1. BeH ā v Student Behavior FeedbackSystem

2. Overview Team BeHāV Overview Schematic Parts Software Hub Timeline Budget

3. Team Members Matthew Fargano Joshua Fedders Terrell Jones Nicholas Miller Mohamed Siddig Joseph Esler* *Software Systems Development Member

4. What is BeHāv? A Wireless System for Modifying Learning Disabled Students Behavior A System for Tracking the Progress of Learning Disabled Students

5. Features Wireless Small Size Long Battery Life Easy to Use Interface

6. Schematic

7. Schematic- USB & Transceiver

8. Schematic- Real Time Clock

9. Key Fob Originally we were considering using pre-programmable key fobs. However, this approach was unwarranted since we would have to reverse engineer the key fobs in order to make our transceiver on the other end communicate with it. Due to the synergy of the project, the key fob transmitter is similar in communication function compared to the receiver. This allows us to produce a transmitter almost directly from our receiver schematic. The major differences are: Key fob uses 2 buttons No Buzzer or Display

10. Microcontroller- MSP430F2272 Processes incoming events. Applies timestamp Stores data Outputs data to external PC

11. MSP430F2272 Advantages Large Flash Memory –32kB of Flash Memory Low Power Consumption UART, SPI, and I 2 C compatible interfaces Flash Memory Program Execution

12. Transceiver- MiRF v2 Low cost Low Power (Requires Switch Converter works with 3.3-7 V input) Works with in our required area (30ft Radius) 125 Channels (Between 2.4MHz – 2.525 MHz) Works in Open band (2.4GHz range) Built in Antenna Compact size Readily available Standby mode to save power

13. Transceiver- Dev Board Look at data sent and received over the wireless link. Can tweak firmware on the MiRF v2 (change channel used) Preloaded firmware for testing. Low Cost Dev Board

14. LED- Score Display Lite-on LTD-2701 7-segment LED Lower Power 7mm digit height High Contrast Wide Viewing Angle Low Cost Requires BCD

15. BCD to 7-segment Driver TI CD4511BE CMOS Latches input

16. Vibrator- DC Motor G13566 Costs less than $1 when bought in bulk 11 mm x 4.5 mm Runs on as low as 1V DC (.05W) Will require a MOSFET to power

17. Power Regulator ADP2105 Buck Converter 2.7V - 5.5V input range 3.3V output ~96% Efficiency 1 A max load current

18. Real Time Clock- MT41T0 Features: Seconds, minutes, hours, day, date, month, years, and century 32KHz crystal oscillator Serial interface supports I2C bus Low standby current 0.9μA (typ@3V) 2.0 to 5.5V clock operating voltage

19. Time Stamp Format 

20. Memory Capacity Flash Memory =32kB Firmware =10kB Event Logging Space =22kB # of Bytes for a event =555B ___________________________________ # of events that could be recorded = 4553 Or 10 Days of 1 event/min for 8 hours a day

21. Software Architecture Spec.

22. Sequence Diagram - Feedback

23. To hub or not to hub? Hub Advantages Single station for devices Hub Disadvantages Limited mobility Higher cost Limited expansion

24. Proposed USB Connect the Receiver directly to an external PC via USB. –Increased Mobility –Less Expensive –Supports any number of devices

25. USB Port Interface Allows communication between our devices and the PC through Mini USB connection. This allows a easier form of programming and data retrieval than original base station design. This connector interfaces directly with the MSP430’s UART. This provides the option to incorporate a rechargeable battery by connection to the USB. 5 V input from USB bus (for rechargeable battery) Variable baud rate 100mA maximum output current

26. Project Costs Real Time Clock$20.00 7 segment LED$15.00 PCB$120.00 MSP430F2270Sampled MSP430F2270 Dev BoardProvided Transceiver+Dev board$100.00 USB Interface$40.00 Stripboard$11.00 G13566 Motor$3.00 Voltage Regulator$2.25 Documents$60.00 Other$28.75 Total$400.00

27. Receiver Unit Cost MSP430F2272$3.00 DC Vibrator$1.00 Transceiver$28.00$6.00 7-Segment LED$6.50$2.00 Real Time Clock$5.00 USB Interface$25.00$7.00 PCB$40.00 Voltage Regulator$2.25 Total$110.75$66.25

28. Milestone 1 Wire wrap constructed system. Able to receive input from external Key Fob source. Timestamp and store events in internal flash. Can retrieve data from system via USB connection.

29. Milestone 2 PCB board assembled, debugged, and working. Displays score through 7-segment LED display. Data interfaces with Microsoft Excel.

30. Capstone Expo Delivers a single unit working BeHāv system with following features. –USB Interface –Time stamped events –7-segment LED display of current score –Vibrating receiver for feedback

31. Schedule

32. Tasks Mutual Tasks: Documentation, Tech manual, User manual Matt: Transceivers, MSP430 Firmware, and Proto-board lay out Josh: MSP430 Firmware, LED display, BCD Nick: Computer interface, USB, MSP430 Firmware, Real Time Clock Terrel: PCB, Transceivers, Proto-board lay out Mohamed: PCB, Real time clock, Transceivers, Proto-board lay out

33. Questions?