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Ultra Wideband Digital Wireless Link

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Ultra Wideband Digital Wireless Link By Matthew Carrier, Nicholas Merrill, Brandon Mui, Justin Burkhart Advisor: Professor R.W. Jackson What is Ultra Wide Band? – PowerPoint PPT presentation

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Title: Ultra Wideband Digital Wireless Link


1
Ultra Wideband Digital Wireless Link
  • By Matthew Carrier, Nicholas Merrill, Brandon
    Mui, Justin Burkhart
  • Advisor Professor R.W. Jackson

2
What is Ultra Wide Band?
  • Ultra Wide Band (UWB) uses very low-powered,
    short pulsed radio signals to transfer data over
    a wide range of frequencies
  • FCC Definition
  • Signals must occupy bandwidth gt500MHz
  • Or, signal bandwidth is 20 of the carrier
    frequency

3
Why do we need Ultra Wide Band?
  • High-tech designs require portability, speed,
    performance
  • Portability
  • UWB use multiple low-powered pulses ? low power
    consumption
  • UWB data rate is inversely proportional to
    distance (thus short range)
  • Speed
  • Proposed to be between 40-600 Mb/s, and
    eventually up to Gb/s
  • Performance
  • Volume of information proportional to the
    frequency band
  • More information ? better graphics, better
    resolution for RADAR, etc.

4
Transmitted Reference UWB Systems
  • Standard TR-UWB systems are dogged by
    implementation issues
  • The receiver requires an extremely wideband delay
    element
  • As a solution, Professor Goeckel has developed
    theory for Slightly Frequency Shifted Reference
    UWB

5
Slightly Frequency Shifted UWB
  • Rather then separating the data from the
    reference in time, this systems separates them in
    frequency
  • Data and Reference pulse must be orthogonal in
    frequency
  • This avoids using the extremely wideband delay
    element in the receiver
  • Our project is to take Prof. Goeckels theory and
    prove the concept through building a scaled
    prototype

6
Deliverables
  • Transmitter/Receiver Electronics Prototype
  • Transmitter/Receiver Antenna Prototype
  • Packaging design is not part of project

7
Transmitter
PLD
Input
X
S
Pulser
Oscillator
X
  • Omni antenna
  • Pulse Generator has pulses with picosecond rise
    times
  • Oscillator used for frequency shifting of the
    pulses
  • PLD is used for buffering of data

8
Receiver
Integrator
X
PLD
X
Oscillator
  • Omni antenna
  • Oscillator at same frequency and phase as
    transmitter (sync not yet designed)
  • PLD is for out-buffering of received data

9
What is Missing?
  • Need to design circuitry to synchronize the
    frequency shift oscillators
  • Need to develop/buy integrator circuitry that can
    be triggered
  • Integrator and PLD sampling also have sync issues
    that need to be worked out
  • Antenna design has yet to be implemented
  • An antenna in our channel has already been
    designed by grad students here at UMASS

10
Pulse Generation Closer Look
  • Create very fast pulses using Step Recover Diodes
    (SRD)

11
MDR Specification
  • Transmitter Receiver prototype built
  • Built using modular components connected with
    coaxial cable
  • No synchronization circuitry implemented
  • No antenna implemented
  • Antenna design prototype built
  • Tested for gain, return loss, radiation
    patterns
  • Synchronization Circuitry
  • Will be designed independently from the prototype

12
Questions/Suggestions?
?
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