Abstract: A deformable inductive device includes a magnetic core formed of an elastomer material having magnetic particles dispersed in it and at least one deformable electrode. Depending on the device's configuration, the deformable element may be embedded in, attached to, or in close proximity with the magnetic core. In some embodiments, the deformable inductive device may be configured as an inductor, solenoid, or transformer and the deformable electrode is at least partially embedded in the magnetic core, for instance. In another embodiment, the deformable inductive device may be configured as part of a wireless power transfer system which includes a coil and a magnetic backplane having the magnetic core with the coil being attached to or in close proximity to the magnetic backplane.

Abstract: Self-cooling stretchable electrical circuits with a conduit forming an electrical component and containing electrically conductive liquid are disclosed. They are formed of a platform made of a stretchable material. At least one fluid conduit is formed in the platform and the conduit is formed into an electrical component and filled with the electrically conductive liquid metal. A portion of the conduit is positioned adjacent a heat sink while a pump circulates the liquid through the conduit wherein the metal is cooled at the heat sink.

Abstract: A DC-DC power converter having a power source, a load, and a transmission line terminated at one end. A first switch is electrically connected between the power source and a second end of the transmission line and movable between an open and a closed position. A second switch is electrically connected between the second end of the transmission line and the load and is movable between an open and a closed position. A switch control circuit switches the first and second switches between their respective open and closed positions. A pulse forming network forms the transmission line to store the charge in the transmission line.

Abstract: Embodiments of the present invention provide a tunable inductor having a magnetic core which has an air gap. In order to vary the inductance of the inductor, the inductor includes a tuner that is moveable relative to the magnetic core in the vicinity of the air gap. An actuator is attached to the tuner which, upon actuation, moves the tuner relative to the magnetic core to thereby vary the spacing between the tuner and the core in the vicinity of the air gap. The variation of the spacing between the tuner and the magnetic core varies the effective air gap of the overall inductor in the desired fashion.

Abstract: A DC-DC power converter having a power source, a load, and a transmission line terminated at one end. A first switch is electrically connected between the power source and the second end of the transmission line. A second switch is electrically connected between the second end of the transmission line and the load and both switches are movable between an open and a closed position. A switch control circuit switches the first and second electric switches between their open and closed positions at a selected high frequency. A plurality of variable impedance elements are electrically connected to the transmission line at spaced intervals while an impedance control circuit is electrically connected to the variable impedance elements to vary the impedance of the impedance elements and thereby vary the voltage applied to the load.

Abstract: Embodiments of the present invention are directed to electrical devices and methods for fabricating electrical devices using an oxidation process. According to one embodiment, a method of forming an electrical device using an oxidation process includes forming a metallic element which is to become an electrically insulating or resistive element in an electrical device; forming an electrically conductive element connected to the metallic element, wherein the metallic element and the electrically conductive element have different oxidation behavior when subjected to the oxidation process; and subjecting the elements forming the electrically insulating or resistive element and the electrically conductive element to the oxidation process.

Abstract: Embodiments of the present invention provide a tunable inductor having a magnetic core which has an air gap. In order to vary the inductance of the inductor, the inductor includes a tuner that is moveable relative to the magnetic core in the vicinity of the air gap. An actuator is attached to the tuner which, upon actuation, moves the tuner relative to the magnetic core to thereby vary the spacing between the tuner and the core in the vicinity of the air gap. The variation of the spacing between the tuner and the magnetic core varies the effective air gap of the overall inductor in the desired fashion.

Abstract: Embodiments of the present invention are directed to electrical devices and methods for fabricating electrical devices using an oxidation process. According to one embodiment, a method of forming an electrical device using an oxidation process includes forming a metallic element which is to become an electrically insulating or resistive element in an electrical device; forming an electrically conductive element connected to the metallic element, wherein the metallic element and the electrically conductive element have different oxidation behavior when subjected to the oxidation process; and subjecting the elements forming the electrically insulating or resistive element and the electrically conductive element to the oxidation process.