A circuit board, a preparation method thereof, and an electronic device are provided. The circuit board includes: a substrate, defining a first through-hole; a metal block, embedded in the first through-hole and fixedly connected to the substrate; a conductive line layer, arranged on at least one side surface of the substrate; wherein the conductive line layer partially covers an opening of the first through-hole on a corresponding side surface of the substrate; and a conductive channel, penetrating the conductive line layer and the metal block in turn. The conductive channel comprises a second through-hole and a conductive medium plated on a wall of the second through-hole; an end of the conductive medium is connected to the conductive line layer, and another end of the conductive medium is connected to the metal block.

The present disclosure provides a power module, a chip-embedded package module and a manufacturing method of the chip-embedded package module. The chip-embedded package module includes: a chip having a first surface and a second surface that are disposed oppositely; a first plastic member including a first cover portion and a first protrusion; and a second plastic member including a second cover portion and a second protrusion. A height difference discontinuous interface structure is formed between the top surface of the second protrusion and the second surface of the chip, which cuts off a passage for expansion of delamination at an edge position of the chip, thereby effectively suppressing generation of the delamination.

A component carrier and a method of manufacturing the same are disclosed. The component carrier includes a stack having at least one electrically conductive layer structure and/or at least one electrically insulating layer structure, a component embedded in the stack, and at least one vertical through connection extending between two opposing main surfaces of and through the component.

An electronic assembly including a thermal capacitor. An electronic substrate of the electronic assembly includes one or more insulating layers and one or more conductor layers provided along the one or more insulating layers. The one or more conductor layers including a conductive material. A shape memory thermal capacitor is received in the electronic substrate. The shape memory thermal capacitor includes a shape memory core including a shape memory material.

Provided are a heat sink capable of suppressing overcooling of an electronic component which should not be overcooled and highly efficiently cooling only an electronic component which should be cooled, and a circuit device including the same. A heat sink includes a pipe and a cooling block. At least one projection is formed in the cooling block. The pipe is in contact with the projection. The pipe is arranged with a spacing from a portion of the cooling block other than the projection.

The present disclosure provides a power module and a manufacturing method thereof. The power module includes a substrate, an electronic component, a magnetic component and an encapsulation layer. The substrate includes a first surface and a second surface opposite to each other, and a working region. The working region is disposed on the first surface or the second surface. The electronic component is disposed on the substrate. The magnetic component is disposed on the working region and includes a lateral periphery. The encapsulation layer is disposed on the substrate, covers the electronic component and at least partially surrounds the lateral periphery of the magnetic component. A projection of the encapsulation layer on the first surface of the substrate is not overlapped with a projection of the working region on the first surface, and a gap is formed between the encapsulation layer and the lateral periphery of the magnetic component.

The present disclosure relates to the field of printed circuit board technologies. A printed circuit board with good heat dissipation performance is provided and includes a substrate serving as a board body of the printed circuit board, a heating component embedded in the substrate, and a cooling liquid channel disposed in the substrate. The cooling liquid channel is disposed in the printed circuit board, and passes around the heating component to exchange heat with the heating component, so that a heat dissipation path is shortened and heat dissipation efficiency is improved, thereby quickening heat dissipation of the printed circuit board, and prolonging a service life of the printed circuit board.

A circuit board has a main board with a base material of insulating material, at least one metal base copper clad laminate, and each metal base copper clad laminate is provided with at least one component and a pin connected with the main board. The circuit board and the driving power supply with the circuit board have simple structure and low manufacturing cost, and are convenient for automatic manufacturing. The power device can be directly mounted on the metal substrate through the automation equipment, so that the metal substrate can realize the function of the heat sink, thereby improving the production efficiency and reducing the process quality hidden danger; at the same time, the grounding problem of the metal substrate is solved, and the EMC problem is avoided.

A metal member-equipped circuit board 21 includes: a printed circuit board 22 including a through hole 25; a metal member 30 including a shaft portion 31 that is inserted into the through hole 25, and a head portion 32 that is arranged outside the through hole 25, the head portion 32 having a diameter larger than a diameter A1 of the through hole 25, and a conductive bonding material 35 for bonding the shaft portion 31 and an inner wall of the through hole 25 to each other.

A method for forming a thermal and electrical path in a PCB may include forming a first removable layer over a top surface of a PCB and a second removable layer over a bottom surface of the PCB. The method may also include milling or laser drilling the PCB from the top surface to form a first cavity extending into the PCB, plating the first side panel plating the first side with a second metal to partially fill the first cavity; and milling or laser drilling from the bottom surface to form a second cavity extending into the PCB, the first cavity in a thermal communication and/or an electrical communication with the second cavity. The method may also include panel plating the first side with a second metal to fill the first cavity and the second side with the second metal to fill the second cavity, and removing the first and second removable layers from the PCB to form the PCB with a thermal and/or an electrical path comprising the first cavity and the second cavity filled with the second metal.