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: An RFID tag is provided that includes an RFIC chip having a first connection terminal and a second connection terminal, a first electrode electrically connected to the first connection terminal of the RFIC chip, a capacitance element connected in series to the first electrode and the RFIC chip, and short-circuit parts connecting the first electrode and a ground at an intermediate position of an electrical length of the first electrode. Moreover, the electrical length of the first electrode is a half of a wavelength of a communication frequency of the RFIC chip, the first connection terminal of the RFIC chip is connected to the first electrode at a position within one third of the electrical length from an end portion of the first electrode, and the second connection terminal of the RFIC chip is connected to the ground.

Abstract: An RFIC module is provided that includes an RFIC and an impedance matching circuit connected to an RFIC side first terminal electrode, an RFIC side second terminal electrode, an antenna side first terminal electrode and an antenna side second terminal electrode. The impedance matching circuit includes a first inductor, a second inductor, a third inductor, and a fourth inductor, and a conductor pattern that configures the first inductor, the second inductor, the third inductor, and the fourth inductor as a single coil-shaped pattern.

Abstract: RFID tag RFIC modules are provided with each module including an RFIC, an antenna connection first electrode, an antenna connection second electrode, an RFIC connection first electrode, an RFIC connection second electrode, an impedance matching circuit that matches impedance between the RFIC and an antenna, and a rectangular substrate. A first coil and a second coil of the impedance matching circuit are juxtaposed in/on the substrate, and a straight line passing through center of gravity of the coil opening of the first coil and center of gravity of the coil opening of the second coil is inclined with respect to one side of the substrate, and directions of this inclination are different between the first RFIC module and the second RFIC module.

Abstract: An RFIC module is provided that includes an RFIC, an antenna connection first electrode, an antenna connection second electrode, an RFIC connection first electrode, an RFIC connection second electrode, an impedance matching circuit that matches impedance between the RFIC and an antenna, and a substrate. The impedance matching circuit includes a first coil and a second coil that each have a coil opening extending along a surface of the substrate. The first coil and the second coil are juxtaposed on the substrate with the antenna connection first electrode and the antenna connection second electrode interposed therebetween.

Abstract: An RFID tag is provided that includes a first planar conductor having a first opening, a second planar conductor partially or entirely facing the first planar conductor and having a second opening, an RFIC, a capacitor, and an inductor. The RFIC, the capacitor, and the inductor form a part of a current closed loop. Moreover, the first opening and the second opening have sizes that do not come into contact with a metal screw inserted into the first opening and the second opening. The first opening is located closer to a center than to an edge of the first planar conductor, and the second opening is located closer to a center than to an edge of the second planar conductor.

Abstract: An RFID tag including an RFIC element, a first inductor element that includes a first insulating substrate having a mounting surface on which the RFIC element is mounted, and first coil-shaped antenna internally embedded in first insulating substrate with a winding axis perpendicular to the mounting surface, and second inductor element that includes second insulating substrate mounted on the mounting surface, and second coil-shaped antenna internally embedded in second insulating substrate, electrically connected to first coil-shaped antenna, and with a winding axis parallel to the mounting surface. The first insulating substrate includes a laminate with dielectric layers or magnetic layers laminated, and the first coil-shaped antenna includes a laminate coil-shaped antenna in which conductor patterns are each formed on a corresponding one of the layers of the laminate, such that they are connected to each other through interlayer connection conductor.

Abstract: An RFID tag is provided that includes a first plane conductor; a second plane conductor that partially or entirely faces the first plane conductor; and an RFIC, a capacitor, an inductor, and terminals that form a part of a closed current loop. The closed current loop has two places with a large potential difference, including one place electrically connected to the first plane conductor, and the other place electrically connected to the second plane conductor. Moreover, the terminals are electrically connected to the second plane conductor and project outward from a region where the first plane conductor and the second plane conductor face each other.

Abstract: An RFID tag reading antenna includes a loop antenna including a first loop-shaped conductor having a peripheral length shorter than a ¼ wavelength in a communication frequency; and a split ring resonator including a second loop-shaped conductor having an opening smaller than an opening of the first loop-shaped conductor of the loop antenna and being arranged at a position away from a plane formed by the first loop-shaped conductor by a predetermined distance. In addition, the RFID tag reading antenna is coupled to an RFID tag as a communication partner, in a state where a distance from the RFID tag to the split ring resonator is shorter than a distance from the loop antenna to the split ring resonator.

Abstract: An RFIC module is provided that includes a first planar conductor and a second planar conductor that faces each other. Moreover, an inductor is provided of which both ends are connected between the first planar conductor and the second planar conductor. An RFIC also has both ends connected between the first planar conductor and the second planar conductor. In a plan view of the first planar conductor, the inductor is adjacent to a first point that is at an outer edge of the first planar conductor, and the RFIC is adjacent to a second point of the outer edges of the first planar conductor. In addition, the second point is positioned away from the first point.

Abstract: An RFIC module is provided that includes an RFIC and an impedance matching circuit connected to an RFIC side first terminal electrode, an RFIC side second terminal electrode, an antenna side first terminal electrode and an antenna side second terminal electrode. The impedance matching circuit includes a first inductor, a second inductor, a third inductor, and a fourth inductor, and a conductor pattern that configures the first inductor, the second inductor, the third inductor, and the fourth inductor as a single coil-shaped pattern.

Abstract: An RFIC module is provided that includes a base material; an RFIC mounted on the base material; antenna-side terminal electrodes formed on the base material and constructed to be connected to or coupled to an antenna; and an insulating protective film that covers a first surface of the base material and the RFIC, with the protective film being made of a hot melt resin.

Abstract: An RFID tag reading antenna includes a loop antenna including a first loop-shaped conductor having a peripheral length shorter than a ¼ wavelength in a communication frequency; and a split ring resonator including a second loop-shaped conductor having an opening smaller than an opening of the first loop-shaped conductor of the loop antenna and being arranged at a position away from a plane formed by the first loop-shaped conductor by a predetermined distance. In addition, the RFID tag reading antenna is coupled to an RFID tag as a communication partner, in a state where a distance from the RFID tag to the split ring resonator is shorter than a distance from the loop antenna to the split ring resonator.

Abstract: In an impedance matching circuit, first to fourth inductors are formed by a conductor pattern of a coil shape, and a fifth inductor is formed by a conductor pattern of an unwound shape. The first inductor and the third inductor are respectively formed in different layers of a substrate and are arranged in such a relationship as to have coil openings overlapping each other. Moreover, the second inductor and the fourth inductor are respectively formed in different layers of the substrate and are arranged in such a relationship as to have coil openings overlapping each other. Two coils interposing the mounting position of the RFIC are in a 180° rotational symmetry relationship.

Abstract: An RFID inlay includes an RFID module and an antenna. The RFID module includes an RFIC and an antenna sharing circuit provided between the RFIC and the antenna. The RFIC includes a power receiving terminal to which power induced upon receipt of an electromagnetic wave for power reception is input and a transmitting terminal from which a transmission signal for RFID is output. Moreover, the antenna receives the electromagnetic wave for power reception and generates an electromagnetic wave for RFID.

Abstract: An RFID tag is provided as a wireless communication device for transmitting and receiving a communication signal. The RFID tag includes a base material, antenna patterns formed on the base material, an RFIC package that is a feeder circuit connected to the antenna patterns, and an LC resonance circuit that is adjacent to the antenna patterns and resonates at a frequency higher than the frequency of the communication signal.

Abstract: An article is provided with a wireless communication device that is constructed to be attached to the article without using an adhesive. The article with the wireless communication device includes a wireless IC chip, a power feeding circuit board including a terminal electrode to which the wireless IC chip is connected, an article, and a conductive thread for attaching the power feeding circuit board to the article. The conductive thread contacts the terminal electrode and functions as a radiator while the power feeding circuit board is attached to the article.

Abstract: An RFID tag is provided as a wireless communication device for transmitting and receiving a communication signal. The RFID tag includes a base material, antenna patterns formed on the base material, and an RFIC package that is a feeder circuit connected to the antenna patterns. In the antenna patterns, a line width at a harmonic current concentration portion where a current is strong at a frequency of harmonic resonance higher than a resonance frequency at a frequency of the communication signal is narrower than a line width at another portion of the antenna pattern.

Abstract: An RFID tag is provided that has reduced size while a decrease in communication distance is prevented. The RFID tag includes an inductor element having a coiled antenna built in a substrate and an RFIC element mounted on a mounting surface of the substrate and electrically connected to the coiled antenna. The coiled antenna is disposed such that a winding axis becomes parallel to or inclined with respect to the mounting surface of the substrate. The area of the RFIC element viewed in a direction orthogonal to the mounting surface of the substrate is larger than opening area of the coiled antenna viewed in winding axis direction of the coiled antenna. The RFIC element is disposed without overlapping at least a portion of opening region of the coiled antenna when viewed in winding axis direction of the coiled antenna.

Abstract: An RFID tag is provided that includes a first plane conductor; a second plane conductor that partially or entirely faces the first plane conductor; and an RFIC, a capacitor, an inductor, and terminals that form a part of a closed current loop. The closed current loop has two places with a large potential difference, including one place electrically connected to the first plane conductor, and the other place electrically connected to the second plane conductor. Moreover, the terminals are electrically connected to the second plane conductor and project outward from a region where the first plane conductor and the second plane conductor face each other.