Patent application number | Description | Published |
20080218201 | CML DELAY CELL WITH LINEAR RAIL-TO-RAIL TUNING RANGE AND CONSTANT OUTPUT SWING - A current mode logic (CML) delay cell with linear rail-to-rail tuning range and constant output swing. The CML delay cell can include a tuning voltage input on a first and second transistor, contributing to a CML delay cell load, and a bias voltage input on a third transistor, as a current source I | 09-11-2008 |
20090140362 | PHOTO DETECTOR - A photo detector comprising a grating (PC). The grating (PC) is arranged on top of a surface of an active semiconductor layer. The grating (PC) is patterned in uninterrupted first strips (ST | 06-04-2009 |
20090201097 | CONTINUOUSLY TUNABLE INDUCTOR AND METHOD TO CONTINUOUSLY TUNE AN INDUCTOR - A continuously tunable inductor with an inductive-capacitive (LC) voltage controlled oscillator (VCO) having a primary coil. The inductor includes a separate isolated secondary coil, a set of transistors composing a closed loop with the secondary coil, a magnetic coupling between the primary coil of the LC VCO and the secondary coil, an electrical coupling between the LC VCO and the set of transistors composing a closed loop with the secondary coil, and means for electric current injection into the closed loop. Such an inductor can be tuned by modulating a mutual inductance, which is magnetically and electrically coupled with the LC VCO by injection of an electric current (I | 08-13-2009 |
20120091342 | MONOLITHIC PASSIVE THz DETECTOR WITH ENERGY CONCENTRATION ON SUB-PIXEL SUSPENDED MEMS THREMAL SENSOR - A THz radiation detector comprising a plurality of antenna arms separated from a suspended platform by an isolating thermal air gap. The detector functions to concentrate THz radiation energy into the smaller suspended MEMS platform (e.g., membrane) upon which a thermal sensor element is located. The THz photon energy is converted into electrical energy by means of a pixilated antenna using capacitive coupling in order to couple this focused energy across the thermally isolated air gap and onto the suspended membrane on which the thermal sensor is located. | 04-19-2012 |
20120225252 | DEFORMABLE FERROFLUID LAYER DEVICES FOR OPTICAL MODULATION AND MICROMOLDING - The invention is directed to a device ( | 09-06-2012 |
20130082181 | NANO-TIP SPACERS FOR PRECISE GAP CONTROL AND THERMAL ISOLATION IN MEMS STRUCTURES - 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 separated by a plurality of nano-tip spacers that determine the gap distance. The capacitor couples energy from the antenna to the thermal sensor. | 04-04-2013 |
20140355204 | ELECTRONIC CIRCUIT DEVICE WITH ELECTROMAGNETIC CLOCK SIGNAL CONVEYED ALONG COOLING FLUID CONDUIT NETWORK - Electronic circuit device (ECD) and method for conveying clock signal in an ECD. The ECD includes: a cooling fluid conduit network (CFCN) including at least one conduit adapted for conveying an electromagnetic signal, wherein the CFCN is arranged in thermal communication with a first set of one or more components of the ECD and is in signal communication with a second set, and wherein the CFCN is configured to convey both a cooling fluid in the at least one conduit and an electromagnetic signal via the at least one conduit; a clock signal injection unit configured to inject an electromagnetic clock signal (ECS) at an input location of the CFCN; and a clock signal collection unit configured to collect at an output location of the CFCN, an ECS for one or more components of the second set, wherein the ECS is conveyed via a conduit of the CFCN. | 12-04-2014 |
20140355983 | FLUID-COOLED ELECTRONIC CIRCUIT DEVICE WITH COOLING FLUID CONDUITS HAVING OPTICAL TRANSMISSION MEDIUM - An electronic circuit device, including a combined optical transmission and cooling fluid conduit network. The network includes at least one cooling conduit having an optical transmission medium. The network is configured to convey a cooling fluid via the at least one cooling conduit and to convey an electromagnetic signal via the optical transmission medium. The network is in thermal communication with a first set of one or more components of the electronic circuit device and in signal communication with a second set of one or more components of the electronic circuit device. The first set and second set of components are at least partly overlapping. A method for conveying optical signal in such an electronic circuit device is also provided. | 12-04-2014 |