Patent application number | Description | Published |
20090158227 | METHOD AND SYSTEM FOR CALCULATING HIGH FREQUENCY LIMIT CAPACITANCE AND INDUCTANCE FOR COPLANAR ON-CHIP STRUCTURE - Capacitance and inductance expressions used for modeling critical on-chip metal interconnects. A method for calculating high frequency limit capacitances C | 06-18-2009 |
20100169848 | Method of Migrating Electronic Devices Operating in Current Mode to a Target Technology - A novel and useful method of migrating an analog or mixed signal electronic circuit from a source technology to a target technology. Devices operating in current mode and their respective voltage tuning nodes are first identified in the source technology electronic circuit. Since a device operating in current mode is less sensitive to the voltage applied to its voltage tuning node, the voltage at the voltage tuning node can be changed to achieve better current mode device performance without interfering with the biasing conditions of other devices in the circuit. This enables a circuit designer to fully exploit the two available degrees of freedom (typically width and length) when migrating the electronic device operating in current mode from a source technology to a target technology. | 07-01-2010 |
20110018094 | BIAS-CONTROLLED DEEP TRENCH SUBSTRATE NOISE ISOLATION INTEGRATED CIRCUIT DEVICE STRUCTURES - A novel and useful apparatus for and method of providing noise isolation between integrated circuit devices on a semiconductor chip. The invention addresses the problem of noise generated by digital switching devices in an integrated circuit chip that may couple through the silicon substrate into sensitive analog circuits (e.g., PLLs, transceivers, ADCs, etc.) causing a significant degradation in performance of the sensitive analog circuits. The invention utilizes a deep trench capacitor (DTCAP) device connected to ground to isolate victim circuits from aggressor noise sources on the same integrated circuit chip. The deep penetration of the capacitor creates a grounded shield deep in the substrate as compared with other prior art shielding techniques | 01-27-2011 |
20110267113 | FREQUENCY MULTIPLIER - A multiplier circuit, including: a transistor with gate, source and drain connections adapted to accept an input signal by the transistor gate; a reference voltage source providing a DC reference voltage to the transistor drain; an inductor connected between the drain and the reference voltage source; a resistor connected in parallel to the inductor between the transistor drain and the reference voltage source; a current source providing a DC current to the transistor source; two capacitors forming a voltage divider, with the first capacitor connecting between the gate and the source and the second capacitor connecting between the source and the ground in parallel to the current source; and wherein the multiplier circuit is adapted to accept an input signal and provide as output an amplified current signal with a frequency that is double that of the input signal. | 11-03-2011 |
20110291238 | BIAS-CONTROLLED DEEP TRENCH SUBSTRATE NOISE ISOLATION INTEGRATED CIRCUIT DEVICE STRUCTURES - A novel and useful apparatus for and method of providing noise isolation between integrated circuit devices on a semiconductor chip. The invention addresses the problem of noise generated by digital switching devices in an integrated circuit chip that may couple through the silicon substrate into sensitive analog circuits (e.g., PLLs, transceivers, ADCs, etc.) causing a significant degradation in performance of the sensitive analog circuits. The invention utilizes a deep trench capacitor (DTCAP) device connected to ground to isolate victim circuits from aggressor noise sources on the same integrated circuit chip. The deep penetration of the capacitor creates a grounded shield deep in the substrate as compared with other prior art shielding techniques | 12-01-2011 |
20130082345 | Hybrid FPA for Thz imaging with an antenna array, coupled to CMOS-MEMS thermal sensors, implementing per-pixel ES actuation and enabling tuning, correlated double sampling and AM modulation - A THz radiation detector comprising a vertical antenna separated from a suspended platform by an isolating thermal air gap for concentrating THz radiation energy into a smaller suspended MEMS platform upon which a thermal sensor element is located. THz photon energy is converted into electrical energy via a thermally isolated air gap between plates of a coupling capacitor that couples energy from the antenna to the thermal sensor. The capacitor plates used for capacitive coupling of the received signal realize an electro-static actuator whereby the application of a DC bias varies the coupling capacitor gap. The DC bias causes the actuator to pull the suspended platform close to the antenna to reduce the capacitive gap, increasing the coupling capacitance, to touch the antenna array thus quickly discharging the heat induced in the sensor platform or to perform advanced readout operations, such as amplitude modulation and correlated double sampling. | 04-04-2013 |
20130187714 | HIGH CONVERSION GAIN HIGH SUPPRESSION BALANCED CASCODE FREQUENCY QUADRUPLER - A frequency quadrupler comprises a balanced topology which increases broadband odd harmonic suppression. The frequency quadrupler is constructed in a cascode configuration which is a two-stage amplifier composed of a transconductance amplifier followed by a current buffer. The cascode is constructed with common emitter (CE) and common base (CB) stages which further improves the multiplier frequency response. The cascode configuration enables a notch filter to be placed between the common emitter and common base stages to reduce 2 | 07-25-2013 |
Patent application number | Description | Published |
20090120621 | Method and apparatus for cooling electronic or other devices - A method and apparatus for cooling electronic or other devices by bringing the device to be cooled into contact with one face of a cold plate having high thermal conductivity; and applying a plurality of liquid jets of a liquid coolant to the opposite face of the cold plate perpendicularly thereto and at spaced location thereon. The plurality of liquid jets are applied in pulses as pulsatile jets. The liquid coolant is also circulated in a pulsatile manner as a planar-flow liquid in contact with and parallel to the opposite face of the cold plate, such that the plurality of pulsatile jets of the liquid coolant flow as immersed jet streams through the planar-flow liquid coolant circulated in contact with and parallel to the opposite face of the cold plate. | 05-14-2009 |
20100322770 | TURBINE BLADE CONSTRUCTIONS PARTICULAR USEFUL IN VERTICAL-AXIS WIND TURBINES - A turbine blade particularly useful in a vertical-axis wind turbine, characterized in that the blade includes a central region of a symmetrical airfoil configuration, and opposite end regions of a non-symmetrical airfoil configuration effective to increase the drag forces produced by the wind at the end regions when the turbine blade is used in a vertical-axis wind turbine provide a self-starting capability, and a speed-limiting capability, to the wind turbine. In one described embodiment, the non-symmetry in the sharp trailing edge of the blade is produced by a deep recess extending inwardly past the chord line of the blade to enhance the self-starting and speed-limiting capabilities; whereas in another described embodiment, the non-symmetry is produced by a shallow recess and outwardly-flared ends enhancing the efficiency of the wind turbine during normal wind conditions. | 12-23-2010 |
20110037271 | WIND TURBINE SYSTEM AND MODULAR WIND TURBINE UNIT THEREFOR - A wind turbine system includes a two-dimensional array of a plurality of modular wind turbine units arranged in a plurality of horizontal rows and vertical columns. The two-dimensional array of modular wind turbine units are carried by a frame structure including a plurality of parallel beams extending along a first orthogonal axis and spaced from each other along a second orthogonal axis, with the plurality of modular wind turbine units mounted between each pair of the parallel beams extending along the first orthogonal axis. Also described is a modular wind turbine unit particularly useful in such a system. | 02-17-2011 |
20110201958 | SYSTEM AND METHODS FOR THE MEASUREMENT OF LUNG VOLUMES - A system and method for determining FRC, TGV, TLC and RV includes a hand-held unit with a shutter assembly designed to minimize measured air displacement due to shuttering. Measurements of flow and pressure are used to derive the lung parameters. | 08-18-2011 |
20130190640 | METHODS AND APPARATUS FOR THE MEASUREMENT OF PULMONARY PARAMETERS - An apparatus includes a mouthpiece to communicate an airflow between a user and an airflow chamber in fluid communication with the mouthpiece; an interrupter in fluid communication with the airflow chamber and adapted to initiate an occlusion event by adjusting between an open state and a closed state, such that fluid communication is at least partially prevented between the airflow chamber and ambient air during the occlusion event initiated by the interrupter; a container in fluid communication with the airflow chamber; a flow rate sensor in fluid communication with the airflow chamber and adapted to measure an airflow exchange between the airflow chamber and the container during the occlusion event; and a controller adapted to determine an instantaneous lung volume based on the measured airflow exchange between the airflow chamber and the container. | 07-25-2013 |
20150015650 | DIGITAL PRINTING PROCESS - A printing process is disclosed which comprises directing droplets of an ink onto an intermediate transfer member to form an ink image, the ink including an organic polymeric resin and a coloring agent in an aqueous carrier, and the transfer member having a hydrophobic outer surface so that each ink droplet in the ink image spreads on impinging upon the intermediate transfer member to form an ink film. The ink is dried while the ink image is being transported by the intermediate transfer member by evaporating the aqueous carrier from the ink image to leave a residue film of resin and coloring agent. The residue film is then transferred to a substrate. The chemical compositions of the ink and of the surface of the intermediate transfer member are selected such that attractive intermolecular forces between molecules in the outer skin of each droplet and on the surface of the intermediate transfer member counteract the tendency of the ink film produced by each droplet to bead under the action of the surface tension of the aqueous carrier, without causing each droplet to spread by wetting the surface of the intermediate transfer member. | 01-15-2015 |
20150044431 | TREATMENT OF RELEASE LAYER - There is provided a method for treating a hydrophobic release layer of an intermediate transfer member for use in a printing process in which a negatively charged aqueous inkjet ink including a polymeric resin and a colorant is jetted onto said layer, the claimed method comprising contacting the release layer, prior to jetting the ink, with an aqueous solution or dispersion of a positively charged polymeric chemical agent reducing the tendency of a jetted ink droplet to bead up on the intermediate transfer member. Other embodiments, such as hydrophobic release layers having such chemical agents disposed thereupon and printed ink images comprising the same, are also described. | 02-12-2015 |
20150298394 | SYSTEM AND METHOD FOR DIRECT INKJET PRINTING OF 3D OBJECTS - A direct inkjet printing system for fabricating a part by an additive manufacturing process includes an ink delivery system operative to circulate the ink, a printhead associated with the ink delivery system, the printhead operative to dispense ink from the ink delivery system through a plurality of nozzles and based on a defined pattern, a building table for receiving the dispensed ink one layer at a time based on the defined pattern, wherein the part is formed from a plurality of layers of the ink dispensed from the printhead and a drying station operative to perform a drying process on layers of the ink dispensed from the printhead on a per layer basis. | 10-22-2015 |