When you use your credit card at a merchant, the payment terminal needs to transmit identifying information about your card to the payment processor in order to process the transaction. This information, of course, needs to be protected from unauthorized access.
How Credit Card Encryption Works
When you insert your credit or debit card into a chip reader machine while making a purchase, the cryptogram generated inside the chip is sent to the credit card processor so it can validate the purchase and authorize the transaction by using a decryption key to decipher the cryptogram. In this way, the credit card transaction is encrypted. Europay, MasterCard, and Visa created this technology, so chip cards are sometimes referred to as EMV chip cards. Since each transaction is associated with a particular cryptogram, encryption effectively prevents chip cards from being duplicated and used fraudulently. This is one of the main reasons why credit card issuers have moved toward chip cards over the last few years. After you use your credit card at one merchant and use it at a different merchant, you usually insert it into the chip reader at the payment terminal once again. If you had swiped your card to have the magnetic strip read by the machine, your card would be giving the same information as it did in any previous transactions. This means that you have a higher probability of having your card information stolen. The information regarding your card is still transmitted, but it is done with less risk of having your card information stolen.
Credit Card Encryption vs. Magnetic Stripes
These older credit cards with magnetic stripes simply upload the same card information to the payment terminal each time they are used without any accompanying one-time-use cryptogram. The data stored in the magnetic stripe includes the credit card number, expiration date, and security code. When a magnetic stripe is swiped at the point of sale, the card is merely providing static storage for this data that the terminal reads when processing the transaction. This makes it relatively easy for third parties to copy account information onto another card. While chip cards still generally come with the old magnetic stripe, swiping your card is less secure than using the EMV chip.
Credit Card Encryption vs. Authentication
While encryption has to do with securing card information as it is transmitted to payment processors, credit card authentication has to do with verifying that the individual presenting a card for payment is the actual cardholder.
Pros and Cons of Credit Card Encryption
Pros Explained
Reduces fraud: Credit card encryption establishes a unique, one-time code for each transaction—rather than the credit card number itself—that is transmitted to the credit card processor for decryption. This significantly reduces the likelihood of a criminal being able to steal a cardholder’s credit card information.Paves the way for future payment technologies: While credit card encryption is currently done primarily through physically inserting a chip card into an EMV-enabled terminal, credit card encryption is increasingly being applied to other payment technologies such as contactless payments and tokenization.
Cons Explained
May cause credit card transactions to take more time: The encryption process, which involves the creation of a cryptogram unique to the transaction, may result in chip card transactions taking longer than static magnetic stripe credit card transactions.Forces merchants to upgrade their payment terminal: Merchants will need to obtain payment terminals capable of reading EMV chip cards in order to process chip card transactions. However, some merchant service providers are providing free chip card terminals to new customers.
