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Physics of RFID

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... of RFID systems. Operation. Security. Electromagnetism ... Electromagnetism. Electromagnetism unified framework for understanding electricity, magnetism, ... – PowerPoint PPT presentation

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Title: Physics of RFID


1
Physics of RFID
  • University of Houston
  • Bauer College of Business
  • Summer 2008

2
Why study physics of RFID?
  • Vulnerabilities of RFID systems
  • Operation
  • Security

3
Electromagnetism
  • Electromagnetism unified framework for
    understanding electricity, magnetism, and the
    relationship between them
  • A charge creates an electric field
  • When the charge starts moving, it creates
    magnetic field
  • Electric force and magnetic force are intimately
    related, so together they are called
    Electromagnetic (EM) force

4
Faradays Law
  • Any change in the magnetic environment of a coil
    of wire will cause a voltage to be "induced" in
    the coil
  • Change could be produced by
  • Changing the magnetic field strength
  • Moving a magnet toward or away from the coil
  • moving the coil into or out of the magnetic field
  • rotating the coil relative to the magnet, etc.

Source http//hyperphysics.phy-astr.gsu.edu/hbase
/electric/farlaw.html
5
Coupling
6
Carrier Frequencies
  • Wave - a disturbance of some kind (e.g. EM
    disturbance)
  • Frequency - property of radio waves used to
    transmit data

7
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8
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9
Carrier Frequency
  • RFID systems may use a particular frequency band
    depending on
  • Application
  • Legislature
  • Cost considerations

10
Frequency Bands
11
Wave Adventures
  • EM waves can be
  • Reflected off radio conductive reflective
    surfaces
  • Refracted as they pass the barrier between
    dissimilar media
  • Detracted around a sharp edge
  • Absorbed
  • UHF waves have shorter waves and, thus, are more
    affected when passing objects

12
Absorption
  • When electromagnetic energy passes through any
    substance other than a vacuum, some of the energy
    is absorbed and is converted to heat
  • Attenuation of radio signals (by absorption)
    depends on the characteristics of the material
    through which the EM wave propagates
  • Differing from UHF- and µW-systems, the RF field
    at LF is not absorbed by water or human tissue,
    which allows operation through water or human
    beings. The influence of water or moisture on the
    performance is negligible.

13
Reflection
  • Reflection can be helpful by causing the waves to
    be redirected around objects
  • Reflection can also cause a problem if a direct
    wave meets with a reflected wave with an opposite
    phase ? wave cancellation can occur resulting a
    no-read situation
  • Multiple antennas can solve the problem

14
Reflection
15
Refraction
  • Refraction the change of direction of a wave
    due to them entering a new medium (Wikipedia)

16
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17
Diffraction
  • Diffraction - the spreading out of waves as they
    pass a sharp corner

18
Antenna
Source Asif and Mandviwalla, 2005
19
Range
  • Range the working distance between a tag and a
    reader

Range
20
Range and Power Levels
  • The range that can be achieved in an RFID system
    is determined by
  • The power available at the reader
  • The power available within the tag
  • The environmental conditions and structures
  • More important at higher frequencies than at
    lower frequencies

21
Conclusion
  • Theory vs. practice
  • Active RFID systems
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