An electronic device mounting apparatus to be mounted with multiple electronic components, each of which includes at least one wire. The electronic device mounting apparatus includes a base unit and multiple pin units. The base unit includes a base wall and two side walls extending from the base wall. Each of the side walls has a first surface. The pin units are correspondingly mounted in the side walls and are spaced apart from one another. Each of the pin units has a wire-connecting segment having a connection portion that projects from the first surface, and two projecting portions that project from the connection portion and that define a slit therebetween. The slit is for a corresponding wire to be clamped therein by the projecting portions.

An electronic device package box is adapted to be mounted with a plurality of electric coil components, and includes: a base unit having a first abutment surface and defining a receiving space therein for receiving the electric coil components; a cover unit removably covering the receiving space of the base unit and having a second abutment surface that abuts against the first abutment surface; a plurality of conductive pins mounted to the base unit and adapted to be electrically connected to the electric coil components; and an engaging unit including first and second engaging members respectively formed on the first and second abutment surfaces, the first engaging member being slidable relative to the second engaging member.

A solenoid valve (200) is provided. The solenoid valve (200) comprises a fixed core (206) and a movable armature (420). The solenoid valve (200) further comprises a metallic tube bobbin (308) surrounding at least a portion of the fixed core (206) and/or the movable armature (420). A wire coil (203) is wrapped around the metallic tube bobbin (308).

A coil component includes a core including a winding core portion, a first flange portion, and a second flange portion, and a first wire and a second wire that are wound around the winding core portion in the same direction and that form a winding portion. The winding portion includes a second intersecting portion along a third side surface of the winding core portion at a position on the winding portion nearest to the second flange portion.

A high voltage instrument transformer includes a measuring assembly and isolator, with at least one sensor for partial discharge measurements. A method for partial discharge recognition in high voltage instrument transformers includes a detection of a signal from at least one sensor for partial discharge measurements, particularly a Transient Earth Voltage sensor.

An inductor component includes a main body including a magnetic layer, an inductor wiring disposed in the main body, and vertical wirings each of which is connected to the inductor wiring and each of which extends from a portion in which the vertical wiring and the inductor wiring are connected to each other to a first main surface of the main body. A second main surface of the main body is located on the side of the inductor wiring that is opposite to the side of the inductor wiring on which the first main surface is located. The first main surface is covered with a first outer layer having an insulating property, and the second main surface is covered with a second outer surface having an insulating property. The first outer layer and the second outer layer each contain a colorant.

Disclosed herein is a coil component including a base containing resin and a plurality of magnetic metal particles, a coil conductor provided inside the base, and external electrodes provided on the base in such a manner as to be electrically connected to the coil conductor. The base includes a first section containing resin at a first content by percentage and a second section containing the resin at a second content by percentage. The first content by percentage is larger than the second content by percentage.

The subject disclosure relates improved common mode choke (CMC) and integrated connector module (ICM) designs for Ethernet applications. Some aspects provide an improved CMC component, including an upper chassis element having a first plurality of comb structures vertically protruding from an edge of the upper chassis element, and a lower chassis element comprising a second plurality of comb structures vertically protruding from an edge of the lower chassis element, the second plurality of comb structures configured to interlock with the first plurality of comb structures to form an enclosure when the upper chassis element is mechanically coupled with the lower chassis element.

The invention relates to a docking module (22) for a current transformer (10) comprising:

an electronic circuit (12) and

at least one electric connecting element (28.3) for electrically coupling the circuit (12) to the current transformer (10) and for docking the docking module (22) onto the current transformer (10).

A transformer apparatus includes: a case with a component mounting surface; an external-terminal provided on a wall adjacent to the component mounting surface of the case; a transformer provided on the component mounting surface and including a magnetic core and a winding; and a support provided in a position between the external-terminal and the core on the component mounting surface, and including a first-slit in a top surface of the support, the first-slit holding a first-conductor of the winding drawn from the core and a second-conductor drawn from the external-terminal, wherein the first-conductor is held at one end of the first-slit by a conductive member, the second-conductor is held at the other end of the first-slit by the conductive member, the first-conductor and the second-conductor are electrically connected through the conductive member, and the first-conductor and the second-conductor have surplus lengths.