Real time scalable loyalty processing apparatuses and/or systems operable to process up to ten thousand transactions per second and more than one billion transactions annually, and having a sub-second response time.

A dynamic transaction card that includes a transaction card having a number of layers, each of which may be interconnected to one another. For example, a dynamic transaction card may include an outer layer, a potting layer, a sensor layer that may detect and identify a card free fall and/or subsequent impact, which may trigger a microcontroller to send a mobile notification to a cardholder notifying the user that the card has been dropped, and/or may disable or deactivate the card and/or a user account associated with the card, a display layer (including, for example, LEDs, a dot matrix display, and the like), a microcontroller storing firmware, Java applets, and the like, an EMV chip, an energy storage component, one or more antenna (e.g., Bluetooth antenna, NFC antenna, and the like), a power management component, a flexible printed circuit board (PCB), a chassis, and/or a card backing layer.

A detection activity of a card may be sensitive to property changes in one or more conductive pads on the card and/or information received by the card, where a processor of the card may execute a transaction indication algorithm based on detected property changes on the card, that may be caused by the card's proximity to a point-of-sale terminal and/or by information received by the card. The transaction indication algorithm may cause the processor to provide visible, audible and/or tactile indicators on the card based on the detection.

A wallet card or other device includes three buttons, a PCB antenna for connection to all cellular bands including low band, mid band and high band, dual pressure sensors operable to determine velocity and/or as an independent trigger, a cellular chip whose encryption/decryption key between a payment network and the cellular chip is dynamically changeable for security, and a dynamic magnetic communications device operable to communicate data using a magnetic data waveform with amplitude adjusted by the device.

Example embodiments of systems and methods for data transmission between a contactless card, a client device, and one or more servers are provided. One or more applets of the contactless card are configured to dynamically generate an encrypted payload appended to a link, wherein the contactless card is configured to transmit the link with the appended payload to the client device via one or more gestures. The one or more servers are configured to receive the payload from the client device via one or more applications, parse and decrypt the payload after launch of one or more applications, and transmit one or more notifications to the client device based on a status associated with decryption of the payload. The client device is granted access to a plurality of services associated with the one or more servers based on the one or more notifications received from the one or more servers.

A system and computer-implemented method includes the operations of transmitting a cold reset signal to a multiple-funding source payment card and receiving a first answer-to-reset message therefrom. The first answer-to-reset message includes governing rules for performing a single-swipe transaction. The operation also includes receiving payment account details for a first payment account in accordance with the governing rules. A first PIN associated with the first payment account is input by a cardholder and a first payment authorization request message for approval of the single-swipe transaction is transmitted. Upon receipt of a payment declined response message, a warm reset signal is transmitted to the payment card. A second answer-to-reset message is received including payment account details for a second payment account. The cardholder inputs a second PIN associated with the second payment account and a second payment authorization request message for approval of the single-swipe transaction is transmitted.

Systems and methods for payment using smart payment cards and identifying a payment recipient's financial institution through cloud-based applications are provided. The systems and methods may include a smart payment card including a touchscreen and internet connectivity capabilities. The smart payment card, after authenticating a user, may connect to a cloud-based application and determine, for a recipient chosen by the user, the recipient's bank account information. The smart payment card, after approval from the user, may then direct a payment to the recipient.

A checking device and method performed by a microcircuit for dependency rules for objects updated in the microcircuit. The device and method include steps for receiving (B3) a command for updating a first object (105) stored in the microcircuit, the command giving an updated value for the first object; and verifying (B4, B4) an updating rule (106) for the first object while taking account of the updated value for the first object. The device and method can be used in microcircuits that carry out transactions.

Methods, systems, and apparatus, including computer program products, in which a method includes attributing a value to a pre-paid payment instrument, determining an expiration time associated with the pre-paid payment instrument, and automatically return an un-used portion of value associated with the pre-paid payment instrument at the expiration time to the purchaser.

The present invention relates to a method for a secure transaction utilizing a portable radio communication device (10), wherein both parts in the secure transaction are protected against fraudulent actions, among other things by use of a common transaction identity on a predefined transaction server.