1 / 17

Introduction to Wireless Sensor Networks

Introduction to Wireless Sensor Networks. Engineering Issues I 31 March 2005. Organizational. Class Website. www.engineering.uiowa.edu/~ece195/2005/. Class Time. Office Hours. Issues. Interfaces Mote/MCU <-> radio(s) Mote/MCU <-> Sensors Programming mote Temperature & Humidity

shona
Download Presentation

Introduction to Wireless Sensor Networks

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. Introduction to Wireless Sensor Networks Engineering Issues I 31 March 2005

  2. Organizational Class Website www.engineering.uiowa.edu/~ece195/2005/ Class Time Office Hours

  3. Issues • Interfaces • Mote/MCU <-> radio(s) • Mote/MCU <-> Sensors • Programming mote • Temperature & Humidity • Impacts reliability, packaging, stability, • Consumer (0 … 70o) • Industrial (-40 … +85o) • Automotive, Military • Packaging • Reliability • Consumer, Medical

  4. Interfaces

  5. Concept DTE/DCE • DTE (The device that generates or requests data) • MCU • Datalogger • PC • Terminal emulator • Mote • DCE (The devices that interfaces with the media) • Modem • Radio • Instruments • GPS • Important DTE and DCE data rates may differ. Often DTE <-> DCE data rates are larger than data rates between DCEs

  6. Concept: Data Rates and Flow Control • DTE<-> DCE data rates may exceed DEC<-> DCE rates • DCE has internal buffers • When buffer is close to full DCE signals DTE to stop sending data • When DEC buffer becomes empty, it signals DTE that it can start sending data

  7. Concept: Handshaking • DTE uses a “Request To Send” (RTS) signal to let DCE know its want to send data • DCE uses a “Clear To Send” (CTS) to signal it is ready to send or not • Sleep modes • RTS are sometimes used to wake sleeping DCEs

  8. Serial Communications • RS232/RS232C,RS422, RS485 or TTL Levels • USB, USB <-> RS232 adapters • DB9, DB25, Two-wire, I2C, SPI • Data lines • TX or TD : data is transmitted to a DCE (out from PC) • RX or RD : data is received from DCE (into PC) • Control Lines • Hardware Flow Control • RTS (Request To Send). DTE (PC) uses this to inform DCE that it wants to send data • CTS (Clear To Send) DCE (modem/radio) uses this to inform DTE (PC) when it is clear to send or not • CD (Carrier Detect) • DTR (Data Terminal Ready) – similar to RTS • Software Flow Control – special codes in the data stream (XON/XOFF)

  9. RS232 Serial Communications

  10. Command vs. Data Mode – AT Commands • Sending Data & Commands over a serial link • Data (normal) mode • Command (configuration) mode • Switch between modes with a special sequence delay +++ delay • Issue AT commands ATDT … • Switch Back ATCN

  11. Serial Communications Misc • Cable Lengths • Null Modems • Gender Changers • Loop-back adapters • Break-out boxes • Cable testers • RS232 <-> TTL converters • Gotcha’s (not all DB9 cables are RS232) • UPS cables • Some instrument cables

  12. Null Modems

  13. Null Modem Cont. Full Handshaking Loop back handshaking

  14. Loop Back Cables & Adapters

  15. Applications • Echo Server • Streaming Server

  16. Lab Next Week • Two-three hours • Groups of three students work as a team • Individual reports • Signup sheet • Wednesday afternoon • Thursday afternoon • Friday afternoon • Saturday? • Preparation • Will post and e-mail

More Related