The present invention relates to a support-attached resin film for an interlayer insulating layer, including a support, and a resin composition layer formed on one side surface of the support in which the support has particles exposed on the one side surface, and an average maximum height of exposed portions of the particles is 1.0 μm or less, or the support has no particles exposed on the one side surface, a multilayer printed wiring board using the support-attached resin film for an interlayer insulating layer, and the multilayer printed-wiring board.

A laminate substrate for receiving a semiconductor chip. Included are laminate layers stacked to form the laminate substrate, each laminate layer includes a core that includes particle-filled epoxy and a metallic layer on the core. At least one laminate layer has a radial cut through the metallic layer, the radial cut extending from a periphery of the at least one laminate layer towards a center of the at least one laminate layer. The radial cut cuts only through the metallic layer and does not cut through the core.

This application provides a package substrate and a communication device. The package substrate includes a package body, a first circuit layer, a second circuit layer, an electronic component, and a moisture-proof structure. The package body includes a top surface and a bottom surface that are oppositely disposed, the first circuit layer is disposed on the top surface of the package body, and the second circuit layer is disposed on the bottom surface of the package body. The electronic component is packaged inside the package body. The moisture-proof structure is disposed on the package body and is connected between the first circuit layer and the second circuit layer, and the moisture-proof structure surrounds the electronic component. According to technical solutions of this application, external water vapor can be prevented from entering the package substrate from a peripheral side of the package substrate, to effectively prevent moisture absorption.

The present disclosure provides a flexible substrate and a display device. The flexible substrate includes a flexible base substrate, and a wiring bonding structure disposed on the flexible base substrate and including a plurality of bonding leads. A filler is arranged between the bonding leads.

The present disclosure provides a flexible substrate and a display device. The flexible substrate includes a flexible base substrate, and a wiring bonding structure disposed on the flexible base substrate and including a plurality of bonding leads. A filler is arranged between the bonding leads.

The present invention relates to a support-attached resin film for an interlayer insulating layer, including a support, and a resin composition layer formed on one side surface of the support in which the support has particles exposed on the one side surface, and an average maximum height of exposed portions of the particles is 1.0 μm or less, or the support has no particles exposed on the one side surface, a multilayer printed wiring board using the support-attached resin film for an interlayer insulating layer, and the multilayer printed-wiring board.

A printed circuit board (PCB) includes a solder resist layer including at least one of an opening and a depression and a solder resist patch disposed in at least one of the opening and the depression to have an interface with the solder resist layer in at least one of the opening and the depression.

Disclosed is a circuit assembly having a novel structure capable of reducing thermal resistance in a heat-dissipating path and increasing heat dissipation while ensuring insulation between a heat-dissipating portion and a heat-dissipation target. A circuit assembly includes: heat-generating components that generate heat as a result of a current flowing therethrough; a case accommodating the heat-generating components; metal plates connected to connecting portions of the heat-generating components, and each having a heat-dissipating portion exposed to an outside of the case and configured to come into thermal contact with an external heat-dissipation target; insulating films covering a contact surface of the heat-dissipating portion, the contact surface being configured to come into contact with the heat-dissipation target; and a thermal conductive filling member that is in thermal contact with the heat-dissipating portion via the insulating films and disposed between the insulating films and the heat-dissipation target.

A thermosetting resin composition comprising a thermosetting resin, an inorganic filler, and an organomolybdenum compound is disclosed. The thermosetting resin composition may be used for preparing a resin vanish and a prepreg, wherein the prepreg is used for laminates and printed circuit boards.

A circuit board structure and a display device, the circuit board structure includes a first circuit board, a second circuit board, a filling portion and an electromagnetic shield layer. The second circuit board has a thickness greater than that of the first circuit board. At least one corner portion forms at a joint of the first circuit board and the second circuit board. A connection line forms at a joint of the second circuit board and the first circuit board. The connection line is located at the corner portion. The filling portion fills the corner portion, an extending direction of the filling portion is identical to an extending direction of the corner portion. The extending direction is identical to a direction of the connection line. A thickness of a cross section of the filling portion perpendicular to the extending direction increases as a distance from the second circuit board decreases.