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).

In a connector, a cover is attached to a base member by use of a hinge mechanism. First, second and third contact rows are arranged in decreasing order of distance from the hinge mechanism. The first, the second and the third contact rows have first contacts, second contacts and third contacts, respectively. Each of the first contacts and the second contacts has a held portion held by the base member, a contact point and a spring portion extending from the held portion and supporting the contact point. The contact points of the first contacts and the contact points of the second contacts face one another in a front-rear direction. As viewed along an up-down direction, the contact points and the spring portions of the first contacts and the contact points and the spring portions of the second contacts are visible when the cover is positioned in an open position.

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.

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.

A cover of a connector has axis portions and first and second cover contact points. A housing has axis receiving portions and first through third contact portions. The axis portions are received by the axis receiving portions, and the cover is attached to the housing to be placed at any one of an open position, a closed position and a locked position. The first contact portions are exposed in the axis receiving portions. When the cover is placed at the locked position, the axis portions are face the first contact portions from beneath, and the second cover contact points are face the second contact portions from beneath. When the cover is placed at the closed position, the first cover contact points do not touch the third contact portions. When the cover is placed at the locked position, the first cover contact points touch the third contact portions.

A cover of a connector has axis portions and first and second cover contact points. A housing has axis receiving portions and first through third contact portions. The axis portions are received by the axis receiving portions, and the cover is attached to the housing to be placed at any one of an open position, a closed position and a locked position. The first contact portions are exposed in the axis receiving portions. When the cover is placed at the locked position, the axis portions are face the first contact portions from beneath, and the second cover contact points are face the second contact portions from beneath. When the cover is placed at the closed position, the first cover contact points do not touch the third contact portions. When the cover is placed at the locked position, the first cover contact points touch the third contact portions.

A memory card socket includes a first pad provided in a first face of a first substrate; a first terminal having a first end portion that contacts a terminal of a memory card and a second end portion electrically connected to the first pad; a holder provided on the first face and fixing the first terminal to the first substrate; and a protrusion provided on the first face, having a second face that contacts a portion of the memory card that excludes the terminal, and including a metal material or an insulating material.

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.

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 card connector and a method of manufacturing the card connector are provided. In one embodiment, the card connector comprises a base; a shielding sleeve connected to the base, the base and the shielding sleeve defining a first direction for inserting a card and a second direction opposite to the first direction for extracting the card; and a shielding tray for receiving the card, the shielding tray being movable relative to the base in the first direction or the second direction, wherein the card connector is operable to electrically connect to the card if the card reaches a position of insertion along the first direction. The card connector is capable of facilitating the push-in and pull-out operations of a card by a user, while minimizing an exposed area of the card so as to improve the shielding performance.