| How
does an RFID system work? |
Information
about an object is stored in a small chip that is connected to
an antenna, and in some cases powered by a battery. This combination
of chip and antenna is called an RFID tag. Another device, called
a reader or interrogator, transmits a signal that searches for
compatible RFID tags within its vicinity. When the tag's antenna
picks up the signal, the tag activates and transmits the information
stored on its chip to the reader. The reader then passes the tag's
information to a backend computer system to complete the identification
process, and if necessary, initiate workflows. |
| What
is the size of RFID tags? |
| Tags
range in size from a grain of rice to a brick, with a thickness
from less than a millimeter to an inch or more. In most supply-chain
applications, tags are typically small and flat, and are often sandwiched
inside of an adhesive label. |
| What
is the advantage of RFID over bar codes? |
| The
largest difference between RFID and bar code technology is that
bar codes are dependent on line-of-sight technology, while RFIDs
are not. In other words, the bar code scanner has to directly "see"the
bar code in order to read it, while RFID can be read at any angle,
through packaging and even through shipping containers as long as
the tag is within the distance range of a reader. RFID tags are
also very durable as they can be encased in rigid, protective materials,
while bar codes are susceptible to being torn, soiled, or otherwise
damaged to a point of being unreadable. |
| Will
RFID eventually replace bar codes? |
| RFID
and bar codes will likely coexist for a long time. Currently, bar
codes are considerably less expensive than RFID tags, and for certain
tasks, they will likely continue to have advantages. |
| What
is a "smart label?" |
| A
small, very flat RFID tag that is embedded in an adhesive bar-code
label. Smart labels allow a single sticker to accommodate both bar-code
and RFID uses. |
| Are
there any health risks associated with RFID and radio waves? |
| RFID
uses the low-end of the electromagnetic spectrum. The waves coming
from readers are no more dangerous than radio or television waves. |
| What
is an Electronic Product Code (EPC)? |
| EPC
is a unique number based on a global standard for product identification
called a global trade item number (GTIN). This number uniquely identifies
the manufacturer, brand, product type, unit of measure, etc., and
can potentially identify items with serial numbers. The EPC can
be associated with data in online databases to provide entities
in the supply chain with extensive product and manufacturing information. |
| What
are EPCglobal specifications? |
| An organization
called EPCglobal (an affiliate of the Uniform Code Council and EAN
International) has created different specifications for the frequency,
encoding characteristics and other attributes of RFID tags. These
specifications have become the standard in supply-chain applications.
Different "classes" within these standards define memory
capacities, frequencies and other characteristics. EPCglobal recently
approved "Generation 2 tags" that have a single class
that is being widely accepted among larger supply chain companies.
These increase encryption capabilities and minimize interference
problems caused by lighting and other environmental causes. For
more information on these specifications, go to www.epcglobalinc.com. |
| What
is the cost of an RFID tag? |
| Depending on
the type, the usage and the quantity produced, tags currently cost
from 20 cents each to several dollars. In supply-chain applications
where smart labels are required, the cost per tag is typically between
40 and 50 cents. |
| How
do I know which frequency is right for my RFID application? |
| Different frequencies
have different characteristics that make them more useful depending
on the application. In supply-chain applications in the United States,
most passive RFID tags operate in two frequency bands: high frequency
(HF) at 13.56 MHz, and ultrahigh frequency (UHF) from 860 to 960
MHz. See above, "What are EPCglobal specifications?" For
standards in your industry, contact your trade organization or visit
www.aimglobal.org. |
| Is
it true that RFID doesn't work near metal and water? |
| No. It is true
that radio waves bounce off metal and are absorbed by water at ultrahigh
frequencies, which can make tracking metal products or those with
high water content problematic. However, good system design and
engineering can overcome this problem. Low- and high-frequency tags
work better on products with water and metal. In fact, there are
applications in which low-frequency RFID tags are actually embedded
in metal auto parts for tracking. |
| How
much information can the RFID tag store? |
| Typically,
RFID tags store only a few hundred bits of data. This accommodates
basic identifying information about an item. In some RFID applications,
however, the size can be as large as 1MB, especially if the tag
is regularly recording additional information about the item during
the life of the item. The reason the size of storage is typically
low-especially in supply-chain applications-is that many systems
interface to extensive universal product databases providing exhaustive,
up to date information about the product at any point in time. |
| What
is the detection range for RFID tags? |
| The read range
of passive tags (tags without batteries) depends on many factors:
the frequency of operation, the power of the reader, whether repeaters
are used, and interference from metal, water or other RF devices.
In general, low-frequency tags have a range of a foot or less. High
frequency tags have a range of about three feet and UHF tags can
be read from 10 to 20 feet. When longer ranges are needed, such
as for tracking railway cars, active tags (tags that use batteries
to boost the signal) have read ranges up to 300 feet or more. |
| Do
individual items need to be tagged with RFID? |
| In supply-chain
applications, it is usually not practical to use RFID tags for individual
items unless the items are particularly valuable. Normally, RFID
tags are only used at the pallet and case levels. It is likely that
at some point tags will be used on most individual products, although
it is estimated that it could be at least 5 years before the cost
of tags becomes low enough to cost-justify individual item usage. |
| Will
RFID lead to massive layoffs of workers? |
| RFID technology
is a labor-saving technology so it's likely that some jobs will
be affected as fewer workers will be needed to scan bar codes. But
this transition won't happen quickly as it could take a decade or
more before RFID is implemented on a wide enough scale to cause
a sizable displacement of workers. Considering that many of the
jobs that currently include the scanning of bar codes also include
moving products and/or restocking shelves, most of these kinds of
jobs will not likely be eliminated because of the use of RFID. |
| Will
RFID become a means for unscrupulous characters to steal identities
or for the government to impinge on civil rights? |
| As with other
technologies, RFID can be used to benefit people or to harm them.
There are certainly opportunities for abuse with RFID and its use
will need to be tightly regulated and enforced to minimize this
possibility. |
