Described are apparatuses for modular printed circuit boards (PCB) and methods for producing modular PCBs. An apparatus may include a first PCB module with a first pattern of routing structures on one or more layers of the first PCB module. The apparatus may further include a second PCB module with a second pattern of routing structures on one or more layers of the second PCB module. The second pattern of routing structures may be aligned with and electrically coupled to the first pattern of routing structures without connectors. Other embodiments may be described and/or claimed.

A component carrier with a stack including a first core layer structure and a second core layer structure, and a recess extending completely through the first core layer structure and extending at least partially into the second core layer structure. Each core layer structure has at least one electrically conductive layer structure and at least one electrically insulating layer structure. The core layer structures are stacked with one on top of the other in a stacking direction.

A display device includes: a display panel including panel terminals; and a wiring substrate including first substrate terminals coupled to the panel terminals. The panel terminals include panel terminals arranged in a first region and panel terminals arranged in second regions sandwiching the first region. The first substrate terminals include first substrate terminals arranged in a third region and first substrate terminals arranged in fourth regions sandwiching the third region. A gap between panel terminals is substantially constant in the first and second regions. A first width of the panel terminals in the first region is different from a second width of the panel terminals in the second regions. A width of the first substrate terminals is substantially constant in the third and fourth regions. A first gap between first substrate terminals in the third region is different from a second gap between first substrate terminals in the fourth regions.

Examples herein include modules and connections for modules to couple to a computing device. An example module includes a housing comprising an end to couple to a computing device, multiple capacitive pads that each include data contacts to enable data transfer, a power contact pad to provide or receive power, and a ground contact pad to couple to ground. The ground contact pad is larger in size than the power contact pad, and the ground contact pad is positioned closer than the power contact pad to the end of the housing configured to couple to the computing device.

Disclosed is a motherboard comprising at least one printed circuit board (PCB), referred to as the motherboard PCB, at least one planar transformer, which is mounted on the motherboard PCB, and a plurality of electronic components, which are also mounted on the motherboard PCB. The planar transformer comprises at least one printed circuit board with windings and a connection interface, a magnetic core arranged on the printed circuit board so as to interact with the windings, and at least one electronic component mounted on the printed circuit board.

Embodiments of the invention include LED lighting systems and methods. For example, in some embodiments, an LED lighting system is included. The LED lighting system can include a flexible layered circuit structure that can include a top thermally conductive layer, a middle electrically insulating layer, a bottom thermally conductive layer, and a plurality of light emitting diodes mounted on the top layer. The LED lighting system can further include a housing substrate and a mounting structure. The mounting structure can be configured to suspend the layered circuit structure above the housing substrate with an air gap disposed in between the bottom thermally conductive layer of the flexible layered circuit structure and the housing substrate. The distance between the layered circuit structure and the support layer can be at least about 0.5 mm. Other embodiments are also included herein.

The display device includes: a display panel; a first circuit board having a first portion connected to one portion of the display panel and comprising a connector; and a second circuit board electrically connected to the first circuit board through the connector, wherein the first portion includes a base film, a dummy pad disposed on the base film, and a first solder mask partially covering the dummy pad and exposing a portion of the dummy pad, the dummy pad includes a covered region covered by the first solder mask and an exposed region exposed by the first solder mask, and a solder ball, The exposed region of the dummy pad is connected to the connector through a solder ball.

Disclosed are an LED (Light Emitting Diode) display module and a method of fabricating the LED display module. Lamp beads in the LED display module are fixed to the surface of a linearly arranged lamp bead plate, the lamp bead plate is fixed to a driving PCB (Printed Circuit Board), the surface of the lamp bead plate is perpendicular to the surface of the driving PCB, the surface of the driving PCB is perpendicular to the surface of a glass plate, and a fixed member is fixed on a frame. The transparent glass plate with high transparency is employed as a mounting body and the driving PCB is transversely disposed on the glass plate, so that shielding of light by the driving PCB can be remarkably reduced and the transparency of the LED display module is improved.

A design for printed circuit board with reduced susceptibility to common-mode noise includes a first substrate, a differential pair of signal lines with two differential transmission lines laid on the first substrate, a second substrate, a metal layer located between the first substrate and the second substrate, and a grounding layer The second substrate is located between the second substrate and the grounding layer, and a conductive structure is located in the second substrate and couples the metal layer to the grounding layer. A length of the metal layer is substantially equal to a length of each of the two differential transmission lines.

An integrated circuit (IC) device may include a first substrate having an inductor ground plane in a conductive layer of the first substrate. The integrated circuit may also include a first inductor in a passive device layer of a second substrate that is supported by the first substrate. A shape of the inductor ground plane may substantially correspond to a silhouette of the first inductor.