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Radio Frequency Identification (RFID). Features and Functionality of RFID Including application specific ISO specifications. Presented by: Chris Lavin Sarah Clark Spencer Prows. What is RFID?.
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Radio Frequency Identification(RFID) Features and Functionality of RFID Including application specific ISO specifications Presented by: Chris Lavin Sarah Clark Spencer Prows
What is RFID? RFID is a technology, whose origins are found in the WWII era, that incorporates electromagnetic or electrostatic coupling in the RF portion of the EM spectrum to uniquely identify an object, animal or person. It is also gaining increasing use in industry as an alternative to the bar code. Requires a transceiver, antenna, and transponder Can operate in Passive or Active Modes Source: http://searchmobilecomputing.techtarget.com/gDefinition/0,294236,sid40_gci805987,00.html
What is RFID? RF signals transmitted by the transceiver activates the transponder, which transmits data back to the transceiver. Transponder is powered by EM waves emitted by the transceiver Various frequencies are used depending on the application Requires no line-of-sight (like bar-codes) Source: http://searchmobilecomputing.techtarget.com/gDefinition/0,294236,sid40_gci805987,00.html
RFID Applications Tracking Books in Libraries Inventory Tracking Walmart required it of their top 100 vendors Authorized building access (Prox Cards) Passports (US passports recently) AmEx Blue credit card Prison inmates (embedded)
RFID Applications For toll booths (or any “pay for entry” system) Airport Baggage ID Car keys, wireless entry and ignition Animals Hospital Patients Instant history tracking
RFID Shortfalls Cost Transceiver ~ $1000 RFID Tags $0.20 each Not competitive with cost of barcode UHF signals problematic near metal and water Reader Collisions Can be overcome using TDMA Tag Collisions Required some engineering of tag transmit timing Security Concerns
RFID Standards and Specifications Application specific ISO standards
RFID Standards Tracking Animals ISO 11784 – Specifies the structure of the ID code ISO 11785 – Specifies how transponder is activated ISO 14223/1 – Specifies RF code for advanced transponders Credit Cards ISO 15693 – Specifies modulation and coding schemes Passports and proximity cards ISO 14443 – Specifies modulation and coding schemes General Frequency bands ISO 18000 series
Standard RFID Operating Frequencies ISO 18000-2 <135 KHz ISO 18000-3 13.56 MHZ ISO 18000-4 2.45 GHz ISO 18000-6 860-960 MHz ISO 18000-7 433 MHZ (active)
Standard RFID Operating Frequencies ISO 18000-2 ~ 135 kHz ISO 18000-6 ~ 800-960 MHz ISO 18000-3 ~ 13.56 MHz ISO 18000-4 ~ 2.45 GHz ISO 18000-7 ~ 433 MHz
ISO 18000-2 Operates at >135 KHz Inductive Unaffected by presence of water Short range (a few centimeters) Fairly costly because of coil in transponder
ISO 18000-3 Operates at 13.56 MHz Inductive Lower cost ~ 35 cents Thin flexible form factor ( smart label ) Read / write capable Unaffected by water (but has to be tuned to item) Mid range, 70 – 125 cms Two flavors: Mode 1 Standard ISO 15693 data rate (26 kb/s) Mode 2 High speed interface (848 kb/s)
ISO 18000-4 Operates at 2.45 GHz Propagating Dual Mode Passive Backscatter Passive tag currently out of fashion Active High data rate Long range in active version (100 m+) Affected by water (signal absorbed…microwave) Read / write capable Moderate cost Small antenna
ISO 18000-6 A/B Operates between 860 – 960 MHz Propagating Long range 2-5 meters Low cost High data rates “Frequency agile” Read / write capable Relatively large antenna The future for mass application RFID
ISO 18000-7 Operates at 433 MHz Active Long range - many meters High cost High data rates Read / write capable Manifest tags- DoD