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History. Justin Project Justin Moninger Car Accident Different Technologies 300Mhz 433mhz. Version 1.0. Transmitter/Receiver 433Mhz Accelerometer Comparator Dip Switches. Accomplishments. Goals Met No User Input Range $$$ - Cheap Weather Proof. Issues and Problems. Problems
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History • Justin Project • Justin Moninger • Car Accident • Different Technologies • 300Mhz • 433mhz
Version 1.0 • Transmitter/Receiver • 433Mhz • Accelerometer • Comparator • Dip Switches
Accomplishments • Goals Met • No User Input • Range • $$$ - Cheap • Weather Proof
Issues and Problems • Problems • Excessive Power Use • Charging Circuit • Cumbersome Enclosure • Project Goals for this Year • Redesign to use less power • Design a smaller transmitter • Incorporate directional signal propagation
Budget • Budget from CSU • $50 dollars per individual • Total 100 dollars • (2 Students are from independent study)
Donations • Sources • Monetary • Transceivers
Monetary Donations • Trusts and Foundations • Kroh Charitable Trust • Loveland, CO – Focused on helping Community • Anheuser Busch • Justin Moniger had a close friend working here • Anshutz Foundation • A foundation focused on helping society • Craig H Nielson Foundation • Similar to Anshutz
Transceiver Donations • Panasonic • Zibee Modem P4555 • Linear Technologies • RS2802 Tranceiver • Vishay • Vishay RFW3M
Transceivers • Panasonic (Zigbee Modem) • High level communication protocols (WPANs) • 16 channels, size (20 digital I/O lines), Power (120mW) • Vishay (RFW3M) • Power (129mW), frequency agility (3 operating channels) • A three wire serial bus for programming (data lost) • Vishay (RFW122) • Power = 22mA×3.3V = 72.6 mW (Transmitting mode) • Amplitude Shift Keying (ASK) • 3 line serial digital data I/O line interface
Chair Circuit Test Setup Schematic
Chair Circuit Specifications • Needed to limit current consumption • Changed to CMOS 555 timer circuits • Used Linear Voltage Regulator • Used CMOS inverter • Changed to Vishay Transceiver • Much less power consumption • 11 X 15.9 mm • Transmit and Receive for future handshake applications.
Antenna Design • Needed Characteristics • Directional • Easy to make • Work with Vishay • Solution • Dipole Antenna http://en.wikipedia.org/wiki/Dipole_antenna http://www.trevormarshall.com/byte_articles/byte1.htm
Future Circuit Plans • Future plans for Door Circuit • Need to filter out transmitted signal • Vishay outputs noise when not receiving signal. • Need to filter out unwanted signal. • Use Vishay's abilities to do handshake • Future plans for Chair Circuit • Make circuit rechargeable. • Put circuit on PCB
Thanks Too • Advisor: Olivera Notaros • Donations: • Ashley Waddell • Patty Meeke of Panasonic • Leanne Bernstein of Vishay • Christopher Gobak of Linear Technologies • Guy Wagner for support • Pat and Terry for continued support