A transaction processing system for sending user information data to a personal device, and an associated method are provided. The system comprises: a personal device, such as a balance display card; an interface device, such as a card reader for transmitting data to and from the card; a communications network connecting to the interface device; an issuer processor connected to the communications network; and a trusted network processor (TNP) processor connected to the communications network, interposed between the interface device and the issuer processor. The TNP processor is arranged to receive a transaction request message from a card user and to transmit a response message back to the personal device, the response message typically being a transaction authorization together with information for display on the card. The TNP processor is arranged to identify, dependent on properties of the transaction request message, whether the associated response message will require data to be sent to the user information device, and if so identified, to: route the transaction request message to the issuer processor using a standard message; receive the required data from the issuer processor using another standard message; match the received required data to the original request; generate an appropriate response message and script containing the required data; and transmit the response message back to the personal device thereby making the required information known to the user.

In certain embodiments, an electronic device can include a secure element that detects a mechanical input. The mechanical input can correspond to an instruction to transmit securely stored payment information to another device and/or to release such information to an application on the device (e.g., for use in an in-app commerce transaction). This feature can inhibit or prevent unauthorized transmission of payment information. When the mechanical input is detected, payment information can be transmitted to a point of sale (POS) terminal (e.g., via near-field communication) or released to an app on the device. Further, a user can either use default payment information or interact with the device (before or after providing the mechanical input) to select appropriate payment information for a transaction. For example, the user can select between credit cards, debit cards and/or stored-value cards (e.g., transit card).

A multi-function transaction card may determine whether to submit a first payment as a passive payment device or to receive a second payment from another transaction card. The multi-function transaction card may have a length and a width that are in accordance with a standard for transaction cards. The multi-function transaction card may selectively perform a payment transaction based on determining whether to submit the first payment or to receive the second payment. The payment transaction may be performed by providing first card data to a transaction terminal for processing when the multi-function transaction card is to submit the first payment. The payment transaction may be performed by receiving second card data from the other transaction card, and processing the second card data via online data authentication, or via offline data authentication, when the multi-function transaction card is to receive the second payment.

In some embodiments, apparatuses and methods are provided herein useful to a test card for use in automated testing of a POS terminal. In some embodiments, the test card comprises a substrate including at least one track, wherein the substrate is configured to interact with a magnetic card reader, an electrical contact configured to receive magnetic stripe data from a database, and an electrical trace, wherein the electrical trace is programmable with respect to the received magnetic stripe data, wherein the electrical trace forms a continuous conductive pathway, wherein the electrical trace forms a stair step configuration comprising a plurality of linear segments including a first set of linear segments and a second set of linear segments, wherein the second set of linear segments includes at least one segment, and wherein the at least one segment connects ones of the first set of linear segments.

There is provided a card or token for use in financial transactions. The financial transaction token or card has an onboard energy storage device that enables onboard electronics to operate when the card is not in the proximity of a merchant Point-Of-Service (POS) terminal. In one implementation, the onboard energy storage device includes a capacitor such as a thin-film capacitor that stores sufficient energy to power onboard electronics without the need for an onboard battery. The card may be incorporated within various conventional apparatus such as a see-through and/or protective substrate, an item of clothing, an item of jewelry, a cell phone, a Personal Digital Assistant (PDA), a credit card, an identification card, a money holder, a wallet, a personal organizer, a keychain payment tag, and like personality.

Systems and methods are described related to using flexible circuitry in a payment device. In one embodiment, a payment device comprises a computing device and a memory. The computing device is configured to store a biometric identifier associated with a transaction account. The computing device is configured to at least receive, by the antenna, an interrogation signal from a point of sale (POS) device in order to activate the payment device for a payment transaction. The computing device is configured to determine a scanned fingerprint identifier of a user based at least in part on the interrogation signal activating the payment device and authenticate the scanned fingerprint identifier by matching the scanned fingerprint identifier to the biometric identifier. The transaction account is transmitted to the POS device for processing the payment transaction based at least in part on the authentication of the scanned fingerprint identifier.

The present disclosure relates to devices and methods relating to an optimized electronic transaction card where various data inputs associated with a dynamic transaction card optimize operational configurations and/or a user experience of the dynamic transaction card to extend an energy storage life of the dynamic transaction card, promote various behaviors, and/or detect system and/or device defects. A dynamic transaction card may include a dynamic transaction card with various configuration and/or functionality that use the power components (e.g., printed circuit board (PCB), energy storage component, battery, and/or the like) of the dynamic transaction card. The configuration and/or functionality data may include, for example, sensor input, connection data, transaction data, display data, and/or the like. The configuration and/or functionality data may then be used to determine optimal configuration settings.

A transaction processing system for sending user information data to a personal device, and an associated method are provided. The system comprises: a personal device, such as a balance display card; an interface device, such as a card reader for transmitting data to and from the card; a communications network connecting to the interface device; an issuer processor connected to the communications network; and a trusted network processor (TNP) processor connected to the communications network, interposed between the interface device and the issuer processor. The TNP processor is arranged to receive a transaction request message from a card user and to transmit a response message back to the personal device, the response message typically being a transaction authorization together with information for display on the card. The TNP processor is arranged to identify, dependent on properties of the transaction request message, whether the associated response message will require data to be sent to the user information device, and if so identified, to: route the transaction request message to the issuer processor using a standard message; receive the required data from the issuer processor using another standard message; match the received required data to the original request; generate an appropriate response message and script containing the required data; and transmit the response message back to the personal device thereby making the required information known to the user.

A payment card (e.g., credit and/or debit card) is provided with a magnetic emulator operable of communicating information to a magnetic stripe reader. Information used in validating a financial transaction is encrypted based on time such that a validating server requires receipt of the appropriate encrypted information for a period of time to validate a transaction for that period of time. Such dynamic information may be communicated using such an emulator such that a card may be swiped through a magnetic stripe readeryet communicate different information based on time. An emulator may receive information as well as communicate information to a variety of receivers (e.g., an RFID receiver).