The laminate of the present disclosure is a laminate including multiple glass ceramic layers each containing quartz and a glass that contains SiO.sub.2, B.sub.2O.sub.3, Al.sub.2O.sub.3, and M.sub.2O, where M is an alkali metal. An Al.sub.2O.sub.3 content of a surface layer portion of the laminate is higher than an Al.sub.2O.sub.3 content of an inner layer portion of the laminate, and a M.sub.2O content of the surface layer portion is lower than a M.sub.2O content of the inner layer portion.

A filter includes a first input/output electrode and the second input/output electrode, and is arranged on a first main surface of a mounting substrate. The mounting substrate includes a first land electrode, a second land electrode, a ground terminal, and a plurality of via conductors. The first land electrode is connected to the first input/output electrode. The second land electrode is connected to the second input/output electrode. The ground terminal is located closer to a second main surface side than the first main surface in a thickness direction of the mounting substrate. The plurality of via conductors is arranged between the first main surface and the second main surface, and is connected to the ground terminal. The plurality of via conductors is located between the first land electrode and the second land electrode in a plan view from the thickness direction of the mounting substrate.

A high-frequency module (1) includes a substrate (10), a first electronic component (30) and a second electronic component (40) mounted on a main surface (10a) of the substrate (10). The substrate (10) has a protruding portion (20) projecting from the main surface (10a), the first electronic component (30) is mounted in a region of the main surface (10a) different from a region in which the protruding portion (20) is provided, and the second electronic component (40) is mounted on the protruding portion (20).

An electronic device is disclosed. An electronic device according to an embodiment may include: a first Printed Circuit Board (PCB), a second PCB, a Radio Frequency (RF) transceiver disposed on the first PCB, a Flexible Printed Circuit Board (FPCB) coupled with the first PCB and the second PCB and electrically coupled with the RF transceiver, the FPCB including a transmission line of a wireless communication signal, an amplifier disposed on the second PCB and electrically coupled with the RF transceiver by the FPCB, a first antenna electrically coupled with the amplifier through the second PCB and configured to receive a wireless communication signal corresponding to a first frequency, and a second antenna electrically coupled with the amplifier through the second PCB and configured to receive a wireless communication signal corresponding to a second frequency. The first antenna and the second antenna may be disposed closer to the second PCB than the first PCB in the electronic device. The amplifier may amplify a wireless communication signal received from the first antenna and second antenna.

In a circuit board (700A), a first capacitor (410) extends from a wiring pattern (110) to a region located on one side of the wiring pattern (110) in the width direction. A second capacitor (420) extends from the wiring pattern (110) to a region located on the other side of the wiring pattern (110) in the width direction. With a semiconductor device (300) mounted on the circuit board (700A), a power supply terminal (320) is electrically connected to the wiring pattern (110). The semiconductor device (300), the wiring pattern (110), the first capacitor (410), a first interlayer joint (510), a ground plane (210), and a third interlayer joint (530) constitute a first closed circuit. The semiconductor device (300), the wiring pattern (110), the second capacitor (420), a second interlayer joint (520), the ground plane (210), and the third interlayer joint (530) constitute a second closed circuit.

The invention relates to an electrical filter element (1) for filtering alternating voltage interference. The electrical filter element (1) comprises two dielectric circuit board substrates (11, 12) having a magnetic core (13) arranged between the circuit board substrates. The magnetic core (13) has a material-free inner region (13a), in which electrical connection elements (21-24) are provided between the two dielectric circuit board substrates (11, 12). Furthermore, electrical connection elements (31, 32) can also be provided between the two dielectric circuit board substrates (11, 12) in an outer region of the magnetic core (13).

A semiconductor device includes a base, a first switching unit disposed on the base, the first switching unit having a substantially rectangular shape and including plural first switches, and an amplifier unit disposed on the base, the amplifier unit including plural amplifier circuits to which a radio-frequency signal is inputted after passing through the first switching unit. In plan view of the base, the first switching unit has four edges including a first edge, a second edge orthogonal to the first edge, and a third edge parallel to the first edge and orthogonal to the second edge, the amplifier unit includes a first region extending along the first edge, a second region extending along the second region, and a third region extending along the third edge, and at least one of the plural amplifier circuits is disposed in each of the first region, the second region, and the third region.

The electronic device includes: a substrate having an electronic circuit formed therein; a housing for housing the substrate; and a connector disposed on the substrate and serving as an interface between outside and inside of the housing. The substrate has a main circuit pattern portion that forms a main circuit and a frame ground pattern portion that forms a frame ground. The main circuit pattern portion and the frame ground pattern portion are disposed so as not to overlap each other on the substrate and in the substrate. A terminal of the connector is disposed in the frame ground pattern portion.

Embodiments may relate to a microelectronic package or a die thereof which includes a die, logic, or subsystem coupled with a face of the substrate. An inductor may be positioned in the substrate. Electromagnetic interference (EMI) shield elements may be positioned within the substrate and surrounding the inductor. Other embodiments may be described or claimed.

An electronic assembly includes a first printed circuit board (PCB), a second PCB, and a grounding shield. The first PCB includes a first plurality of electronic components and a first conductive layer. The second PCB includes a second plurality of electronic components and a second conductive layer. The grounding shield is electrically connected between the first conductive layer of the first PCB and the second conductive layer of the second PCB to electrically connect the first PCB and the second PCB. The first PCB and the second PCB are arranged in a stack such that the first conductive layer and the second conductive layer mutually shield at least one of the first plurality of electronic components and at least one of the second plurality of electronic components from electromagnetic interference.