One object is to provide a coil element capable of enhancing reliability of joint strength of a coil conductor wire, while achieving a reduction in resistance and a size reduction. A coil element includes a core member, a coil conductor wire, and a terminal electrode. The core member has a columnar portion. The coil conductor wire has a coil portion wound on the columnar portion and a flat-shaped connection end portion provided in each of both end portions of the coil portion. The terminal electrode has an electrode layer and a joint layer. The electrode layer is formed on a surface of the core member and opposed to the connection end portion in its thickness direction. The joint layer includes a cavity portion locally provided between the connection end portion and the electrode layer and joins the connection end portion and the electrode layer to each other.

A inductor arrangement has a toroidal core with a central opening, a winding which is arranged around the core and has two winding ends, and an electrically insulating insert which is inserted into the central opening in a clamping manner. Here, the winding ends are inserted into the insert in a clamping manner.

A transformer includes a bobbin, a connection pin, a movable pin, a first and a second winding. The bobbin has two side walls between which a winding portion is arranged. A protruding plate extends from one of the side walls, a through hole is defined on the protruding plate, and the connection pin is arranged on the other side wall. The movable pin with a first and second latch portion is inserted in the through hole, the second latch portion is positioned in the through hole, and the first latch portion is arranged away from the protruding plate. The first winding is arranged on the winding portion and connected with the connection pin. The second winding is arranged on the winding portion and connected with the movable pin. Thereby, the transformer could be assembled in an automatic process, with low labor costs, improved assembly efficiency and high production yields.

One object is to provide an electronic component in which a standoff for filling solder is maintained. An electronic component according to an embodiment of the present invention is configured to be surface-mountable on a circuit board. The electronic component includes: an insulating base member; an internal conductor provided in the base member; a first external electrode provided on the mounting surface of the base member so as to be electrically connected to the internal conductor; and a second external electrode provided on the mounting surface of the base member so as to be electrically connected to the internal conductor. The first external electrode has a first protrusion, and the second external electrode has a second protrusion. The first protrusion and the second protrusion enables a standoff for filling solder to be maintained within a region defined by the mounting surface of the base member and the circuit board.

A solenoid valve includes a spool valve and a linear solenoid. The spool valve is used inside a hydraulic oil. The linear solenoid includes a resin cylindrical bobbin, a coil, and a case. The solenoid valve further includes a projecting portion, a first terminal, a first coil lead wire, a slit, a first coating portion, and a second coating portion. Each of the first coil lead wire and the second coil lead wire includes an exposed portion. The slit separates an electrical connection between the first terminal and the first coil lead wire from an electrical connection between the second terminal and the second coil lead wire. The first coating portion is formed by coating an entire surface of the exposed portion of the first coil lead wire. The second coating portion is formed by coating an entire surface of the exposed portion of the second coil lead wire.

One object is to provide an electronic component in which a standoff for filling solder is maintained. An electronic component according to an embodiment of the present invention is configured to be surface-mountable on a circuit board. The electronic component includes: an insulating base member; an internal conductor provided in the base member; a first external electrode provided on the mounting surface of the base member so as to be electrically connected to the internal conductor; and a second external electrode provided on the mounting surface of the base member so as to be electrically connected to the internal conductor. The first external electrode has a first protrusion, and the second external electrode has a second protrusion. The first protrusion and the second protrusion enables a standoff for filling solder to be maintained within a region defined by the mounting surface of the base member and the circuit board.

A current sensing device includes a substrate and one or more coil elements. The substrate comprises a plurality of holes extending at least part way through the substrate from a first surface of the substrate, wherein prior to a coil element being mounted to the substrate each of the plurality holes has a circular or polygonal cross section. Each coil element comprises a plurality of locating pins. A first locating pin of the plurality of locating pins projects from the coil element in a direction parallel to a pin axis that is perpendicular to the axis of the winding body. A second locating pin of the plurality of locating pins projects from the coil element in the direction parallel to the pin axis.

A bobbin provides secure attachment of a magnetic component to a printed circuit board. The circuit board includes a set of slotted apertures and a set of tubular apertures. The bobbin includes at least two pin rails and a plurality of standoffs proximate each pin rail. L-shaped pins are attached to one of the pin rails. Straight pins are attached to the other pin rail. The component further includes a core, and at least one winding. The L-shaped pins are shaped to pass through and slide within the set of slotted apertures. The L-shaped pins engage the bottom surface of the circuit board when the straight pins are inserted through the set of tubular apertures (i.e., in a secured position). In the secured position, the magnetic component is held in place against the top surface of the circuit board and provides a soldering area for mounting on the bottom surface.

An upright composite common mode coil assembly includes a coil carrier and a seat. The coil carries includes two bobbins with a plurality of coils wounded thereon. The seat includes a base, a bottom portion, a top portion and a separating portion. The base has a back plate on a surface thereof, hollow portions formed at an upper position and a lower position thereof, a wire slot and an indentation are provided at either side of the back plate. The bottom portion and the top portion extend vertically from two sides of the base. A recessed portion is formed at each of the corners of the bottom portion, and a pin is inserted into each of the recessed portions. The top portion has a flat top face. The separating portion extends from another surface of the base and tapered to form a curved surface, and form two receiving slots with the top portion and the bottom portion, respectively. Each of the bobbins of the coil carrier is received in one of the receiving slots of the seat, and wires of a group of the coils are guided into some of the recessed portions through the wire slots and the indentations, and wires of another group of the coils are guided into the other recessed portions through the notches, so that the wires of the coils do not protrude out of the seat and are neatly soldered on the pins.

An upright composite common mode coil assembly includes a coil carrier and a seat. The coil carries includes two bobbins with a plurality of coils wounded thereon. The seat includes a base, a bottom portion, a top portion and a separating portion. The base has a back plate on a surface thereof, hollow portions formed at an upper position and a lower position thereof, a wire slot and an indentation are provided at either side of the back plate. The bottom portion and the top portion extend vertically from two sides of the base. A recessed portion is formed at each of the corners of the bottom portion, and a pin is inserted into each of the recessed portions. The top portion has a flat top face. The separating portion extends from another surface of the base and tapered to form a curved surface, and form two receiving slots with the top portion and the bottom portion, respectively. Each of the bobbins of the coil carrier is received in one of the receiving slots of the seat, and wires of a group of the coils are guided into some of the recessed portions through the wire slots and the indentations, and wires of another group of the coils are guided into the other recessed portions through the notches, so that the wires of the coils do not protrude out of the seat and are neatly soldered on the pins.