A semiconductor device includes: a substrate; a circuit element disposed on a first surface side of the substrate; a first transmission line disposed on the first surface side; a first terminal disposed on the first surface side; a first dielectric disposed in a part of the first transmission line; a second terminal disposed on a side of the first dielectric opposite to the first transmission line; a second transmission line disposed on the first surface side and has one end coupled to the circuit element; a third terminal disposed on the first surface side and coupled to the other end of the second transmission line; a second dielectric disposed in a part of the second transmission line; a fourth terminal disposed on a side of the second dielectric opposite to the second transmission line; and a conductor disposed on a second surface side of the substrate.

A radiofrequency transmission/reception device includes a first and a second conductive wire element, a first far-field transmission/reception chip and a second near-field transmission/reception chip. The first and the second wire element combine with the characteristic impedance of the second transmission/reception chip in order to form a coupling device associated with the first transmission/reception chip at the operating frequency of the first chip. The first and the second wire element combine with the characteristic impedance of the first transmission/reception chip in order to form a coupling device associated with the second transmission/reception chip at the operating frequency of the second chip.

A semiconductor device package includes a plurality of input leads and an output lead, a plurality of transistor amplifier dies having inputs respectively coupled to the plurality of input leads, and a combination circuit configured to combine output signals received from the plurality of transistor amplifier dies and output a combined signal to the output lead.

A semiconductor device package includes a plurality of input leads, a plurality of transistor amplifier dies having inputs respectively coupled to the plurality of input leads, and a combined output lead configured to combine output signals received from the plurality of transistor amplifier dies and output a combined signal.

Provided are an input matching circuit, at least one amplifying transistor that receives a signal from the input matching circuit, a first dummy transistor that receives a signal from the input matching circuit, a second dummy transistor that receives a signal from the input matching circuit, and an output matching circuit that outputs an output of the amplifying transistor, the amplifying transistor being arranged between the first dummy transistor and the second dummy transistor, the amplifying transistor, the first dummy transistor, and the second dummy transistor being provided in a row along the input matching circuit.

Provided is a semiconductor package including a pair of differential signal wiring lines including a first differential signal wiring line and a second differential signal wiring line, extending parallel to and spaced apart from each other, a lower equal potential plate in a lower wiring layer under the signal wiring layer, an upper equal potential plate in an upper wiring layer above the signal wiring layer, and a wiring insulating layer adjacent to the pair of differential signal wiring lines, the lower equal potential plate, and the upper equal potential plate, the wiring insulating layer filling spaces between the signal wiring layer, the lower wiring layer, and the upper wiring layer, at least one of the lower equal potential plate and the upper equal potential plate including an impedance opening overlapping the pair of differential signal wiring lines in a vertical direction and is filled by the wiring insulating layer.

An electronic device has a substrate and first and second metallization levels with a resonant circuit. The first metallization level has a first dielectric layer on a side of the substrate, and a first metal layer on the first dielectric layer. The second metallization level has a second dielectric layer on the first dielectric layer and the first metal layer, and a second metal layer on the second dielectric layer. The electronic device includes a first plate in the first metal layer, and a second plate spaced apart from the first plate in the second metal layer to form a capacitor. The electronic device includes a winding in one of the first or second metal layers and coupled to one of the first or second plates in a resonant circuit.

A switching power device comprises a device lead-frame. Gates, Kelvin sources and a drain are formed on the device lead-frame, the gates and the Kelvin sources are arranged at one end of the device lead-frame, and the drain is arranged at the other end of the device lead-frame; and two gates and two Kelvin sources are provided. One end of the device lead-frame is sequentially provided with the gate, the Kelvin source, the Kelvin source and the gate, so as to form a symmetrical pin structure.

The present disclosure relates to a package capable of handling high radio frequency (RF) power, which includes a carrier, a ring structure attached to a top surface of the carrier, an RF die attached to the top surface of the carrier within an opening of the ring structure and electrically connected to the ring structure, a heat spreader attached to a top surface of the ring structure, and an output signal lead configured to send out RF output signals generated by the RF die. Herein, the heat spreader covers a portion of the top surface of the ring structure at an output side of the package, and the output signal lead is attached to a top surface of the heat spreader. As such, the RF output signals are capable of being transmitted from the RF die to the output signal lead through the ring structure and the heat spreader.

In many examples, a device comprises a transmitter. The transmitter comprises a power amplifier, a first transformer coil coupled to the power amplifier, and a second transformer coil adapted to be electromagnetically coupled to the first transformer coil. The transmitter also comprises a first bond wire coupled to a first end of the second transformer coil and adapted to be coupled to a first end of an antenna, a capacitor coupled to a second end of the second transformer coil, a switch coupled to the capacitor and configured to engage and disengage the capacitor from the transmitter, and a second bond wire coupled to the switch and adapted to be coupled to a second end of the antenna.