There are provided systems and methods for a physical stand for multiple device orientations and peripheral card reader. A device stand may include a dock that allows for placement and securing of a computing device within the device case, such as through a locking or connecting mechanism. The device dock further includes a peripheral component, such as a physical card reader, that allows for reading and entry of card data into the computing device for use with an electronic transaction processing application on the computing device. This allows the computing device to process transactions electronic with an online service provider. Further, the device stand includes a hinge or joint that allows for rotating and inverting of the computing device over a curved extension from a base of the device stand, which allows the computing device to be viewed in multiple directions and orientations.

A cash-dispensing machine (e.g., a casino kiosk or bank ATM) enables a user to use a bank card (e.g., a credit or debit card) to purchase a negotiable instrument via a quasi-cash transaction, redeem the negotiable instrument, and dispense paper currency for the redeemed negotiable instrument without having to go elsewhere (e.g., a casino cage) to redeem the negotiable instrument. The machine enables a user-verification process to be performed to verify the identity of the user before allowing the negotiable instrument to be redeemed.

Embodiments of this application provide a data transmission method, a multi-function card, and an electronic device. The multi-function card may work as a SIM card or a memory card by using electrical contacts through time division multiplexing. Data is transmitted between the multi-function card and a processor in the electronic device, so that a function of subscriber identity identification can be implemented, and a storage capacity of the electronic device can be expanded. Storage space expanded in the electronic device may be used to store a picture, audio, a video, and an application program. The data transmission method and the multi-function card provided in embodiments of this application may be used to save physical space in the electronic device. This is conducive to lightening and thinning of the electronic device.

An electronic device includes a card interface and a processing module. The card interface is electrically connected to the processing module, and a SIM card or a memory card may be inserted into the card interface. The card interface includes N springs, where N>1; when a memory card is inserted into the card interface, the memory card is electrically connected to the processing module; and when a SIM card is inserted into the card interface, the SIM card is electrically connected to the processing module, and one metal pin of the SIM card is electrically connected to a first spring in the N springs and one spring adjacent to the first spring. The processing module is configured to determine, based on at least a level of the first spring, whether an inserted card is a SIM card or a memory card.

There are provided systems and methods for a physical stand for multiple device orientations and peripheral card reader. A device stand may include a dock that allows for placement and securing of a computing device within the device case, such as through a locking or connecting mechanism. The device dock further includes a peripheral component, such as a physical card reader, that allows for reading and entry of card data into the computing device for use with an electronic transaction processing application on the computing device. This allows the computing device to process transactions electronic with an online service provider. Further, the device stand includes a hinge or joint that allows for rotating and inverting of the computing device over a curved extension from a base of the device stand, which allows the computing device to be viewed in multiple directions and orientations.

An image forming apparatus comprising a display and a reader that reads an IC card. The image forming apparatus performs settings for user authentication and displays on the display a menu screen for selecting a function of the image forming apparatus. In a case where in user authentication by the IC card and automatic registration of user information are set in the settings, a user of an IC card is able to log in the image forming apparatus using information of the IC card when the reader detects the IC card of the user.

Devices and methods for recharging an embedded battery in a smart card, including a control method implemented by a smart card (CD1) including a rechargeable battery (8). The control method may include operations for processing a transaction (TR1) with a terminal (T); receiving during this transaction a predetermined transaction command requiring a processing time, by the smart card, long enough to allow a recharging of the battery to at least a first predetermined threshold charge level; and, upon detection (S32) of this transaction command, triggering the recharging of the battery (8) by using a power supply delivered by the terminal (T) to reach at least the first predetermined threshold charge level.

Systems and methods provided herein may include a card replacement system. The system may include an automated teller machine in data communication with a server. The automated teller machine may include an input device; a processor; a replacement card storage containing at least one replacement card, wherein the at least one replacement cards may include a magnetic stripe and a chip; a magnetic stripe writer; a chip writer; and an embossing device. The processor may be configured to: receive a replacement card request via the input device; request replacement card information from the server; encode replacement card information onto the replacement card using the magnetic stripe writer and the chip writer; and emboss user information onto the replacement card using the embossing device.

A payment card reader for reading integrated circuit (IC) payment cards is disclosed. The payment card reader includes a microcontroller having non-programmable logic, coupled with a data input from the IC payment card, configured to effect a first implementation of a communication standard for communication between the microprocessor and the IC payment card, the non-programmable logic comprising a non-programmable hardware timer. The microcontroller also includes extensible logic, coupled with the data input via a general-purpose input/output (GPIO) pin, the extensible logic configured to include an extensible timer and interrupt logic, the extensible timer and interrupt logic for use with the non-programmable logic and the data input to effect a second implementation of the communication standard for communication between the microprocessor and the IC payment card.

A removable card-enabled BPID Security Device integrates a removable card reader with a biometric authentication component to provide secured access to electronic systems. The device allows for an individual to insert a removable card into an aperture in the physical enclosure of the BPID Security Device, allowing the removable card and the BPID Security Device to electronically communicate with each other. The BPID Security Device is based on a custom application specific integrated circuit that incorporates removable card terminals, such that the BPID Security Device can communicate directly with an inserted removable card. In an alternative embodiment of the invention, the BPID Security Device is based on a commercial off-the-shelf microprocessor, and may communicate with a commercial off-the-shelf microprocessor removable card receiver using a serial, USB, or other type of communication protocol. The device allows for enrolling a user's credentials onto the BPID Security Device and for authenticating an individual using the BPID Security Device.