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Published byRosaline Randall Modified over 9 years ago
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ClearVision Final Presentation Senior Design 1
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Team Members Travis Ann Nylin Electrical Engineer System Testing Schematic Data-Logging and Retrieval Josh Vance Electrical Engineer Team Leader ADC for Sensors System Testing User Interface Scott Speed Electrical Engineer Schematic Hardware User Interface Clint Howell Computer Engineer Website Data-Logging and Retrieval ADC for Sensors
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Outline Problem Problem Solution Solution Constraints Constraints TechnicalTechnical PracticalPractical Prototype Design Prototype Design Testing of Subsystems Testing of Subsystems Tilt SensingTilt Sensing Vibration SensingVibration Sensing Data-LoggingData-Logging Data-RetrievalData-Retrieval System TestSystem Test Design II Goals Design II Goals
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Problem Nissan needs a device to alert a test driver of possible alignment and/or vibration problems in newly manufactured automobiles.
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Problem Nissan’s current methods Visual inspection –Inaccurate and inconsistent Prototype device - only tests for tilt and mounts over airbag
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Solution ClearVision is a tilt and vibration detection device created for Nissan to alert a driver of possible alignment issues as well as vibration issues. ClearVision’s Features Tilt Detection Vibration Detection Data Logging Mounts Above Airbag -7.3° X y
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Constraints
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Technical Constraints NameDescription Tilt Detection Minimum range of ±90 degrees. Accuracy of ±0.5 degrees. Vibration Detection Minimum range of ±2 g. Accurate to ±20 mg. Power Consumption Operate continuously for up to 8 hours on a single battery charge. DisplayDisplay the measured tilt and vibration values. Data LoggingStore data at a rate of 50 Hz for up to 8 hours.
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Practical Constraints SustainabilityDurability The device must be durable enough to move from one vehicle to another as it is mounted and dismounted. ManufacturabilitySize The physical dimensions must be 12" x 2" x 4".
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Practical Constraints Cont. Sustainability-Durability Frequent movement from one vehicle to another Frequent movement from one vehicle to another It must mount and dismount quickly and securely It must mount and dismount quickly and securely The components must be secure enough to withstand this portability day in and day out for years to come. The components must be secure enough to withstand this portability day in and day out for years to come.
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Practical Constraints Cont. Manufacturability-Size Must mount on the steering wheel above the airbag Must mount on the steering wheel above the airbag Inner-Steering wheel dimensions of 12" x 2" x 4“ Inner-Steering wheel dimensions of 12" x 2" x 4“ Component Box dimensions of 6.25” x 2” x 2.5”. Component Box dimensions of 6.25” x 2” x 2.5”.
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Prototype
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Design Layout Micro Display USB Accelerometer Inclinometer SD
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Prototype Parts Philips LPC2148 Has onboard USB and Flash Allows the Use of FreeRTOS
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FreeRTOS User Interface Task Log Task Micro Sensors Task
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Prototype Parts Development Board
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Prototype Parts Accelerometer Accelerometer Breakout Board ADXL330k +/-3 g Shock Survival of up to 10 kg [4]
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Prototype Parts Inclinometer VTI On-board temperature correction Range ±30° / ±90° Accuracy of 0.03° Error Induced by Vibration is minimized [11]
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Prototype Mounted
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Testing
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Testing Tilt Vibration Data-Logging Data-Retrieval System Test
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Testing: Tilt Sensor Protractor on White Board to Draw Angles Protractor on White Board to Draw Angles Displayed & Tested One Axis at a Time Displayed & Tested One Axis at a Time
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Testing: Tilt Sensor
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Testing: Tilt Sensor Results xy Expected Angle Measured Angle Percent Error Expected Angle Measured Angle Percent Error 30°29.90.33%30°27.39.9% 20°200.00%20°19.71.5% 10°100.00%10°10.1-1.0% 0°-0.1 NA 0°-0.3NA -10°-100.00%-10°-9.55.3% -20°-200.00%-20°-19.90.5% -30°-29.42.04%-30°-25.318.6%
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Testing: Vibration Sensor Each Axis has a value of 1g and -1g on two of the six possible orientations ClearVision Upright Left Right Upside Down Flat Flipped
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Testing: Vibration Sensor Tested Each Axis at Each Orientation Those Values were used to verify Accuracy
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Testing: Vibration Sensor Results Observed Values for Vibration Axisxyz upright-1.0200.01 left0.011.0120.02 right0.020 flipped1.03400 Flat0.0100.96 upside down0.010.02-0.98 Expected Values for Vibration Axisxyz upright00 left010 right00 flipped100 Flat001 upside down00
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Data Logging and Data Retrieval
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Testing: Data -Logging Test of 10 Seconds Test of 10 Seconds 10.43 Actual Seconds 10.43 Actual Seconds 1043 Data Points 1043 Data Points
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Testing: Data -Logging
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Testing: Data -Logging Capacity Run Test for One Minute Run Test for One Minute File Size is 160K Bytes File Size is 160K Bytes 160K*60min*8hrs = 79.8M Bytes 160K*60min*8hrs = 79.8M Bytes
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Testing: Data-Retrieval Retrieve Data by USB Port Retrieve Data by USB Port When USB is Attached, Computer Reads the SD Card When USB is Attached, Computer Reads the SD Card Data Can be Graphed Using Any Graphing Software Data Can be Graphed Using Any Graphing Software
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System Test Power On: Displays “Press Start to Begin Test” Must be traveling at constant velocity Tilt and Vibration are displayed
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System Test Green LED stays illuminated until the values are “Out of Range” At which point the Red LED illuminates
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System Test All Data is sent to the SD Card USB can then retrieve the file
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Plan For Design II PCB Mounting System Battery with Charging System
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Power Consumption ComponentCurrent Draw LPC2148100 mA LCD5 mA ADXL3300.45 mA VTI Inclinometer5 mA LED’s52 mA Power Consumption
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Questions?
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