RFID:
Indian Barcode
Corporation Established
in the year 1997, at New Delhi, India. We are manufacturer and supplier of wide
and extensive variety of Labels, Tags, Stickers and Ribbons. We also carry out
severe quality checks for every delivery to sustain overall quality in our
product line. Further, our products are tested by our team of quality
inspectors to guarantee fault free products.
RFID
stands for Radio-Frequency Identification. The acronym refers to
small electronic devices that consist of a small chip and an antenna. The chip
typically is capable of carrying 2,000 bytes of data or less.
The
RFID device serves the same purpose as a bar code or a magnetic strip on the
back of a credit card or ATM card; it provides a unique identifier for that
object. And, just as a bar code or magnetic strip must be scanned to get the
information, the RFID device must be scanned to retrieve the identifying
information.
RFID Works Better Than Barcodes
A
significant advantage of RFID devices over the others mentioned above is that
the RFID device does not need to be positioned precisely relative to the
scanner. We're all familiar with the difficulty that store checkout clerks
sometimes have in making sure that a barcode can be read. And obviously, credit
cards and ATM cards must be swiped through a special reader.
In contrast, RFID devices will work within a few feet (up to
20 feet for high-frequency devices) of the scanner. For example, you could just
put all of your groceries or purchases in a bag, and set the bag on the
scanner. It would be able to query all of the RFID devices and total your
purchase immediately.
RFID technology has been available for more than fifty years.
It has only been recently that the ability to manufacture the RFID devices has
fallen to the point where they can be used as a "throwaway" inventory
or control device. Alien Technologies recently sold 500 million RFID tags to
Gillette at a cost of about ten cents per tag.
One reason that it has taken so long for RFID to come into
common use is the lack of standards in the industry. Most companies invested in
RFID technology only use the tags to track items within their control; many of
the benefits of RFID come when items are tracked from company to company or
from country to country.
Barcode
Labels vs. RFID Labels
Readers
RFID systems can be classified by the type of tag and reader.
A Passive Reader Active Tag (PRAT) system has a passive
reader which only receives radio signals from active tags (battery operated,
transmit only). The reception range of a PRAT system reader can be adjusted
from 1–2,000 feet (0–600 m), allowing flexibility in applications such as
asset protection and supervision.
An Active Reader Passive Tag (ARPT)
system has an active reader, which transmits interrogator signals and also
receives authentication replies from passive tags.
An Active Reader Active Tag (ARAT)
system uses active tags awoken with an interrogator signal from the active
reader. A variation of this system could also use a Battery-Assisted Passive (BAP) tag which acts like a passive tag
but has a small battery to power the tag's return reporting signal.
Fixed readers are set up to create a specific interrogation zone
which can be tightly controlled. This allows a highly defined reading area for
when tags go in and out of the interrogation zone. Mobile readers may be
hand-held or mounted on carts or vehicles.
Signaling:
Signaling
between the reader and the tag is done in several different incompatible ways,
depending on the frequency band used by the tag. Tags operating on LF and HF bands are, in terms of radio
wavelength, very close to the reader antenna because they are only a small
percentage of a wavelength away. In this near field region, the tag
is closely coupled electrically with the transmitter in the reader. The tag can
modulate the field produced by the reader by changing the electrical loading
the tag represents. By switching between lower and higher relative loads, the
tag produces a change that the reader can detect. At UHF and higher frequencies, the tag is more than one radio
wavelength away from the reader, requiring a different approach. The tag
can backscatter a signal.
Active tags may contain functionally separated transmitters and receivers, and
the tag need not respond on a frequency related to the reader's interrogation
signal.
An Electronic Product Code (EPC) is
one common type of data stored in a tag. When written into the tag by an RFID
printer, the tag contains a 96-bit string of data. The first eight bits are a
header which identifies the version of the protocol. The next 28 bits identify
the organization that manages the data for this tag; the organization number is
assigned by the EPCGlobal consortium. The next 24 bits are an object class,
identifying the kind of product; the last 36 bits are a unique serial number
for a particular tag. These last two fields are set by the organization that
issued the tag. Rather like a URL, the total electronic product code
number can be used as a key into a global database to uniquely identify a
particular product.
RFID
Labels:
RFID thermal transfer labels are
commonly used in the following applications:
RFID
Tags:
A radio-frequency identification system uses tags,
or labels attached to the objects to be identified. Two-way
radio transmitter-receivers called interrogators or readers send
a signal to the tag and read its response.
RFID tags can be passive, active or battery-assisted passive. An
active tag has an on-board battery and periodically transmits its ID signal. A
battery-assisted passive (BAP) has a small battery on board and is activated
when in the presence of an RFID reader. A passive tag is cheaper and smaller
because it has no battery; instead, the tag uses the radio energy transmitted
by the reader. However, to operate a passive tag, it must be illuminated with a
power level roughly a thousand times stronger than for signal transmission.
That makes a difference in interference and in exposure to radiation.
Tags may either be read-only, having a factory-assigned serial
number that is used as a key into a database, or may be read/write, where
object-specific data can be written into the tag by the system user. Field
programmable tags may be writing-once, read-multiple; "blank" tags
may be written with an electronic product code by the user.
RFID tags contain at least three parts: an integrated
circuit that stores and processes information and that modulates and demodulates radio-frequency (RF)
signals; a means of collecting DC power from the incident reader signal; and
an antenna for receiving and transmitting the signal. The tag
information is stored in a non-volatile memory. The RFID tag includes either
fixed or programmable logic for processing the transmission and sensor data,
respectively.
An RFID tag will have three components, namely the chip, antenna
and the substrate. The chip and antenna are held together by an interconnect.
This arrangement is supported by a substrate namely silicon. What plastic you
are saying is the encasement. The chip, antenna and substrate together forms an
Inlay which has got an adhesive on one side to make it stick on any object or
item. These inlays are manufactured in roll and supplied to the customers.
When any human understandable information printed on one side of the inlay and
other side is adhesive, then is form of RFID is called an RFID label. For example, if WE take labels for carton boxes you can
see barcode information printed along with price, color and other details.
These labels can just be pasted on with the help of adhesive it has got.
Tag: it comes in various form
factors designed according to the customization. But basically it’s the chip
and the antenna. This will be encapsulated with plastic or polyesters in order
to make them durable and withstand higher temperature. Tags can be in various
sizes depending on its usage and applications
RFID Antenna:
As
part of the design of the RFID antenna, parameters such as the radiation
resistance, bandwidth, efficiency, and Q all need to be considered, so that the
resulting design for the RFID antenna meets the requirements and allows the
required level of performance to be achieved. RFID antennas are tuned to
resonate only to a narrow range of carrier frequencies that are centered on the
designated RFID system frequency.
The
RFID antenna propagates the wave in both vertical and horizontal dimensions.
The field coverage of the wave and also its signal strength is partially
controlled by the number of degrees that the wave expands as it leaves the
antenna. While the higher number of degrees means a bigger wave coverage
pattern it also means lower strength of the signal. Passive RFID tags utilize
an induced antenna coil voltage for operation. This induced AC voltage is
rectified to provide a voltage source for the device. As the DC voltage reaches
a certain level, the device starts operating. By providing an energizing RF
signal, a reader can communicate with a remotely located device that has no
external power source such as a battery. According to the different functions
in the RFID system, the RFID antennas can be divided into two classes: the tag antenna and the reader antenna.
RFID
Uses:
RFID is used for item level tagging in retail stores.
In addition to inventory control, this provides both protection against theft
by customers (shoplifting) and employees ("shrinkage") by using electronic
article surveillance (EAS), and a self checkout process for
customers. Tags of different type can be physically removed with a special tool
or deactivated electronically once items have been paid for. On leaving the
shop customers have to pass near an RFID detector; if they have items with
active RFID tags, an alarm sounds, both indicating an unpaid-for item, and
identifying what it is.
Casinos can use RFID to authenticate poker chips, and can
selectively invalidate any chips known to be stolen.
Passports:
Modern passports of several countries, including the United
States, feature an embedded RFID chip that contains information about the
owner, including a digital facial photograph that allows airport officials to
compare the passport’s owner to the person who is carrying the passport.
Passport
Security:
In order to protect the sensitive information on a passport, all RFID communications are encrypted with a secret key
In
many instances, however, this secret key is merely the passport number, the
holder’s date of birth, and the expiration date, in that order.
All
of this information is printed on the card, either in text or using a barcode
or other optical storage method.
While
this secret key is intended to be only accessible to those with physical access
to the passport, an attacker with information on the owner, including when
their passport was issued, may be able to easily reconstruct this key,
especially since passport numbers are typically issued sequentially.
Why Buy from Us?
Indian Barcode Established in the year
1997, at New Delhi, India. We are manufacturer and supplier of wide and
extensive variety of Labels, Tags, Stickers and Ribbons. And after a gap of few
years . And now popularly known as Indian Barcode Corporation (A MINDWARE Group
Company) offer, barcode printers, barcode scanners, rfid scanners, ferrule
printers, flexo printing, printing of movie tickets, billing rolls, offset
printing, digital printing, India's top most printing house , apart from that
we offer Zebra Labels and Ribbons, Argox Labels and Ribbons, Printronix Labels
and Ribbons, Brother Labels and Ribbons, Godex Labels and Ribbons, Sato Labels
and Ribbons, Toshiba Labels and Ribbons, TSC Labels and Ribbons, Citizen Labels
and Ribbons, Datamax Labels and Ribbons, Dymo Labels and Ribbons, Avery
Dennison (AD) Labels and Ribbons. We have different variant of jewelry labels ,
void, temper evident, tte, non void, removable, ungummed jewelry labels and
YMCK Ribbons, DMP Ribbons, Thermal Ribbons, Colored Ribbons. We also offer RFID
Tags and Solution for various Industries. We have developed an excellent
manufacturing unit in our organization, which is fitted with comprehensive
machines that are used to design our product range. Our cutting edge tools,
latest technology, essential facility and assiduous workforce have enabled us
to manufacture our assortment as per the newest market developments. Adding on,
we also carry out severe quality checks for every delivery to sustain overall
quality in our product line
To Buy RFID Labels Click Here:
To Buy RFID Tags Click Here:
Please Visit:
https://www.indianbarcodes.com/rfid-system/rfid-hard-tags
https://www.indianbarcodes.com/rfid-system/rfid-smart-label
https://www.indianbarcodes.com/rfid-system/rfid-windshield-labels
https://www.indianbarcodes.com/rfid-system/handheld-rfid-reader
Please contact for
price related queries and placing orders at :
Mindware,
S - 4, Pankaj Plaza, Pocket - 7,
Plot - 7, Near Metro Station,
Dwarka Sector - 12,
Metro Pillar No - 1030,
New Delhi - 110078, India
011-28032434, 011-46102688
+91-9717122688, +91-9810822688
http://www.indianbarcodecorporation.com/
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