An electronic device comprises chip components aligned along a predetermined first direction and including respective terminal electrodes, and a metal block including an electrode-opposing surface and a mounting surface. The electrode-opposing surface is opposed and connected to the respective terminal electrodes of the chip components continuously along the first direction. The mounting surface is substantially perpendicular to the electrode-opposing surface and is substantially parallel to the first direction to oppose a land pattern when the electronic device is mounted on the land pattern.

The present disclosure describes a closely spaced array of penetrating electrodes. In some implementations, the electrodes of the array are spaced less than 50 m apart. The present disclosure also describes methods for manufacturing the closely spaced array of penetrating electrodes. In some implementations, each row of electrode of the array is manufactured in-plane and then coupled to other rows of electrodes to form an array.

A control circuit board includes first and second elements on each surface of a board member. The first and the second elements respectively have first and third edge portions, which are opposite to each other and second and fourth edge portions which are opposite to each other. A plurality of signal input pins are provided to the first edge portion, a plurality of signal output pins are provided to the third edge portion, a plurality of between-element communication input pins are provided to the second edge portion, and a plurality of between-element communication output pins are provided to the fourth edge portion, respectively. A common signal is input to the first and second elements and a communication is performed between the first element and the second element. Loss of control function can be surely prevented while suppressing enlargement of the board and increase of development/production cost.

In some embodiments, methods include drilling one or a plurality of PTHs with any industrial grade drill to fabricate holes with positive etch back, flooding the PTHs with a dilute solution of an acrylate monomer/oligomer containing an appropriate level of peroxide initiator, polymerizing the acrylate, and then rising the PTHs with the solvent used in the formulation of the acrylate material. In one embodiment, the printed circuit board may include a substrate comprising a plurality of metal layers separated by a plurality of insulating layers; a plurality of plated through holes formed in the substrate, each plated through hole comprising: recesses formed at each insulating layer, copper lands between the recesses, a polymer coating in each recess, and a metal layer lining the plated through hole.

An electrical connector assembly includes an electrical connector and a paddle card. The electrical connector has a terminal assembly, and the paddle card has a main body, a plurality of contacting pads, and a grounding strip pad. The main body has a first surface, a second surface, a front edge, and a rear edge; a plurality of contacting pads disposed on the main body. The contacting pads are correspondingly connected to the terminal assembly. A plurality of first-group soldering pads are disposed on the first surface. A plurality of second-group soldering pads are disposed on the second surface. A pair of positioning concaved-portions are respectively disposed at two sides of the paddle card closed to the rear edge. The grounding strip pad is formed on the paddle card in a traverse manner, and has two ends extending to the pair of positioning concaved-portions.

A wiring board includes a first insulating layer, a pad formed on one surface of the first insulating layer, a second insulating layer, formed on the one surface of the first insulating layer, and including an opening exposing the pad, and a reinforcing metal layer formed in contact with the first insulating layer, and provided around the pad so as to be separated from the pad in a plan view. The pad is disposed inside the opening without making contact with the second insulating layer. An end, on a side of the first insulating layer, in a portion of an inner side surface of the opening of the second insulating layer makes contact with the reinforcing metal layer, and an end in another portion of the inner side surface of the opening of the second insulating layer makes contact with the one surface of the first insulating layer.

An electronic component is mounted on the mounting face of a printed wiring board and a plurality of terminals arranged on the mounting face of the printed wiring board are respectively bonded to a plurality of terminals arranged on the bottom surface of the electronic component by means of solder. Solder paste containing powdery solder and thermosetting resin is provided to the plurality of terminals on the mounting face, then the electronic component is mounted on the mounting face of the printed wiring board, and subsequently the solder paste is heated to bond the corresponding terminals by means of molten solder. Thereafter, the molten solder is allowed to solidify and the thermosetting resin separated from the solder paste is allowed to cure in a state where it is held in contact with metal members arranged separately relative to the terminals.

Embodiments provide a multilayer printed circuit board intended to connect electronic components, the board comprising a stack of a plurality of conductive layers, the conductive layers comprising two surface layers and one or more internal layers, the board comprising one or more counterbored holes, each counterbored hole comprising a portion with metallization opening onto one of the two surface layers and a portion without metallization opening onto the other surface layer; the multilayer printed circuit board may advantageously comprise one or more metal pads, each metal pad being joined to one of the two surface layers so as to occult the portion without metallization of a corresponding counterbored hole.

In some embodiments, methods include drilling one or a plurality of PTHs with any industrial grade drill to fabricate holes with positive etch back, flooding the PTHs with a dilute solution of an acrylate monomer/oligomer containing an appropriate level of peroxide initiator, polymerizing the acrylate, and then rising the PTHs with the solvent used in the formulation of the acrylate material. In one embodiment, the printed circuit board may include a substrate comprising a plurality of metal layers separated by a plurality of insulating layers; a plurality of plated through holes formed in the substrate, each plated through hole comprising: recesses formed at each insulating layer, copper lands between the recesses, a polymer coating in each recess, and a metal layer lining the plated through hole.

A land group with which a terminal group of a semiconductor package has been jointed, a conductor pattern which has been arranged in a mounting area where the semiconductor package was mounted and which has been jointed with a heat radiation plate of the semiconductor package, a conductor pattern at least a part of which has been arranged on the outside of the mounting area, and a conductor pattern which connects the conductor patterns are formed on a printed-wiring board. The land group includes a land adjacent to the conductor pattern and a land which is not adjacent to the conductor pattern. The land is formed in a shape different from that of the land so as to be away from the conductor pattern.