A 2nd signal line has impedance lower than impedance of a 1st signal line. A capacitor includes a 1st extension part and a 2nd extension part, a 1st ground part and a 2nd ground part. The 1st extension part and the 2nd extension part are connected to a 2nd signal line and are provided on an insulation substrate to extend along a longitudinal direction of the 2nd signal line. The 1st ground part and the 2nd ground part are at least a part of a ground pattern, and are provided between the 1st extension part and the 2nd extension part and the 2nd signal line, and between the 1st extension part and the 2nd extension part and an end part of the insulation substrate, to be electrically coupled with the 1st extension part and the 2nd extension part.

A waveguide structure includes a first waveguide section mechanically and electrically connected by a fixed connector to a second waveguide section. The waveguide sections include a dielectric material with a ground layer and a conductor structure with a pair of elongate conductors. The fixed connector includes a dielectric material with a pair of contact pads insulated from a ground layer. The fixed connector is attached by its top side to the bottom sides of interface sections of the waveguides sections forming a ground contact. The interface sections each comprise an intermediate conductor from each of the elongate conductors at the top side to the bottom side of the dielectric material. The intermediate conductors are connected via the contact pads.

A high-frequency line structure includes: a high-frequency line substrate; ground lead pins fixed to ground ends provided in a bottom surface of the high-frequency line substrate; and signal lead pins fixed to signal line ends provided in the bottom surface of the high-frequency line substrate, wherein the signal lead pins are arranged between the ground lead pins, the signal lead pins have a structure in which each of the signal lead pins springs up in a direction toward a side on which the high-frequency line substrate is arranged, from a horizontal plane to which bottom surfaces of the ground lead pins pertains, and spring-up heights in the structure in which the respective signal lead pins spring up are substantially the same.

A device includes a first substrate having a principal surface; a second substrate having a principal surface, in which the first substrate is bump-bonded to the second substrate such that the principal surface of the first substrate faces the principal surface of the second substrate; a circuit element having a microwave frequency resonance mode, in which a first portion of the circuit element is arranged on the principal surface of the first substrate and a second portion of the circuit element is arranged on the principal surface of the second substrate; and a first bump bond connected to the first portion of the circuit element and to the second portion of the circuit element, in which the first superconductor bump bond provides an electrical connection between the first portion and the second portion.

A high-frequency line substrate is mounted on a printed circuit board. The printed circuit board includes a first high-frequency line. The high-frequency line substrate includes a second high-frequency line and lead pins that connect the first high-frequency line and the second high-frequency line. At the contact portions between the signal lead pins and the second high-frequency line of the high-frequency line substrate, and at the contact portions between the ground lead pins and the second high-frequency line of the high-frequency line substrate, the height of the ground lead pins from an upper surface of the printed circuit board is greater than the height of the signal lead pins.

A method may include receiving a first and a second complementary signal to provide differential signaling. The method may further include providing a first conductor trace to transport the first complementary signal; providing a second conductor trace to transport the second complementary signal, the second conductor trace immediately adjacent to the first conductor trace; providing a third conductor trace to transport the first complementary signal, the third conductor trace immediately adjacent to the second conductor trace; and providing a fourth conductor trace to transport the second complementary signal, the fourth conductor trace immediately adjacent to the third conductor trace.

After a distal end portion of a first lead of a first lead frame is connected to a first signal pad, and a distal end portion of a second lead is connected to a second signal pad, the interval between the linear portion of the first lead and the linear portion of the second lead is adjusted using a lead shape changing jig.

A device includes a first substrate having a principal surface; a second substrate having a principal surface, in which the first substrate is bump-bonded to the second substrate such that the principal surface of the first substrate faces the principal surface of the second substrate; a circuit element having a microwave frequency resonance mode, in which a first portion of the circuit element is arranged on the principal surface of the first substrate and a second portion of the circuit element is arranged on the principal surface of the second substrate; and a first bump bond connected to the first portion of the circuit element and to the second portion of the circuit element, in which the first superconductor bump bond provides an electrical connection between the first portion and the second portion.

A microwave or radio frequency (RF) device includes an insulating substrate having a first surface and a second surface opposing the first surface. The device also includes a crossover conductor disposed on the first surface extending between a first edge of the first surface and a second edge of the first surface. The device also includes a depression in the second surface defined at least in part by (i) a third surface recessed in relation to the second surface, and (ii) at least one sidewall that extends between the second surface and the third surface. The device further includes a conductive coating formed over at least a portion of the second surface, the third surface, and the at least one sidewall, where the conductive coating is insulated from the crossover conductor by the insulating substrate.

A conductor track arrangement for high-frequency signals is provided. The arrangement includes a carrier, a ground conductor, and a pair of signal conductors. The signal conductors are layered and are arranged on the carrier opposite the ground conductor. A distance is between the signal conductors, which have a deflection region, in which a direction of the signal conductors changes. The deflection region has a reduced distance, which is reduced compared to the distance d between the signal conductors outside the deflection region. The distance between the signal conductors in transition regions from straight portions of the signal conductors into the deflection region is reduced here symmetrically with respect to an extension of a centre line between the two signal conductors into their respective straight portions and/or a capacitor is introduced into the signal conductor considered to be the inner signal conductor in respect of the direction change.