Term of the Moment
grief tech
Definition: RFID
(Radio Frequency IDentification) A data collection technology that uses electronic tags for storing data. The tag, also known as an "electronic label," "transponder" or "code plate," is made up of an RFID chip attached to an antenna. Transmitting in the kilohertz, megahertz and gigahertz ranges, tags may be battery-powered or derive their power from RF waves coming from the reader.
Serialization - A Major Factor
RFID tags hold more data than barcodes, but a major difference is the unique serial number in the RFID's Electronic Product Code (EPC) because it allows tracking of individual items. While a UPC barcode might identify a 16 oz. bottle of mayonnaise, an EPC RFID tag can identify each bottle. In this case, item level tracking can determine if food has passed its expiration date. See barcode, UPC and EPC.
Passive, Active and Semi-Passive
Passive tags have no power source but use the electromagnetic waves from the reader to energize the chip and transmit back (backscatter) their data. Passive tags can cost less than a quarter and be read up to approximately 10 feet from the reader's antenna.
The Squiggle Tag
Reusable vs. One-Time
RFID tags for applications such as highway toll collection and container tracking are in continuous use for several years. Like regular electronic components, the tags are adhered to rigid substrates and packaged in plastic enclosures. In contrast, tags on shipping cartons are used for a much shorter time and are then destroyed. Disposable tags are adhered to printed, flexible labels pasted onto the carton, and these "smart labels" contain an RFID chip and antenna on the back. A thermal printer/encoder prints alphanumeric and barcode data on the labels while encoding the chip at the same time. See RFID tag.
RFID Goes Way Back
Although first used in World War II to identify friendly aircraft, RFID technology really materialized in the 1980s and began to reach the masses in the 1990s. In 1993, the E-ZPass highway toll system was launched in the Northeast. In 1996, General Motors introduced OnStar, which is satellite-based RFID. A year later, Mobil's Speedpass let people wave a keychain tag at the gas pump to pay by credit card. After the turn of the century, RFID began to proliferate.
NFC - An RFID Technology
Whereas readers can activate RFID tags over distances measured in meters, near field communication (NFC) is an RFID technology with a range of only a couple inches (see NFC).
When Tags Are Dirt Cheap
If tag prices ever cost only a penny or two, pundits have suggested RFID will take off in areas such as reading a supermarket cart full of groceries, a washer/dryer that reads clothing tags and a refrigerator that creates a shopping list. See RFID tag, RFID reader, RFID printer, EPC, Gen 2 and tag singulation.
Keeping Pallets Intact
The BodyNet RFID Medical System
Serialization - A Major Factor
RFID tags hold more data than barcodes, but a major difference is the unique serial number in the RFID's Electronic Product Code (EPC) because it allows tracking of individual items. While a UPC barcode might identify a 16 oz. bottle of mayonnaise, an EPC RFID tag can identify each bottle. In this case, item level tracking can determine if food has passed its expiration date. See barcode, UPC and EPC.
Passive, Active and Semi-Passive
Passive tags have no power source but use the electromagnetic waves from the reader to energize the chip and transmit back (backscatter) their data. Passive tags can cost less than a quarter and be read up to approximately 10 feet from the reader's antenna.
Alien Technology was one of the first companies to make RFID tags, and its various Squiggle designs became widely used (see RFID tags). (Image courtesy of Printronix, Inc.)
Reusable vs. One-Time
RFID tags for applications such as highway toll collection and container tracking are in continuous use for several years. Like regular electronic components, the tags are adhered to rigid substrates and packaged in plastic enclosures. In contrast, tags on shipping cartons are used for a much shorter time and are then destroyed. Disposable tags are adhered to printed, flexible labels pasted onto the carton, and these "smart labels" contain an RFID chip and antenna on the back. A thermal printer/encoder prints alphanumeric and barcode data on the labels while encoding the chip at the same time. See RFID tag.
RFID Goes Way Back
Although first used in World War II to identify friendly aircraft, RFID technology really materialized in the 1980s and began to reach the masses in the 1990s. In 1993, the E-ZPass highway toll system was launched in the Northeast. In 1996, General Motors introduced OnStar, which is satellite-based RFID. A year later, Mobil's Speedpass let people wave a keychain tag at the gas pump to pay by credit card. After the turn of the century, RFID began to proliferate.
NFC - An RFID Technology
Whereas readers can activate RFID tags over distances measured in meters, near field communication (NFC) is an RFID technology with a range of only a couple inches (see NFC).
When Tags Are Dirt Cheap
If tag prices ever cost only a penny or two, pundits have suggested RFID will take off in areas such as reading a supermarket cart full of groceries, a washer/dryer that reads clothing tags and a refrigerator that creates a shopping list. See RFID tag, RFID reader, RFID printer, EPC, Gen 2 and tag singulation.
The unique serial number in the electronic product code (EPC) lets RFID readers scan all the cases in a pallet without having to break it down. This provides a huge cost savings in warehouse management and is the reason why Wal-Mart required its suppliers to begin using RFID in 2005. (Image courtesy of Intermec Technologies.)
A unique RFID application, in 2019, Stanford University developed a stretchable RFID sticker that adheres to the skin and monitors a person's respiration and pulse. Temperature and sweat detection is also planned. A receiver clipped to clothing sends out a small amount of energy that causes the sticker to emit back the data that are periodically transferred to a smartphone via Bluetooth. (Image courtesy of Bao Lab, Stanford University.)