Patent application number | Description | Published |
20080305582 | POWER SEMICONDUCTOR PACKAGING METHOD AND STRUCTURE - A semiconductor chip packaging structure is fabricated by using a dielectric film with two surfaces, and a power semiconductor chip with an active surface having contact pads. An adhesive layer is used to connect the first surface of the dielectric film and the active surface of the power semiconductor chip. A patterned electrically conductive layer is formed adjacent to the second surface of the film, extending through holes in the film to the contact pads. | 12-11-2008 |
20090031733 | THERMOTUNNELING REFRIGERATION SYSTEM - A refrigeration system is provided. The refrigeration system includes at least one thermal blocking thermotunneling device. The thermal blocking thermotunneling device comprises a first and a second surface separated by a nanoscale gap of less than about 20 nm, such that tunneling of electrons causes a unidirectional transfer of heat from the first surface to the second surface. Further, the at least one thermal blocking thermotunneling device has a thermal back path of less than about 70 percent. | 02-05-2009 |
20090078298 | DEVICES FOR THERMAL TRANSFER AND POWER GENERATION AND SYSTEM AND METHOD INCORPORATING SAME - A device includes first and second electrically conductive substrates that are positioned opposite from one another. The device also includes a sealing layer disposed between the first and second electrically conductive substrates and a plurality of hollow structures having a conductive material, wherein the plurality of hollow structures is contained by the sealing layer between the first and second electrically conductive substrates. | 03-26-2009 |
20090167110 | Broad band energy harvesting system and related methods - A broad band energy harvesting system to harvest energy from a structure and associated methods are provided. The system includes a structure carrying a plurality of environmentally produced vibration frequencies extending over a frequency range and an energy harvesting apparatus positioned in vibration receiving communication with the structure to harvest energy from the structure. Each energy harvesting apparatus includes broadly tuned energy harvesting generators having relatively low quality factor and corresponding relatively wide bandwidth. The energy harvesting generators collectively provide energy harvesting over multiple modes to thereby provide energy harvesting over a substantial portion of the frequency range. Each energy harvesting generator can include a cantilevered beam connected to a common backbone comprised of a resilient material configured to transfer energy between adjacent generators to further enhance energy harvesting. | 07-02-2009 |