Abstract: A transmission line portion of a flat cable includes first regions and second regions connected alternately. In the first region, the transmission line portion is a flexible tri-plate transmission line including a dielectric element including a signal conductor, a first ground conductor including opening portions, and a second ground conductor which is a solidly filled conductor. In the second region, the transmission line portion is a hard tri-plate transmission line including a wide dielectric element including a meandering conductor, and a first ground conductor and a second ground conductor which are solidly filled conductors. A variation width of the characteristic impedance in the second region is larger than a variation width of the characteristic impedance in the first region.

Abstract: A branch circuit includes a common antenna port and separates a first communication signal including a signal in a low band and a signal in a high band and a second communication signal that is a signal in a frequency band between the low band and the high band. The branch circuit includes a first-communication-signal-line-side band elimination filter and a second-communication-signal-line-side band elimination filter and SAW filter.

Abstract: A transmission line portion of a high-frequency transmission cable includes a dielectric body in which a first ground conductor, a signal conductor, and a second ground conductor are arranged along a thickness direction of the dielectric body from a first principle surface side. The second ground conductor is arranged at a position that does not overlap the signal conductor when viewed in a direction perpendicular or substantially perpendicular to the first principle surface. The third ground conductor and the signal conductor are located at the same position in the thickness direction of the dielectric body. The second and third ground conductors are connected to the first ground conductor via interlayer-connector conductors. The width of the second and third ground conductors is narrower than the width of the signal conductor, but a sum of the widths of the second and third ground conductors is larger than the width of the signal conductor.

Abstract: A common mode choke coil includes a differential transmission line including first and second signal lines, a main circuit including a first coil provided in the first signal line, and a second coil provided in the second signal line and connected to the first coil by magnetic field coupling, and a parallel resonance circuit including a third coil connected to both the first and second coils by magnetic field coupling, and a first capacitor electrically connected in parallel to the third coil. In the common mode choke coil, a first resonant frequency of the main circuit is equal or substantially equal to a second resonant frequency of the parallel resonance circuit.

Abstract: In a wireless communication device, an impedance matching circuit includes a first layered coil conductor one end of which is connected to a first I/O terminal, the first layered coil conductor includes loop conductors including a plurality of layers, and a second layered coil conductor one end of which is connected to the other end of the first layered coil conductor and the other end of which is respectively connected to a second I/O terminal, the second layered coil conductor includes loop conductors including a plurality of layers. On the surface of the wireless communication device, first and second terminal electrodes are connected via first and second in-plane conductors and first and second inter-layer conductors to any of the loop conductors of the first and second layered coil conductors.

Abstract: An antenna device includes a feed coil and a sheet conductor. The feed coil includes a magnetic core and a coil-shaped conductor, which is provided around the magnetic core. An RFIC is connected to the feed coil. The sheet conductor has a larger area than the feed coil. A slit that extends from a portion of the edge of the sheet conductor toward the inner side of the sheet conductor is provided in the sheet conductor. The feed coil is arranged such that the direction of the axis around which the feed coil is disposed is parallel or substantially parallel to the directions in which the sheet conductor extends. The feed coil is arranged such that the feed coil is close to the slit and one of coil openings at the ends of the feed coil faces the slit.

Abstract: In a wireless communication device, an impedance matching circuit includes a first layered coil conductor one end of which is connected to a first I/O terminal, the first layered coil conductor includes loop conductors including a plurality of layers, and a second layered coil conductor one end of which is connected to the other end of the first layered coil conductor and the other end of which is respectively connected to a second I/O terminal, the second layered coil conductor includes loop conductors including a plurality of layers. On the surface of the wireless communication device, first and second terminal electrodes are connected via first and second in-plane conductors and first and second inter-layer conductors to any of the loop conductors of the first and second layered coil conductors.

Abstract: The present invention is provided with a Si substrate, an ESD protection circuit formed in the Si substrate, pads formed on the surface of the Si substrate and electrically connected to first and second input/output terminals of the ESD protection circuit, a rewiring layer formed on the surface of the Si substrate for electrically connecting the pads and metal plated films, and an insulating resin film formed on the rear surface of the Si substrate. Thus, provided is an ESD protection device which can suppress the influence of external noise, etc.

Abstract: To ensure a sufficient communication distance and to concurrently suppress a conductor loss, a coil antenna includes a magnetic core including a first peripheral surface including at least a first principal surface, a first coil conductor located on the first principal surface and wound around a predetermined winding axis, a first base material layer stacked on the first principal surface, including at least a first surface parallel or substantially parallel to the first principal surface, and made of a material having a lower magnetic permeability than the magnetic core, and a second coil conductor located on at least the first surface. Opposite ends of the second coil conductor are coupled to the first coil conductor on the first principal surface, and a direction in which a current flows through the first coil conductor on the first principal surface is substantially the same as a direction in which a current flows through the second coil conductor on the first surface.

Abstract: A first coil of a common mode choke coil includes first and second loop-shaped conductors in different layers, and an interlayer connection conductor that connects the first and second loop-shaped conductors. The inner and outer diameters of the second loop-shaped conductor are less than or equal to the inner and outer diameters of the first loop-shaped conductor. A second coil includes third and fourth loop-shaped conductors in different layers, and an interlayer connection conductor that connects the third and fourth loop-shaped conductors. The third loop-shaped conductor is outside the first loop-shaped conductor in the same layer as the first loop-shaped conductor, and the fourth loop-shaped conductor is inside the second loop-shaped conductor in the same layer as the second loop-shaped conductor.

Abstract: A wireless communication module and a wireless communication device that are less likely to become detached even when attached to a flexible base substrate and have a reduced height includes a flexible multilayer substrate including a plurality of stacked flexible base materials and a cavity provided therein, a wireless IC chip arranged in the cavity, and a sealant filled in the cavity so as to cover the wireless IC chip. The sealant is a material that is harder than the flexible base materials. The flexible multilayer substrate includes a loop-shaped electrode defined by coil patterns. The loop-shaped electrode is electrically connected to the wireless IC chip.

Abstract: An antenna of a communication terminal is disposed on a side on which a bottom surface of a reflective plate, which is included in a display, is present. When the reflective plate is irradiated by an LED light source, the antenna cannot be seen from the side on which a display screen of the display is disposed. Accordingly, an antenna coil of the antenna does not need transparent electrodes and can be made of various materials each having a high conductivity. Therefore, the antenna has high sensitivity, low manufacturing cost, and very efficiently performs near field communication with an external device located on the display screen side of the display.

Abstract: An antenna device includes a base including a planar conductor disposed thereon, and a coil antenna. The coil antenna includes a coil conductor wound around a magnetic core. The coil antenna is arranged such that a coil opening of the coil conductor is closed to an edge of the planar conductor. A current passing through the coil conductor induces a current in the planar conductor. Thus, a first magnetic flux occurs in the coil antenna, and a second magnetic flux occurs in the planar conductor. Therefore, a third magnetic flux occurs in an area of the planar conductor. Accordingly, the antenna device achieves a small footprint, a small-sized communication terminal apparatus and a desired communication distance.

Abstract: An antenna device includes a base including a planar conductor disposed thereon, and a coil antenna. The coil antenna includes a coil conductor wound around a magnetic core. The coil antenna is arranged such that a coil opening of the coil conductor is closed to an edge of the planar conductor. A current passing through the coil conductor induces a current in the planar conductor. Thus, a first magnetic flux occurs in the coil antenna, and a second magnetic flux occurs in the planar conductor. Therefore, a third magnetic flux occurs in an area of the planar conductor. Accordingly, the antenna device achieves a small footprint, a small-sized communication terminal apparatus and a desired communication distance.

Abstract: A circuit board includes a laminated body including a laminate of a plurality of insulating-material layers made of a flexible material. External electrodes are provided on the top surface of the laminated body. An electronic component is mounted on the external electrodes. A plurality of internal conductors, when viewed in plan in the z-axis direction, are overlaid on the external electrodes and are not connected to one another in regions in which the internal conductors are overlaid on the external electrodes.

Abstract: A branch circuit includes a common antenna port and separates a first communication signal including a signal in a low band and a signal in a high band and a second communication signal that is a signal in a frequency band between the low band and the high band. The branch circuit includes a first-communication-signal-line-side band elimination filter and a second-communication-signal-line-side band elimination filter and SAW filter.

Abstract: A wireless communication device is provided that has a dielectric member attached to a metal surface of an article, an RFIC element including first and second terminal electrodes, a first radiation electrode disposed on the dielectric member in parallel with and oppositely to the metal surface of the article at a predetermined distance and connected to the first terminal electrode of the RFIC element, and a second radiation electrode disposed on the dielectric member in parallel with and oppositely to the metal surface of the article at the predetermined distance and connected to the second terminal electrode of the RFIC element independently of the first radiation electrode. The first and second radiation electrodes extend in respective directions intersecting with each other, with the first radiation electrode having a smaller width and a shorter length in an extending direction than the second radiation electrode.

Abstract: A wireless communication device is provided that has an RFIC element including first and second terminal electrodes, a first radiation electrode connected to the first terminal electrode of the RFIC element, a second radiation electrode disposed in the same layer as the first radiation electrode independently of the first radiation electrode and connected to the second terminal electrode of the RFIC element, and a back surface electrode disposed oppositely to the second radiation electrode at a distant and connected to the second radiation electrode. Moreover, an area of a portion of the back surface electrode opposite to the first radiation electrode is smaller than an area of a portion of the back surface electrode opposite to the second radiation electrode.

Abstract: A flexible circuit board whose entire surface has flexibility includes a first substrate portion and a second substrate portion that are adjacent to each other and electrically connected to each other in a planar direction of the flexible circuit board. The first substrate portion includes a plurality of resin layers, which are bonded together with an adhesive, and the second substrate portion includes a plurality of resin layers, which are integrated with one another by intermolecular bonding of a thermoplastic resin.

Abstract: A composite device includes a substrate and a mounted component mounted on a surface of, or inside, the substrate. The substrate includes a first thermoplastic resin layer. A surface of the mounted component includes a second thermoplastic resin layer that includes a same or a similar material as that of the first thermoplastic resin layer. A bonding layer that bonds the second thermoplastic resin layer and the first thermoplastic resin layer together is provided between the second thermoplastic resin layer and the first thermoplastic resin layer.