The present disclosure provides a printed circuit board and a manufacturing method of the printed circuit board. The manufacturing method may include: at least two core plates may be provided; a composite anti-glue film assembly may be arranged at a preset position of one of the at least two core plates, the composite anti-glue film assembly may include a first anti-glue film layer, a second anti-glue film layer and a bonding layer. The first anti-glue film layer may contact the preset position. The first anti-glue film layer may be a polyimide layer. The bonding layer may be configured to bond the first anti-glue film layer and the second anti-glue film layer together to produce the composite anti-glue film assembly. Two adjacent core plates may be connected through a media layer. The core plates may be cut-out and form the printed circuit board.

A component carrier includes a stack having at least one electrically insulating layer structure and/or at least one electrically conductive layer structure; a heat removing and electrically conductive base structure; a component which is connected to the base structure so as to at least partially protrude from the base structure and so as to be laterally at least partially covered by an electrically insulating material of the stack; and an electrically conductive top structure on or above a top main surface of the component. A method of manufacturing such a component carrier is disclosed.

A component carrier includes a stack having at least one electrically insulating layer structure and/or at least one electrically conductive layer structure; a heat removing and electrically conductive base structure; a component which is connected to the base structure so as to at least partially protrude from the base structure and so as to be laterally at least partially covered by an electrically insulating material of the stack; and an electrically conductive top structure on or above a top main surface of the component. A method of manufacturing such a component carrier is disclosed.

An asymmetric electronic substrate and method of making the substrate includes forming a first layer on each opposing major surface of a removable carrier layer, the first layer being a routing layer, simultaneously laminating the first layers, and building up subsequent layers on layers previously formed and laminated on the removable carrier layer iteratively. The subsequent layers including routing layers and a core layer formed on each side of the removable carrier layer, the core layer including through holes having a larger gauge than through holes included in the routing layers. A number of layers on a first side of the core layer, between the core layer and the carrier layer, is different than a number of layers on a second side of the core layer. The carrier layer is removed to produce two asymmetric substrates, each asymmetric substrate including one of the at least one core layers.

Examples of the present disclosure are related to systems and methods for lighting fixtures. More particularly, embodiments disclose lighting fixtures utilizing metal core PCB (MCPCB) for thermal, mechanical, and/or optical controls.

Examples of the present disclosure are related to systems and methods for lighting fixtures. More particularly, embodiments disclose lighting fixtures utilizing metal core PCB (MCPCB) for thermal, mechanical, and/or optical controls.

An insulated metal substrate (IMS) includes a metal substrate, an insulating layer, a plastic frame, and a plurality of conductive metal pads. The insulating layer is located on the metal substrate. The plastic frame is located on the insulating layer and has a plurality of aperture areas. The conductive metal pads are located on the insulating layer and are respectively located in the aperture areas, and the conductive metal pads have sidewalls are in contact with the plastic frame.

An insulated metal substrate (IMS) includes a metal substrate, an insulating layer, a plastic frame, and a plurality of conductive metal pads. The insulating layer is located on the metal substrate. The plastic frame is located on the insulating layer and has a plurality of aperture areas. The conductive metal pads are located on the insulating layer and are respectively located in the aperture areas, and the conductive metal pads have sidewalls are in contact with the plastic frame.

A manufacturing method of a multilayer board includes: forming a metal core layer including a main body, an island portion, and four connection portions, the island portion having a substantially rectangle shape and being located in an opening formed in the main body, the opening having a substantially rectangle shape, the four connection portions connecting side surfaces of four corners of the island portion or side surfaces of vicinities of the four corners of the island portion to a side surface of the main body; forming a first insulating layer on the metal core layer and in the opening; and forming, in the first insulating layer, a hole reaching each of the four connection portions and removing at least a part of each of the four connection portions through the hole to electrically separate the main body and the island portion from each other

Disclosed are systems and methods for facilitating the cooling of electronic devices. In one embodiment, a cooling system includes a core having a plurality of surface channels configured to facilitate the transport of a working fluid. The cooling system can include a cover configured to cover the surface channels, and further configured to couple to the core to form a leak proof seal with an interference fit. In some embodiments, the interference fit can be the result of a thermal fitting. The core can be a metal core printed circuit board. The core can be configured to be in thermal communication with a printed circuit board. In certain embodiments, the surface channels are in communication with a fluid inlet and a fluid outlet; the fluid inlet and the fluid outlet can be placed on a side of the core opposite a side of the core having the surface channels.