A card-type electronic device capable of suppressing a rise in the temperature of signal lines for high-speed communication requiring impedance control while ensuring sufficient thermal connection and electrical connection. A connector is fixed to a substrate on which electronic components that generate heat are mounted, and includes electrical contacts electrically connected to an external apparatus and a thermal contact thermally connected to the external apparatus. A cutout is formed in the substrate between a portion to which the thermal contact is fixed and a portion to which the electrical contacts are fixed.

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 holder for use inside an electronic device is provided. The card holder includes a holder body and a plurality of electrical connectors. The holder body is disposed with a card slot matching a nano SIM card. The card slot is configured to accommodate the nano SIM card or a memory card having a same appearance or shape as the nano SIM card. At least some of the plurality of electrical connectors are first electrical connectors whose positions match the positions of electrical contact points in the nano SIM card. The first electrical connector is configured to electrically connect to the nano SIM card or the memory card accommodated in the card slot. The plurality of electrical connectors are configured to electrically connect to the memory card.

A card-type electronic device capable of suppressing a rise in the temperature of signal lines for high-speed communication requiring impedance control while ensuring sufficient thermal connection and electrical connection. A connector is fixed to a substrate on which electronic components that generate heat are mounted, and includes electrical contacts electrically connected to an external apparatus and a thermal contact thermally connected to the external apparatus. A cutout is formed in the substrate between a portion to which the thermal contact is fixed and a portion to which the electrical contacts are fixed.

Disclosed is a semi-rigid enrolment case for a smart card, formed by folding and gluing an envelope-like cardboard blank of the dimensions of the card. The case includes an electrical circuit printed directly on the cardboard of an inner surface. The circuit includes contact studs connected to a power supply interface and arranged to connect electrical contacts of the card to the power supply interface when the card is inserted into the case. A biometric sensor of the card remains accessible to the user when it is out of the case for making the enrolment. Through-openings are made in the cardboard on either side of contact stud lines and allow forming independent flexible areas, providing better contact between the studs and the electrical contacts of the card.

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 reader suitable for reading data from a printed memory device attached to a curved surface includes a flexible wiring assembly that can be repositioned from a first position having a first profile into a second position having a second profile. In the first position, electrical contacts of the reader do not electrically couple with contact pads of the printed memory device, while in the second position the electrical contacts of the reader electrically couple to the contact pads of the printed memory. In one implementation, the flexible wiring assembly includes a flexible underlayer that supports the plurality of electrical contacts. In another implementation, the flexible wiring assembly includes a rigid first portion and a rigid second portion that pivot about a pivot point.

A card reader for use with a card having an integrated circuit (IC) chip may include a magnetic head configured to read magnetic data on the card; an IC sensor configured to read and write IC data from and to the IC chip on the card; a magnetic data discrimination unit configured to determine the presence of the magnetic data on the card according to whether or not the magnetic data has been read by the magnetic head when the inserted card has been transported to a rear side from a leading end up to a predetermined position; and an IC reading controller configured to, if the magnetic data discrimination unit determines that the magnetic data is not present on the card, perform control to transport the card to a front side and control the IC sensor to read the IC data on the IC chip.

A card reader may include a card passage where a card passed; a contact block including IC contact springs; a card insertion detection mechanism; a lock member; a lock member drive mechanism that moves the lock member between a pulling-out prevention position and a pulling-out feasible position; a lock member detection mechanism; and a control unit structured to control the card reader. The lock member may include a pulling-out prevention part. A distance between the front end of the IC card and the pulling-out prevention part may be shorter than a length of the IC card in the moving direction of the IC card. The control unit detects that insertion of the IC card has been completed the IC card has been inserted to the contact position and the lock member is located at the pulling-out prevention position.