How to Build a Low-Cost, Extended-Range RFID Skimmer - PowerPoint PPT Presentation

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How to Build a Low-Cost, Extended-Range RFID Skimmer

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How to Build a Low-Cost, Extended-Range RFID Skimmer Ilan Kirschenbaum & Avishai Wool 15th Usenix Security Symposium,2006 Kishore Padma Raju ... – PowerPoint PPT presentation

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Tags: rfid | build | cost | extended | low | range | skimmer

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Title: How to Build a Low-Cost, Extended-Range RFID Skimmer


1
How to Build a Low-Cost, Extended-Range RFID
Skimmer
  • Ilan Kirschenbaum Avishai Wool
  • 15th Usenix Security Symposium,2006
  • Kishore Padma Raju

2
OVERVIEW
3
BACKGROUND
  • RFID uses ISO-14443 standard
  • Increased security
  • Very short range (5-10cm)
  • Goals
  • Build extended-range RFID skimmer
  • Collects mass info from RFID devices

4
OUTLINE
  • RFID
  • System design
  • Building
  • Tuning methods
  • Results
  • Conclusions

5
RFID Technology
  • Many applications
  • Contactless credit-cards
  • National ID cards
  • E-passports
  • Other access cards
  • Very short range
  • Security vulnerabilities

6
Attacks on RFID
  • Relay attack

7
Attacks on RFID
  • Relay attack

8
Attacks on RFID
  • German Hacker
  • PDA and RFID read/write device
  • Changed shampoo prices from 7 to 3
  • Johns Hopkins Univ.
  • Sniffs info from RFID-based car keys
  • Purchased gasoline for free

9
ISO-14443
  • Proximity card used for identification
  • Very short range (5-10 cm)
  • Embedded microcontroller
  • Magnetic loop antenna (13.56 MHz)
  • Security
  • Cryptographically-signed file format

10
RFID Skimmer
  • Collect info from RFID tags
  • Signal/query RFID tags
  • Record responses
  • Some uses
  • Retrieve info from remote car keys
  • Obtain credit card numbers

11
System Design Goals
  • Low power
  • Low noise
  • Large read range
  • Simple design
  • Cheap

12
System Design
13
Part 1 - RFID Reader
  • TI S4100 Multi-Function
  • reader
  • Cost 60
  • Built in RF power amplifier
  • Sends approx. 200mW into small antenna

14
Part 2 - RFID Antenna
  • Antenna range length
  • 39 cm copper tube loop
  • Antenna inductance 1 µH

15
Part 3 - Power amplifier
  • Amplifier interfaced directly to modules output
    stage
  • Powered by FET voltage
  • Field-effect transistor
  • Did not match impedances between amp and output

16
Part 4 - Receiver Buffer
  • Load Modulation Receive Buffer
  • HF reader system
  • Receiver input directly connected to readers
    antenna
  • Attenuate signals before feeding them back to the
    TI module
  • Avoid potential reader damage
  • Still deliver input signals to receiver

17
Part 4 - Receiver Buffer
18
Part 5 -Power supply
  • Powers the large loop antenna
  • Maintain smooth DC supply
  • Clean power supply
  • Low ripples (power variance)
  • Improves detection range

19
SYSTEM BUILDING
  • Copper Tube Loop Antenna
  • Ideal 40x40 cm
  • Copper-tube
  • Constructed their own
  • Cheaper copper tube, used for cooking gas
  • Pre-made in circular coils

20
SYSTEM BUILDING
  • Copper-tube loop and PCB antennas

21
SYSTEM BUILDING
  • RFID Base Board
  • Decon DALO 33 Blue PC Etch pen
  • Protected ink used to draw leads on tablet

22
SYSTEM BUILDING
  • RFID Base Board and power amp

23
SYSTEM BUILDING
  • Power Amplifier
  • Based on Melexis application note
  • Input driven from reader output
  • Ideal high voltage rating capacitors
  • Used cheaper, but low voltage

24
SYSTEM BUILDING
  • Load Modulation Receive Path Buffer
  • Signals are looped back
  • Buffer needed to hold correct signals

25
SYSTEM TUNING
  • RF Network Analyzer
  • Measure magnitude and phase of input
  • Measure Voltage Standing Wave Radio
  • Adjust antennas impedance to match amplifier
    output
  • RF power meter
  • Measures power reception
  • Ideal measure actual amplification

26
RESULTS
27
RESULTS
  • Close to theoretical predictions

28
CONTRIBUTIONS
  • Built RFID skimmer ? validated basic concept of
    an RFID Leech
  • RFID tags can be read from greater distances (25
    cm)
  • Halfway towards full implementation of a
    relay-attack

29
Strengths
  • Created a portable, RFID skimmer
  • Step-by-step instructions
  • Low system cost (110)

30
Weaknesses
  • Not developed for large scale production
  • Cheap design less efficient results
  • Expensive system tuning methods

31
Improvements
  • Better equipment
  • High rating components
  • More powerful RF test equipment
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