The invention relates to an electrical circuit, for example of the printed circuit type, for producing a module intended to be integrated into a chip card. This module has electrical contact—or connector—areas for the connection and communication of the chip to and with a read/write system. In order to give them a different colour from the gilded or silvered ones generally used, these electrical contact areas are at least partially covered with a surface layer comprising a compound of XpOqNrCs type, in which X may be Hf, Ta, Zr, Nb, Mo, Cr, V, Ti or Sc, with p, q>0 and r≥0 and/or s≥0. The invention also relates to a method for manufacturing such an electrical circuit.

An identification card has a ceramic substrate which includes a main body and an anti-fingerprint film. The main body has opposite surfaces with the anti-fingerprint film, and an accommodating slot located on at least one side surface of the main body and penetrates the anti-fingerprint film on the surface. The information identification part includes a chip part and an information marking part, such that orthographic projections of chip part and information marking part on the ceramic substrate do not overlap. The chip part has a lower surface facing the bottom surface of the accommodating slot for accommodating the chip part, and an upper surface that does not protrude from the opening of the accommodating slot for accommodating the chip part. The ceramic substrate is formed of zirconia powder with high hardness, high density, and tight structure.

Example embodiments of systems and methods for milling patterns for a card are provided. A chip fraud prevention system include a device including a chip. The chip may be at least partially encompassed in a chip pocket. The chip pocket may include one or more shapes. The one or more shapes may include one or more peaks and one or more valleys. One or more connections may be communicatively coupled to at least one surface of the chip. The one or more connections may be placed between at least one of the one or more peaks or one or more valleys.

A memory card includes a memory card body dimensioned to house at least one integrated circuit die package. The memory card body, in certain embodiments, includes a first surface spaced apart from a second surface and a plurality of side surfaces connecting the first surface to the second surface. The memory card also includes a contact pad disposed on at least one side surface of the plurality of side surfaces. The contact pad includes a first conductive layer, a second conductive layer, and an insulating layer disposed between the first conductive layer and the second conductive layer.

A Radio Frequency Identification (RFID) integrated circuit (IC) is at least partially covered by a repassivation layer that is, in turn, at least partially covered by a large, electrically conductive contact pad. The repassivation layer is disposed so as to leave uncovered at least one IC contact. The large contact pad is disposed so as to cover the IC IC contact. The large contact pad forms a first galvanic coupling to the IC contact and a second galvanic coupling to a tag antenna. The surface area of the first galvanic coupling is substantially smaller than the surface area of the second galvanic coupling.

A circuit board according to an embodiment includes: a substrate including one surface and the other surface; a first circuit pattern disposed on the one surface; and a second circuit pattern disposed on the other surface, wherein at least one via is formed in the substrate, and the first circuit pattern and the second circuit pattern are wire-bonded through the via to conduct electricity.

A package including a frame having an opening for receiving a sensor module, wherein the frame comprises at least one electrical connection which is directed into the opening and which is arranged on an insulation layer applied to the frame, and wherein the insulation layer is connected to the frame at an insertion side of the frame, from which side the sensor module is to be inserted into the opening, and is bent along the inner side of the frame proceeding from the insertion side, such that the at least one electrical connection directed to the opening is electrically couplable to the associated sensor module connection in an arrangement.

A card having a fingerprint sensor and a manufacturing method of the same are provided. The fingerprint sensor is disposed between a substrate and a protection layer. The protection layer has a first area and a second area thereon. The roughness of the second area is smaller than the roughness of the first area. The second area corresponds to the sensing area of the fingerprint sensor. When the user's finger is wet, the second area may effectively keep the water from remaining on it. Thus, the water does not affect the effect of fingerprint sensing.

A method for transferring an EMV chip from a first card to a second card, the method comprising the steps of: heating a first body of the first card in a vicinity of the EMV chip so as to weaken adhesion of the EMV chip with a first receptacle of the first body; bending a first body surface of the first body adjacent to the EMV chip, such that first body surface becomes non parallel with a metal contact surface of the EMV chip; removing the EMV chip from the first receptacle; positioning an applied adhesive between a back surface of the EMV chip and an opposing surface of a second receptacle of the second card, the second receptacle in a second body of the second card; and maintaining the EMV chip in the second receptacle until the applied adhesive has cured.

A land grid array semiconductor device is disclosed which is configured for removable insertion to and from a host device. The land grid array semiconductor device may include a first set of one or more contact fingers on the first surface of the land grid array semiconductor device, and a second set of one or more contact fingers on the second surface of the land grid array semiconductor device. In order to electrically couple the second set of one or more contact fingers, one or more electrical connectors may be provided physically extending between the second set of one or more contact fingers and at least one of the substrate and the at least one semiconductor die.