A card connector assembly includes: an electrical connector including an insulative housing, a plurality of terminals secured to the insulative housing, a shell covering the insulative housing to form a receiving cavity, and an ejector having a pivot; and a card tray removably received in the receiving cavity, the card tray having a front surface, wherein the card tray has a protrusion at the front surface, and the pivot has an engaging portion for ejecting the card tray, the engaging portion having a recess for receiving the protrusion and an ejecting end for riding onto the protrusion.

A card reader for interchanging data with a chip card includes a card insertion opening, a contact-making unit for interchanging data with a chip card which is inserted into the card reader through the card insertion opening, and a protective hood which covers the contact-making unit except for the card insertion opening. The protective hood is formed from two sheet-metal hoods which are stacked one in the other and an anti-drilling foil which is arranged between the said sheet-metal hoods and has an area-covering anti-drilling conductor track structure. The two sheet-metal hoods and the anti-drilling foil are adhesively bonded to one another over their full surface area to form a composite cover.

A tray is insertable forward in a front-rear direction into a connector main of a card connector. The tray has a first card accommodation portion and a second card accommodation portion. The first card accommodation portion is positioned at a position different from a position of the second card accommodation portion in an up-down direction perpendicular to the front-rear direction. The first card accommodation portion has a first elastic beam portion, a first facing portion and a first bulge. The second card accommodation portion has a second elastic beam portion, a second facing portion, and a second bulge. The first elastic beam portion and the second elastic beam portion are positioned at positions different from each other in the front-rear direction. The first elastic beam portion and the second elastic beam portion are elastically deformable independently of each other.

A button assembly of the present invention is configured in a communication equipment. The button assembly includes a button, a tray and at least an elastic arm. A side of the button is recessed inward to form a holding space. At least an inner side wall of the holding space is recessed to form a clamping groove. The tray is disposed in the holding space. The elastic arm has a fixing portion mounted on a side wall of the tray. The fixing portion is extended frontward and is protruded outward to form a contact part. The contact part is extended frontward and outward to form a clamping part disposed in the clamping groove. The clamping groove and the elastic arm are disposed to provide the button and the tray to be fixed or disengaged, achieving an effect of saving space in assembling of internal components of the communication equipment.

Apparatuses for securing a memory card. One example apparatus can include a slot coupled to a printed circuit board (PCB), wherein the slot is configured to receive a memory card to provide electrical connection between the PCB and the memory card and a cover coupled to the PCB and configured to enclose the memory card when in a closed position and maintain electrical connection between the memory card and the PCB when in the closed position.

A button assembly of the present invention is configured in a communication equipment. The button assembly includes a button, a tray and at least an elastic arm. A side of the button is recessed inward to form a holding space. At least an inner side wall of the holding space is recessed to form a clamping groove. The tray is disposed in the holding space. The elastic arm has a fixing portion mounted on a side wall of the tray. The fixing portion is extended frontward and is protruded outward to form a contact part. The contact part is extended frontward and outward to form a clamping part disposed in the clamping groove. The clamping groove and the elastic arm are disposed to provide the button and the tray to be fixed or disengaged, achieving an effect of saving space in assembling of internal components of the communication equipment.

A card reader for interchanging data with a chip card includes a card insertion opening, a contact-making unit for interchanging data with a chip card which is inserted into the card reader through the card insertion opening, and a protective hood which covers the contact-making unit except for the card insertion opening. The protective hood is formed from two sheet-metal hoods which are stacked one in the other and an anti-drilling foil which is arranged between the said sheet-metal hoods and has an area-covering anti-drilling conductor track structure. The two sheet-metal hoods and the anti-drilling foil are adhesively bonded to one another over their full surface area to form a composite cover.

A card insertion structure suited for a portable electronic device is provided. The portable electronic device includes a housing. The card insertion structure includes a base disposed in the housing, a pressing member movably disposed on the base, and a plastic spring strip disposed on the base. A portion of the pressing member is exposed out of the housing. The plastic spring strip leans against the pressing member and the base. A force supplied via an insertion of an electronic card drives the pressing member to deform the plastic spring strip, and after the electronic card passing by the pressing member and being inserted into the card insertion structure between the base and the housing, the pressing member is released and is restored by resilience of the plastic spring strip, and the electronic card is fixed with the housing by the pressing member.

Example embodiments of systems, methods, and devices for transaction card alignment are provided. In one example embodiment, a mobile device may include a first component and a second component foldable with respect to one another between a first configuration and a second configuration. The mobile device may further include a screen interface on an interior side of the first component, and an alignment feature along the interior side, the alignment feature providing alignment for a contactless card with respect to the screen interface, wherein the contactless card is uncovered by the second component in the first configuration and covered by the second component in the second configuration.

The invention relates to a device (10) for reading a magnetic stripe and/or chip card comprising a card reader (16) for reading out data from the magnetic stripe and/or chip card, said card reader having a transport path (14) along which the magnetic stripe and/or chip card is moved when it is inserted into the card reader (16) and/or when it is removed from the card reader (16) and/or is received during the readout of data. Further, the device (10) has an image capturing unit (20) for capturing images of the card reader (16), the card reader (16) being designed such that by means of images captured by the image capturing unit (16) it can be detected whether a skimming module is inserted into the transport path (14) of the card reader (16).