Contents

Introduction

Welcome to the Beginner’s Guide to RFID Systems! This guide is ideal for those new to RFID and who want to learn about what the technology is, how it is used, about the different types, and about the necessary tags and equipment.

What is RFID?

How Does RFID Work?

Radio Frequency Identification (RFID) is the wireless non-contact use of radio frequency waves to transfer data. Tagging items with RFID tags allows users to automatically and uniquely identify and track inventory and assets. RFID takes auto-ID technology to the next level by allowing tags to be read without line of sight and, depending on the type of RFID, having a read range between a few centimeters to over 20+ meters.

RFID has come a long way from its first application of identifying airplanes as friend or foe in World War II. Not only does the technology continue to improve year over year, but the cost of implementing and using an RFID system continues to decrease, making RFID more cost-effective and efficient.

Types of RFID

Within the Electromagnetic Spectrum, there are three primary frequency ranges used for RFID transmissions – Low Frequency, High Frequency, and Ultra-High Frequency.

Low Frequency

General Frequency Range: 30 - 300 kHz

Primary Frequency Range: 125 - 134 kHz

Read Range: Contact - 10 Centimeters

Average Cost Per Tag: $0.75 - $5.00

Applications: Animal Tracking, Access Control, Car Key-Fob, Applications with High Volumes of Liquids and Metals

Pros: Works well near Liquids & Metals, Global Standards

Cons: Very Short Read Range, Limited Quantity of Memory, Low Data Transmission Rate, High Production Cost

High Frequency

Primary Frequency Range: 13.56 MHz

Read Range: Near Contact - 30 Centimeters

Average Cost Per Tag: $0.20 - $10.00

Applications: DVD Kiosks, Library Books, Personal ID Cards, Poker/Gaming Chips, NFC Applications

Pros: NFC Global Protocols, Larger Memory Options, Global Standards

Cons: Short Read Range, Low Data Transmission Rate

Ultra-High Frequency

General Frequency Range: 300 - 3000 MHz

Primary Frequency Ranges: 433 MHz, 860 - 960 MHz

There are two types of RFID that reside within the Ultra High Frequency range: Active RFID and Passive RFID.

Active RFID

Primary Frequency Range: 433 MHz, (Can use 2.45 GHz - under the Extremely High Frequency Range)

Read Range: 30 - 100+ Meters

Average Cost Per Tag: $25.00 - $50.00

Applications: Vehicle Tracking, Auto Manufacturing, Mining, Construction, Asset Tracking

Pros: Very Long Read Range, Lower Infrastructure Cost (vs. Passive RFID), Large Memory Capacity, High Data Transmission Rates

Cons: High Per Tag Cost, Shipping Restrictions (due to batteries), Complex Software may be Required, High Interference from Metal and Liquids; Few Global Standards

Passive RFID

Primary Frequency Ranges: 860 - 960 MHz

Read Range: Near Contact - 25 Meters

Average Cost Per Tag: $0.09 - $20.00

Applications: Supply Chain Tracking, Manufacturing, Pharmaceuticals, Electronic Tolling, Inventory Tracking, Race Timing, Asset Tracking

Pros: Long Read Range, Low Cost Per Tag, Wide Variety of Tag Sizes and Shapes, Global Standards, High Data Transmission Rates

Cons: High Equipment Costs, Moderate Memory Capacity, High Interference from Metal and Liquids

Primary Subsets of Passive RFID

The relatively wide range of 860 - 960 MHz is recognized as the ‘Global Standard’ for UHF Passive RFID; however, its late adoption led to the range being further divided into two primarily subsets – 865 – 868 MHz and 902 - 928 MHz.

865 - 868 MHz - ETSI

The European Telecommunications Standards Institute (ETSI) is the governing body in Europe that sets and upholds country-wide standards for communicating via multiple channels, including Radio Waves. By ETSI’s regulations, RFID equipment and tags are only allowed to communicate on the smaller frequency range of 865 - 868 MHz because other types of radio communications are allocated to subsets of the larger range of 860 - 960 MHz.

Because ETSI sets the standards for Europe, but when purchasing tags and equipment, the standard can be called either ETSI or EU denoting Europe.

902 - 928 MHz - FCC

The Federal Communications Commission (FCC) is the governing body in the United States that sets and upholds country-wide standards for communicating via multiple channels including Radio Waves. The FCC regulations state that RFID tags and equipment can only operate between 902 - 928 MHz, because, like Europe, other communication types are allocated to the remaining portions of the larger range of 860 - 960 MHz.

RFID Equipment or Tags that are FCC certified or on the North American Frequency Range, or NA, can be used throughout North America.

Other

Because both ETSI and FCC were the first major standards to be approved, many countries either adopted one or the other, or created their own standards* within a subset of either frequency range. For example, Argentina chose to adopt the FCC range of 902 – 928 MHz, while Armenia chose to implement its own, smaller band of 865.6 – 867.6 MHz within the ETSI range.

Although regional regulations like FCC and ETSI are typically discussed using frequency ranges, there are other specifics that each country regulates such as the amount of radiated power (ERP or EIRP). Certain countries are stricter and regulate where RFID can be used, the amount of frequency “hopping” that must be used, or that a license is required to use RFID. For more information on each country’s regulations – read “ How to Conform to Regional Regulations when using RFID”.

*Every region requires its own regional operating frequency, to find yours, click here.

Example Applications

Examples of applications that benefit from RFID are endless. Applications extend from broad areas like inventory tracking to supply chain management and can become more specialized depending on the company or industry. Types of RFID applications can span from IT asset tracking to textile tracking and even into specifics like rental item tracking.

What sets a potential RFID application apart from applications that can use other types of systems is the need to uniquely identify individual items quickly and more efficiently where traditional systems fall short. Below are a few applications that are successfully using RFID technology.

Important Facts

Return on Investment (ROI)

When considering purchasing and deploying any new system, two of the most important questions to answer are if and when the company will see a return on its investment. Fixed costs, recurring costs, as well as the cost of switching in terms of labor costs, all must be evaluated before implementing a new system.

Before implementing an RFID system, both Application Feasibility and Cost Feasibility should be assessed.

Application Feasibility

Application Feasibility refers to the process of determining if the application is suitable for use with RFID. Like all technology, RFID has limitations. Environmental constraints, read range limitations, and asset material composition are just a few of the different aspects that can severely impact how effective an RFID system is for a specific application. The Application Feasibility process should entail scoping of the project and the project’s environment as a starting point, and then determining if RFID (or another technology) is the right fit for the application.

Cost Feasibility

Cost Feasibility refers to assessing if implementing an RFID system is achievable from a monetary perspective. Cost Feasibility includes not just if an ROI is possible, but it also includes working with current numbers and prospective numbers to determine the estimated timeline for a return on investment. RFID systems can be expensive. They require an initial investment for testing and working with different types of equipment and tags (which may be a sunk cost for the company if the technology doesn’t pan out). After the testing phase, deployment costs begin (Read more about Fixed vs. Recurring Costs below). Only after a system has been implemented and is working properly can the timeline begin for seeing a return on the investment.

Fixed vs. Recurring Costs

Grouping costs by fixed (initial) or recurring will help to paint a more accurate picture of expected yearly costs and return on investment of a system.

Fixed Costs

Fixed costs are one-time costs that are associated with getting started. In an RFID deployment, a fixed cost is typically associated with hardware like readers, antennas, and cables needed to setup the system. Fixed costs do not necessarily mean that you will not ever purchase that item again, it just means that the item is not used once and then discarded or consumed during the application. If you plan to set up an initial system and then expand that system later, hardware will still be considered a Fixed Cost. RFID tags are only considered to be a fixed cost when they are continually reused throughout the system – e.g. access control RFID fobs that are assigned and redistributed as needed to employees.

Recurring Costs

Recurring costs are attributed to items that are used once and then discarded or consumed during the application. An RFID inlay or label is a common example of a recurring cost in an RFID system. Because of their low-cost, these tags are frequently applied once and kept on an item for its lifespan (or discarded after use). If an RFID printer is used, then printer ribbon would also be a recurring cost. If a software license renews annually or is purchased as a SaaS (Software as a Service) product, then it too should be factored as a recurring cost.

Environmental Factors

RFID systems can be susceptible to certain materials and environmental factors that can cause diminished read ranges and affect overall system accuracy. Metal and liquids are the two most common sources of interference for RFID applications, but they can be mitigated with the proper RFID tags, equipment, and planning.

As UHF RFID becomes more commonly used with liquid-filled items or metallic items, more and more tags are released with new ways to lessen these problems. In addition, techniques have been developed that can help mitigate the effects of these items, like working with tag placement and spacers.

What is an RFID System

While each system will vary in terms of device types and complexity, every RFID system contains at least the following four components:

Readers

Antennas

Tags

Cables

The simplest system can be comprised of a mobile handheld RFID reader (with an integrated antenna) and RFID tags, while more complex systems are designed using multi-port readers, GPIO boxes, additional functionality devices (e.g. stack lights), multiple antennas and cables, RFID tags, and a complete software setup.

RFID Tags

What is an RFID Tag?

An RFID tag in its most simplistic form, is comprised of two parts – an antenna for transmitting and receiving signals, and an RFID chip (or integrated circuit, IC) which stores the tag’s ID and other information. RFID tags are affixed to items in order to track them using an RFID reader and antenna.

RFID tags transmit data about an item through radio waves to the antenna/reader combination. RFID tags typically do not have a battery (unless specified as Active or BAP tags); instead, they receive energy from the radio waves generated by the reader. When the tag receives the transmission from the reader/antenna, the energy runs through the internal antenna to the tag’s chip. The energy activates the chip, which modulates the energy with the desired information, and then transmits a signal back toward the antenna/reader.

On each chip, there are four memory banks – EPC, TID, User, and Reserved. Each of these memory banks contains information about the item that is tagged or the tag itself depending on the bank and what has been specified.

Hundreds of different RFID tags are available in many shapes and sizes with features and options specific to certain environments, surface materials, and applications.

Learn more about RFID Tags – A Guide to UHF RFID Tags

Types of RFID Tags

Because there is such wide variety of RFID applications, there are also a wide variety of RFID tags and ways to categorize them. A common way to divide tags into types is inlays vs. hard tags. Inlays are cheaper, typically varying between $0.09 - $1.75 depending on the features on the tags. Hard tags are generally more rugged and weather resistant and vary between $1.00 - $20.00.

Form Factor – Inlay, Label, Card, Badge, Hard Tag

Frequency Type– LF, NFC, HF, UHF Passive (902 – 928 MHz, 865 – 868 MHz, or 865 – 960 MHz), BAP, Active

Environmental Factors– Water resistant, Rugged, Temperature resistant, Chemical resistant

Customizable– Shape, Size, Text, Encoding

Specific Features/Applications– Laundry Tags, Sensor Tags, Embeddable Tags, Autoclavable Tags, Vehicle Tags, High Memory Tags

Specific Surface Materials– Metal mount tags, Glass mount tags, Tags for Liquid-filled items

Tag Pricing

Tag pricing depends on the type of tag and the quantity that are being ordered. As mentioned previously, inlays typically vary between $0.09 - $1.75 and hard tags can vary between $1.00 - $20.00. The higher the level of customization or the more specialized the tag, the more expensive it will be in comparison to typical off-the-shelf tags.

Selecting an RFID Tag

What type of surface will you be tagging? On metal, plastic, wood, etc.?

What read range do you desire?

Size limitations (i.e. the tag can be no larger than x by y by z inches)?

Any excessive environmental conditions to consider? Excessive heat, cold, moisture, impact, etc.?

Method of attachment? Adhesive, epoxy, rivets/screws, cable ties, etc.?

The key to choosing a tag is thorough testing of a variety of tags in your environment on the actual items you wish to tag. RFID tag sample packs can be customized for your application so that you can narrow down the tags that are right for your application.

RFID Readers

What is an RFID Reader?

An RFID reader is the brain of the RFID system and is necessary for any system to function. Readers, also called interrogators, are devices that transmit and receive radio waves in order to communicate with RFID tags. RFID readers are typically divided into two distinct types – Fixed RFID Readers and Mobile RFID Readers. Fixed readers stay in one location and are typically mounted on walls, on desks, into portals, or other stationary locations.

A common subset of fixed readers is integrated readers. An integrated RFID reader is a reader with a built-in antenna that typically includes one additional antenna port for the connection of an optional external antenna as well. Integrated readers are usually aesthetically pleasing and designed to be used for indoor applications without a high traffic of tagged items.

Mobile readers are handheld devices that allow for flexibility when reading RFID tags while still being able to communicate with a host computer or smart device. There are two primary categories of Mobile RFID readers – readers with an onboard computer, called Mobile Computing Devices, and readers that use a Bluetooth or Auxiliary connection to a smart device or tablet, called Sleds.

Fixed RFID Readers typically have external antenna ports that can connect anywhere from one additional antenna to up to eight different antennas. With the addition of a multiplexer, some readers can connect to up to 32 RFID antennas. The number of antennas connected to one reader depends on the area of coverage required for the RFID application. Some desktop applications, like checking files in and out, only need a small area of coverage, so one antenna works well. Other applications with a larger area of coverage, such as a finish line in a race timing application typically require multiple antennas to create the necessary coverage zone.

Learn more about RFID Readers – An Intro to RFID Readers: Basic Options and Features

Types of RFID Readers

The most common way to categorize readers is to classify them as either fixed or mobile. Other ways to differentiate between RFID readers include categories like connectivity, available utilities, features, processing capabilities, power options, antenna ports, etc.

Frequency Range- 902 – 928 MHz US, 865 – 868 MHz EU, Etc.*

Mobility– Fixed Readers, Integrated Readers; Mobile Readers

Connectivity Options– Wi-Fi, Bluetooth, LAN, Serial, USB, Auxiliary Port

Available Utilities– HDMI, GPS, USB, Camera, GPS, GPIO, 1D/2D Barcode, Cellular Capabilities

Processing Capabilities– OnBoard Processing, No OnBoard Processing

Power Options– Power Adapter, PoE, Battery, In-Vehicle, USB

Available Antenna Ports– No External Ports, 1-Port, 2-Port, 4-Port, 8-Port, 16-Port

Reader Pricing

A reader will usually be the most expensive component in an RFID system. RFID readers can vary from around $400 to up to $3,000 or more depending on the features and capabilities required. One of the less-expensive classes of readers is USB readers, which has an average price point of around $400. USB readers generally have short read ranges and are used for desktop applications. Handheld readers and fixed readers vary greatly in pricing depending on features and functionality offered.

Selecting an RFID Reader

How much read range do you require for your application?

Any excessive environmental conditions to consider? Excessive heat, cold, moisture, impact, etc.?

Will you be adding the reader to a network?

Where will the reader be placed? Fixed location, or on a vehicle?

Does the reader need to be mobile?

How many read points/read zones will you need?

How many tags might need to be read at one time?

How quickly will the tags be moving through the read zone? For example, is this a slow-moving conveyor belt or fast-moving race?

RFID Antennas

What is an RFID Antenna?

RFID Antennas are necessary elements in an RFID system because they convert the RFID reader’s signal into RF waves that can be picked up by RFID tags. Without some type of RFID antenna, whether integrated or standalone, the RFID reader cannot properly send and receive signals to RFID tags.

Unlike RFID readers, RFID antennas are dumb devices that receive their power directly from the reader. When the reader’s energy is transmitted to the antenna, the antenna generates an RF field and, subsequently, an RF signal is transmitted to the tags in the vicinity. The antenna’s efficiency in generating waves in a specific direction is known as the antenna’s gain. To put it simply, the higher the gain, the more powerful, and further-reaching RF field an antenna will have.

The RFID antenna gives off RFID waves along a horizontal or vertical plane, which is described as the antenna’s polarity. If the RF field is a horizontal plane, is it described as horizontally linear, and the same principle applies to an RFID antenna that creates a vertical plane.

An antenna’s polarity can have a significant impact upon a system’s read range. The key to maximizing read range is to ensure an antenna’s polarity aligns with the polarity of the RFID tag. If these do not match up, for instance, a vertical linearly-polarized antenna and a tag with a horizontal linearly-polarized antenna, the read range will be severely reduced.

A circularly-polarized antenna transmits waves that continually rotate between horizontal and vertical planes in order to give an application enhanced flexibility by allowing for RFID tags to be read in multiple orientations. However, because the energy is divided between two planes, a circularly-polarized antenna’s read range is shorter versus a similar gain linear antenna.

Learn more about RFID Antennas – 9 Tactics For Choosing an RFID Antenna

Types of Antennas

RFID Antennas, like most RFID equipment, can be divided into different categories that help to narrow down the best antenna for an application. Even though antennas are grouped by a few different factors, the most common groupings for RFID Antennas are polarity (circular vs linear) and ruggedness (indoor vs. outdoor).

Frequency Range– 902 – 928 MHz, 865 – 868 MHz, 860 – 960 MHz

Polarity– Circular, Linear

Ruggedness– Indoor IP Rated, Outdoor IP Rated

Read Range– Proximity (Near-Field), Far-Field

Mounting Type– Shelf Antenna, Ground Antenna, Panel Antenna, Portal Antenna

Antenna Pricing

Most RFID antennas are typically priced between $50 and $300 per antenna, but there are a few that cost more because of key, application-specific factors, such as ground/mat antennas. These antennas are specialized for applications such as race timing and must be rugged enough to survive and perform well while people, bikes, or even go-carts run over them. Specialized antennas can increase a system’s cost significantly but are also an investment that can be the difference between a functioning and non-functioning system.

Selecting an RFID Antenna

How much read range do you need?

Is it possible to always know or control the orientation of the RFID tag relative to the antenna’s position in your application?

Any excessive environmental conditions to consider? Excessive heat, cold, moisture, impact, etc.?

Will the antenna be mounted indoors or outdoors?

Size limitations (i.e. the antenna can be no larger than x by y by z inches)?

Kits & Additional Items

Development Kits

An RFID Development Kit is a kit put together usually by the reader manufacturer and includes everything needed to get started reading and writing RFID tags. Development Kits are recommended as the best way to start using RFID technology because it allows people to jump right into the technology and start testing their application. Because these kits are typically made by the reader manufacturer, there are many to choose from that combine the manufacturer’s reader with a recommended antenna and some sample RFID tags to test. Development Kits also typically include a sample program for reading and writing RFID tags, as well as access to the manufacturer’s Software Development Kit, or SDK. An SDK contains documentation about the reader, as well as API access and code samples, so that a software developer can begin writing software for the application.

RFID Cables

RFID Antenna Cables facilitate communication between the RFID reader and RFID antenna. Without the cable, the reader cannot power and send signals to the tags via the antenna. Choosing an RFID cable may seem like an easier task than choosing other components; however, cables can vary greatly in three specific ways – connector types, length, and thickness/insulation rating – so, it is important to take all three into consideration before purchasing.

When determining the right connectors for either end of the cable, first look at the connectors on the RFID reader and the antenna. For example, if an RFID reader has an RP-TNC Female connector, one side of the cable should have an RP-TNC Male connector and vice-versa. For more information on the different types of cable connectors, check out our RFID Cable Guide.

The cable length and thickness (also called insulation rating) will vary depending on your specific solution. The length of the cable is usually determined by how far apart the RFID reader and antenna are, but it’s important to note that, the longer the cable, the more power will be lost in transit.

One way to combat that power loss it to use a higher insulation rating. The longer the length of the cable, the better insulated the cable needs to be in order to maximize efficiency and reduce the amount of power lost along the length of the cable. Of note, as the insulation rating increases, the cable will be thicker and more rigid, which will make it more difficult to bend and work with when turning corners or running through conduit.

Other Equipment & Accessories

A few other system additions and accessories are available either to enhance a system’s functionality or for ease-of-use. For example, RFID printers, RFID portals, GPIO adapters, antenna mounting brackets, and RF power mappers will all supplement or augment your system.

Up Next

Even though this guide is filled with RFID knowledge, it is just the tip of the iceberg when it comes implementing RFID technology. The great news is that we have many different ways to learn more:

RFID Insider – The goal of this blog is to keep you well-informed and up-to-date with the latest developments in the RFID industry. Whether you’re an industry veteran or a new-comer to the RFD world, we plan on creating original content covering a wide range of topics for all levels of RFID expertise.

YouTube channel – Discover tutorials, interviews, and more on atlasRFIDstore’s channel. We’ll be discussing radio frequency identification and its various applications across a wide range of industries.

eBooks & resources – We have additional guides similar to this one that discuss the main components of an RFID systems, RFID applications, and even information in deploying a system. Other resources like infographics, customer profiles, and whitepapers are also available in our RFID resources section.

For additional information and questions, feel free to contact us.