Techniques are described for lowering strains applied to superconducting material in a superconducting magnet by arranging structural partitions between turns of the superconducting material that intercept and transfer strain to a mechanically stronger structure, such as the housing of the magnet. A structural partition may be formed with a feedthrough slit so that the superconducting aterial can easily pass through the partition. A number of structural partitions may be interspersed between groups of turns of super-conducting material in a magnet so that forces can be sufficiently distributed by the partitions throughout the magnet. At the same time, the number of structural partitions may be selected to minimize the amount of space within the magnet occupied by the partitions that could otherwise be occupied by current-carrying superconducting material.

Techniques are described for lowering strains applied to superconducting material in a superconducting magnet by arranging structural partitions between turns of the superconducting material that intercept and transfer strain to a mechanically stronger structure, such as the housing of the magnet. A structural partition may be formed with a feedthrough slit so that the superconducting aterial can easily pass through the partition. A number of structural partitions may be interspersed between groups of turns of super-conducting material in a magnet so that forces can be sufficiently distributed by the partitions throughout the magnet. At the same time, the number of structural partitions may be selected to minimize the amount of space within the magnet occupied by the partitions that could otherwise be occupied by current-carrying superconducting material.

A method of providing a single structure multiple mode antenna is described. The antenna is preferably constructed having a first inductor coil that is electrically connected in series with a second inductor coil. The antenna is constructed having a plurality of electrical connections positioned along the first and second inductor coils. A plurality of terminals is connected to the electrical connections that facilitate numerous electrical connections and enables the antenna to be selectively tuned to various frequencies and frequency bands.

A method of providing a single structure multiple mode antenna is described. The antenna is preferably constructed having a first inductor coil that is electrically connected in series with a second inductor coil. The antenna is constructed having a plurality of electrical connections positioned along the first and second inductor coils. A plurality of terminals is connected to the electrical connections that facilitate numerous electrical connections and enables the antenna to be selectively tuned to various frequencies and frequency bands.

An installation aid chain member for an installation aid chain may be arranged for positioning and fixing an electric conductor. The installation aid chain member may include a base, at least one coupling arrangement, and a conductor holder. The base may define a support surface. The support surface may support or be able to support the installation aid chain member. The at least one coupling arrangement may be arranged on the base for movably coupling the installation aid chain member to a second installation aid chain member. The conductor holder may be arranged away from the support surface on the base, for retaining a conductor portion of the electric conductor.

A method of providing a single structure multiple mode antenna is described. The antenna is preferably constructed having a first inductor coil that is electrically connected in series with a second inductor coil. The antenna is constructed having a plurality of electrical connections positioned along the first and second inductor coils. A plurality of terminals is connected to the electrical connections that facilitate numerous electrical connections and enables the antenna to be selectively tuned to various frequencies and frequency bands.

A method of providing a single structure multiple mode antenna is described. The antenna is preferably constructed having a first inductor coil that is electrically connected in series with a second inductor coil. The antenna is constructed having a plurality of electrical connections positioned along the first and second inductor coils. A plurality of terminals is connected to the electrical connections that facilitate numerous electrical connections and enables the antenna to be selectively tuned to various frequencies and frequency bands.

A method for manufacturing a coil component includes: a first winding step to wind a first conductive wire around a winding core in a single layer from a first flange part toward a second flange part; and a second winding step to wind a second conductive wire around the winding core on the first conductive wire by the same number of turns and in the same direction as in the first winding step in a single layer in a manner that center B of the cross-section of the second conductive wire closest to the first flange part is positioned closer to the first flange part than is center A of the cross-section of the first conductive wire closest to the first flange part, and that the distance in the axial direction, between centers A and B is smaller than the radius of the wire.

A method for manufacturing a coil component includes: a first winding step to wind a first conductive wire around a winding core in a single layer from a first flange part toward a second flange part; and a second winding step to wind a second conductive wire around the winding core on the first conductive wire by the same number of turns and in the same direction as in the first winding step in a single layer in a manner that center B of the cross-section of the second conductive wire closest to the first flange part is positioned closer to the first flange part than is center A of the cross-section of the first conductive wire closest to the first flange part, and that the distance in the axial direction, between centers A and B is smaller than the radius of the wire.

Articles and methods for depositing iron alloy coatings onto metal wires for wireless recharging devices are generally described.