Transcript Smart card

A smart card is a credit card sized plastic card embedded
with an integrated circuit chip that makes it "smart". This
made
between
a
convenient
plastic
card
and
a
microprocessor allows an large amount of information to
be stored, accessed and processed either online or offline.
Smart cards can store several hundred times more data
than a conventional card with a magnetic stripe. The
information or application stored in the IC chip is
transferred
through
an
electronic
module
interconnects with a terminal or a card reader.
that

EMBOSSED-CARDS
embossing allows for textual information or
designs on the card to be transferred to paper by using a
simple and inexpensive device.

MAGNETIC-STRIP-CARDS
the primary advantage that magnetic stripe
technology offers over embossing is a reduction in the
flood of paper documents. The stripe’s storage capacity is
about 1000 bits and anyone with the appropriate
read/write device can view or alter the data.

SMART CARDS (CHIP CARDS)
The Integrated Circuit Cards have conventionally come to
be known as "Smartcards". These types of cards allow far
greater orders of magnitude in terms of data storage –
cards with over 20 Kbytes of memory are currently
available. Also, the stored data can be protected against
unauthorized access. Memory functions such as reading,
writing, and erasing can be linked to specific conditions,
controlled by both hardware and software.

CONTACT CARDS
(1)Memory-Cards:
though referred to as smartcards, memory cards are
typically much less expensive and much less functional
than microprocessor cards. They contain EEPROM and ROM
memory, as well as some address and security logic.
(2)Microprocessor-Cards:
Components of this type of architecture include a CPU,
RAM, ROM, and EEPROM. The operating system is typically
stored in ROM, the CPU uses RAM as its working memory,
and most of the data is stored in EEPROM.
(3) Cryptographic Coprocessor Cards:
these card are category of microprocessor card. They are
different from other type card because of the functionality.
Cryptographic coprocessor is a hardware module, which
include a processor and the some is used for encryption
and related processing.
CONTACTLESS CARD
contactless smart cards contain an embedded antenna
attached to the chip for reading and writing information
contained in the chip's memory. They need only be passed
within range of a radio frequency acceptor to read and
store information in the chip.
Optical Memory Cards
These cards can carry many megabytes of data, but the
cards can only be written once and never erased with
today’s technology.
Hybrid Card (Combi card)
Hybrid card is combination of contact card and contactless
card. The contactless chip is used for fast transaction
times and/or mass transit application. The contact chip
can be used for higher levels of security applications.
CONSTRUCTION
As discussed previously that smart card has its smartness
because of chip embedded on the card. As shown in
figure the MICROCONTROLLER CHIP is combined with
printed circuit. This combination is then glued to the
plastic support card. Thus smart is made.
PHYSICAL CHARACTERISTICS:

A smart card must have physical dimensions of 85.6 mm x
54 mm, with a corner radius of 3.18 mm and a thickness
of 0.76mm. (according to ISO 7810 )

Consequently, smart card chip placement is defined in ISO
7816-2, which was released in 1988. These physical
characteristics are depicted in Figure
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Mask ROM Specification:
The mask ROM contains the operating system of the smart card. It is largely concerned
with the management of data files but it may optionally involve additional features
such as cryptographic algorithms

Application Software Specification:
This part of the card development process is clearly specific to the particular
application.

Application load:
Assuming the application is to be placed in the PROM memory of the IC then the next
stage in the process is to load the code into the memory. These commands allow the
reading and writing of the PROM memory.

Card Personalization:
The card is personalized to the particular user by loading data into files in the PROM
memory in the same way that the application code is loaded into memory.

Application Activation:
The final operation in the manufacturing process is to
enable the application for operation.
APPLICATIONS

Financial services - Financial institutions are looking to use Smart
Cards to deliver higher value-added services to businesses and
consumers at a lower cost per transaction.

Affinity programs - Airlines, retailers, and other companies that offer a
range of ancillary services and loyalty programs along with their basic
product want to use Smart Cards to deliver these programs with a higher
level of service, improved ease of use, and at a lower cost.

Cellular phones - Smart Cards offer a mechanism to secure cellular
phones against fraudulent use, only Java Cards offer the ability to
download new functions into a phone in real time.

Other
Applications
of
Smart
Cards
technology
include:
Government,
Healthcare,
Information
Technology,
Mobile
Communication, Banking, Loyalty Programs, Mass Transit, Driving
Licensing, Electronic Toll Collection, Telephone Cards, etc.

Secure network access - Smart Cards can carry an individual's digital
signature. With this ability, they provide a special mechanism to secure
access to computer networks within a corporation
ADVANTAGES

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Security:
Smart cards incorporate encryption and authentication technologies that can
implement issuer's and user requirement for the highest degree of security.
Convenience:
Smart cards will combine paper, plastic and magnetic cards used for
identification, automatic teller machines, copiers, toll collection, pay phones,
health care and welfare administration.
Economic Benefits:
Smart cards reduce transaction costs by eliminating paper and paper
handling costs in hospitals and government benefit payment programs.
Customization
A smart card contains all the data needed to personalize networking, Web
connection, payments and other applications.
Multifunctional:
The processing power of a smart card makes it ideal to mix multiple
functions. For example, a college identification card can be used to pay for
food, phone calls and photocopies, to access campus networks and to register
classes.
CONCLUSION
Finally, it is concluded that the smart card is an intrinsically
secure device. Smart cards have proven to be useful for
transaction,
authorization,
and
identification
media.
Eventually replacing all of the things we carry around in our
wallets, including credit cards, licenses, cash, and even family
photographs, account numbers, and valuable personal data
such as biometrics information. The smart card can be an
element of solution to a security problem in the modern
world.