What is a Smart Card Manufacturer?

smart card manufacturer

What is a Smart Card Manufacturer?

Smart cards can be used for a variety of applications, including identification, access control and financial transactions. These cards can also be used to store data and communicate with other devices.

A smart card manufacturer designs and manufactures these cards for a range of industries, including healthcare, government and law enforcement. It can produce both disposable and reloadable cards.


Smart cards offer a number of security features that make them more secure than traditional credit and debit cards. These include tamper-proof storage of data, encryption, biometrics, and passwords.

These features are important to both consumers and issuing organizations, ensuring the security of the data and preventing fraud and theft. As a result, smart cards are becoming more common in the payment industry and in industries that require high security.

The primary way that smart cards protect information is through encryption. These devices use a series of algorithms to generate keys and then store them on the chip. This method makes it difficult for anyone to decrypt the data.

Another way that smart cards safeguard privacy is through the generation of digital signatures. These are often used in e-mails, and they allow a recipient to verify the authenticity of the message. This feature helps prevent unauthorized disclosure of private information and gives the sender confidence in its origin.

Encryption is a critical element of smart card security and can be applied in a wide variety of applications, including email messaging and e-commerce transactions. It is also a key component of identity management systems, where biometrics can be used to identify individuals.

In addition to the smart card manufacturer ability to encrypt data, smart cards are also equipped with security measures that prevent unauthorized access to the chip’s memory. These measures include EEPROM, which is an electrically erasable, programmable read-only memory.

Smart cards can also help safeguard data by allowing for a one-time password (OTP) function to be computed and stored on the chip. This feature helps to ensure the integrity of online banking and other financial services by providing a password that is unique to each individual.

Moreover, smart cards are also capable of generating and verifying digital signatures that are often used in e-commerce transactions. This is a valuable feature for preventing unauthorized disclosure of personal information, and it can also protect against phishing scams.

A number of smart card manufacturers are committed to securing their products, and many have received credentials from independent certifying organizations. This certification proves that the card manufacturer has met industrial and government security requirements, thereby ensuring the protection of sensitive information.

Ease of use

Ease of use is an important consideration for any smart card manufacturer. For this reason, it is necessary for them to provide the user with a secure and convenient system for accessing their data.

Smart cards come in a wide range of designs and features, and are used for a number of different purposes. They are used for electronic identification, authentication, and payment.

They also can be used for storing information such as passwords, credit card numbers and PIN codes. They are also used to store information about an individual’s medical history, and can help prevent healthcare fraud.

A smart card can contain various types of memory, including read-only memory (ROM), electrical erasable programmable read-only memory (EEPROM) and random access memory (RAM). This memory is important because it provides the space needed for the smart card to function efficiently.

The amount of memory on a smart card depends on the type of application it will support. The more complex the application is, the more RAM it will require to handle it.

In general, a smart card will have a resident operating system that is able to control the functionality of the microprocessors inside the card. This can vary from a very basic operating system to one that controls the loading and running of new applications with full security management.

Some smart cards have a resident cryptographic engine that can be used to authenticate and verify the identity of a user. This can be done using cryptographic algorithms such as Triple DES and RSA.

This is a critical feature because it will allow the smart card to be used for electronic commerce. This will eliminate the need for users to manually provide each service supplier with their profile.

A smart card can also be used to protect against counterfeiting by enabling the owner to prove their identity through digital signatures. It can also be used to protect a user’s health by helping them avoid diseases that can be transmitted through the mail.

However, smart cards are still in their infancy. They are not widely deployed in the corporate world yet, due to a number of challenges. For instance, companies need to have a public-key infrastructure (PKI) in place to utilize the encryption and authentication functions enabled by a smart card. They also need to have a centralized directory infrastructure in place. This will help them manage the distribution of smart cards, says Thierry Burgess, executive vice president for sales at Oberthur Card Systems USA.


A smart card manufacturer must select the best materials and technologies to ensure that their smart cards meet their customer’s security and irreproducibility needs. However, the selection process is a complex one that often involves trade-offs between features and functionality.

The durability of a smart card can vary greatly based on its type, manufacturing process and finishing. The lifespan of a contact smart card is heavily dependent on the quality of the bonding between the contact chip and the ID card body, as well as the strength of the connection between the chip and its antenna.

Another key feature influencing card durability is the use of high-quality topcoats and overlaminates to protect printed images from abrasion, wear and tear, and chemical damage. Typical ID card topcoats and overlaminates are made from polycarbonate, PET, or PVC that can resist abrasions caused by repeated passing through swipe ID card readers, as well as moisture and heat.

Using overlaminates that are matched to the properties of the ID card body is key to prolonging their life, especially for national ID cards and driver’s license programs. These laminates can also be infused with UV or custom holographic security images to provide additional protection from the elements, as well as improve readability of the card’s printed image.

Other durable features include ghost images, which are semi-visible graphics that can be copied only with difficulty. They’re typically applied to the background of an ID card, but can also be applied to the front.

For example, a ghost image can be made of a reference signature that a cardholder has signed before he or she presents it to an officer or agent. This feature is a good safety measure for government ID cards, which are likely to be viewed by many people.

Other features that are considered to be the biggest smart card innovations include a biometric ID system, which is designed to identify an individual based on his or her fingerprint or iris. These systems can be difficult to hack, and are popular with banks that use electronic transactions, such as e-banking or mobile payments.


Convenience is an important factor in smart card technology, which enables quick access and ID verification. It also facilitates a variety of applications, from transport systems to payments.

For example, a student’s smart card is used in a university’s dormitory to provide security and ID verification. It also stores smart card manufacturer credit and cash, and allows access to a wide range of functions, including food, payphones, photocopying, transportation and vending machines.

A smart card can be inserted into a reader and make physical contact, or it can use wireless communications to communicate with the reader without making physical contact. This makes it convenient for transactions that do not require a person to touch the card with their hand, such as mobile phone payments or purchases at airport terminals.

Another convenience feature is the ability to easily change the information on a smart card, such as address or payment details. This eliminates the need to issue a new card, and it ensures that information is not compromised due to lost or stolen cards.

Smart cards are becoming more prevalent, and their popularity is expected to continue growing. They are being widely adopted for a variety of purposes, including transportation, healthcare, and banking.

Several manufacturers produce different types of smart cards, including disposable and reloadable cards. Disposable cards are more environmentally friendly than reloadable ones, but they are not as durable or versatile.

Reloadable cards are more flexible because they can be used for multiple applications. They can store debit and credit, cash, and stored value. Reloadable cards can be made with a variety of features, such as chip-to-chip transfers and data encryption.

These features make them more secure, especially for a bank account holder’s personal information. The bank can then verify the card’s authenticity, and can prevent hackers from changing account information.

In addition, a smart card can store and process data for a long time, which is an essential element in the digital age. Despite their convenience, they still have drawbacks, such as high set-up costs and the risk of data theft.

As the market for smart cards continues to grow, a number of companies are aiming to improve their products and services. Some of these improvements include faster processing, more memory, and better security. These improvements are aimed at increasing their user appeal and sales.