To provide a directional coupler in which a coupling characteristic is made even flatter. There are included an input terminal, an output terminal, a coupling terminal, a termination terminal, ground terminals, a main line, a first sub line, and a second sub line. The main line is electromagnetically coupled to sub lines (first sub line, second sub line). A phase conversion unit (low pass filter) is connected between the first sub line and the second sub line. Between a point between the coupling terminal and the termination terminal, and the ground terminals, a resonant circuit is connected in which an inductor, a capacitor, and a resistor are connected in series.

A directional coupler includes: a hollow coaxial line including a central conductor forming a main line and an outer conductor surrounding the central conductor and having an opening formed therein; a dielectric substrate covering the opening and provided with film-shaped ground conductors, wherein a film-shaped ground conductor covers a rear surface of the dielectric substrate facing the central conductor via the opening and a film-shaped ground conductor covers a front surface of the dielectric substrate, respectively, and are grounded; and a coupling line provided on the rear surface of the dielectric substrate in a region surrounded by the ground conductor formed on the rear surface and serving as an auxiliary line, wherein the ground conductor formed on the front surface is provided with a conductor-removed portion in which a portion of a conductor film in a region facing the coupling line via the dielectric substrate is removed.

The invention proposes a four-port coupler using micro-strip line in combination with ultra-wide-band compensation circuits. It can be applied for communication systems or information machine systems. The main feature of the invention is the structure and the distribution of the components in the compensation circuit to reduce the size of the coupler. The proposed coupler includes: microstrip directional coupler and compensation circuits, in which the microstrip directional coupler consists of one main line and two secondary transmission lines; the main transmission line has two ports: input and output ports; each secondary is connected to a load and a compensation circuit. The compensation circuit is composed of a low-pass filter and two parallel attenuation regulator circuits.

Systems and methods for a tunable impedance are provided. A tunable impedance includes a transistor assembly having two terminals and a control input. The transistor assembly includes one or more transistors electrically connected between the two terminals to provide a first impedance between the two terminals, based upon a control signal. One or more replica transistors react to the control signal in a similar fashion as the transistor assembly, to provide a replica impedance based upon the control signal. A control circuit is configured to generate the control signal based upon a voltage across the replica transistor(s) and/or a current through the replica transistor(s).

A coupling device includes a plurality of couplers, a first coupled output port and a second coupled output port, wherein the plurality of couplers comprise a first coupler and a second coupler that are adjacent one another, and each of the first coupler and the second coupler comprises a main line and a subline, and for each of the first coupler and the second coupler: the subline includes a first section, a second section, and a third section, wherein the second section of the subline of the first coupler has a common segment with the first section of the subline of the second coupler.

Embodiments described herein may be related to apparatuses, processes, and techniques related creating millimeter wave components within a glass core of a substrate within a semiconductor package. These millimeter wave components, which include resonators, isolators, directional couplers, and circulators, may be combined to form other structures such as filters or multiplexers. Other embodiments may be described and/or claimed.

Isolation characteristics of a directional coupler are improved. A high-frequency module (1) includes a substrate (2) and a directional coupler (5) provided on the substrate (2). The directional coupler (5) includes a main line (51), a sub line (52), and an impedance adjustment portion (7). The sub line (52) is electromagnetically coupled to the main line (51). The impedance adjustment portion (7) is provided in the sub line (52), and adjusts impedance of the directional coupler (5). The impedance adjustment portion (7) is electrically connected to an inductor of the substrate (2).

A low temperature co-fired ceramic (LTCC) electronic device includes a template layer, a base layer and a conductor. The template layer and the base layer are ceramic layers. The template layer has an electrode pattern formed by a hollow groove. A depth of the hollow groove is between 10 μm and 120 μm, and a width of the hollow groove is above 80 μm. The base layer is closely overlapped with the template layer. An overlapping area range of the base layer and the template layer at least covers the electrode pattern. The conductor is filled in the hollow groove of the electrode pattern. A filling thickness of the conductor is above 10 μm.

The invention relates to the field of microwave engineering, and in particular, to waveguide-type coupling devices consisting of two coupled lines. The invention can be utilized as a hardware component for thin-film integrated high-frequency units (such as splitter/adder circuits), UHF power amplifiers, couplers, radiofrequency multiplexers, phase shifters, filters and other units in wireless devices used for various purposes. The benefit of the invention claimed lies in increase in efficiency of utilization of the usable area of a dielectric substrate and decrease in overall dimensions of the device and widening of the operating frequency band. This benefit is achieved by inclusion of two electromagnetically coupled microstrip transmission lines to the helical ultra-wideband microstrip quadrature directional coupler, which are designed as flat bilifar helices and are arranged on a dielectric substrate, the backside of which is partially or completely metalized or suspended over a metal surface. The couple differs from other analogous devices in its helices which have more than one turns with one helix of the coupler rotated relative to the other around their common center, while clearances between the coupled transmission lines and their cross-sectional dimensions are constant.

A dielectric having a first main surface and a second main surface facing each other, a main line provided on a side of the first main surface in contact with the dielectric, and a sub line provided on the side of the first main surface in contact with the dielectric are included, the dielectric has a first portion in contact with the main line and a second portion in contact with the sub line, and when the first main surface is viewed in a plan view, between the first portion and the second portion, a third portion having a relative dielectric constant changing along a direction intersecting with the main line and the sub line is located.