The present disclosure provides a printed circuit board with a plated through hole. The through hole covered by a solder pad at both ends of the through hole. At least two pins are plugged into the through hole, one of which with its head end being thermal contacted with one of the solder pads. Another pin's head end being thermal contacted with the other solder pad. The at least two pins are thermal contacted with one another. Thermal dissipation rate is increased with the structure of the through hole.

A ceramic circuit board includes a ceramic base material, a metal layer (first metal layer), and a marker portion. The marker portion is formed on the surface of the first metal layer. The surface of the metal layer (first metal layer) may be plated. When the surface of the metal layer (first metal layer) is plated, the marker portion may be formed on the plating.

A press-fit terminal for connecting a first component and a second component includes a first elastic portion for engaging with the first component, a second elastic portion for engaging with the second component, and an intermediate portion arranged between the first and second elastic portions in an axial direction of the terminal. The intermediate portion comprises a first plurality of radially extending arms for engaging with the first component and a second plurality of radially extending arms for engaging with the second component.

A method for manufacturing a circuit board includes: preparing a first substrate and a second substrate, wherein: the first substrate comprises a convex post member formed at a top surface of the first substrate, and the second substrate including a first surface and a second surface opposite to the first surface, and comprising: a first metal layer formed on at least the first surface, and an opening through which a top surface of the post member is uncovered in a plan view; bonding at least a portion of a top surface of the first substrate excluding the post member and the second surface of the second substrate so that the top surface of the post member is uncovered through the opening; and forming a circuit pattern by removing a first portion of the first metal layer.

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.

Disclosed is an assembly (11) of an electronic board (22) and a heat sink (24), in particular for a motor-fan unit (10) of a motor vehicle, comprising an electronic board (22); a heat sink (24) comprising a plate (28) fastened to the electronic board (22), the surface of which has through-openings (30); and a thermal paste (26) arranged between the electronic board (22) and the plate (28).

A printed circuit board comprises N power switching cells operating in parallel and respectively comprising a transistor leg, at least one decoupling capacitor and a gate driver circuit. Each transistor leg comprises respective first and second transistors in series, a drain of the first transistor being connected to a positive DC line, a source of the second transistor being connected to a negative DC line, a source of the first transistor being connected to a drain of the second through a connection middle-point connected to an output terminal. Each gate driver circuit controls respective switching ON and OFF of the corresponding first and second transistors. The N transistor legs of the corresponding N power switching cells are positioned to substantially form a convex polygon having N edges of substantially the same length, each one of the N transistor legs being positioned along one of the edges of the convex polygon.

The application discloses a dual-layer display assembly and a display device. The dual-layer display assembly includes a first display screen, a second display screen, a first print circuit board, a second print circuit board and a fixing structure, where the second display screen is arranged in layers with the first display screen; the first print circuit board drives the first display screen; the second print circuit board drives the second display screen; and the fixing structure connects and fixes the first print circuit board and the second print circuit board.

Provided is a circuit assembly that enables suppression of a decrease in heat dissipation properties. A circuit assembly includes a circuit board having a conductive path, a heat dissipation member on which the circuit board is placed, and an insulating layer that is interposed between the circuit board and the heat dissipation member. A surface of the heat dissipation member that faces the circuit board is a rough surface having protrusions and recessions, and the circuit board and the heat dissipation member are fixed to each other by the insulating layer penetrating the protrusions and recessions of the rough surface.

Even when a grounding capacitor is included at either end of a common mode coil, there is noise that flows from a load into a metal frame, and there is a need to restrict an amount of noise propagating to a system power supply. Because of this, a noise loop is formed of a rectifier circuit, an inverter, a first electrical wire that connects a positive polarity side of the rectifier circuit and the inverter, a second electrical wire that connects a negative polarity side of the rectifier circuit and the inverter, a ground wire terminal that can connect a load connected to an output terminal or the inverter, and a conductive plate that connects at least one or the first electrical wire and second electrical wire and the ground wire terminal.