wireless test instrumentation for rotating parts
DESCRIPTION
Wireless Test Instrumentation for Rotating Parts . ECE 193 Advisor: Rajeev Bansal Olivia Bonner David Vold Brendon Rusch Michael Grogan ME 32 Advisor: Robert Gao Kyle Lindell Andrew Potrepka. Outline. Problem Statement Solution Parts Ordered Parts To Be Ordered - PowerPoint PPT PresentationTRANSCRIPT
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Wireless Test Instrumentation for Rotating Parts
ECE 193 Advisor: Rajeev Bansal
Olivia BonnerDavid Vold
Brendon RuschMichael Grogan
ME 32 Advisor: Robert GaoKyle Lindell
Andrew Potrepka
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∙Problem Statement∙Solution∙Parts Ordered∙Parts To Be Ordered∙Improvements To Electronics∙Energy Harvesting Options∙Battery Options∙Future Tasks∙Budget∙Timeline
Outline
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● Sikorsky has asked the team to come up with a proof of concept for a wireless sensing system.
● Benefits of a Wireless System:○ No long, heavy wires○ No slip rings○ Overall weight of system reduced
● Challenges of a Wireless System:○ Powering the system○ Large temperature range
■ -65 F to 400 F
Problem Statement
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Electronics Compartment:● Size: 1.5” diameter x 5.1” long● Temperature Range: -65ºF to 300ºF
Sensor(s):● Minimum of 2 sensor types● Temperature Range: -65ºF to 400ºF
Rotating Speed of Tail Rotor Shaft:● 1200 RPM
System Requirements
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Figure 1. System Block Diagram
System Block Diagram
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Figure 2. Power Circuitry Block Diagram
Power Circuitry
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● Sensor(s):○ Infrared thermometer○ Ambient thermometer○ Accelerometer○ Microphone
● Microcontroller:○ Arduino Nano v3.0
● Transceiver:○ WiFly Module
Ordered Parts
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● Energy Harvesting Method○ Brushless Generator
● Power Circuitry○ Rectifier ○ Switching Regulator○ Charging Circuit
● Battery○ Lithium cells (Li-Ion, Li-Poly)
Parts To Be Ordered
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● Previous Design:○ Custom built,
expensive to replace/modify
○ No documentation
○ Limited connectivity
○ Missing components
Improvements to Electronics
● Our Design:○ Greater
connectivity○ Small size○ Affordable○ Greater
available documentation
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● New Custom Design:○ Get only what we need in the size we want○ Prohibitively expensive (cost > $1300)○ Only can afford one○ Little documentation
● Off the shelf options (Arduino, Teensy):○ Excellent connectivity○ Available in our size○ Open sourced, excellent documentation○ Affordable (cost < $40)
Electronics Options
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● Small, low power evaluation board
● Plenty of documentedprojects and codeon website
● Many compatible sensors/add ons
for sale
Arduino Nano V3.0
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● Triple axis accelerometer
● Electret microphone
● Ambient thermometer
● Infrared thermometer
● Low-power wifi module
Sensor/Add-on Choices
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● Thermoelectric- Insufficient power from
available temperature gradient
● Piezoelectric- Too large- Insufficient power- Needs vibrations within a
narrow range of frequencies● Magnetic
- Sufficient power- Requires low KV motor,
gearing, or a step-up regulator
- Necessitates use of gravitational torque
Energy Harvesting Options
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● NiCd and NiMH- Quick and simple charging- Durable- Poor energy density- 1.2V per cell- Smaller temperature range- Memory (NiCd only)
● Lithium cells (Li-Ion, Li-Poly)- High energy density- 3.7V per cell- Various shapes available (Li-Poly)- Wider temperature range- More complex charging- Less durable
Battery Options
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Battery Charging Circuit Options
∙ Uses transistor, variable regulator, 2 capacitors, potentiometer, 1 Ohm/1 Watt resistor, 3 normal resistors
Create our own:
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Battery Charging Circuit Options
∙ Chip Features:∙ Charger Plus Pack Protection in One IC∙ Low Operating Current (550nA)∙ Near Zero Current (<0.1nA) Low Battery Disconnect Function to Protect Batteries from Over-Discharge∙ Pin Selectable Float Voltage Options: 4.0V, 4.1V, 4.2V∙ Ultralow Power Pulsed NTC Float Conditioning for Li-Ion/Polymer Protection∙ Suitable for Intermittent, Continuous and Very Low Power Charging Sources∙ High Battery Status Output
Using Power Management IC Chips:
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Battery Charging Circuit Options
∙ Chip Features: combines high-accuracy current and voltage regulation,battery conditioning, temperature monitoring, charge termination, charge-status indication, and AutoComp charge-rate compensation in a single 8-pin IC.
Using Power Management IC Chips:
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∙Different circuit – different layout inside capsule
∙Mount the rig to change pitch angle
∙Second set of wired sensors for data comparison
Test Rig: Potential Modifications
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Tasks for Next 45 Days
∙Assemble and test Arduino Nano with sensors
∙Assemble and test Wi-Fi module
∙Order: motors, batteries, charging circuit equipment
∙Make modifications to test rig as necessary
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Budget
Arduino Nano $35
Mini B USB Cable $4.50
Xbee Add-on Board $25
Wifi module $35
Nano Protoshield $15
Triple Axis Accelerometer $15
Infared Thermometer $20
Thermometer $1.50
Electret Microphone $8
DC Generator (Estimated) $20
Power Management Circuitry (Estimated) $30
Battery (Estimated) $100
Printed Circuit Board (Estimated) $200
Total $509
Purchase Breakdown
● Budget: $2,000
● Spent to Date: $159
● Additional Estimated Costs: $350
● Estimated Surplus: $1,491
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Timeline
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Questions
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Student Assessment
● Presentation Style
● Readability of Material
● Team results and deliverables are clear?
Grade A, B, or C with clicker