchronization 2 SPI (5 Mbit/s) 52 or 72 GPIO No USB • 32-bit ARM M4F (72 MHz) • Floating Point • DSP Instructions • 1-3 Sigma-Delta ADC • 16-bit • 16.66 kHz max per channel • DMA Interface • ADC Synchronization • 3 SPI (18 Mbit/s) • Up to 84 GPIO • 1 USB UART (12 Mbit/s)
Input Conditioning The Large Signal Problem
Attenuation Circuit Use resistor bridge to reduce the voltage for input to microcontroller Set a unity gain Also decreases the current going into the uC
Simplified Circuit Simplified circuit
Power Source Phenomenal Cosmic Power. Itty Bitty Living Space.
LiPo vs. Ultra Capacitor Ultra Capacitor (KEMET FT0H105ZF) LiPo Battery (All-battery.com 602025) Base: 25mm x 20mm Height: 6mm Area=3000mm^3 Voltage = 3.7V 240 mAh Max Current is 48mA for 5 Hours Weight = 4 grams Price for 5-10$3.25 each http://www.all-battery.com/polymerli-ionbattery37v240mah602025.aspx • Diameter = 21.5mm (0.846in) • Height = 13mm(0.512in) • Area= 1502mm^3 • Max Voltage 5.5V • 1F capacitance • Max current is 1.5mA for 30 mins • Weight = 10 grams • Price 1$4.23, 10$38.03 • KEMET FT Series pages 2-4
LiPo Charging Spark Fun Power Cell – LiPo Charger/Booster Micro USB charging $19.99 breakout board for testing Eagle Files Available for PCB layout
Schematic for LiPo Charging and Booster https://www.sparkfun.com/products/11231
Components Required LiPo Charger and Booster • MCP73831/2: LiPo Charging IC • Can get free samples • TPS61200: 5 volt, 600mA boost converter • Can get free samples • Used for powering sensors and other components • JST connector $0.95 • Micro USB SMD Connector $1.95 • Resistors and Capacitors <$2.00
Action Items The Road Ahead
Mechanical Action Items Materials and Modelling Sensor Characterization Catalog Existing Sensors in Compressor Centralized Collection of Data Sheets Reference Card for Sensors Voltage Range Current Output Frequency Ranges Optimal Sampling Rate Voltage to Unit Conversion Factor • Choose Final Material • Solid Modelling • Small Device • Large Device • Ansys Simulations • Small Device • Large Device
Electrical Action Items PCB Analog Analysis Attenuator Final Design Differential Amplifier Precision Voltage Reference Input Voltage Clamping Overvoltage Protection LiPo Charging Circuitry • Finalize Electrical Schematics • Small Device • Large Device • Finalize PCB Designs • Small Device • Large Device • Final Component Selection
Computer Action Items Algorithms Processes Sampling Procedure Channel Switching Multiple Sampling Rate Switching DMA transfers Offload SPI Offload ADC Processor can focus on filtering and coordinating • Digital Filtering • Sample Ordering • Timestamp Calculation • Processor Initialization Routines
Questions? El fin.