In an embodiment, a common mode choke coil 10 includes a drum core 12, coil part 30, and terminal electrodes 40, 42, 44, 46. The drum core 12 has a shaft part 14 and flange parts 16, 22, and conductive wires 32, 34 are wound around the outer periphery face of the shaft part 14 in the same winding direction by the same number of windings, with leader parts 32A, 32B, 34A, 34B led from both ends thereof. The flange parts 16, 22 have side face grooves 18, 20, 24, 26 on their side faces 16C, 16D, 22C, 22D, inside which side face grooves the engagement parts 40A, 42A, 44A, 46A are provided and positioned across the center of the flange part 16 or 22 in the height direction, where the leader parts 32A, 32B, 34A, 34B are electrically connected to the terminal electrodes 40, 42, 44, 46.

A winding-type coil component includes a first wire and a second wire having a twisted wire portion where the first wire and the second wire are twisted together. Switching positions of the first wire and the second wire in the twisted wire portion are shifted in a circumferential direction of a winding core portion every turn.

A power transmission unit includes: a power transmission coil; a communication coupler that is formed in an annular shape about an axis X and arranged to surround the power transmission coil; and a shielding member that is formed in an annular shape about the axis X, and arranged between the power transmission coil and the communication coupler in an intersecting direction. The shielding member is arranged at a position along the intersecting direction to surround the power transmission coil, and shields magnetic force generated by the power transmission coil.

Continuously transposed conductor cables include a plurality of electrically insulated strands that are formed into two interposed stacks. Each of the plurality of strands may successively and repeatedly taking on each possible position with a cross-section of the CTC cable. Additionally, an optical fiber may be incorporated into the continuously transposed conductor cable.

A continuously transposed cable CTC, extending according to a longitudinal development direction (L) and having two opposite longitudinal ends, includes a plurality of strands arranged so to form at least a first and a second adjacent stacks, each extending along the longitudinal development direction (L), wherein said at least first and second stacks form a longitudinal interface therebetween. The CTC cable (1) further includes one or more optical fibers positioned at the interface between the first and the second stacks. A winding of an electromagnetic induction device, such as a transformer, can be obtained by winding said CTC cable.

Examples of the present invention provide electric wire bundles and a manufacturing method therefor.

The electric wire bundles according to an embodiment of the present invention includes a first reference axial line and a second reference axial line which are spaced apart from each other and fixed and arranged in parallel with each other, and a first wire and a second wire which are would in a spiral pattern on the first and second reference axial lines in the first rotating direction or the second rotating direction, wherein the first wire and the second wire intersect at a central axis between the first reference axial line and the second reference axial line.

A continuously transposed conductor (CTC) cable may include a plurality of electrically insulated strands arranged in two stacks with the plurality of strands successively transposed between the two stacks. Each strand may include a conductor and insulation formed at least partially around the conductor. Additionally, each strand may have a cross-sectional area that is less than approximately 0.0030 square inches. As a result, the CTC cable may be suitable for use in electrical devices relatively smaller than those associated with conventional CTC cables.

A winding-type coil component includes a first wire and a second wire having a twisted wire portion where the first wire and the second wire are twisted together. Switching positions of the first wire and the second wire in the twisted wire portion are shifted in a circumferential direction of a winding core portion every turn.

A transformer includes an input terminal, an output terminal, a first wire, and a second wire. The input and output terminals are disposed at two sides of the transformer with respect to a middle point of the transformer. The two sides of the transformer are opposite to each other. On the basis of a middle line which is disposed between the input terminal and the output terminal and passes through the middle point of the transformer, the two opposite sides include a first side and a second side which are disposed at opposite sides of the middle line. The first wire is winded to form circles. The second wire is winded correspondingly to the first wire to form circles. The first wire and/or the second wire are winded in an interlaced manner at location of the input terminal, location of the output terminal, the first side, and the second side.

A coil component includes a drum-shaped core including a core part having a circumferential surface including a first side surface and a second side surface parallel to each other; and a coil including two wires wound around the core part in the same direction. The coil has a first twisted wire part having the two wires twisted together on the first side surface, and a second twisted wire part having the two wires twisted together on the second side surface. The first twisted wire part and the second twisted wire part are identical in shape.