Described herein are improved configurations for a wireless power transfer. The parameters of components of the wireless energy transfer system are adjusted to control the power delivered to the load at the device. The power output of the source amplifier is controlled to maintain a substantially 50% duty cycle at the rectifier of the device.

A sensor may include a core and a coil. The core may include a rectangular substrate, a layer of magnetically-permeable material disposed on the substrate, and an adhesive rigidly coupling two ends of the substrate so as to form a tube with the rectangular substrate. The coil may be wound on the tube. The core may further include a layer of radiopaque material. The core may further include a flex pad for electrically coupling the coil with an external system.

A sensor may include a core and a coil. The core may include a rectangular substrate, a layer of magnetically-permeable material disposed on the substrate, and an adhesive rigidly coupling two ends of the substrate so as to form a tube with the rectangular substrate. The coil may be wound on the tube. The core may further include a layer of radiopaque material. The core may further include a flex pad for electrically coupling the coil with an external system.

The present invention discloses an inductive passive component comprising: an iron core having a winding portion and two supporting portions respectively disposed on two sides of the winding portion; a plurality of insulating adhesive layers disposed on the top surface of each supporting portions in a manner of quantity corresponding to positions; a plurality of electrode layers, each electrode layers is disposed on each insulating adhesive layers respectively; at least one coil is wound around the winding portion and ends of the at least one coil are lapped on the plurality of electrode layers; two adhesive layers are disposed on the bottom surface of each supporting portions respectively; and a magnetic shield is disposed under the iron core and adhered to the two adhesive layers to be affixed to the two supporting portions.

The present invention discloses an inductive passive component comprising: an iron core having a winding portion and two supporting portions respectively disposed on two sides of the winding portion; a plurality of insulating adhesive layers disposed on the top surface of each supporting portions in a manner of quantity corresponding to positions; a plurality of electrode layers, each electrode layers is disposed on each insulating adhesive layers respectively; at least one coil is wound around the winding portion and ends of the at least one coil are lapped on the plurality of electrode layers; two adhesive layers are disposed on the bottom surface of each supporting portions respectively; and a magnetic shield is disposed under the iron core and adhered to the two adhesive layers to be affixed to the two supporting portions.

An electrical steel sheet has an insulation coating on a steel sheet surface. The insulation coating includes: a binder consisting of 100 parts by mass of a metal phosphate and 1 to 50 parts by mass of an organic resin having an average particle size of 0.05 to 0.50 m; and a carboxylic acid-containing compound with a carbon number of 2 to 50 in an amount of 0.1 to 10.0 parts by mass based on 100 parts by mass of solids content of the binder. The organic resin is at least one selected from the group consisting of acrylic resins, epoxy resins, and polyester resins. The insulation coating of this electrical steel sheet shows good edge corrosion resistance after blanking.

An electrical steel sheet has an insulation coating on a steel sheet surface. The insulation coating includes: a binder consisting of 100 parts by mass of a metal phosphate and 1 to 50 parts by mass of an organic resin having an average particle size of 0.05 to 0.50 m; and a carboxylic acid-containing compound with a carbon number of 2 to 50 in an amount of 0.1 to 10.0 parts by mass based on 100 parts by mass of solids content of the binder. The organic resin is at least one selected from the group consisting of acrylic resins, epoxy resins, and polyester resins. The insulation coating of this electrical steel sheet shows good edge corrosion resistance after blanking.

This is a technology for non-contact power transmission to the laboratory animal biological information acquisition device 12 embedded in the multiple laboratory animals in the breeding cage 14, and provides the power reception device, which can observe the behavior of laboratory animals from outside without covering the breeding cage 14 with the power transmission side, and which can continuously supply power regardless of the direction and position of the laboratory animals.

The secondary coil part 22 includes a magnetic core 31 having a circular cross-section perpendicular to the longitudinal direction, and a plurality of spiral coils 40a and 40b formed by winding a conductor so that the outer shape is substantially rectangular. The spiral coils 40a and 40b are arranged annularly in the circumferential direction of the magnetic core 31 so that the sides (40a1 and 40b1) and (40a2 and 40b2) are close to each other so as to cover the entire circumferential surface of the magnetic core 31 (arranged to form a ring).

A sensor may include a core and a coil. The core may include a rectangular substrate, a layer of magnetically-permeable material disposed on the substrate, and an adhesive rigidly coupling two ends of the substrate so as to form a tube with the rectangular substrate. The coil may be wound on the tube. The core may further include a layer of radiopaque material. The core may further include a flex pad for electrically coupling the coil with an external system.

A core for an electric induction device includes a multiplicity of magnetizable metal sheets which form a stack of metal sheets resting on each other. Spacers that are each disposed between two metal sheets form at least one cooling channel which can be subjected to a greater thermal load and at the same time allows improved cooling. Said spacers are made, at least in part, of metal.