For example, an apparatus may include a Printed Circuit Board (PCB); a Multiple-Input-Multiple-Output (MIMO) radar antenna on the PCB, the MIMO radar antenna comprising a plurality of Transmit (Tx) antenna elements configured to transmit Tx radar signals, and a plurality of receive (Rx) antenna elements configured to receive Rx radar signals based on the Tx radar signals; and a surface wave mitigator connected to the PCB, the surface wave mitigator configured to mitigate an impact of surface waves via the PCB on a radiation pattern of the MIMO radar antenna.

An apparatus and method for a shielding structure for surface-mount LTCC components and filters to increase the signal isolation from input signal port to output signal port. An LTCC filter device with an increased rejection of undesired frequencies in a stopband and minimal distortion or loss of desired signals in a passband.

A system may include a circuit board comprising a plurality of electrically-conductive layers separated and supported by layers of insulating material laminated together, wherein the plurality of electrically-conductive layers comprises a ground plane and the layers of insulating material comprise a surface layer having one or more openings through which the ground plane is exposed through the one or more openings. The system may also include a plurality of electrically-conductive pads formed on a surface of the surface layer and a cable comprising a first signal conductor mechanically contacted to a first pad of the plurality of electrically-conductive pads and a first drain conductor mechanically contacted to the ground plane through the one or more openings.

A multilayer resin substrate includes resin layers that are laminated, a first copper foil on the resin layers and including first and second main surfaces having first and second surface roughnesses, respectively, and a second copper foil on the resin layers and including third and fourth main surfaces having third and fourth surface roughnesses, respectively. A distance between the first main surface and the second copper foil is shorter than a distance between the second main surface and the second copper foil. When the first, second, third, and fourth surface roughnesses are denoted as SR1, SR2, SR3, and SR4 respectively, a relationship SR1<SR3≤SR4<SR2 is satisfied.

A multilayer substrate includes a resin multilayer body including, in a lamination direction, first and second laminate portions respectively including first and second thermoplastic resin layers, and a first interlayer connection conductor extending through the first thermoplastic resin layer. A storage elastic modulus of the first thermoplastic resin layer is lower than that of the second thermoplastic resin layer at a measurement temperature equal to or higher than a minimum melting point among melting points of metallic elements included in the first interlayer connection conductors and equal to or lower than melting points of the first thermoplastic resin layer and the second thermoplastic resin layer.

An electronic device includes first and second circuit boards. The second circuit board includes a first portion facing a first main surface of the first circuit board, a second portion facing a second main surface opposite to the first main surface, and a bent portion connecting the first portion and the second portion to each other. The second circuit board includes an element, signal conductors, and a first opening. The first opening is between the signal conductors when viewed in a thickness direction of the element. The first opening extends from the first portion to the second portion through the bent portion. The first portion and the second portion each include a portion not including the first opening between the signal conductors.

A connection assembly for an antenna includes a printed circuit board and a coaxial cable connected to the printed circuit board. A transmission trace and a solder pad are provided on the printed circuit board. An opening for receiving an end portion of the coaxial cable is also provided in the printed circuit board, and an exposed outer conductor of the end portion extends into the opening, and an exposed inner conductor reaches the solder pad. The connection assembly further includes a ground structure, which is electrically connected to a ground metal layer on a second surface of the printed circuit board, and the ground structure is at least partially arranged on both sides of the exposed inner conductor and/or the exposed outer conductor.

In an electronic device, a circuit board connects different systems or structures such that heat of a system with a relatively large amount of heat can be transferred to a position or a heat dissipation structure with a relatively small amount of heat, thereby mitigating local high temperatures in the electronic device and distributing heat more evenly throughout the electronic device.

The present invention may be embodied as a DC-DC step-up converter assembly comprising a multiple-layer PCB and a converter circuit. The converter circuit comprising a boost controller, an inductor, a capacitor, and a resistor. The boost controller, inductor, capacitor, and resistor are all supported on one side of the multiple-layer PCB. The boost controller, inductor, capacitor, and resistor are configured to operate at a switching frequency of substantially between 50 kHz and 800 kHz

This document describes techniques and apparatuses directed to the mitigation of physical impact-induced mechanical stress damage to printed circuit boards through the utilization of a conductive shield track having a varied width (dynamic width). In an aspect, disclosed is a device that includes a printed circuit board, an electrical component on the printed circuit board in a shielded area, a conductive shield track on the printed circuit board, a component shield having a sidewall and a sidewall base, and solder disposed between the sidewall base and the conductive shield track to couple the component shield to the ground plane of the PCB to form a shielded compartment over the shielded area.