RFID

RFID

Apr 5, 2020

Week One Assignment / Research a communications protocol of your choice.

RFID: Explained

RFID Chip

Radio-frequency identification (RFID) uses electromagnetic fields to automatically identify and track tags attached to objects. An RFID tag consists of:

  • A radio transponder
  • A radio receiver and transmitter

When triggered by an electromagnetic interrogation pulse from a nearby RFID reader device, the tag transmits digital data, usually an identifying inventory number, back to the reader.

Tags

RFID tags consist of three parts:

  • Micro chip: an integrated circuit which stores and processes information and modulates and demodulates radio-frequency signals
  • Antenna: receive and transmit the signal
  • Substrate

There’re two types of RFID tags:

  1. Passive tags (including battery-assisted passive tags) are powered by energy from the RFID reader’s interrogating radio waves.
    Smaller / Cheaper / Needs a 1000 times stronger power than active tags for signal transmission

  2. Active tags are powered by a battery and thus can be read at a greater range from the RFID reader - up to hundreds of meters.

Unlike a barcode, the tag doesn’t need to be within the line of sight of the reader, so it may be embedded in the tracked object. RFID is one method of automatic identification and data capture (AIDC).

Readers

  1. Passive Reader Active Tag (PRAT) system
    Passive reader and active tags (battery operated, transmit only). Reception range: 0-600m.

  2. Active Reader Passive Tag (ARPT) system
    Active reader transmits interrogator signals and also receives authentication replies from passive tags.

  3. Active Reader Active Tag (ARAT) system
    Active tags awoken with an interrogator signal from the active reader.

Frequencies

$$f = \frac{c}{λ}$$

BandRegulationsRangeData SpeedCost (2006) USD
120 – 150kHz (LF)Unregulated10cmLow1
13.56MHz (HF)ISM band worldwide10cm - 1mLow to Moderate0.5 - 5
433MHz (UHF)Short range devices1 - 100mModerate5
865 – 868MHz (EU) 902 – 928MHz (N America) (UHF)ISM band1 - 12mModerate to High0.15 (Passive)
2450 – 5800MHz (Microwave)ISM band1 - 2mHigh25 (Active)
3.1 – 10GHz (Microwave)Ultra wide band1 - 200mHigh5

History

1945
Léon Theremin invented a listening device for the Soviet Union which retransmitted incident radio waves with the added audio information. Even though this device was a covert listening device, rather than an identification tag, it is considered to be a predecessor of RFID because it was passive, being energized and activated by waves from an outside source.

1948
Identification friend or foe transponder was routinely used by the allies and Germany in World War II to identify aircraft as friend or foe.

1973
Mario Cardullo‘s device, patented on January 23, 1973, was the first true ancestor of modern RFID, as it was a passive radio transponder with memory. The initial device was passive and powered by the interrogating signal. It has a transponder with 16 bit memory.

1983
The first patent to be associated with the abbreviation RFID was granted to Charles Walton.

Uses

The tag can be read if passed near a reader, even if it is covered by the object or not visible. RFID tags can be read hundreds at a time while bar codes can only be read one at a time using current devices.

Common scenarios:

  • Access management
  • Tracking of goods
  • Tracking of people or animals
  • Toll collection and contactless payment
  • Machine readable travel documents
  • Airport baggage tracking
  • Timing sporting events

In China, RFID are used in the new generation ID card, railway automatic train identification system, package tracking, etc. China is also leading the design of antenna and chip design.

In 2010 three factors drove a significant increase in RFID usage:

  • Decreased cost of equipment and tags
  • Increased performance to a reliability of 99.9%
  • Stable international standard around UHF passive RFID

Problems

  1. Data Flooding A large amount of data may be generated that is not useful for managing inventory or other applications.

  2. Global Standardization The frequencies used for UHF RFID in the USA are as of 2007 incompatible with those of Europe or China. Furthermore, no emerging standard has yet become as universal as the barcode.

  3. Security Tags, which are world-readable, pose a risk to both personal location privacy and corporate/military security.

  4. Health Microchip–induced tumors have been noted during animal trials.

References

  1. Radio-frequency identification - Wikipedia
  2. RFID in China - EE Times
  3. RFID: How businesses use chip technology (Cover)