A curved printed circuit board (PCB) of a computing device is described herein. The computing device includes a housing and a PCB positioned in or on the housing. The computing device also includes a plurality of connectors physically connecting the PCB to a surface of the housing or another surface, such that at least a portion of the PCB is bent.

Example embodiments relate to electronic packages and electronic devices that include the same. One embodiment includes an electronic package. The electronic package includes a package body. The electronic package also includes a heat-conducting substrate arranged inside the package body and having a bottom surface that is exposed to an outside of the package body. Additionally, the electronic package includes an electronic circuit arranged inside the package body and including a semiconductor die that has a bottom surface with which it is mounted to the heat-conducting substrate and an opposing upper surface. Further, the electronic package includes one or more leads partially extending from outside the package body to inside the package body and over the minimum bounding box, each lead having a first end that is arranged inside the package body. In addition, the electronic package includes one or more bondwires for connecting the first end(s) to the electronic circuit.

An optical module includes a housing, a heat sink apparatus arranged in and thermally connected to the housing, and a printed circuit board partially arranged on the heat sink apparatus. The optical module further includes an optoelectronic chip arranged on the heat sink apparatus. The printed circuit board has a first surface, a second surface opposite to the first surface, and an opening that extends from the first surface to the second surface. The heat sink apparatus is connected to the second surface. The opening is located near a center of the printed circuit board. The optoelectronic chip is arranged in the opening.

A sample holder includes: a pedestal made of metal; and a PCB (Printed Circuit Board) placed on the pedestal. The PCB includes a through opening that penetrates from a front surface to a rear surface of the PCB. The pedestal includes a cavity bottomed and with a top of the pedestal opened, the cavity formed at a portion corresponding to directly under the through opening on a side of the pedestal on which the PCB is placed. As a configuration on the side on which the PCB is placed, viewed from above, a part of the cavity is protruded outward from the through opening.

The present invention provides a heat dissipating structure with high heat dissipation performance while reducing the electric resistance. A heat dissipating structure includes: a heat sink having a base portion, and a plurality of heat dissipating fins provided upright on a first surface of the base portion; a first heat generating component provided on a side of the first surface of the base portion while being in contact with at least one heat dissipating fin of the plurality of heat dissipating fins; a circuit board joined to a second surface, opposite to the first face, of the base portion while being electrically connected to the first heat generating component; a second heat generating component provided on the circuit board, the second heat generating component generating a smaller amount of heat than the first heat generating component; and a connector electrically connecting the first heat generating component and the second heat generating component. The connector has a first outlet into which a first connecting terminal on a side of the first heat generating component is insertable, and a second outlet into which a second connecting terminal on a side of the second heat generating component is insertable.

Systems and methods for thermal management for high power density EMI shielded electronic devices. In one embodiment, an electronic module comprises: a circuit board; at least one integrated circuit mounted to the circuit board; at least one electro-magnetic interference (EMI) shield fence mounted to the circuit board, wherein the at least one integrated circuit is mounted within a perimeter defined by the EMI shield fence; a heatsink EMI shield lid secured onto the at least one EMI shield fence, wherein the heatsink EMI shield lid seals the at least one integrated circuit within the at least one EMI shield fence; wherein the heatsink EMI shield lid comprises a spring loaded thermal interface in conductive thermal contact with the at least one integrated circuit.

The invention relates to a circuit board having at least one electrically insulating layer and at least one electrically conductive layer. The circuit board has at least one heat-conducting element which is embedded in the electrically insulating layer and which is of thermally conductive form. The heat-conducting element is designed to transport heat losses transversely with respect to an areal extent of the circuit board. According to the invention, the heat-conducting element has at least two sub- elements formed in each case by a metal body. The heat-conducting element has an electrically insulating connecting layer which is arranged between the sub-elements and which is designed to electrically insulate the sub-elements with respect to one another and connect the sub-elements to one another in thermally conductive fashion.

An electronic device includes a heat dissipation member, a power element that is thermally coupled to the heat dissipation member, and a first conductive layer to which the power element is electrically coupled. The electronic device further includes a control element that controls a switching operation of the power element, a second conductive layer to which the control element is electrically coupled, and a resin layer arranged between the first conductive layer and the second conductive layer. The power element is embedded in the resin layer. The first conductive layer, the resin layer, and the second conductive layer are stacked on the heat dissipation member in this order from the ones closer to the heat dissipation member.

An electronic device module includes: a substrate; a sealing portion disposed on a first surface of the substrate; an exothermic device disposed on the first surface of the substrate and embedded in the sealing portion; and a heat radiating portion at least partially embedded in the sealing portion. A lower surface of the heat radiating portion is bonded to one surface of the exothermic device. A side surface of the heat radiating portion is curved and is entirely in contact with the sealing portion. A plurality of grooves are disposed in the side surface of the heat radiating portion.

An optical module includes a housing, a heat sink apparatus arranged in and thermally connected to the housing, and a printed circuit board partially arranged on the heat sink apparatus. The optical module further includes a first optoelectronic chip and a second optoelectronic chip that are both arranged on the heat sink apparatus. The first optoelectronic chip and second optoelectronic chip are both electrically connected to the printed circuit board. The printed circuit board has a first surface, a second surface opposite to the first surface, and an opening that extends from the first surface to the second surface. The second optoelectronic chip is arranged at the opening. The second optoelectronic chip is arranged separately from the first optoelectronic chip.