Disclosed is a packaging solution, such as a lead frame for circuit board packaging, a packaged integrated circuit board, a power chip, and a circuit board packaging method. The lead frame includes a plurality of frame units disposed in parallel in a first direction. The frame unit includes a hollow bezel, and a plurality of pins and connecting ribs that are disposed in the bezel. Each pin includes a first pin part and a second pin part that extend in a second direction and are integrally formed. The first pin part is disposed in the bezel, the first pin part is configured to electrically connect to a circuit board, and the second pin part is connected and fastened to the bezel. The second direction is perpendicular to the first direction. The connecting ribs are connected among the plurality of pins and the bezel.

A dielectric substrate has a first surface including a first terminal joint and a second terminal joint arranged along a first side surface. A first lead terminal is bonded to the first terminal joint with a bond. A second lead terminal is bonded to the second terminal joint with a bond. The first lead terminal includes a first base bonded to the first terminal joint and a first lead extending from the first base. The second lead terminal includes a second base bonded to the second terminal joint and a second lead extending from the second base. The first lead terminal includes the first base having a larger thickness than the first lead.

The present invention discloses an electrical connection assembly and a battery pack signal acquisition device. The battery pack signal acquisition device has: a signal transmission bus; and an electrical connection assembly for electrically connecting a battery cell to the signal transmission bus to collect an electrical parameter of the battery cell. The electrical connection assembly and the signal transmission bus are respectively formed and electrically connected with each other. In the present invention, the electrical connection assembly can be replaced separately without replacing the signal transmission bus, which improves the convenience of use and reduces the later maintenance cost.

A PCB assembly includes a second PCB disposed adjacent to a first PCB and have a second hole facing a first hole, an upper plate disposed at an upper of the first and second hole and have a third hole disposed at the upper of the first hole and a fourth hole disposed at the upper of the second hole, a holder disposed at a lower of the first and second hole and have a lower plate having a fifth hole disposed at the lower of the first hole and a sixth hole disposed at the lower of the second hole, a first fixing screw penetrating through the third first, and fifth hole, and a second fixing screw penetrating through the fourth, second and sixth hole, and the lower plate includes a protrusion penetrating through the second PCB coupling the first PCB and the second PCB.

An integrated multilayer structure includes a substrate film including an electrically insulating material; a circuit design including electrically conductive elements provided on the substrate film, the conductive elements defining a number of contact areas; a connector at the edge of the substrate film, the connector including a number of electrically conductive elongated contact elements, such as pins, connected to the contact areas of the conductive elements of the circuit design on the substrate film while further extending from the substrate film to couple to an external connecting element responsive to mating the external connecting element with the connector; and at least one plastic layer molded onto the substrate film so as to at least partially cover the circuit design and only partially cover the connector.

The object is to provide a technology capable of increasing the reliability of a power semiconductor device. A power semiconductor device includes: a substrate including an insulating layer and a circuit pattern that are disposed in this order; a power semiconductor element electrically connected to the circuit pattern; and an electrode terminal having a thinned portion including a welded portion welded to the circuit pattern by a fiber laser. A thickness of the circuit pattern is not less than 0.2 and not more than 0.5 mm, and a thickness of the thinned portion of the electrode terminal is not less than one time and not more than two times the thickness of the circuit pattern.

A connector device that includes a circuit board; a connector attached to the circuit board; a plurality of collars for external attachment; a first molded resin that is made of a first resin material whose melting point or softening point is 230° C. or less, and covers the entire circuit board and part of the connector; and a second molded resin that is welded to the first molded resin, is made of a second resin material whose melting point or softening point is higher than that of the first resin material for the first molded resin, and covers outer circumferences of the collars.

Aspects of the embodiments include an edge card and methods of making the same. The edge card can include a printed circuit board (PCB) comprising a first end and a second end, the first end comprising a plurality of metal contact fingers configured to interface with an edge connector, and the second end comprising a through-hole configured to mate with a post of a screw, the PCB further comprising an aperture proximate the second end of the PCB. The PCB can also include a thermal conduction element secured to the PCB, the thermal conduction element supporting an integrated circuit package, the integrated circuit package received by the aperture, wherein the thermal conduction element contacts the PCB proximate the through-hole and the thermal conduction element is configured to conduct heat from the integrated circuit towards the second portion of the printed circuit board.

A flexible printed wiring board with crimp terminal includes: a flexible printed wiring board having a base film, a circuit including a metal foil provided on a surface of the base film, and a cover film attached to the base film so as to sandwich the circuit; and a crimp terminal with a plurality of crimping pieces that penetrates the flexible printed wiring board by being crimped and is bent to bite into a part of the circuit. A part of the circuit is exposed without the cover film being provided in a partial region of the flexible printed wiring board, and at least some of the crimping pieces are arranged in the partial region, and thus bite into a part of the circuit without penetrating the cover film.

A circuit board for use in a modular electrical connector. The circuit board has a first surface and an oppositely facing second surface. Signal pathways are provided on the first surface. The signal pathways have signal pathway ends abutting a mounting end of the circuit board. First ground pathways are provided on the first surface. The first ground pathways are positioned adjacent at least one of the signal pathways. The first ground pathways have first ground pathway ends abutting the mounting end of the circuit board. One or more second ground pathways are provided on the second surface. The one or more second ground pathways have second ground pathway ends abutting the mounting end of the circuit board. The positioning of the signal pathway ends, the first ground pathway ends and the second ground pathway ends abutting the mounting end reduces crosstalk between signal pairs.