Radio Frequency Identification RFID (2024)

Description
Uses
Information for Health Care Professionals
FDA Actions
Reporting Problems to FDA

Description

Radio Frequency Identification (RFID) refers to a wireless system comprised of two components: tags and readers. The reader is a device that has one or more antennas that emit radio waves and receive signals back from the RFID tag. Tags, which use radio waves to communicate their identity and other information to nearby readers, can be passive or active. Passive RFID tags are powered by the reader and do not have a battery. Active RFID tags are powered by batteries.

RFID tags can store a range of information from one serial number to several pages of data. Readers can be mobile so that they can be carried by hand, or they can be mounted on a post or overhead. Reader systems can also be built into the architecture of a cabinet, room, or building.

Uses

RFID systems use radio waves at several different frequencies to transfer data. In health care and hospital settings, RFID technologies include the following applications:

Information for Health Care Professionals

Because this technology continues to evolve and is more widely used, it is important to keep in mind its potential for interference with pacemakers, implantable cardioverter defibrillators (ICDs), and other electronic medical devices.

Physicians should stay informed about the use of RFID systems. If a patient experiences a problem with a device, ask questions that will help determine if RFID might have been a factor, such as when and where the episode occurred, what the patient was doing at the time, and whether or not the problem resolved once the patient moved away from that environment. If you suspect that RFID was a factor, device interrogation might be helpful in correlating the episode to the exposure. Report any suspected medical device malfunctions to MedWatch, FDA’s voluntary adverse event reporting system.

FDA Actions

The FDA has taken steps to study RFID and its potential effects on medical devices including:

Working with manufacturers of potentially susceptible medical devices to test their products for any adverse effects from RFID and encouraging them to consider RFID interference when developing new devices.
Working with the RFID industry to better understand, where RFID can be found, what power levels and frequencies are being used in different locations, and how to best mitigate potential EMI with pacemakers and ICDs.
Participating in and reviewing the development of RFID standards to better understand RFID’s potential to affect medical devices and to mitigate potential EMI.
Working with the Association for Automatic Identification and Mobility (AIM) to develop a way to test medical devices for their vulnerability to EMI from RFID systems,.
Collaborating with other government agencies, such as the Federal Communications Commission (FCC), the National Institute for Occupational Safety and Health (NIOSH) and the Occupational Safety and Health Administration (OSHA) to better identify places where RFID readers are in use.

Reporting Problems to FDA

Prompt reporting of adverse events can help the FDA identify and better understand the risks associated with RFID. If you suspect a problem, we encourage you to file a voluntary report through MedWatch: The FDA Safety Information and Adverse Event Reporting Program.

Health care personnel employed by facilities that are subject to Reporting Adverse Events (Medical Devices) requirements should follow the reporting procedures established by their facilities.

Manufacturers, distributors, importers, and device user facilities (which include many health care facilities) must notify the FDA immediately by Reporting Adverse Events (Medical Devices).

Resources

FDA Research

FAQs

Radio Frequency Identification RFID? ›

Description. Radio Frequency Identification (RFID) refers to a wireless system comprised of two components: tags and readers. The reader is a device that has one or more antennas that emit radio waves and receive signals back from the RFID tag.

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What is radio frequency identification RFID used for? ›

Radio Frequency Identification (RFID) is a technology that uses radio waves to passively identify a tagged object. It is used in several commercial and industrial applications, from tracking items along a supply chain to keeping track of items checked out of a library.

How does the RFID work? ›

The RFID reader is a network-connected device that can be portable or permanently attached. It uses radio waves to transmit signals that activate the tag. Once activated, the tag sends a wave back to the antenna, where it is translated into data. The transponder is in the RFID tag itself.

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What is a RFID reader used for? ›

The RFID reader

RFID devices use electromagnetic fields to automatically identify and track compatible RFID tags. The tags contain unique electronically stored information, which is read by the RFID readers. RFID tags are used in many industries and commonly in security applications.

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What is RFID example? ›

RFID can also help companies improve delivery process efficiency. For example, manufacturing employees can attach RFID tags to boxes before shipping the boxes to a warehouse. Warehouse employees can then use RFID readers to scan the tags and learn what's in the boxes, enabling them to put away the items efficiently.

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Can RFID tags track location? ›

Aside from keeping track of inventory, RFID technology also helps organizations identify people and monitor their location. They can detect people who stray away from their assigned locations and help prevent theft, shoplifting, or other problems.

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What are the risks of RFID? ›

In conclusion, while RFID technology offers convenience and ease of use, it also poses significant security risks to IP door access control systems. Unauthorized access, cloning, and interception are just a few of the risks associated with RFID cards.

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Can phones detect RFID tags? ›

Smartphones that are NFC enabled can read RFID devices in the 13.56 MHz band. NFC is essentially 13.56 MHz RFID using predefined data structure & formats. RFID devices operating in the same frequency but not using NFC protocol can't typically be read by NFC phones except for a serial number.

Is RFID Legal? ›

Many existing privacy laws cover the use of data collected by RFID systems, as well as bar codes and other systems. Some U.S. states have enacted or considered enacting new laws dealing with issues particular to RFID, such as the surreptitious scanning of tags by retailers or those with criminal intent.

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How does RFID protect you? ›

RFID blocking systems reduce the transmitted signal power of the reader, preventing the microchip in the RFID card from working. This ensures RFID card security. Essentially, RFID readers transmit signals which power the microchip in the card, the microchip in the card then powers up and send data back to the reader.

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How far can an RFID chip transmit? ›

Far-range UHF RFID tags can read at ranges as far as 12 meters with a passive RFID tag, whereas active tags can achieve ranges of 100 meters or more.

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How do I block RFID? ›

Any material that can interfere with electromagnetic fields is able to block RFID. The most common materials used in the manufacture of RFID blocking wallets and bags are carbon fiber, aluminum, and leather. In a pinch, you can just wrap your credit card in tinfoil to protect against skimming attacks.

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Can RFID be hacked? ›

Hackers can and have jammed RFID cards and tags from working simply by being nearby and generating a signal that is stronger than the one being put out by the RFID reader. This can make it impossible to track inventory using RFID, while also creating general havoc by preventing access using ID cards.

What are two examples of where RFID tags are used in real life? ›

7 magnificient uses of RFID

Car rental: No-waiting vehicle returns. ...
Amusem*nt parks: No-swipe ticket passes. ...
Casinos: Robbery-proof chips. ...
Golf balls. ...
Guns: Safety products. ...
Smart fitting rooms. ...
Health care: A hygiene solution.

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Where is RFID used in daily life? ›

RFID is being applied in the museums, libraries and other related settings mostly in three ways: Objects tracking: managing full inventories of collections is a huge and time-consuming work. Security systems: protecting assets from theft an essential issue in museums, galleries.

Where is RFID currently being used? ›

RFID IT Asset Tracking Industries

Some of the most popular industries that use IT asset management systems are the IT and telecommunications industry, the media, news, and entertainment industry, the healthcare industry, and the manufacturing industry.

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What does RFID mean on a wallet? ›

The full meaning of RFID is “Radio Frequency Identification” — a technology that allows machines to read signals from RFID chips implanted in passports and credit cards to transact over a short distance.

How does RFID work in a wallet? ›

What is an RFID wallet? Tech-savvy thieves might use an RFID reader to scan the information from your credit card. RFID reader uses radio waves to read this data, so the purpose of an RFID wallet is to block these radio waves. An RFID wallet is made of a special material that can block and/or interrupt radio waves.

Which system uses a radiofrequency chip? ›

RFID systems use radio waves at several different frequencies to transfer data. In health care and hospital settings, RFID technologies include the following applications: Inventory control. Equipment tracking.

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What does RFID mean on clothes? ›

Radiofrequency identification (RFID) is a widely used technology that provides effective inventory management across a wide range of industries. An RFID tag for apparel can provide effective tracking throughout manufacturing, warehousing, distribution, and more.

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