UltraWideBand a.k.a. UWB - PowerPoint PPT Presentation

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UltraWideBand a.k.a. UWB

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[Aiello, 2003] G.Roberto Aiello, 'Challenges for Ultra-wideband (UWB) CMOS Integration' ... Lee, 'Design and Analysis of Ultra-Wide Bandwidth Impulse Radio Receiver' ... – PowerPoint PPT presentation

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Title: UltraWideBand a.k.a. UWB


1
UltraWideBand a.k.a. UWB
  • Chihou Lee ECE1352 December 2003

2
Introduction
  • April 2002
  • U.S. Federal Communications Commission (FCC)
    grants new spectrum for commercial use (3.1 GHz
    to 10.6 GHz)

Aiello,2003
3
UWB Modulation
Use IF signal to modulate RF carrier
Vary delay between pulses to encode signal PPM
(pulse position modulation)
4
Transceiver Architecture
Aiello, 2003
5
Implementation Challenges
  • LNA Mixer are the most challenging components
    to build.
  • Designing LNA
  • narrowband LNA design no longer applies (cant
    use inductive emitter degeneration)
  • Must match input/output over large frequency
    range
  • Very few UWB LNA implementations (1) Sangyoub,
    2002
  • Designing Mixer
  • Mixer uses similar matching concepts as LNA to
    achieve wideband matching Sangyoub, 2002

6
LNA Design
  • Presenting Sangyoub, 2003 UWB LNA design

Series-Shunt feedback Amplifier PROs good NF,
and wideband (use shunt-series to match input
output) CONs non-optimal biasing means low gain,
potential stability issues.
7
LNA Design (cont)
  • Three new components L1, L2, Cf
  • L1 Gain? as freq? b/c ZL1 wL1
  • L2 Gain? as freq? b/c ZL2 wL2
  • Cf decouples output from input allows for
    optimal biasing.

Careful consideration given to choosing component
values to avoid unstable system see Sangyoub,
2002
8
Summary
  • UltraWideBand Technology
  • Use Monopulses to carry data
  • Easy circuit implementation (lower cost, power)
  • Cant transmit long distance b/c low transmit
    power

9
References
  • Aiello, 2003 G.Roberto Aiello, "Challenges for
    Ultra-wideband (UWB) CMOS Integration". RFIC
    2003.
  • Cravotta, 2002 Nicholas Cravotta,
    "Ultrawidband the next wireless panacea?".
    www.edn.com, Oct, 2002.
  • Sangyoub, 2002 Sangyoub Lee, "Design and
    Analysis of Ultra-Wide Bandwidth Impulse Radio
    Receiver", University of Southern California PhD
    Dissertation, 2002.
  • Leeper, 2003 David G. Leeper Ultrawideband
    the next step in short range wireless, RFIC 2003
  • Molisch, 2003 Andreas F. Molisch, Jinyun Zhang,
    Time hopping and frequency hopping in
    ultrawideband systems, IEEE 2003.
  • Mitchell, 2001 Terry Mitchell, Broad is the
    way, IEE Review Jan 2001.
  • Namgoong, 2003 Won Namgoong, A Channelized
    Digital Ultrawideband Receiver, IEEE
    Transactions on Wireless communications, 2003.
  • Siwiak, 2001 Kazimierz Siwiak, UWB
    Introducing a New Technology, VTC 2001.
  • Barras David Barras, A Comparison between UWB
    and Narrowband Transceivers.
  • Lerdworatawee, 2003 Jongrit Lerdworatawee, Won
    Namgoong, Low Noise Amplifier Design for UWB,
    IEEE 2003.
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