Abstract: A flexible circuit board includes an electrically insulating top sheet and an electrically insulating bottom sheet. A plurality of conductive traces is positioned between the electrically insulating top and bottom sheets. A first conductive trace has a first contact pad, and a second conductive trace has a second contact pad. The first and second contact pads are exposed through at least one opening in the electrically insulating top sheet, and each of the first and second contact pads are configured to be connected to an LED. A third contact pad is exposed through openings in the electrically insulating top and bottom sheets, with a top surface of the third contact pad configured to be connected to the LED and a bottom surface of the third contact pad configured to be connected to a heat diffusion device.

Abstract: The invention provides a slip layer substrate which can reduce the thermal residual stresses between components induced by their mismatch of thermal expansion, thus greatly improve the reliability of electronic packages. The slip layer substrate comprises: a base material; a first metallization layer formed on the base material; a first diffusion barrier layer formed on the first metallization layer; a slip layer formed on the first diffusion barrier layer; a second diffusion barrier layer formed on the slip layer; and a second metallization layer formed on the second diffusion barrier layer.

Abstract: A hermetically sealed package has an electrically insulating substrate, a plurality of electrically and thermally conductive tabs, and a lid. The electrically insulating substrate has a plurality of apertures and an aspect ratio of about 10:1 or greater. The plurality of electrically and thermally conductive tabs is hermetically joined to a bottom surface of the electrically insulating substrate and at least one tab covers each of the apertures. The lid is hermetically joined to a top surface of the electrically insulating substrate proximate to a perimeter of the electrically insulating substrate.

Abstract: The invention provides a slip layer substrate which can reduce the thermal residual stresses between components induced by their mismatch of thermal expansion, thus greatly improve the reliability of electronic packages. The slip layer substrate comprises: a base material; a first metallization layer formed on the base material; a first diffusion barrier layer formed on the first metallization layer; a slip layer formed on the first diffusion barrier layer; a second diffusion barrier layer formed on the slip layer; and a second metallization layer formed on the second diffusion barrier layer.

Abstract: A method for making a liquid barrier includes forming a liquid barrier layer on a substrate, forming a mask layer on the liquid barrier layer such that part of the liquid barrier remains exposed, forming a contact layer on the exposed liquid barrier layer, and removing the mask layer to expose the part of the liquid barrier layer which was covered by the mask layer. A liquid wetting boundary is formed when the wettability on the liquid barrier surface area is less than the wettability of the contact surface area.

Abstract: In high-efficiency power source applications, AC power is converted to DC power, which is isolated from the source and regulated. A level of performance is achieved that exceeds the power quality requirements of MIL-STD-704 over the extended frequency range, typically from about 360 Hz to 800 Hz. While high-efficiency and low-weight of the invention, among other benefits, are advantageous primarily in airborne systems, its use can be extended to terrestrial applications as well. The isolation, regulation and the main power processing are achieved by low-weight, high-frequency conversion stages arranged in 2 channels that produce the line harmonic content typical of the 12-pulse rectification. Control of the conversion stages provides effective rejection of line transients, while output ripple voltage is typically an order of magnitude lower than in conventional transformer rectifier units.