Methods include receiving at least one electronic device including a sensor or an emitter, placing a cover over the sensor or emitter, placing the electronic device, including the cover, into a transfer mold system, encapsulating the electronic device with charge material, and removing a portion of the encapsulating charge material and the cover to expose the sensor or emitter to the environment.

Embodiments of the present invention provide a method (1000) of assembling an electrical circuit comprising one or more copper electrical conductors, the method comprising plating (1010) a surface of the one or more conductors with a layer comprising tin; annealing the plating; applying (1020) solder to at least a portion of the one or more electrical conductors, wherein said solder comprises tin and copper; and annealing the electrical circuit.

A printed wiring board includes a main substrate and a rising substrate. A support portion of the rising substrate is inserted into a slit in the main substrate. In a direction in which a plurality of first electrodes are aligned, a width of each of the plurality of first electrodes is larger than a width of each of a plurality of second electrodes, and the width of each of the plurality of second electrodes is arranged to fit within the width of each of the plurality of first electrodes.

A method for manufacturing a dual conductor laminated substrate includes providing a first laminate including a first insulating layer and a first conductive layer; defining a first trace pattern including one or more traces in the first laminate; providing a second laminate including a second insulating layer and a second conductive layer; defining a second trace pattern including one or more traces in the second laminate; defining access holes in the second insulating layer; at least one of depositing and stenciling a conductive material in the access holes of the second insulating layer; and aligning and attaching the first laminate to the second laminate to create a laminated substrate.

An electronic package is provided. The electronic package includes a substrate configured to receive one or more electronic modules, a first electronic module mounted to a first side of the substrate, a first mold structure extending over at least part of the first side of the substrate; and a group of electrically conductive through-mold connections provided on the first side of the substrate. The first mold structure substantially encapsulates the group of through-mold connections. The group of through-mold connections is exposed through the first mold structure. The group of through-mold connections is configured to couple to a circuit board by a corresponding group of intermediate solder portions. The through-mold connections can have a melting point in excess of a melting point of the intermediate solder portion. Related electronic assemblies, electronic devices, and methods of manufacturing and/or mounting an electronic package are provided.

An electronic device and a manufacturing method thereof are provided. The pattern circuit of each surface mount structure of the electronic device is disposed on the substrate; at least two through holes are respectively corresponding to at least two signal lines of the pattern circuit; and the two ends of at least one optoelectronic element are respectively electrically connected to at least two signal lines of the pattern circuit. Each connection pad group of the driving circuit board is corresponding to each surface mount structure, and at least two connection pads are respectively corresponding to the at least two through holes of the surface mount structure. At least two conductive members of each conductive member unit are disposed in the at least two through holes of the surface mount structure, respectively, and extending to the first surface and the second surface of the substrate. The conductive member disposed in each through hole electrically connects the signal lines of each surface mounting structure to the connection pads of each connection pad group of the driving circuit board.

A process of fabricating a circuit includes providing a first sheet of dielectric material including a first top surface having at least one first conductive trace and a second sheet of dielectric material including a second top surface having at least one second conductive trace, depositing a first solder bump on the at least one first conductive trace, applying the second sheet of dielectric material to the first sheet of dielectric material with bonding film sandwiched in between, bonding the first and second sheets of dielectric material to one another, and providing a conductive material to connect the first solder bump on the at least one first conductive trace to the at least one second conductive trace.

There is provided an apparatus comprising: a base substrate and a component substrate having at least two electronic components arranged thereon. At least one aperture is formed through an entire thickness of the component substrate. The at least one aperture is formed in an interspace between the at least two electronic components. The component substrate is coupled to the base substrate using a solder joint. Each of the at least two electronic components may comprise a light emitting diode element. A method of manufacturing an apparatus is also disclosed.

A method for manufacturing a dual conductor laminated substrate includes providing a first laminate including a first insulating layer and a first conductive layer; defining a first trace pattern including one or more traces in the first laminate; providing a second laminate including a second insulating layer and a second conductive layer; defining a second trace pattern including one or more traces in the second laminate; defining access holes in the second insulating layer; at least one of depositing and stenciling a conductive material in the access holes of the second insulating layer; and aligning and attaching the first laminate to the second laminate to create a laminated substrate.

Methods include receiving at least one electronic device including a sensor or an emitter, placing a cover over the sensor or emitter, placing the electronic device, including the cover, into a transfer mold system, encapsulating the electronic device with charge material, and removing a portion of the encapsulating charge material and the cover to expose the sensor or emitter to the environment.