1 / 32

ECE 477 Design Review Team 10  Spring 2012

ECE 477 Design Review Team 10  Spring 2012. Paste a photo of team members here, annotated with names of team members. Nathan Irvin Will Bouchonnet Allen Humphreys Dan Sabo. Outline. Project overview Project-specific success criteria Block diagram

cullen
Download Presentation

ECE 477 Design Review Team 10  Spring 2012

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. ECE 477 Design Review Team 10  Spring 2012 Paste a photo of team members here, annotated with names of team members. Nathan Irvin Will Bouchonnet Allen Humphreys Dan Sabo

  2. Outline • Project overview • Project-specific success criteria • Block diagram • Component selection rationale • Packaging design • Schematic and theory of operation • PCB layout • Software design/development status • Project completion timeline • Questions / discussion

  3. Project Overview • The Home Enhancement Suite is a package that will control various aspects of a room in an autonomous fashion. • User recognition through RFID. Individual user profiles. • Control Lighting, HDMI-CEC device, and Electronic door lock • Wireless RFID readers placed in central location in room and at external door

  4. Project-Specific Success Criteria • An ability to detect a user based on RFID and determine which user has priority, displaying the user's identity on an LCD.  • An ability to adjust the light intensity to match a user’s settings through X10 protocol. • An ability to adjust a television set or other HDMI device using CEC-HDMI protocol, to a user's preferred settings. (ON/OFF, Channel, Volume) • An ability to unlock a door when an appropriate RFID is present. • An ability to select/set preferred settings through an embedded web server and the ability to save the "light settings" with the press of a button.

  5. Block Diagram

  6. Component Selection Rationale • Microcontroller • Microchip - PIC32MX664F064L • On-chip Ethernet Controller (6/7 Series) • USB Support (requirement removed) • Ethernet • National Semiconductor - DP83848C • Provided TCP/IP Stack Support • QFP Availability

  7. Component Selection Rationale • 12V-5V Regulator • Texas Instruments - UA78M05CDA • Output current up to 500 mA • Convenient SOT-223 package • 5V-3.3V DC/DC converter • National Semiconductor - LM3940 • SOT-223 package available with use of ground plane. (Full load of 1A will never be required)

  8. Component Selection Rationale • DC/DC 5V output Boost Converter • Maxim MAX756 • Full load efficiencies > 87% • Operates down to .7V • Optoisolator • Sharp PC3H712NIP • Inexpensive, High Collector-Emitter voltage >12v (Rated at 80V)

  9. Component Selection Rationale • RFID reader • ID Innovations ID-12 • Internal antenna • Simple interface to micro through UART • Wireless communication • MaxStreamXBee RF Module • Internal Antenna • 100’ Range

  10. Component Selection Rationale • Power Line Interface for X-10 • Micromint Serial Plix • Only manufacturer • Interfaces through SPI

  11. Packaging Design • Two packages • Controller Package • RFID reader Package • Designed to be easy to place and manage within a room in the house • Easy to see and access without being an eyesore or burden to the user

  12. Interfaces with all modified devices Basic UI for user Small LCD screen Reset Button RFID reader Contains ports for all devices Light sensor Packaging Design: Controller

  13. Contains simple ID-12 RFID reader Single cut section Accessing AA batteries Wireless Transmission No cords Easily placed anywhere in the house Packaging Design: RFID Reader

  14. Schematic/Theory of Operation • PIC32MX664F064L • SPI • UART • GPIO • Ethernet • X-10 communication via PLIX • ID-12 RFID Readers • Xbee Wireless Modules

  15. Power Supply

  16. PIC32

  17. PLIX and Door Lock

  18. Ethernet PHY

  19. Ethernet PHY

  20. Connectors

  21. RFID Reader Module

  22. PCB Layout – Main Board

  23. PCB Layout – Power Supply

  24. PCB Layout - Micro

  25. PCB Layout - Ethernet

  26. PCB Layout - PLIX

  27. PCB Layout – ID-12

  28. PCB Layout – RFID Module

  29. Software Design/Development Status • Real Time OS • Run web-based GUI • Round Robin polling • Check and service each module

  30. Software Design/Development Status • Light Sensor • X10 • Initial calibration for light levels • HDMI • CEC protocol • RFID • Receive transmissions from reader • Load user settings • Valid User • Priority • GUI

  31. Project Completion Timeline • March 7th – All parts available • March 11th- LCD / Debugging set up • March 25th – RFID communication working • March 25th – GUI complete • April 1st – X10 / Door lock working • April 15th – HDMI device interfacing properly • April 20th – User Manual complete

  32. Questions / Discussion

More Related