A connector comprises a base and a cover. The base is formed with a card-accommodation portion in which a card is accommodatable. The cover is attached to the base via a hinge mechanism to be locatable at a close position. The cover located at the close position covers, at least in part, the card-accommodation portion from above. The cover has two card-holding portions. The base has two regulating portions which correspond to the card-holding portions, respectively. Each of the card-holding portions has an outside portion. When the cover is located at the close position, each of the regulating portions is located inward of the outside portion of the corresponding card-holding portion in the pitch direction (Y-direction) and is located at a position different from that of the outside portion of the corresponding card-holding portions in the front-rear direction (X-direction).

Controllable cards can be selected and testing programmatically. For example, a system can include card ports for receiving controllable cards. Switching devices can control communication with the controllable cards. An output port can communicatively couple a selected card to a card reader. A controller device can respond to a command from a test system by causing the switching devices to select a card port to which to communicatively couple to the output port.

Controllable cards can be selected and testing programmatically. For example, a system can include card ports for receiving controllable cards. Switching devices can control communication with the controllable cards. An output port can communicatively couple a selected card to a card reader. A controller device can respond to a command from a test system by causing the switching devices to select a card port to which to communicatively couple to the output port.

An electronic device includes a first accommodation portion to accommodate a first card, a second accommodation portion to accommodate a second card, and a holding member capable of holding the first card and the second card. The first accommodation portion and the second accommodation portion are arranged so that an ejection path of the first card and an ejection path of the second card overlap. The holding member is located in an area where the ejection path of the first card and the ejection path of the second card overlap.

An electronic device includes a first accommodation portion to accommodate a first card, a second accommodation portion to accommodate a second card, and a holding member capable of holding the first card and the second card. The first accommodation portion and the second accommodation portion are arranged so that an ejection path of the first card and an ejection path of the second card overlap. The holding member is located in an area where the ejection path of the first card and the ejection path of the second card overlap.

An electronic device is provided which includes a housing having a hole, a tray that receives a subscriber identification module (SIM) card and a secure digital (SD) card, a first socket, a communication circuit, a processor, and a battery that supplies power to the communication circuit, the processor, the SIM card, and the SD card, wherein the processor is configured to detect extraction of the tray from the first socket, interrupt power supply to the SIM card and the SD card through the first socket in response to extraction of the tray, detect insertion of the tray into the first socket, determine a priority of the SD card and the SIM card when both the SIM card and the SD card are detected in the inserted tray, and reset a task block that processes the SIM card, if the SIM card has a higher priority than the SD card.

Methods, systems, and apparatus, for a payment card reader comprising: a frame, where the frame includes a top surface, a bottom surface, a first side surface, and a second side surface, a second side surface of the side surfaces on an opposite side of the frame from the first side surface, the first side surface including a groove configured to receive a swipe of a magnetic stripe card, the second side surface including a slot configured to receive insertion of a chip card; a magnetic stripe reader interface; a chip card reader interface; circuitry configured to direct signals from the magnetic stripe reader interface and the chip card reader interface to a microcontroller in the card reader; and circuitry configured to communicate wirelessly between the card reader and a computing device.

This application relates to the technical field of card holder structures, and provide a single-card holder, an electronic device, a card holder recognition method, and a card holder assembly method The single-card holder includes a card holder body and a filler. The single-card holder has an identifier region for forming an identifier. The card holder body includes a first slot and a second slot. The first slot is configured to mount a card member. The second slot is the same as or different from the first slot. The filler is filled in the second slot, and at least corresponds to part of the identifier region. The electronic device includes a card base and the single-card holder. The single-card holder matches the card base.

Methods and devices are provided for reading both chip and magnetic stripe cards, and in particular for preventing use of a magnetic stripe when a chip is present, in various settings such as fuel dispensers, ATMs, and retail settings. For example, a card reading device is provided that includes a housing and at least one card slot. A smart card reader and a magnetic stripe card reader are disposed within the housing. In one embodiment, a gate is configured to prevent insertion of a card into a rear portion of the card slot when a chip is detected to prevent the magnetic stripe card reader from reading a magnetic stripe. In another embodiment, a first card slot has a first depth that prevents insertion of a magnetic stripe but allows reading of a chip, and a second slot has a depth that allows insertion of a magnetic stripe.

An electronic device is provided which includes a housing having a hole, a tray that receives a subscriber identification module (SIM) card and a secure digital (SD) card, a first socket, a communication circuit, a processor, and a battery that supplies power to the communication circuit, the processor, the SIM card, and the SD card, wherein the processor is configured to detect extraction of the tray from the first socket, interrupt power supply to the SIM card and the SD card through the first socket in response to extraction of the tray, detect insertion of the tray into the first socket, determine a priority of the SD card and the SIM card when both the SIM card and the SD card are detected in the inserted tray, and reset a task block that processes the SIM card, if the SIM card has a higher priority than the SD card.