The invention relates to a smart card that includes an integrated keypad made with a piezoelectric material. A user can press the keypad to generate an electrical signal. A sequence of signals corresponding to a user's personal identification number can be sent to an integrated circuit chip or otherwise compared against a stored PIN to determine if the user has entered the correct PIN.

Systems and methods for overmolding a card are provided. A chip fraud prevention system include a device including a chip and a substrate. The chip may be at least partially encompassed in a chip pocket, and the substrate may be at least partially encompassed by the overmold.

A method is provided to determine unique identifiers. A physical item has an RFID integrated circuit (IC) having a unique identifier and a secret. The RFID IC may be configured to provide an identifier portion and a response to a previously sent challenge, where the identifier portion by itself is insufficient to completely identify the IC or item and the response is based on the challenge and the secret. Attempts are made to verify the response using a set of potential secrets determined using the identifier portion. If the response is successfully verified using a certain secret, the secret may then be used to determine one or more other identifier portions. The unique, complete identifier may then be determined from a combination of at least the identifier portions.

There are provided systems and methods for a physical card having one or more location detection modules for location-specific card reading. A physical payment card may include one or more components to limit card reading of card data stored to the card using a location detection chip. The location detection chip may receive power from a source when inserted to a card reader, and may then determine a location of the card, such as a coordinate location of the card or nearby detected device. The location detection chip may determine if this location or device matches authorized locations stored in a memory of the card. If it does, power may be provided to a card chip of the card. The card chip of the card reads card data from a memory of the card and may then output the card data to the card reader.

Systems, apparatuses and methods provide for detecting the proximate placement of an external NFC reader to a specific location on a display surface. The display surface can be intended for viewing indicia and enabling interaction with an NFC communication device embedded within the display. A circuit can control an NFC security system that can scan for unauthorized tags affixed to the surface of a display. The NFC security system may be activated by an NFC enabled mobile phone placed proximate to the indicated region for receiving an NFC coded message from the display. An NFC security scan can be performed prior to the mobile phone reading the message from the intended NFC tag in the display. Enabling interactive display modes can allow for making selections indicated on the display or detecting motion gestures across the face of the display.

An approach is provided for authenticating a payment card. Information is read from the payment card being used for a purchase. The information includes an identifier and data on a chip, in braille cells, and in markings in the payment card. A hash read from the chip, the identifier, and security codes derived from the braille cells and the markings are sent to a payment system. A hash of an (n+1)-th block of a blockchain is received and recorded in the chip in response to validations of the hash as matching a hash of an n-th block of the blockchain, the identifier, and the first and second security codes, and a generation of the hash of the (n+1)-th block. Data about the purchase and the hash of the (n+1)-th block are sent to the payment system.

The invention relates to a smart card that includes an integrated keypad made with a piezoelectric material. A user can press the keypad to generate an electrical signal. A sequence of signals corresponding to a user's personal identification number can be sent to an integrated circuit chip or otherwise compared against a stored PIN to determine if the user has entered the correct PIN.

Embodiments disclosed herein generally relates to a payment card, and more specifically to a payment card with obfuscated personal identification information and a method of generating the same. In one embodiment, an apparatus is disclosed herein. The apparatus includes a substrate, one or more sets of personal identification information, and a masking layer. The substrate is formed from a water-insoluble material. The one or more sets of personal identification information is formed on the substrate. The masking layer is selectively positioned on the substrate to obscure at least one set of personal identification information. The masking layer is formed from a water-soluble material.

Devices and methods for detecting credit card skimmers are provided herein. A device can include a printed circuit board having a pattern of electrical traces on its surface, and a computer readable medium comprising instructions that cause a processor to direct an electrical voltage to a trace and detect an electrical current between two points of the trace. A gap can be disposed between the two points across which a voltage is applied in order to detect a magnetic reader. A count of the detected magnetic readers within a credit card reading device may be indicative of the presence of a credit card skimmer.

A harmonic tag system includes a harmonic tag and a first antenna configured to receive a fundamental signal and transmit an identifier of the harmonic tag at a fundamental frequency. The harmonic tag system includes an energy harvesting unit configured to convert the fundamental signal into power. The power activates a sensor. The harmonic tag system also includes a harmonic doubler configured to generate a harmonic signal at a harmonic frequency based on (i) the fundamental signal and (ii) a sequence. The harmonic tag system further includes a digital modulation unit configured to selectively trigger an activation of the harmonic doubler. The harmonic doubler is triggered sequentially in an off state and an on state, and the digital modulation unit produces the sequence. The harmonic tag system also includes a second antenna configured to transmit data of the sensor at the harmonic frequency.