In various embodiments, a bonded structure is disclosed. The bonded structure can include an element and a passive electronic component having a first surface bonded to the element and a second surface opposite the first surface. The passive electronic component can comprise a first anode terminal bonded to a corresponding second anode terminal of the element and a first cathode terminal bonded to a corresponding second cathode terminal of the element. The first anode terminal and the first cathode terminal can be disposed on the first surface of the passive electronic component.

An electronic system comprising a substrate with a substrate conductor pattern including substrate pads; a semiconductor component with active circuitry, and component pads coupled to the active circuitry of the semiconductor component and connected to the substrate pads of the substrate; a power source interface for receiving power from a power source; and a power distribution network for distributing power from the power source interface to the active circuitry of the semiconductor component. The power distribution network includes a first capacitor realized by conductive structures comprised in the semiconductor component, the first capacitor being coupled to a first component pad and a second component pad of the semiconductor component; a second capacitor arranged between the substrate and the semiconductor component, the second capacitor being coupled to the first component pad and the second component pad of the component package; and a power grid portion of the substrate conductor pattern.

The present disclosure is related to a display device and a circuit board (200). The display device comprises a light-emitting module (100), a circuit board (200) and a conductive structure (300). The surface of the light-emitting module (100) is provided with a conductive portion (101). The circuit board (200) is arranged on a back face (102) of the light-emitting module (100), and has a first surface (201) close to the light-emitting module (100). The first surface (201) of the circuit board (200) is provided with an exposed external conductive layer (210), and the external conductive layer (210) is electrically connected to a ground wire of the circuit board (200). The conductive structure (300) is located between the circuit board (200) and the light-emitting module (100), and makes the external conductive layer (210) electrically connect to the conductive portion (101).

A circuit board includes a board body, a signal conductor, a power supply conductor, and a first reference conductor. The signal conductor is in the board body and a high frequency signal is transmitted through the signal conductor. The power supply conductor is in the board body and is connected to a power supply potential. The power supply conductor extends along at least a portion of the signal conductor. The first reference conductor is in the board body and is insulated from the signal conductor and the power supply conductor.

An electronic device according to various embodiments may include: a circuit board; an electrical element disposed on an upper surface of the circuit board; a shield can surrounding at least a portion of the electrical element and having a first opening provided through a portion of the shield can facing the electrical element; a shielding sheet including a shielding layer disposed on at least a portion of the shield can and a support layer disposed on an upper surface of the shielding layer and including a second opening corresponding to the first opening; and a first heat transfer member comprising a heat dissipating material having at least a portion disposed inside the second opening and at least one surface in contact with the shielding layer.

A multi-layer ceramic wiring board is patterned with arrays of footprints for high-temperature surface mounted device active and passive components on one side of the board that is patterned with arrays of standard SMD footprints to enable placement and attachment of components including primary 2-terminal components and active components where the SMD pads are connected through vias and buried-layer interconnect traces to a multiple connection point arrays on the front and back side of the ceramic wiring board. Each pad is connected to multiple instances of the pad grid to connections to be made with a single post-fired print.

A mounting board includes: a first electronic component that includes first solder balls, one of the first solder balls being surrounded by at least three of the first solder balls; a first capacitor that includes a first power supply terminal and a first ground terminal; a second electronic component that includes second solder balls, each of the second solder balls not being surrounded by at least three of the second solder balls; and a second capacitor that includes a second power supply terminal and a second ground terminal. A distance from the first ground terminal to the first electronic component is less than or equal to a distance from the first power supply terminal to the first electronic component. A distance from the second power supply terminal to the second electronic component is less than or equal to a distance from the second ground terminal to the second electronic component.

Methods and apparatus relating to a compact partitioned capacitor design for multiple voltage and/or load domains (e.g., with improved decoupling) are described. In an embodiment, a capacitor provides substrate decoupling for a plurality of loads. Moreover, the capacitor is capable of decoupling two or more voltage domains. Furthermore, in some embodiments the capacitor is capable of decoupling two or more voltage domains and mitigating self-noise and/or cross-noise between them. Other embodiments are also disclosed and claimed.

An electronic component assembly is described which comprises a stack of electronic components wherein each electronic component comprises a face and external terminations. A component stability structure is attached to at least one face. A circuit board is provided wherein the circuit board comprises circuit traces arranged for electrical engagement with the external terminations. The component stability structure mechanically engages with the circuit board and inhibits the electronic device from moving relative to the circuit board.

Embodiments are directed to a method of embedding a discrete component in a substrate. The method includes forming a cavity in the substrate. The method further includes inserting a discrete component into the cavity, wherein the discrete component comprises a top terminal and a bottom terminal. The method further includes positioning the discrete component within the cavity such that the top terminal is above the bottom terminal and below a front face of the substrate. The method further includes forming an intermediate conductive material within the cavity and over the top terminal. The method further includes forming a top conductive material over the intermediate conductive material such that the top conductive material is electrically coupled through the intermediate conductive material to the top terminal.