1 / 25

Kahnec De La Torre Lead Report Manager Mike Haynes Lead Manufacturing Manager Bounnong Khamphoumy

EE595: Capstone Project –Team #1. Kahnec De La Torre Lead Report Manager Mike Haynes Lead Manufacturing Manager Bounnong Khamphoumy Lead Project Integrator Jason Knedlhans Lead System Designer Joseph Spitz Lead Presentation Manager. Team #1: Degrees Sought. BSEE BSEE BSEE BSEE

pjessica
Download Presentation

Kahnec De La Torre Lead Report Manager Mike Haynes Lead Manufacturing Manager Bounnong Khamphoumy

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. EE595: Capstone Project –Team #1 • Kahnec De La Torre • Lead Report Manager • Mike Haynes • Lead Manufacturing Manager • Bounnong Khamphoumy • Lead Project Integrator • Jason Knedlhans • Lead System Designer • Joseph Spitz • Lead Presentation Manager

  2. Team #1: Degrees Sought • BSEE • BSEE • BSEE • BSEE • BSEE • Bounnong Khamphoumy • Kahnec De La Torre • Mike Haynes • Joseph Spitz • Jason Knedlhans

  3. Team #1: Expertise • Expertise: Electronics • Expertise: Programming, Wireless Networking • Expertise: VHDL • Expertise: Cacophonic Circuits • Expertise: Audio, EMC, Electromagnetic Fields • Bounnong Khamphoumy • Kahnec De La Torre • Mike Haynes • Joseph Spitz • Jason Knedlhans

  4. Team #1: Contact Information • Phone: 262 – 366 – 7068 Email: bounnong@uwm.edu • Phone: 608 – 345 – 4782 Email: kahnec@gmail.com • Phone: 262 – 719 – 5979 Email: mchaynes@uwm.edu • Phone: 920 – 450 – 9628 Email: jrspitz@uwm.edu • Phone: 414 – 559 – 5173 Email: jasonlk3@uwm.edu • Bounnong Khamphoumy • Kahnec De La Torre • Mike Haynes • Joseph Spitz • Jason Knedlhans

  5. Team #1: Weekly Availability Worksheet • Mon.&Wed: 5:30 – 9:00 PM • Mon.&Wed: 4 – 8 PM, Tues: 2 – 6 PM • Wed.&Frid: anytime • Tues.&Thurs: 3 – 6:30 PM • Mon.&Wed: 5:00 – 10:00 PM • Bounnong Khamphoumy • Kahnec De La Torre • Mike Haynes • Joseph Spitz • Jason Knedlhans

  6. Team #1: Weekly Project Meeting Plan • Mandatory Weekly Meeting : IEEE office, Thursday 5 - 7 PM • Emergency Weekly Meeting 1: IEEE office, Friday 12 - 4 PM • Emergency Weekly Meeting 2: IEEE office, Sunday 10AM - 1 PM Note: Meeting Owners Send Weekly Email Notices, Record Business-Issues-Actions, Keep Weekly Attendance Records

  7. Team Fundamentals Resources • 780 Resource hours (calculated at 12 hours per week per person for 13 weeks) • $250 (calculated as $50 per team member) Decision Making • We will attempt to reach a consensus for all decisions, in the event that we are unable we will make decisions based on majority rule.

  8. Proposed Projects • Cellular Automotive Door Alarm • RF Triggered Pet Access Door • Electronic Musical Instrument

  9. Proposed Project No. 1 Cellular Automotive Door Alarm Key Features • Sensors located across from each other, one on the door and one on the frame. • Microcontroller is activated by power door locks. When door is opened and the controller is active, the transmitter sends a text message to a specified cellular phone. Requirements • 12.4 volt battery • Transmitter flexible with cellular standards Justification of Dismissal • Unable to clearly define how to design the transmitter • Cellular technology differs too much

  10. Proposed Project No. 1 Cellular Automotive Door Alarm Power Supply CELLULAR CONTROLLER Microcontroller Power Locks Sensors Transmitter Receiver/Cellular Phone

  11. Proposed Project No. 2 RFID Triggered Pet Access Door • An access door for a pet that would unlock to allow the pet access through the door. • Triggered by tag embedded under the pets skin. • This tag is available for tracking lost pets and is already widely distributed. • No need for a separate collar that could be lost. • Allows pet owner to determine if the pet is in or out. • Would run on AC power and have a user friendly interface with LCD display to instruct user on setting up the device. • Also manual unlock button. • Only one block outside of current areas of expertise to promote high probability of success.

  12. Proposed Project No. 2 RFID Triggered Pet Access Door Controller Input/Output Buttons / Beeps Output – RunningLED Reader Control Transmit/Receive of Antenna Mechanicals Lock On/Off, Door Design, sensors Antenna (including cable to Reader) Power Supply / Conversion

  13. Proposed Project No. 3 Musical Instrument (Analog Synthesizer) • Unique interface provides unique control over sounds • Digital effects processing for timbre control • Analog effects for even more timbre control • Modular nature of this project allows for flexibility of scope

  14. Proposed Project No. 3 Musical Instrument (Analog Synthesizer) • Interface • Selects different voltages corresponding • to different musical pitches • Low Frequency Oscillator • Creates audio signal from interface voltages • Power Supply • From 120v or battery to supply power to the other blocks • DSP Effect • Performs wave-shaping using DSP • Analog Effect • Optional “overdrive” effect using analog circuit

  15. Project Selection Process • Evaluate Proposed projects (3) • Feasibility Assessment • Interest • To bring the project choices to two • Majority Vote • 3 to 1 in favor of the Instrument • Dissenting vote based on skepticism of project feasibility. • Risks • Failure • To produce sounds. • To implement interface successfully. • To mix signals.

  16. Selected Project • A musical instrument • Enables user to produce varied sounds with effects • Unique interface • Unique sound production • New variation on synthesizer • Requires both hands to play Musical instrument driven by touch sensitivity to produce electronic sounds

  17. Selected Project

  18. The Instrument JS MH KD User Interface JK BK DSP State Attack / Decay Select Analog Comparison System Freq Sel VOL AES DES Low Freq Oscillator DSP EFFECTS Analog Effects ADC Power Supply Pre Amp / AGC Processor Memory DAC Analog Output < 2V

  19. Standard Requirements Market • Economic • Total Market Size: $200,000 • Estimated Annual Volume: 100 • Minimum List Price: $2,000 • Maximum Product Material Cost: $250 • Maximum Production Cost: $200 • Marketing • Market Geography: U.S.A. • Market Demography: Musicians • Competitors: Roland, Yamaha, Tascam

  20. Standard Requirements Environmental • Operating Temperature Range: 0 – 60 OC • Operating Humidity Range: 0 – 100 % R.H. non-condensing • Storage Temperature Range: -10 – 70 OC • Storage Humidity Range: 0 – 100 % R.H. non-condensing • Storage Duration: 1 year

  21. Standard Requirements Power • Input Voltage Range: 102 – 132 Vac • Maximum Power Consumption: 250 W Life Cycle • Product Life Time: 10 years • Full Warranty Period: 60 days • Service Strategy: Factory Repair

  22. Standard Requirements Mechanical • Maximum Dimensions: 30.5 x 10.2 x 76.2 cm • Maximum Product Mass: 5 kg • Maximum Number of PCBs: 3 • Maximum PCB Area: 465 cm2

  23. Multiple Tap Selectors Analog Effects Digital Effects Bypass Circuits Attack/Decay Set Analog Inputs Amplitude Control Performance Requirements User Inputs • Frequency Selector • Analog • Soft Potentiometer • Toggle Switches • Analog Select • Digital Select

  24. Performance Requirements User Indicators and Displays • Three 7 Segment Displays • DSP Effect State • Effect Parameters • LED Indicators • Analog Effect Select • Digital Effect Select • On/off Indicator

  25. Performance Requirements Electrical Interfaces • ADC & DAC • 16 bit • 44.1 kHz Sampling • Propagation Delay – Input to Output < 50 ms

More Related