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Content of RFID
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A
Active tag: An RFID tag
that has a transmitter to send
back information, rather than
reflecting back a signal from
the reader, as a passive tag
does. Most active tags use a
battery to transmit a signal to
a reader. However, some tags can
gather energy from other
sources. Active tags can be read
from 300 feet (100 meters) or
more, but they're expensive
(typically more than US$20
each). They're used for tracking
expensive items over long
ranges. For instance, the U.S.
military uses active tags to
track containers of supplies
arriving in ports.
Agile reader: A generic
term that usual refers to an
RFID reader that can read tags
operating at different
frequencies or using different
methods of communication between
the tags and readers.
Air interface protocol:
The rules that govern how tags
and readers communicate.
Amplitude modulation: .
Changing the amplitude of a
radio wave. A higher wave is
interpreted as a 1 and a normal
wave is interpreted as a zero.
By changing the wave, the RFID
tag can communicate a string of
binary digits to the reader.
Computers can interpret these
digits as digital information.
The method of changing the
amplitude is known as amplitude
shift keying, or ASK.
Antenna: The tag antenna
is the conductive element that
enables the tag to send and
receive data. Passive, low- (135
kHz) and high-frequency (13.56
MHz) tags usually have a coiled
antenna that couples with the
coiled antenna of the reader to
form a magnetic field. UHF tag
antennas can be a variety of
shapes. Readers also have
antennas which are used to emit
radio waves. The RF energy from
the reader antenna is
"harvested" by the antenna and
used to power up the microchip,
which then changes the
electrical load on the antenna
to reflect back its own signals.
Antenna gain: In
technical terms, the gain is the
ratio of the power required at
the input of a loss-free
reference antenna to the power
supplied to the input of the
given antenna to produce, in a
given direction, the same field
strength at the same distance.
Antenna gain is usually
expressed in decibels and the
higher the gain the more
powerful the energy output.
Antennas with higher gain will
be able to read tags from
farther away.
Anti-collision: A general
term used to cover methods of
preventing radio waves from one
device from interfering with
radio waves from another.
Anti-collision algorithms are
also used to read more than one
tag in the same reader's field.
Auto-ID Center: A
non-profit collaboration between
private companies and academia
that pioneered the development
of an Internet-like
infrastructure for tracking
goods globally through the use
of RFID tags.
Automatic Identification:
A broad term that covers methods
of collecting data and entering
it directly into computer
systems without human
involvement. Technologies
normally considered part of
auto-ID include bar codes,
biometrics, RFID and voice
recognition.
Application Family Identifier (AFI): A feature of some RFID tags which enables separation of RFID tags by application, so that, for instance, a tag on a library item does not interfere with a system for handling baggage. Also used for security in some library RFID implementations. |
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B
Backscatter: A method of
communication between passive
tags (ones that do not use
batteries to broadcast a signal)
and readers. RFID tags using
backscatter technology reflect
back to the reader radio waves
from a reader, usually at the
same carrier frequency. The
reflected signal is modulated to
transmit data. |
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C
Carrier frequency: The
main frequency of a transmitter,
or RFID reader, such as 915 MHz.
The frequency is then changed,
or modulated, to transmit
information.
Chipless RFID tag: An
RFID tag that doesn't depend on
a silicon microchip. Some
chipless tags use plastic or
conductive polymers instead of
silicon-based microchips. Other
chipless tags use materials that
reflect back a portion of the
radio waves beamed at them. A
computer takes a snapshot of the
waves beamed back and uses it
like a fingerprint to identify
the object with the tag.
Companies are experimenting with
embedding RF reflecting fibers
in paper to prevent unauthorized
photocopying of certain
documents. Chipless tags that
use embedded fibers have one
drawback for supply chain
uses—only one tag can be read at
a time.
Closed-loop systems: RFID
tracking systems set up within a
company. Since the tracked item
never leaves the company's
control, it does not need to
worry about using technology
based on open standards.
Cyclic redundancy check (CRC):
A method of checking data stored
on an RFID tag to be sure that
it hasn't been corrupted or some
of it lost. (See Checksum.) |
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D
Data transfer rate: The
number of characters that can be
transferred from an RFID tag to
a reader within a given time.
Baud rates are also used to
quantify how fast readers can
read the information on the RFID
tag. This differs from read
rate, which refers to how many
tags can be read within a given
period of time.
Data field: An area of
memory on an RFID microchips
that is assigned to a particular
type of information. Data fields
may be protected (see below) or
they may be written over, so a
data field might contain
information about where an item
should be sent to. When the
destination changes, the new
information is written to the
data field.
De-tune: UHF antennas are
tuned to receive RFID waves of a
certain length from a reader,
just as the tuner on the radio
in a car changes the antenna to
receive signals of different
frequencies. When UHF antenna is
close to metal or metallic
material, the antenna can be
detuned, resulting in poor
performance.
Die: The silicon block
onto which circuits have been
etched to create a microchip.
Duty cycle: The length of
time the reader can be emitting
energy. Regulations in the
European Union say readers can
be on only 10 percent of the
time. |
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E
Electrically Erasable
Programmable Read-Only Memory (EEPROM) :
A method of storing data on
microchips. Usually bytes can be
erased and reprogrammed
individually. RFID tags that use
EEPROM are more expensive than
factory programmed tags, where
the number is written into the
silicon when the chip is made,
but they offer more flexibility
because the end user can write
an ID number to the tag at the
time the tag is going to be
used.
Electromagnetic interferance
(EMI): Interference caused when
the radio waves of one device
distort the waves of another.
Cells phones, wireless computers
and even robots in factories can
produce radio waves that
interfere with RFID tags.
Electronic
Product Code (EPC): A serial,
created by the Auto-ID Center,
that will complement barcodes.
The EPC has digits to identify
the manufacturer, product
category and the individual
item.
EPCglobal:
A non-profit organization set up
the Uniform Code Council and EAN
International, the two
organizations that maintain
barcode standards, to
commercialize EPC technology.
EPCglobal is made up of chapters
in different countries and
regions. It is commercializing
the technology origianally
developed by the Auto-ID Center.
European
Article Numbering (EAN): The bar
code standard used throughout
Europe, Asia and South America.
It is administered by EAN
International.
Excite: The
reader is said to "excite" a
passive tag when the reader
transmits RF energy to wake up
the tag and enable it to
transmit back.
Electronic Article Surveillance (EAS): The use of electronic systems to secure physical items. Several technologies are included, though the interesting technology used for EAS of relevance to this discussion is implemented using RFID tags. |
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F
Factory
programming: Some read-only have
to have their identification
number written into the silicon
microchip at the time the chip
is made. The process of writing
the number into the chip is
called factory programming. This
data can't be written over or chagned.
Far-field
communication: RFID reader
antennas emit electromagnetic
radiation (radio waves). If an
RFID tag is outside of one full
wavelength of the reader, it is
said to be in the "far field."
If it is within one full
wavelength away, it is said to
be in the "near field." The far
field signal decays as the
square of the distance from the
antenna, while the near field
signal decays as the cube of
distance from the antenna. So
passive RFID systems that rely
on far field communications
(typically UHF and microwave
systems) have a longer read
range than those that use near
field communications (typically
low- and high-frequency
systems).
Field
programming: Tags that use EEPROM, or non-volatile memory,
can be programmed after it is
shipped from the factory. That
is, users can write data to the
tag when it is placed on a
product.
Frequency:
The number of repetitions of a
complete wave within one second.
1 Hz equals one complete
waveform in one second. 1KHz
equals 1,000 waves in a second. RFID tags use low,high,
ultra-high and microwave
frequencies. Each frequency has
advantages and disadvantages
that make them more suitable for
some applications than for
others.
Frequency
hopping: A technique used to
prevent readers from interfering
with one another. In the United
States, UHF RFID readers
actually operate between 902 and
928 MHz, even though it is said
that they operate at 915 MHz.
The readers may jump randomly or
in a programmed sequence to any
frequency between 902 MHz and
928 MHz. If the band is wide
enough, the chances of two
readers operating at exactly the
same frequency is small. The UHF
bands in Europe and Japan are
much smaller so this technique
is not effective for preventing
reader interference. |
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H
High-frequency: From 3 MHz to 30
MHz. HF RFID tags typically
operate at 13.56 MHz. They
typically can be read from less
than 3 feet away and transmit
data faster than low-frequency
tags. But they consume more
power than low-frequency tags. |
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I
Inductive
coupling: A method of
transmitting data between tags
and readers in which the antenna
from the reader picks up changes
in the tag’s antenna.
Industrial,
Scientific, and Medical (ISM)
bands: A group of unlicensed
frequencies of the
electromagnetic spectrum.
Inlay: An RFID microchip attached to an
antenna and mounted on a
substrate. Inlays are
essentially unfinished RFID
labels. They are usually sold to
label converters who turn them
into smart labels.
Integrated
circuit (IC): A microelectronic
semiconductor device comprising
many interconnected transistors
and other components. Most RFID
tags have ICs.
Integrated Library System (ILS): The system that a library uses to manage its collection, typically comprising a database and software to support functions such as circulation, collection management, acquisitions, patron account management, item searching, etc. |
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L
Linear-polarized antenna: A UHF
antenna that focuses the radio
energy from the reader in a
narrow beam. This increases the
read distance possible and
provides greater penetration
through dense materials. Tags
designed to be used with a
linear polarized reader antenna
must be aligned with the reader
antenna in order to be read.
Low-frequency: From 30 kHz to
300 kHz. Low-frequency tags
typical operate at 125 kHz or
134 kHz. The main disadvantages
of low-frequency tags are they
have to be read from within
three feet and the rate of data
transfer is slow. But they are
less subject to interference
than UHF tags. |
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M
Memory: The
amount of data that can be
stored on the microchip in an RFID tag.
Memory
block: Memory on the microchip
in an RFID tag is usually
divided into sections, which can
be read or written to
individually. Some blocks might
be locked, so data can't be
overwritten, while others are
not.
Modulation:
Changing the radio waves
traveling between the reader and
the transponder in ways that
enable the transmission of
information. Waves be changed in
a variety of ways that can be
picked up by the reader and
turned into the ones and zeroes
of binary code. Waves can be
made higher or lower (amplitude
modulation) or shifted forward
(phase modulation). The
frequency can be varied
(frequency modulation), or data
can be contained in the duration
of pulses (pulse-width
modulation).
Multiplexer: An electronic
device that allows a reader to
have more than one antenna. Each
antenna scans the field in a
preset order. This reduces the
number of readers needed to
cover a given area, such as a
dock door, and prevents the
antennas from interfering with
one another. |
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N
Near-field
communication: RFID reader
antennas emit electromagnetic
radiation (radio waves). If an
RFID tag is within full
wavelength of the reader, it is
said to be in the "near field."
If it is more than the distance
of one full wavelength away, it
is said to be in the "far
field." The near field signal
decays as the cube of distance
from the antenna, while the far
field signal decays as the
square of the distance from the
antenna. So passive RFID systems
that rely on near-field
communication (typically low-
and high-frequency systems) have
a shorter read range than those
that use far field communication
(UHF and microwave systems).
Noise:
Unwanted ambient electrical
signals or electromagnetic
energy found in the operating
environment of RFID equipment.
Noise can be caused by other RF
devices, robots, electric motors
and other machines.
Nominal
range: The read range at which
the tag can be read reliably.
Null spot:
Area in the reader field that
doesn't receive radio waves.
This is essentially the reader's
blind spot. It is a phenomenon
common to UHF systems.
NISO Circulation Interchange Protocol ( NCIP ): ANSI/NISO Z39.83-2002.
A communication protocol for interoperability among integrated library systems to support library operations: Interlibrary Loan, Direct Consortial Borrowing, and Self Service. The NCIP standard was approved by the National Information Standards Organization in 2002. The intent of this standard is to succeed SIP2.
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O
Object Name
Service (ONS): An Auto-ID
Center-designed system for
looking up unique Electronic
Product Codes and pointing
computers to information about
the item associated with the
code. ONS is similar to the
Domain Name Service, which
points computers to sites on the
Internet.
One-time
programmable tag: Also called a
field-programmable tag. An RFID
tag that can be written to once
and read many times (see WORM).
Orientation: The position of a
tag antenna vis-a-vis a reader
antenna. With UHF systems,
readers can be either
circular-polarized or
linear-polarized. When using a
linear polarized antenna, the
tag reader and antenna reader
must be in alignment in order to
achieve the longest reading
distance. If that tag antenna is
aligned vertically and the
reader is sending out signals
horizontally, only a small
portion of the energy emitted by
the reader will will hit the tag
antenna.
Object Identifiers (OID): It is a string of numbers that identifies an object. |
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P
Passive
tag: An RFID tag without a
battery. When radio waves from
the reader reach the chip’s
antenna, the energy is converted
by the antenna into electricity
that can power up the microchip
in the tag. The tag is able to
send back information stored on
the chip. Today, simple passive
tags cost from U.S. 20 cents to
several dollars, depending on
the amount of memory on the tag
and other features.
Patch
antenna: A small square reader
antenna made from a solid piece
of metal or foil.
Physical
Markup Language (PML): An
Auto-ID Center-designed method
of describing products in a way
computers can understand. PML is
based on the widely accepted
eXtensible Markup Language used
to share data over the Internet
in a format all computers can
use. The idea is to create a
computer language that companies
can use to describe products so
that computer can search for,
say, all "softdrinks" in
inventory.
Power
level: The amount of RF energy
radiated from a reader or an
active tag. The higher the power
output, the longer the read
range, but most governments
regulate power levels to avoid
interference with other devices.
Protocol: A
set of rules that govern
communications systems. (See
Air-interface protocol.)
Proximity
sensor: A device that detects
the presence of an object and
signals another device.
Proximity sensors are often used
on manufacturing lines to alert
robots or routing devices on a
conveyor to the presence of an
object. They can be used in RFID
systems to turn on readers. |
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R
Radio
Frequency Identification (RFID):
A method of identifying unique
items using radio waves.
Typically, a reader communicates
with a tag, which holds digital
information in a microchip. But
there are chipless forms of RFID
tags that use material to
reflect back a portion of the
radio waves beamed at them.
Read: The
process of retrieving data
stored on an RFID tag by sending
radio waves to the tag and
converting the waves the tag
sends back into data.
Reader: A
device used to communicate with RFID tags. The reader has one or
more antennas, which emit radio
waves and receive signals back
from the tag. The reader is also
sometimes called an interrogator
because it "interrogates" the
tag.
Reader
field: The area of coverage.
Tags outside the reader field do
not receive radio waves and
can't be read.
Read-only
tags: Tags that contain data
that cannot be changed unless
the microchip is reprogrammed
electronically.
Reader
talks first: A means by which a
passive UHF reader communicates
with tags in its read field. The
reader sends energy to the tags
but the tags sit idle until the
reader requests them to respond.
The reader is able to find tags
with specific serial numbers by
asking all tags with a serial
number that starts with either 1
or 0 to respond. If more than
one responds, the reader might
ask for all tags with a serial
number that starts with 01 to
respond, and then 010. This is
called "walking" a binary tree,
or "tree walking." (See Singulation.)
Read range:
The distance from which a reader
can communicate with a tag.
Active tags have a longer read
range than passive tags because
they use a battery to transmit
signals to the reader. With
passive tags, the read range is
influenced by frequency, reader
output power, antenna design,
and method of powering up the
tag. Low frequency tags use
inductive coupling (see above),
which requires the tag to be
within a few feet of the reader.
Read rate:
Often used to describe the
number of tags that can be read
within a given period. The read
rate can also mean the maximum
rate at which data can be read
from a tag expressed in bits or
bytes per second. (See Data
transfer rate.)
Read-write
tag: an RFID tag that can store
new information on its
microchip. These tags are often
used on reusable containers and
other assets. When the contents
of the container are changed,
new information is written to
the tag. Read-write tags are
more expensive than read-only
tags.
RFID tag: A
microchip attached to an antenna
that is packaged in a way that
it can be applied to an object.
The tag picks up signals from
and sends signals to a reader.
The tag contains a unique serial
number, but may have other
information, such as a
customers' account number. Tags
come in many forms, such smart
labels that can have a barcode
printed on it, or the tag can
simply be mounted inside a
carton or embedded in plastic. RFID tags can be active, passive
or semi-passive. |
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S
Scanner: An
electronic device that can send
and receive radio waves. When
combined with a digital signal
processor that turns the waves
into bits of information, the
scanner is called a reader or
interrogator.
Semi-passive tag: Similar to
active tags, but the battery is
used to run the microchip's
circuitry but not to broadcast a
signal to the reader. Some
semi-passive tags sleep until
they are woken up by a signal
from the reader, which conserves
battery life. Semi-passive tags
can cost a dollar or more. These
tags are sometimes called
battery-assisted tags.
Sensor: A
device that responds to a
physical stimulus and produces
an electronic signal. Sensors
are increasingly being combined
with RFID tags to detect the
presence of a stimulus at an
identifiable location.
Signal
attenuation: The weakening of RF
energy from an RFID tag or
reader. Water absorbs UHF
energy, causing signal
attenuation.
Smart
label: A generic term that
usually refers to a barcode
label that contains an RFID
transponder. It's considered
"smart" because it can store
information, such as a unique
serial number, and communicate
with a reader.
Smart
cards: See Contactless smart
cards.
SAW
(Surface Acoustic Wave): A
technology used for automatic
identification in which low
power microwave radio frequency
signals are converted to
ultrasonic acoustic signals by a
piezoelectric crystalline
material in the transponder.
Variations in the reflected
signal can be used to provide a
unique identity.
Synchronization: Timing readers
or reader antennas near one
another so that they don't
interfere with one another.
SIP2: 3M™ Standard Interchange Protocol. A communication protocol that provides a standard interface between a library's integrated library system (ILS) and library automation devices (e.g., check-out devices, check-in devices, etc.). The protocol can be used by any application that has a need to retrieve information from an ILS or process circulation transactions via the ILS. There are two versions of SIP, version 1.0 and 2.0. SIP2 is based on a proprietary protocol, but has been opened for use by all parties providing systems for library circulation. |
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T
Tag talks
first: A means by which a reader
in a passive UHF system
identifies tags in the field.
When tags enter the reader's
field, they immediately
communicate their presence by
reflecting back a signal. This
is useful when you want to know
everything that is passing a
reader, such as when items are
moving quickly on a conveyor. In
other cases, the reader wants to
simply find specific tags in a
field, in which case it wants to
broadcast a signal and have only
certain tags respond. (See
Reader talks first.)
Transceiver: A device that both
transmits and receives radio
waves.
Transponder: A radio
transmitter-receiver that is
activated when it receives a
predetermined signal. RFID
transponders come in many forms,
including smart labels, simple
tags, smart cards and keychain
fobs. RFID tags are sometimes
referred to as transponders. |
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U
Ultra-high
frequency (UHF): From 300 MHz to
3 Ghz. Typically, RFID tags that
operate between 866 MHz to 960
MHz. They can send information
faster and farther than high-
and low-frequency tags. But
radio waves don’t pass through
items with high water content,
such as fruit, at these
frequencies. UHF tags are also
more expensive than
low-frequency tags, and they use
more power.
Unique
Identifier (UID): A serial
number that identifies the
transponder. The U.S. Department
of Defense has also developed an
identification scheme called UID. |
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W
WORM: Write
once, read many. A tag that can
be written to only once by the
user. Thereafter, the tag can
only be read.
Write rate:
The rate at which information is
transferred to a tag, written
into the tag's memory and
verified as being correct. |
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X
XML: See eXtensible Markup Language.
XML Query
Language (XQL): A method of
searching a database based on
the extensible markup language
(XML). Files created using the
Auto-ID Center’s Physical Markup
Language can be searched using XQL. |
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Z
Z39.50: Supporting information retrieval among different information systems
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