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TEAM 2

TEAM 2. Remote Control Car. Team #2: Total Resources. 500 Man hours $500 or key part availability for material and prototyping LPI-Sean (BSEE) LSD-Russ (BSEE) LPM-Adam (BSEE) LRM-Brad (BSEE) LMM-Barry (BSEE). Team #2 Project.

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TEAM 2

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  1. TEAM 2 Remote Control Car

  2. Team #2: Total Resources • 500 Man hours • $500 or key part availability for material and prototyping • LPI-Sean (BSEE) • LSD-Russ (BSEE) • LPM-Adam (BSEE) • LRM-Brad (BSEE) • LMM-Barry (BSEE)

  3. Team #2 Project • Our project is a remote control car, that can display battery life speed and direction, and can turn on the lights at the flip of a switch or if it gets dark. • The benefit to the user would be a better remote control car • There are similar types of products, however we are the only one that has all of these features. • Our product would fall under the consumer industry • Picture from http://www.rccaraction.com/

  4. Project Features • The remote control car has a two-way antenna that can transmit to and receive data from the car. • Control of the car will come from the controller. • The car can turn its lights on and off manually, and automatically if it gets dark enough. • The display will tell us the speed and direction of the car, and the battery life remaining.

  5. Team #2: Project 1Block Assignment Digital RF Trans / Rec Sean [4] RF Trans / Rec Sean [4] Digital Digital Digital Power Supply Brad [2] Ctrlr Processor Brad [3] Car Processor Russ [6] On Car Sensing Adam [8] Digital Analog Analog Electromechanical Control Russ[7] Digital Signal Input & Display Barry [1] Power Source Sean [5] PCB 1, power supply will be connected to all blocks PCB 2, power supply will be connected to all blocks

  6. System - Std Reqs: Marketing RequirementUnits to Specify • Traxxus, Tra5510 • $600 million, website • $200 • World-Wide • 6 yr. old to adult, boys • Home, toy • $80 / unit • $20 / unit • 6 million / yr • Competitors • Market Size • Average List Price • Market Geography • Market Demography • Intended Application • Material Cost • Manufacturing Cost • Annual Volume

  7. System - Std Reqs: Production RequirementUnits to Specify • 12,000 cm3 • 18,000 cm3 • 2 Kilograms • Tyco (e.g. IEC320, Nema, etc) • 5 • 200 cm2 Total • 50 G force • Max Volume • Shipping Container Size • Max Mass • Elec I/F Connector(s) • Max # of PC Bds • Max PCB Circuit Area • Max Shock

  8. System - Std Reqs: Mfg & Life Cycle RequirementUnits to Specify • 200 Total Parts • 100 Unique Parts • $80 (Parts+Mfg=Product Cost) • $20 (Parts+Mfg=Product Cost) • 3 yrs • 6 months • Repair • Max Parts Count • Max Unique Parts Count • Parts/Mat $ Allocation • Asm/Test $ Allocation • Product Life, Reliability • Full Warranty Period • Service Strategy

  9. System - Std Reqs: Enviroment RequirementUnits to Specify • 10-60 Co • 10-90% non-condensing • 0-3000 Meters • 0-80Co • 10-90% non-condensing • 0-3000 Meters • 1 year • Min Oper Temp Range • Min Oper Humidity Range • Min Oper Alt or Press Range • Min Storage Temp Range • Min Storage Humidity Range • Min Storage Alt or Press Range • Max Storage Duration

  10. System - Std Reqs: Power Interfaces RequirementUnits to Specify • Energy Source List • Source Connection List • Min Oper Voltage Range • Max Power Consumption • Max Energy Consumption • Battery (Nimh or Li Ion) • Temporary • 5-9.0 V and 5-15.0 V • 18.0 Watts Total • 6000 mAH Total

  11. System – Perf Reqs: Power RequirementDefinition • On/Off • Nimh • 6000 mA-Hrs • i.e. AA 1.5V • 10 bars • ⅛ battery life Modes of Operation CAR • Battery Chemistry • Battery Capacity Controller • Battery Pack • Display Segments • Accuracy

  12. System – Perf Reqs: Display • Mono Color • 150mm x 70mm • 1 meter • Any • 20 Total Char/Row, 4 Total Rows • 20cm x 10cm • LED • LCD Display: • Display size: • Max. Display Distance: • Viewing Environment: • Display Char Matrix: • Display Size: • Display Illumination:

  13. System – Perf Reqs: Operator I/F Inputs RequirementDefinition • 40 dB • 1% • 80 • .25V • .005s • 300m • Min SNR • Max THD • Min Power Gain • Max Error Voltage • Max Delay • Min EM Transmission Distance

  14. System – Perf Reqs: Mech Interfaces RequirementDefinition • Male pin, female socket • .5 Amps • .01 s • .5 Amps • .01 s • 5 V • Connectors • Signal 1 Max Current Limit • Signal 1 Max Trip Time • Signal 2 Max Current Limit • Signal 2 Max Trip Time • Max Potential

  15. System – Perf Reqs: Lights & Speed RequirementDefinition • ON/OFF/AUTO • None • ± 3 mph • 200 ms • 0-40 mph • Lights • Power Saving Modes • Accuracy • Updates • Speed Range

  16. System – Perf Reqs: Direction & Battery RequirementDefinition • 8 Directional Units • 200 ms • 0-5V logic levels • 200 ms • Accuracy • Response Time • Input/Output • Updates

  17. System – Perf Reqs: Safety Standards • UL2202 1.5-precautions so there is no risk to the user from the electrical circuit • UL 2111 1.5-precautions so there is no risk to the user from the motor overheating. • UL 1977-precautions so connectors don’t get blown out due to high voltage or amperage

  18. System – Perf Reqs: Safety Requirements • UL 2202- The maximum surface voltage is under 9.0V • Cispr 61000-6-3 – Our frequency will not operate in the 1910 – 1930 MHz frequencies bands. • UL 1977- Only use connectors rated type 0

  19. EMC Standards • 61000-4-2- ESD immunity test, essential in order to protect the product from electrostatic discharge from humans • 61000-4-4- ESD immunity test, essential in order to protect humans from the electrostatic discharge from the product • 61000-4-5- Determines if the product is safe from surges in power

  20. Signal Input Designed by: Barry Gentz

  21. Team #2: Project 1Block Assignment Digital RF Trans / Rec Sean [4] RF Trans / Rec Sean [4] Digital Digital Digital Power Supply Brad [2] Ctrlr Processor Brad [3] Car Processor Russ [6] On Car Sensing Adam [8] Digital Analog Analog Electromechanical Control Russ[7] Digital Signal Input & Display Barry [1] Power Source Sean [5] PCB 1, power supply will be connected to all blocks PCB 2, power supply will be connected to all blocks

  22. Block 1 • Signal input consists of 2 potentiometers, a switch, ESD protection, filtering, and logic gates. • Display mounted on the controller to relay information to the user which is able to be viewed in a dim/dark environment with backlight.

  23. Block 1 - Std Reqs: Env & Safety RequirementUnits to Specify • 10-60 Co • 10-90% non-condensing • 0-3000 Meters • 0-80Co • 10-90% non-condensing • 0-3000 Meters • 1 year • Min Oper Temp Range • Min Oper Humidity Range • Min Oper Alt or Press Range • Min Storage Temp Range • Min Storage Humidity Range • Min Storage Alt or Press Range • Max Storage Duration

  24. Block 1 - Std Reqs: Power Interfaces RequirementUnits to Specify • Energy Source List • Source Connection List • Operating Voltage Range • Max Power Consumption • Max Energy Consumption • Max Potential • Power Supply • Permanent/Temp • 4.9-5.1 V • 18.0 Watts • 1000 mAH • 9 V

  25. Block 1 - Std Reqs: Mechanical RequirementUnits to Specify • Tyco • 2 • 153 cm2 Total • 50 G force • Elec I/F Connector(s) • Max # of PC Bds • Max PCB Circuit Area • Max Shock

  26. Block 1- Std Reqs: Mfg & Life Cycle RequirementUnits to Specify • 25 Total Parts • 12 Unique Parts • $125 • $50 • 3 yrs • 6 months • Dispose • Dispose or Repair • Max Parts Count • Max Unique Parts Count • Parts/Mat $ Allocation • Asm/Test $ Allocation • Product Life, Reliability • Full Warranty Period • Product Disposition • Service Strategy

  27. Block 1 – Perf Reqs: Operator I/F Inputs RequirementDefinition • 60 dB • 1% • 80 • .25V • Min SNR • Max THD • Min Power Gain • Max Error Voltage

  28. Block 1– Perf Reqs: Mech Interfaces / Safety • Male pin • .005 Amps • .004 s • .005 Amps • .004 s • .005 Amps • .004 s • .160 Amps • .004 s • Connectors • Signal 1 Max Current Limit • Signal 1 Max Trip Time • Signal 2 Max Current Limit • Signal 2 Max Trip Time • Signal 3 Max Current Limit • Signal 3 Max Trip Time • Signal 4 Max Current Limit • Signal 4 Max Trip Time

  29. Signal Input Speed Display Analog Direction Processor Analog Lights Digital Power ( 5V )

  30. Signal Input: Signal Type Digital Analog

  31. Display : Power Display : Digital

  32. Power Supply Designed by: Brad LaCount

  33. Team #2: Project 1Block Assignment Digital RF Trans / Rec Sean [4] RF Trans / Rec Sean [4] Digital Digital Digital Power Supply Brad [2] Ctrlr Processor Brad [3] Car Processor Russ [6] On Car Sensing Adam [8] Digital Analog Analog Electromechanical Control Russ[7] Digital Signal Input & Display Barry [1] Power Source Sean [5] PCB 1, power supply will be connected to all blocks PCB 2, power supply will be connected to all blocks

  34. Power Supply Block Consists of 10 AA style batteries and a low-dropout voltage reference supplying 5V to the controller components.

  35. Block 2 - Std Reqs: Env & Safety RequirementUnits to Specify • 10-60 Co • 10-90% non-condensing • 0-3000 Meters • 0-80Co • 10-90% non-condensing • 0-3000 Meters • 1 year • Min Oper Temp Range • Min Oper Humidity Range • Min Oper Alt or Press Range • Min Storage Temp Range • Min Storage Humidity Range • Min Storage Alt or Press Range • Max Storage Duration

  36. Block 2 - Std Reqs: Power Interfaces RequirementUnits to Specify • Energy Source List • Source Connection List • Operating Voltage Range • Max Power Consumption • Max Energy Consumption • Battery • Temporary • 5.7-8.0 V • 18.0 Watts • 2800 mAH

  37. Block 2 - Std Reqs: Mechanical RequirementUnits to Specify • Tyco • 1 • 20 cm2 Total • 50 G force • Elec I/F Connector(s) • Max # of PC Bds • Max PCB Circuit Area • Max Shock

  38. Block 2- Std Reqs: Mfg & Life Cycle RequirementUnits to Specify • 30 Total Parts • 5 Unique Parts • $10 (Parts+Mfg=Product Cost) • $50 (Parts+Mfg=Product Cost) • 3 yrs • 6 months • Dispose • Dispose or Repair • Max Parts Count • Max Unique Parts Count • Parts/Mat $ Allocation • Asm/Test $ Allocation • Product Life, Reliability • Full Warranty Period • Product Disposition • Service Strategy

  39. Block 2 – Perf Reqs: Power Input(s) • 10 AA 1.5V Controller • Battery Pack

  40. Block 2 – Perf Reqs: Electrical Interfaces Electrical Signal ReqDirection • Output • Power Signal

  41. Block 2 – Perf Reqs: Operator I/F Inputs RequirementDefinition • 60 dB • 1% • 80 • .25V • Min SNR • Max THD • Min Power Gain • Max Error Voltage

  42. Block 2– Perf Reqs: Mech Interfaces / Safety RequirementDefinition • Male pin, Battery tray • 9V • Connectors • Max Potential

  43. Block 2 – Perf Reqs: Modes of Operation RequirementDefinition • ON/OFF • None • Power Modes • Power Saving Modes

  44. Controller Power SupplyBlock Diagram Battery Pack Lights Voltage Regulator 5V LDO CPU Speed Direction

  45. Power

  46. Block Prototyping Plan TemplatePower Supply

  47. CPU Control and Display Designed by: Brad LaCount

  48. Team #2: Project 1Block Assignment Digital RF Trans / Rec Sean [4] RF Trans / Rec Sean [4] Digital Digital Digital Power Supply Brad [2] Ctrlr Processor Brad [3] Car Processor Russ [6] On Car Sensing Adam [8] Digital Analog Analog Electromechanical Control Russ[7] Digital Signal Input & Display Barry [1] Power Source Sean [5] PCB 1, power supply will be connected to all blocks PCB 2, power supply will be connected to all blocks

  49. Block 3 :CPU and Display Description • Four line display • It is mounted on the controller to relay information to the user • Able to view in dim/dark environment – backlight • The Processor is used to coordinate and executed the function of the Controller • Display mounted on the controller to relay information to the user • Able to view in dim/dark environment – backlight • Chip on glass (COG) technology

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