Abstract: A printed circuit board includes a first printed circuit substrate and a second printed circuit substrate. The first printed circuit substrate includes a substrate layer and a first conductive circuit layer. The first conductive circuit layer is formed on the substrate layer. The substrate layer includes at least two first grooves. The first conductive circuit layer includes at least one signal wire. The first grooves are defined in both sides of the signal wire. The second printed circuit substrate is formed on the first printed circuit substrate. The second circuit substrate includes a third copper layer. A second groove is defined in the third copper layer. The first grooves are opposite to the second groove. The first grooves and the second groove form a space.

Abstract: A circuit board includes a core layer, at least one passive component, a first and a second conductive wire layers, at least one contact pad, and a resin packing layer. The core layer defines at least one through hole to receive the passive component. The first and the second conductive wire layers are connected to two opposite surfaces of the core layer. Each contact pad is positioned between and connected to one passive component and the first conductive wire layer. The resin packing layer is filled among the core layer, each passive component, each contact pad, the first and the second conductive wire layers. The resin packing layer can connect the first and the second conductive wire layers to the core layer, and connect the core layer, each passive component, and each contact pads to each other.

Abstract: A method of manufacture of a circuit board without annular through-hole rings and thus allowing a higher component density includes a base layer, a first wire pattern layer, and a second wire pattern layer on both sides of the base layer. A portion of the base layer not covered by the first wire pattern layer defines at least one first hole. The circuit board further includes a wire layer. The wire layer includes at least a first portion and a second portion connecting to the first portion. The first portion is filled in the first hole. The second portion is formed on the first portion extending away from the base layer. A diameter of the second portion is less than an aperture diameter of the first hole. The wire layer is electrically conductive between the first wire pattern layer and the second wire pattern layer through the first portion.

Abstract: A PCB includes a base layer, a wiring pattern formed on a surface of the base layer, and a protecting layer formed on the wiring pattern. The protecting layer is formed by printing and solidifying an ink on the wiring pattern. The ink includes a cycloaliphatic epoxy resin, a phenoxyl resin solution, a solvent, a hardener, and an antifoaming agent.

Abstract: The present disclosure relates to a method for manufacturing a printed circuit board. The method includes the steps as follows. First, a substrate including a base layer and a copper foil layer on a surface of the base layer is provided. Second, a conductive layer is formed on portions of the copper foil layer. Third, portions of the copper foil layer exposed from the conductive layer are removed by an etching process, and the conductive layer is thinner by the etching process. The reserved portions of the copper foil layer and the conductive layer form a conductive pattern to obtain a printed circuit board without plating wires. A printed circuit board without plating wires made by the above method is also provided.

Abstract: A rigid-flexible printed circuit board (PCB) a method for manufacturing the rigid-flexible PCB, and a PCB module having the rigid-flexible PCB are provided. The rigid-flexible printed circuit board (PCB) defines a first area, a second area, and a third area connected in the described order. The rigid-flexible PCB includes a first flexible PCB, a second flexible PCB adhered with the first flexible PCB through a bonding sheet in the third area, and, a first conductive layer and a second conductive layer formed on opposite side of the rigid-flexible PCB in the first area and the third area. The first flexible PCB is apart from the second flexible PCB in the first area and the second area.

Abstract: A flexible circuit board includes a wiring layer, two photosensitive resin layers, and two electromagnetic interference shielding layers. The wiring layer includes at least one signal line, two ground lines and at least two gaps. Each gap includes two opening portions. The two photosensitive resin layers cover the signal line and the opening portions, and are connected to each end of each ground line. Each electromagnetic interference shielding layer covers one photosensitive resin layer away from the signal line, portions of the two ground lines not connected to the photosensitive resin layer, and portions of the gaps not covered by the two photosensitive resin layers, thereby causing the portions of each gap not covered by the two photosensitive resin layers to define a receiving chamber. Each end of each receiving chamber communicates with one opening portion of the corresponding gap to define a cavity.

Abstract: A flexible circuit board includes an insulating layer, a linear signal line, a plurality of grounding lines, a metal coating layer, a circuit layer and an electromagnetic shielding layer. The insulating layer includes a first face and a second face. The metal coating layer covers the linear signal line on the first face. The metal coating layer has a thickness less than that of the linear signal line, and an electrical conductivity larger than that of the linear signal line. The grounding lines are at two opposite sides of the linear signal line on the first face. The circuit layer is on the second face. The electromagnetic shielding layer covers the linear signal line and the grounding lines. The linear signal line and the grounding lines are between the electromagnetic shielding layer and the circuit layer. A method for manufacturing the flexible circuit board is also provided.

Abstract: A flexible circuit board includes two copper clad laminates, a circuit pattern and two bonding layers. Each copper clad laminate includes an insulating base and an outer circuit layer. The circuit pattern is located between the two copper clad laminates. The circuit pattern includes a linear signal line, two grounding lines located at two opposite sides of the linear signal line, and two hollow areas located between the linear signal line and the grounding lines. Each bonding layers is located between the circuit pattern and a corresponding copper clad laminate. Each boding layer defines a slot without adhesive therein. The bonding layers are spaced from the linear signal line by the slots. The slots and the hollow areas cooperatively define an air medium layer enclosing the linear signal line. A method for manufacturing the flexible circuit board is also provided.