A SiGe HEMT Mixer IC with Low Conversion Loss

The authors present the first SiGe HEMT mixer integrated circuit. The active mixer stage, operating up to 10GHz RF, has been designed and realized using a 0.1µ µµ µm gate length transistor technology. The design is based on a new large-signal simulation model developed for the SiGe HEMT. Good agreement between simulation and measurement is reached. The mixer exhibits 4.0dB and 4.7dB conversion loss when down-converting 3.0GHz and 6.0GHz signals, respectively, to an intermediate frequency of 500MHz using high-side injection of 5dBm local oscillator power. Conversion loss is less than 8dB for RF frequencies up to 10GHz with a mixer linearity of –8.8dBm input related 1dB compression point

Optimizations of sub-100 nm Si/SiGe MODFETs for high linearity RF applications

Based on careful calibration in respect of 70 nm n-type strained Si channel S/SiGe modulation doped FETs (MODFETs) fabricated by Daimler Chrysler, numerical simulations have been used to study the impact of the device geometry and various doping strategies on device performance and linearity. The device geometry is sensitive to both RF performance and device linearity. Doped channel devices are found to be promising for high linearity applications. Trade-off design strategies are required for reconciling the demands of high device performance and high linearity simultaneously. The simulations also suggest that gate length scaling helps to achieve higher RF performance, but decreases the linearity

SiGe HMODFET "KAIST" micropower model and amplifier realization

Published versio

Perfil lipídico de pacu (Piaractus mesopotamicus) submetido a diferentes velocidades de natação contínua.

O objetivo deste trabalho foi avaliar o peso inicial e final, o ganho em peso, bem como o perfil lipídico de pacus submetidos a velocidades baixa, moderada e alta de exercício de longa duração

Respostas hematológicas e plasmáticas de matrinxãs Brycon amazonicus exercitados e submetidos ao transporte.

O objetivo deste trabalho foi verificar as respostas hematológicas do transporte em matrinxãs exercitados à velocidade moderada pelo período de 60 dias

Efeito da benzocaína nas respostas metabólicas ao estresse do matrinxã submetido ao transporte em sacos plásticos.

No presente trabalho foi avaliada a adição do anestésico benzocaína à água de transporte, como forma de tranqüilizar os animais e possivelmente reduzir o estresse em juvenis de matrinxã

Benzocaína sobre respostas ao estresse do matrinxã submetido ao transporte em sacos plásticos.

O transporte é uma prática de manejo necessária em todas as estações de piscicultura. Entretanto, tal evento é um estímulo adverso e agudo, que interrompe o equilíbrio dos animais com o ambiente, de forma a promover o estresse. Alguns peixes de importância comercial, como o matrinxã (Brycon amazonicus), apresentam movimentação excessiva durante o manejo em geral, o que pode ocasionar consequências indesejáveis como perda de muco, de escamas, ferimentos e mortalidade. No presente trabalho, foi testado o anestésico benzocaína adicionado à água de transporte, como forma de reduzir estresse. Foram testadas duas concentrações de benzocaína, 10 e 15mg/L. Os resultados não mostraram efeitos de diminuição de estresse, apesar de a utilização da benzocaína ter reduzido a movimentação dos animais durante o transporte. As concentrações testadas podem ter aumentado o estresse por sofrimento respiratório, entretanto, o equilíbrio hidroeletrolítico não foi alterado, com sugestão de ação do anestésico sobre a liberação de catecolaminas

Monolithic micropower amplifier using SiGe n-MODFET device

Accepted versio

From an extremophilic community to an electroautotrophic production strain: identifying a novel Knallgas bacterium as cathodic biofilm biocatalyst

Coupling microbial electrosynthesis to renewable energy sources can provide a promising future technology for carbon dioxide conversion. However, this technology suffers from a limited number of suitable biocatalysts, resulting in a narrow product range. Here, we present the characterization of the first thermoacidophilic electroautotrophic community using chronoamperometric, metagenomic, and 13C-labeling analyses. The cathodic biofilm showed current consumption of up to −80 µA cm−2 over a period of 90 days (−350 mV vs. SHE). Metagenomic analyses identified members of the genera Moorella, Desulfofundulus, Thermodesulfitimonas, Sulfolobus, and Acidianus as potential primary producers of the biofilm, potentially thriving via an interspecies sulfur cycle. Hydrogenases seem to be key for cathodic electron uptake. An isolation campaign led to a pure culture of a Knallgas bacterium from this community. Growth of this organism on cathodes led to increasing reductive currents over time. Transcriptomic analyses revealed a distinct gene expression profile of cells grown at a cathode. Moreover, pressurizable flow cells combined with optical coherence tomography allowed an in situ observation of cathodic biofilm growth. Autotrophic growth was confirmed via isotope analysis. As a natural polyhydroxybutyrate (PHB) producer, this novel species, Kyrpidia spormannii, coupled the production of PHB to CO2 fixation on cathode surfaces

Phosphorylation of Ubc9 by Cdk1 Enhances SUMOylation Activity

Increasing evidence has pointed to an important role of SUMOylation in cell cycle regulation, especially for M phase. In the current studies, we have obtained evidence through in vitro studies that the master M phase regulator CDK1/cyclin B kinase phosphorylates the SUMOylation machinery component Ubc9, leading to its enhanced SUMOylation activity. First, we show that CDK1/cyclin B, but not many other cell cycle kinases such as CDK2/cyclin E, ERK1, ERK2, PKA and JNK2/SAPK1, specifically enhances SUMOylation activity. Second, CDK1/cyclin B phosphorylates the SUMOylation machinery component Ubc9, but not SAE1/SAE2 or SUMO1. Third, CDK1/cyclin B-phosphorylated Ubc9 exhibits increased SUMOylation activity and elevated accumulation of the Ubc9-SUMO1 thioester conjugate. Fourth, CDK1/cyclin B enhances SUMOylation activity through phosphorylation of Ubc9 at serine 71. These studies demonstrate for the first time that the cell cycle-specific kinase CDK1/cyclin B phosphorylates a SUMOylation machinery component to increase its overall SUMOylation activity, suggesting that SUMOylation is part of the cell cycle program orchestrated by CDK1 through Ubc9