A transaction card construction and a method for making transaction cards provides increased security for transaction card magnetic strips. The transaction card construct on includes a card inlay and a clear card body. The card inlay is formed via a lamination press process with the magnetic strip attached to a back surface of the card inlay. The card body may have a window through which a data storage element may be exposed for accessing, such as by a magnetic stripe reader or EMV chip reader. The card body may be formed by adhering the card inlay to the clear card body.
Systems And Methods For Automatically Checking In User At Event Via E-Wallet Transaction
A system for automatically checking in a user device at an event via an e-wallet transaction includes one or more processors configured to schedule the event based on receiving one or more scheduling parameters from the user device, wherein the one or more scheduling parameters include a location of the event; transmit to the user device an event confirmation notification for the scheduled event, wherein the event confirmation notification includes an e-wallet merchandising card; authorize the e-wallet merchandising card transaction upon determining that one or more transaction parameters associated with a request for authorizing an e-wallet merchandising card transaction are each within a threshold value; and automatically checking in the user device at the scheduled event in response to the e-wallet merchandising card transaction being authorized.
A transaction card construction and a method for making a transaction card are described. The transaction card construction comprises an inlay component and a housing component. The inlay component may comprise a light-penetrable layer and a backer layer. A light source may be disposed on or in the housing component, and the housing component and the inlay component may be joined such that light emitted by the light source passes through the inlay component.
Systems And Methods For Automatically Checking In User At Event Via E-Wallet Transaction
A system for automatically checking in a user device at an event via an e-wallet transaction includes one or more processors configured to schedule the event based on receiving one or more scheduling parameters from the user device, wherein the one or more scheduling parameters include a location of the event; transmit to the user device an event confirmation notification for the scheduled event, wherein the event confirmation notification includes an e-wallet merchandising card; authorize the e-wallet merchandising card transaction upon determining that one or more transaction parameters associated with a request for authorizing an e-wallet merchandising card transaction are each within a threshold value; and automatically checking in the user device at the scheduled event in response to the e-wallet merchandising card transaction being authorized.
Transaction Card Having An Electrically Applied Coating
A transaction card may comprise a first card component having an electrically conductive surface configured to receive an electrically applied coating. An electrically applied coating may be formed on the electrically conductive surface. The transaction card may be manufactured by forming a first card component having an electrically conductive surface configured to receive an electrically applied coating. The method may also include applying an electrically applied coating to the electrically conductive surface.
Transaction Card With Secured Magnetic Strip And Method For Making The Same
A transaction card construction and a method for making transaction cards provides increased security for transaction card magnetic strips. The transaction card construction includes a card inlay and a clear card body. The card inlay is formed via a lamination press process with the magnetic strip attached to a back surface of the card inlay. The card body may have a window through which a data storage element may be exposed for accessing, such as by a magnetic stripe reader or EMV chip reader. The card body may be formed by adhering the card inlay to the clear card body.
Transaction Card Having An Electrically Applied Coating
A transaction card may comprise a first card component having an electrically conductive surface configured to receive an electrically applied coating. An electrically applied coating may be formed on the electrically conductive surface. The transaction card may be manufactured by forming a first card component having an electrically conductive surface configured to receive an electrically applied coating. The method may also include applying an electrically applied coating to the electrically conductive surface.
The disclosed embodiments generally relate to transaction cards and methods for manufacturing transaction cards. The transaction card may include a first card component having a first surface and a first structural feature associated with the first surface. The transaction card may also include a second card component separate from the first card component and attachable thereto. The second card component may include a second surface and a second structural feature associated with the second surface The first and second structural features may be configured to interconnect.