A device that includes a metal submount; a first transistor die arranged on said metal submount; a second transistor die arranged on said metal submount; a set of primary interconnects; and a set of secondary interconnects. Additionally, the set of primary interconnects and the set of secondary interconnects are configured to provide RF signal coupling between the first transistor die and the second transistor die by electromagnetic coupling.

A semiconductor package includes a die pad, a semiconductor die mounted on the die pad, a plurality of leads including a power lead disposed along a peripheral edge of the die pad, at least one connecting bar connecting the die pad, a power bar disposed on one side of the connecting bar, and a surface mount device (SMD) having a first terminal and a second terminal. The first terminal is electrically connected to the ground level through a first bond wire. The second terminal is electrically connected a power level through a second bond wire.

An RF transistor package includes a metal submount; a transistor die mounted to the metal submount; and a surface mount IPD component mounted to the metal submount. The surface mount IPD component includes a dielectric substrate that includes a top surface and a bottom surface and at least a first pad and a second pad arranged on a top surface of the surface mount IPD component; at least one surface mount device includes a first terminal and a second terminal, the first terminal of the surface mount device mounted to the first pad and the second terminal mounted to the second pad; at least one of the first terminal and the second terminal being configured to be isolated from the metal submount by the dielectric substrate; and at least one wire bond bonded to the at least one of the first pad and the second pad.

Millimeter wave (mmWave) technology, apparatuses, and methods that relate to transceivers, receivers, and antenna structures for wireless communications are described. The various aspects include co-located millimeter wave (mmWave) and near-field communication (NFC) antennas, scalable phased array radio transceiver architecture (SPARTA), phased array distributed communication system with MIMO support and phase noise synchronization over a single coax cable, communicating RF signals over cable (RFoC) in a distributed phased array communication system, clock noise leakage reduction, IF-to-RF companion chip for backwards and forwards compatibility and modularity, on-package matching networks, 5G scalable receiver (Rx) architecture, among others.

A semiconductor assembly with a package on package (POP) structure includes a first semiconductor package having a first lower substrate, a first upper substrate facing the first lower substrate, and a first semiconductor chip mounted on an area of the first lower substrate. The POP structure further includes a second semiconductor package having a second lower substrate stacked on the first semiconductor package and spaced apart from the first semiconductor package, and a second semiconductor chip mounted in an area of the second lower substrate. At least one passive element is disposed in one of the first upper substrate and the second lower substrate and electrically connected to the second semiconductor chip.

A transistor device includes a metal submount; a transistor die arranged on said metal submount; a first integrated passive device (IPD) component that includes a first substrate arranged on said metal submount; and a second integrated passive device (IPD) component that includes a second substrate arranged on the metal submount. Additionally, the first substrate is a different material from the second substrate.

A semiconductor device package having galvanic isolation is provided. The semiconductor device includes a package substrate having a first inductive coil formed from a first conductive layer and a second inductive coil formed from a second conductive layer. The first conductive layer and the second conductive layer are separated by a non-conductive material. A first semiconductor die is attached to a first major side of the package substrate. The first semiconductor die is conductively interconnected to the first inductive coil. A second semiconductor die is attached to the first major side of the package substrate. A first wireless communication link between the first semiconductor die and the second semiconductor die is formed by way of the first and second inductive coils.

The disclosure is directed to an electronic package with an interposer between integrated circuit dies. At least one inner capacitor (e.g., single layer capacitor) is mounted to the interposer. The electronic package further includes an input passive circuit substrate and an output passive circuit substrate mechanically coupled to the metal base. Use of an interposer to be simultaneously solder attached with integrated circuit dies provides a configuration that improves linearity performance and/or wide video bandwidth of the electronic package (e.g., packages that use epoxy and laminate interposers). Further, such configuration facilitates efficient manufacturing of the electronic package at high volumes.

A semiconductor package includes a first substrate, a first conductive layer, a first surface mount device (SMD) and a first bonding wire. The first substrate has a first top surface. The first conductive layer is formed on the first top surface and has a first conductive element and a second conductive element separated from each other. The first SMD is mounted on the first top surface, overlapping with but electrically isolated from the first conductive element. The first bonding wire electrically connects the first SMD with the first conductive layer.

A packaged module for use in a wireless communication device has a substrate supporting an integrated circuit die that includes at least a microprocessor and radio frequency receiver circuitry and a stacked filter assembly configured as a filter circuit that is in communication with the radio frequency receiver circuitry. The stacked filter assembly includes a plurality of passive components, where each passive component is packaged as a surface mount device. At least one passive component is in direct communication with the substrate and at least another passive component is supported above the substrate by the at least one passive component that is in the direct communication with the substrate.