A card reader for data exchange uses a chip card inserted into a card reader housing up to a data exchange position having an electrical contact arranged fixedly in the card reader housing or displaceably in the card insertion direction. In the data exchange position, projecting into the card path of the inserted chip card by way of a contact area, includes a detector device. In the case of a contact fixedly arranged in the card reader housing, the detector device is directed at the contact face of the contact or at the region around said contact face or which, in the case of a contact that is displaceably arranged in the card reader housing in the card insertion direction, is directed at the position in the card reader at which the contact face is located in the data exchange position, or is directed at the region around this position.

According to various embodiments, an electronic device may include: a housing including an opening connected to an internal space of the electronic device; a tray socket connected to outside the electronic device through the opening in the internal space and including a tray reception space; a tray configured to be inserted into the tray reception space, wherein the tray includes a tray body including at least one space configured to receive at least one external component; and a tray cover including a pin insertion hole configured to guide a tray ejecting pin to the opening; an eject bar movably disposed in a tray mounting direction or ejecting direction in the tray reception space and facing the pin insertion hole; and a rotation lever configured to press the tray in the ejection direction based on pressing of the eject bar in the tray reception space, wherein the eject bar is disposed at a position at least partially overlapping the tray body when viewed from above the tray socket.

A card edge connector with members configured to secure a mating component so as to improve the connector’s reliability. The connector housing may have a slot configured to receive the mating component. The slot has a first portion configured to receive a front edge of the mating component, and second portions extending from opposite ends of the first portion and configured to receive side edges of the mating component. Members are disposed in the housing and have beams curving into respective second portions of the slot. The beams of the members are configured to restrain movement of the mating component when the mating component is inserted into the slot. Such a configuration enables more reliable connections and improves the connector’s shock resistance while being compatible with mating components having a variety of sizes.

Various embodiments provide a dual purpose press-bar and heat sink for an integrated circuit card (ICC) reader. The dual purpose press-bar and heat sink provides two functions. First, the dual purpose press-bar and heat sink conducts and dissipates internal heat generated by a high data transfer ICC inserted in to the ICC reader. Second, the dual purpose press-bar and heat sink ensures that contact pads of the high data transfer ICC create reliable electrical connections with ICC contacts of the ICC reader. As such, the dual purpose press-bar and heat sink simultaneously dissipates heat from a high data transfer ICC and ensures that a high data transfer ICC maintains proper electrical connections with ICC contacts of an ICC reader.

To provide a card reader that encrypts information acquired via an IC contact block. A card reader includes: an IC contact block including a contact spring capable of being in contact with an external connection terminal of an IC chip of a card; a flexible printed board to which a spring end of the contact spring is coupled; an encryption circuit mounted on the flexible printed board and electrically connected to the contact spring to encrypt information acquired from the IC chip via the IC contact block; and a resin sealing member that integrally covers the spring end and the encryption circuit.

A connector includes a casing and a contact pin. The casing includes a storage portion. A connection body is mounted in the storage portion by being relatively displaced in a first direction. The contact pin is held by the casing. The contact pin includes an elastic contact part. The elastic contact part includes a first protrusion and a second protrusion. The first protrusion protrudes toward the storage portion. The second protrusion is separated from the first protrusion. The second protrusion faces a direction crossing the storage portion. The second protrusion protrudes in a direction crossing the first direction.

Various embodiments provide a dual purpose press-bar and heat sink for an integrated circuit card (ICC) reader. The dual purpose press-bar and heat sink provides two functions. First, the dual purpose press-bar and heat sink conducts and dissipates internal heat generated by a high data transfer ICC inserted in to the ICC reader. Second, the dual purpose press-bar and heat sink ensures that contact pads of the high data transfer ICC create reliable electrical connections with ICC contacts of the ICC reader. As such, the dual purpose press-bar and heat sink simultaneously dissipates heat from a high data transfer ICC and ensures that a high data transfer ICC maintains proper electrical connections with ICC contacts of an ICC reader.

A connector comprises a base, a plurality of terminals and a detection portion. The detection portion comprises a first contact piece and a second contact piece. The first contact piece has a contact target portion. The second contact piece has a contact main portion and an intersecting portion. The contact main portion is resiliently deformable. The resilient deformation changes a contact state of the contact main portion relative to the contact target portion. The intersecting portion is, at least in part, positioned in a card accommodating portion. The intersecting portion intersects with both an up-down direction and a horizontal plane perpendicular to the up-down direction. When a card pushes the intersecting portion downward in the up-down direction upon accommodation of the card within the card accommodating portion, the intersecting portion resiliently deforms the contact main portion in the horizontal plane so that the contact state is changed.

In a card reader (1), if a shutter member (10), being located at a block position for blocking a card transfer path (3), rotates toward a deep side of the card reader, the shutter member moves to an open position. In a part within a surface of a side of the card transfer path in a thickness direction of the card (2), at a side deeper than the shutter member, there are formed only an open part (31) and an open part (32); the open part being for preventing an interference of the shutter member, rotating toward the open position, with the main body frame (4), as well as ejecting a foreign object out of the card transfer path; the open part being for preventing an interference of a movable component (21), placed so as to face the card transfer path, with the main body frame.

According to various embodiments, an electronic device may include: a housing including an opening connected to an internal space of the electronic device; a tray socket connected to outside the electronic device through the opening in the internal space and including a tray reception space; a tray configured to be inserted into the tray reception space, wherein the tray includes a tray body including at least one space configured to receive at least one external component; and a tray cover including a pin insertion hole configured to guide a tray ejecting pin to the opening; an eject bar movably disposed in a tray mounting direction or ejecting direction in the tray reception space and facing the pin insertion hole; and a rotation lever configured to press the tray in the ejection direction based on pressing of the eject bar in the tray reception space, wherein the eject bar is disposed at a position at least partially overlapping the tray body when viewed from above the tray socket.