Abstract: An onboard system for a rotary wing aircraft detects a limit cycle oscillation in the tail mast and provides a timely indication of the limit cycle oscillation to an aircrew before serious damage to the airframe is likely to occur.

Abstract: An onboard system for a rotary wing aircraft detects a limit cycle oscillation in the tail mast and provides a timely indication of the limit cycle oscillation to an aircrew before serious damage to the airframe is likely to occur.

Abstract: This application relates to cast enclosures for battery replacement application, such as enclosures configured to house power units comprising a fuel cell and an energy storage device. The enclosures function as protective enclosures and counterweights, provide mounting points and conduits for gases, fluids, plumbing and wiring, and serve as thermal energy storage/transfer devices. The enclosures are formed in a mold or die and comprise wall portions defining a plurality of internal subcompartments for receiving the various system components. In one embodiment of the invention channels may be formed in the wall portions of the enclosures for circulating a heat transfer fluid therethrough.

Abstract: Methods, circuits and systems are provided for testing random-access memory (RAM) devices. In one embodiment, one or more test vectors are written to a RAM device. Bit-signals are read from the RAM device one line at a time and are segregated into respective sub-pluralities. Each sub-plurality is tested to determine if there is logical value equality among all of the respective bit-signals. Test signals corresponding to each of the sub-plurality determinations are provided. The test signals are collectively evaluated and an overall equality or non-equality signal is derived.

Abstract: The present invention relates to cell separation using microfabricated devices. In particular, the present invention provides methods and devices for separation of sperm from biological materials, such as other cells and molecular species, in a cell mixture in a microfabricated device through the use of electroosmotic flow, electrophoretic mobility, pressure gradient, differential adhesion, and/or combinations thereof.

Abstract: The present invention is directed to novel device comprising a sol-gel filled microchannel and methods for purifying nucleic acids from biological samples. In one embodiment shown in FIG. 1, the microfluidic device (1) comprises a base (2) with a microchannel (3) formed in the interior of base (2), wherein said microchannel (3) is filled with a sol-gel matrix and in fluid communication with an inlet port (4) and outlet port (5) wherein inlet port (4) and outlet port (5) are formed on the exterior surface (10) of base (2). The device may be further provided with additional components to allow for analytical analysis of the purified nucleic acid sequences.

Abstract: The present invention is directed to improved microdevices and methods of manufacturing such devices. More particularly the present invention is directed to the use of a compound having the general structure (formula (I)): wherein R is selected from the group consisting of C1-C6 alkyl, C2-C6 alkenyl, C2-C6 alkynyl, C3-C8 cycloalkyl, and C5-C6 aryl for bonding silica based substrates to plastic substrates or to other silica based substrates. In addition the polymer can be used to coat microchannels to enhance the physical properties of the microdevice.

Abstract: The present invention relates to methods and systems for rapid multiplexed heating of a plurality of small volume samples on a microchip. More specifically, the present invention relates to methods and systems for non-contact temperature cycling of the samples using infrared (IR)-mediated heating of small, micro to nanoliter, volume samples, wherein each cycle can be completed in as little as a few seconds. Depending on the system used, the present invention involves a spinning microchip or an immobile microchip having a plurality of micro-heating areas thereon. In the case of the spinning chip, the micro-heating areas are located in a circular configuration on the chip, so the micro-heating areas can be accessed by static heating source(s) by spinning the microchip. In case of the immobile microchip, fiber optics are used to direct radiation from a heating source or multiple heating sources directly to the micro-heating areas on a microchip.

Abstract: A circuit takes a reference strobe signal as a first input, and a strobe ready signal generated from a memory that is strobed by the reference strobe signal as a second input. The circuit generates a self-timed strobe signal along with other control signals that are used to perform a subsequent memory access in a single clock cycle, thereby doubling memory access bandwidth.

Abstract: A circuit takes a reference strobe signal as a first input, and a strobe ready signal generated from a memory that is strobed by the reference strobe signal as a second input. The circuit generates a self-timed strobe signal along with other control signals that are used to perform a subsequent memory access in a single clock cycle, thereby doubling memory access bandwidth.

Abstract: A moisture resistant conformal coating (14) effectively protects high frequency circuits such as gallium arsenide MMICs from humidity and environmental contamination without the performance degradation inherent in conventionally applied conformal coatings. The conformal coating preferably comprises an organic polymer, such as silicone, applied to the MMIC die in a substantially uniform thickness of less than 0.002 inches, preferably of less than 0.0015 inches. This is accomplished by applying the organic polymer directly to the surface of the die (10) in a mixture containing the solid organic polymer diluted with a low surface tension solvent, such as a volatile methyl siloxane.

Abstract: Integrated electrophoretic microdevices comprising at least an enrichment channel and a main electrophoretic flowpath are provided. In the subject integrated devices, the enrichment channel and the main electrophoretic flowpath are positioned so that waste fluid flows away from said main electrophoretic flowpath through a discharge outlet. The subject devices find use in a variety of electrophoretic applications, including clinical assays.

Abstract: A novel process provides an inflatable bag for filling the void and particularly head space of partially filled boxes, the bag comprising an air chamber therein and manufactured from a single sheet of linear, low density polyethylene folded and heat sealed with a first end seam, a second end seam, and an upper end seam, and the bag including a check valve traversing the upper seam, the valve in communication at one valve terminus with the air chamber and in communication with the exterior of the bag at a second valve terminus.

Abstract: A novel process provides an inflatable bag for filling the void and particularly head space of partially filled boxes, the bag comprising an air chamber therein and manufactured from a single sheet of linear, low density polyethylene folded and heat sealed with a first end seam, a second end seam, and an upper end seam, and the bag including a check valve traversing the upper seam, the valve in communication at one valve terminus with the air chamber and in communication with the exterior of the bag at a second valve terminus.