Various exemplary embodiments relate to a printed circuit board (PCB) for electrically connecting a surface mount component including: a plurality of metal pads on the surface of one side of the PCB corresponding to connection points on the component, wherein at least a portion of the plurality of metal pads have stubs which extend outside the boundary of the surface mount component when the surface mount component is mounted to the PCB; and wherein the stubs have sufficient thermal conductivity to facilitate at least one of the set of dismounting and reattaching of the surface mount component.

A circuit board system includes a circuit board having a base part (101) and at least one changeable part (102) furnished with at least one electrical component (103) such as a light emitting diode. The base part includes an aperture for receiving the changeable part so that a perpendicular of the changeable part is parallel with a perpendicular of the base part. The aperture is shaped to allow the position of the changeable part to be changed with respect to the base part when the changeable part is in the aperture, and edges of the aperture and the changeable part have mutually cooperative connection portions (105, 106) which allow the changeable part to be introduced on the aperture when the changeable part is in a first position and which limit freedom of the changeable part to get away from the aperture when the changeable part is in a second position.

Flexible electrical connectors are provided to electrically connect electronic devices. The flexible electrical connector includes a removable adhesive tape strip having an adhesive surface thereof and an electrically conductive trace disposed on the adhesive tape strip. The flexible electrical connector engages an electronic device to form an electrical contact where the adhesive tape strip has an adhesive surface removably adhesively bonded to the substrate of the electronic device to at least partially cover the electrical contact.

Apparatus and associated methods relate to removing an adhesively-attached component from a circuit board assembly. A complementary pair of high-permeability members are positioned on opposite sides of the circuit board assembly about the adhesively-attached component. Then, a magnetic field is induced within the complementary pair of high permeability members via a coil driver generating an AC current in an inductive coil circumscribing a central pedestal of the complementary pair of high-permeability members. The magnetic field induced is directed through the adhesively-attached component via a central pedestal located proximate the adhesively-attached component. A return path for the magnetic field is provided about a periphery of the adhesively-attached component via a peripheral pedestal.

A system and method for reworking a flip chip includes use of a mill to remove an old flip chip, and a pick-and-place device for putting a new flip chip in place at the same location. The process may be automated, with the removal and the placement occurring sequentially without need for operator intervention. Other devices and processes may be part of the system/machine and process, for example cleaning following the milling, fluxing prior to the placement, and heating to cause solder reflow, to secure the new flip chip in place. Underfill may be employed to make for a more mechanically robust mounting of the new flip chip.

The invention relates to an electronic board comprising: —a printed circuit board (10) comprising a first insulating layer (11), a second insulating layer (13) attached to the first insulating layer (11) and in which a through cavity (5) is formed, and at least a second conductive layer attached to the second insulating layer (13), said second conductive layer being processed so as to form at least one surface solder pad (14, 16), and —at least one first electronic component (2) and at least one second electronic component (3), the first electronic component (2) being housed in the cavity (5) of the second insulating layer (13), the second electronic component (3) being placed on the second insulating layer (13), the first electronic component (2) and the second electronic component (3) each comprising a terminal (2a, 3a) soldered to the surface solder pad (14).

A device for replacing at least one chip or electronic element of an electronic component, in particular an LED package or an LED display, includes at least two standard electrical contacts to which a chip comprising at least two electrical contacts is electrically connectable. The device also includes an electronic switch electrically connecting the first standard electrical contact to an electrical power supply source, and least three electrical repair contacts to which a repair chip identical in construction to the chip is electrically connectable. The first electrical repair contact is electrically connected to the electrical power supply source. The second electrical repair contact is electrically connected to the electronic switch. The third electrical repair contact is electrically connected to the second electrical standard contact.

A device for removing a defective electronic component from a circuit board includes a vacuum suction nozzle, a laser beam emitter and an infrared temperature sensor. The vacuum suction nozzle has a suction opening at which suction is generated. The suction opening is dimensioned to be larger than the defective electronic component. The laser beam emitter is oriented so as to emit a laser beam out the suction opening towards the electronic component on the circuit board. The temperature sensor measures the temperature of the electronic component based on infrared radiation emitted from around the electronic component. A method for removing the defective electronic component from the circuit board includes positioning the suction opening over the electronic component and directing the laser beam through the suction opening and onto the electronic component so as to heat and detach the electronic component, which is then sucked into the vacuum suction nozzle.

An electronic circuit board includes a printed circuit board and first and second electronic components. The printed circuit board includes a first insulating layer, a second insulating layer attached to the first insulating layer and in which is formed an open cavity, and a second conductive layer attached to the second insulating layer. The second conductive layer is treated to form a surface solder pad. The first electronic component is housed in the open cavity of the second insulating layer. The second electronic component is placed on the second insulating layer without overlapping with the open cavity. The first electronic component and the second electronic component each include a termination soldered on the surface solder pad, the surface solder pad being shared by the first and second electronic components.

A main board for a computer device can include main board components arranged on a first surface of the main board and Trusted Platform Module (TPM) components arranged on the first surface of the main board. The TPM components can be located in a predetermined area of the main board that is detachable from the main board (e.g. by means of a predetermined break line). A method for producing an embodiment of the main board with an integrated TPM can include producing a Printed Circuit Board (PCB); arranging a plurality of main board components in a first area of the PCB; and arranging TPM components in a second area of the PCB that is a detachable predetermined area of the main board. A predetermined breakline which at least partly surrounds the predetermined area can be formed by drilling holes to form a perforated line.