An integrated circuit (IC) structure for radio frequency (RF) circuits having a multi-point selectably grounded die seal and multi-point selectably grounded signal paths. Embodiments include switch-coupled grounding pads that can selectively electrically couple an internal grounding pad within the die seal of an IC die to a connection point on the die seal and/or on a signal path. When the IC die is embedded in a grounded system, the die seal and/or signal path can be locally grounded at selected connection points, and thus an IC die may be “tuned” to mitigate the effects of parasitic coupling and/or to selective repurpose such parasitic coupling to generate a notch filter effect. Another aspect is selective grounding of inactive signal paths to improve isolation between signal ports.

An electronic component containing package includes a substrate including a placement region for placing an electronic component in an upper face thereof; a frame disposed on the upper face of the substrate surrounding the placement region, and including a penetration part opening; and an input/output member disposed in the frame closing the penetration part, including a plurality of wiring conductors which extend inward and outward of the frame and are electrically connected to the electronic component. The input/output member includes via conductors which are connected to the wiring conductors and embedded at sites overlapping with the wiring conductors within a region surrounded by the frame in the input/output member, and a ground layer disposed in a surrounding of lower ends of the via conductors being spaced from the via conductors. Improved high frequency characteristics can be achieved.

Multi-component modules (MCMs) including configurable electromagnetic interference (EMI) shield structures, and related methods are disclosed. An EMI shield enclosing an IC or another electrical component in an MCM can protect other components within the MCM from EMI generated by the enclosed component. The EMI shield also protects the enclosed component from the EMI generated by other electrical components. An EMI shield with side-wall structures, in which vertical conductors supported by a wall medium electrically couple a lid of the EMI shield to a ground layer in a substrate, provides configurable EMI protection in an MCM. The EMI shield may also be employed to increase heat dissipation. The side-wall structures of the EMI shield are disposed on one or more sides of an electrical component and are configurable to provide a desired level of EMI isolation.

An integrated circuit is provided that comprises a first thermal sink layer, a first ground plane associated with a first set of circuits that have a first operational temperature requirement, a first thermally conductive via that couples the first ground plane to the first thermal sink layer, a second thermal sink layer, a second ground plane associated with a second set of circuits that have a second operational temperature requirement that is higher than the first operational temperature requirement, and a second thermally conductive via that couples the second ground plane to the second thermal sink layer. The first thermal sink layer is cooled at a first temperature to maintain the first set of circuits at the first operational temperature requirement and the second thermal sink layer is cooled at a second temperature to maintain the second set of circuits at the second operational temperature requirement.

A lead frame for a hermetic RF chip package includes: a first capacitor unit formed of a conductive material in a rectangular shape having a width smaller than a length to receive an input of an RF signal applied to the package circuit; a first inductor unit connected to the first capacitor unit and formed of a conductive material in a rectangular shape having a width greater than a length; a second capacitor unit connected to the first inductor unit and formed of a conductive material in a rectangular shape having a width smaller than a length; and a second inductor unit connected to the second capacitor unit and formed of a conductive material in a rectangular shape having a width greater than a length to transfer an RF signal input through the first capacitor unit to the RF chip.

A mounting substrate has one main surface (a first main surface). An electronic component has a first face, a second face, and a side face, and is provided on the one main surface of the mounting substrate. A solder bump is disposed between the mounting substrate and the electronic component, and electrically connects the mounting substrate and the electronic component. A resin layer is provided on the one main surface of the mounting substrate to cover the electronic component. The first face is a face of the electronic component at a side opposite to the mounting substrate. The side face of the electronic component is in contact with the resin layer. A space is provided between at least a part of the first face and the resin layer in a thickness direction of the mounting substrate.

Multi-component modules (MCMs) including configurable electromagnetic interference (EMI) shield structures, and related methods are disclosed. An EMI shield enclosing an IC or another electrical component in an MCM can protect other components within the MCM from EMI generated by the enclosed component. The EMI shield also protects the enclosed component from the EMI generated by other electrical components. An EMI shield with side-wall structures, in which vertical conductors supported by a wall medium electrically couple a lid of the EMI shield to a ground layer in a substrate, provides configurable EMI protection in an MCM. The EMI shield may also be employed to increase heat dissipation. The side-wall structures of the EMI shield are disposed on one or more sides of an electrical component and are configurable to provide a desired level of EMI isolation.

The object is to provide a technology that can prevent a spring electrode from being dissolved and broken upon a short circuit in a semiconductor chip. A spring electrode includes a main body. The main body is a tubular conductor, and varies in diameter in a longitudinal direction so that a side surface has bellows. Since the main body of the spring electrode does not include an edge portion, the local concentration of a short-circuit current that flows through the spring electrode upon a short circuit in a semiconductor chip can be reduced. This can prevent the spring electrode from being dissolved and broken.

A pin map covers a surface area of a layer of a printed circuit board (PCB). The pin map includes a plurality of electrical designations for each pin in the pin map and a plurality of empty spaces within the pin map. Each electrical designation may be assigned to a pin on the pin map. Each electrical designation includes a positive polarity (P+) pin, a negative polarity (P−) pin, or an electrical ground (G) pin. If a space in the pin map does not have an electrical designation, then it may include an empty space/plain portion of the printed circuit board (PCB). The pin map may include a plurality of rows and a first repeating pin polarity pattern. The first repeating pin polarity pattern may include a lane unit tile. The pin map may help couple two circuit elements together that are attached to one layer of a PCB.

An electronic package includes: a carrier structure; a first electronic component disposed on the carrier structure; a first insulating layer formed on the carrier structure; a first antenna structure coupled to the first insulating layer and electrically connected to the first electronic component; and a second antenna structure embedded in the carrier structure. As such, the electronic package provides more antenna functions within a limited space so as to improve the signal quality and transmission rate of electronic products. An electronic device having the electronic package is also provided. The electronic device is applicable to an electronic product having an antenna function.