Search results for " electronics"

showing 10 items of 580 documents

Surface Reflectance: An Optical Method for Multiscale Curvature Characterization of Wear on Ceramic–Metal Composites

2020

Surface gradient characterization by light reflectance (SGCLR) is used for the first time for multiscale curvature calculations and discrimination of worn surfaces on six damaged ceramic&ndash

Surface (mathematics)wearMaterials scienceSurface gradient02 engineering and technologySurface finishCurvaturelcsh:TechnologyArticle[SPI.MAT]Engineering Sciences [physics]/Materials0203 mechanical engineeringBand-pass filterpeak curvatureGeneral Materials ScienceCeramicComposite materialmetal matrix compositelcsh:Microscopylcsh:QC120-168.85roughnessreflectance transformation imagingmodellcsh:QH201-278.5lcsh:TMetal matrix composite021001 nanoscience & nanotechnologyCharacterization (materials science)020303 mechanical engineering & transportslcsh:TA1-2040fracturevisual_artvisual_art.visual_art_medium[PHYS.COND.CM-MS]Physics [physics]/Condensed Matter [cond-mat]/Materials Science [cond-mat.mtrl-sci]lcsh:Descriptive and experimental mechanicslcsh:Electrical engineering. Electronics. Nuclear engineering0210 nano-technologylcsh:Engineering (General). Civil engineering (General)lcsh:TK1-9971
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Modeling and simulation of a digital control design approach for power supply systems

2006

Electronic designers need to model and simulate system features as close as possible to its effective behaviour. Moreover, today, electronics systems are often composed of mixed analog and digital components. The increasing complexity has led to the use of different simulation softwares, each one specific for a particular level of abstraction: mathematical, circuital, behavioural, etc. In order to simulate the entire system these softwares should work together: co-simulation is necessary for digitally controlled power electronics systems. In this paper, the modeling of a digitally controlled switching power supply system using MATLAB/Simulink, ALDEC Active-HDL and Powersys PSIM is presented…

Switched-mode power supplyComputer sciencedesign approachHardware description languagemodelingControl engineeringsimulationdigital controlModeling and simulationpower supplyPower electronicsVHDLElectronic engineeringDigital controlco-simulationElectronicsMATLABcomputercomputer.programming_language2006 IEEE Workshops on Computers in Power Electronics
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Readiness of the ATLAS Tile Calorimeter for LHC collisions

2010

67 páginas.-- El PDF es la versión pre-print (arXiv:1007.5423v2).-- The ATLAS Collaboration.-- et al.

SystemPhysics - Instrumentation and DetectorsPhysics and Astronomy (miscellaneous)Physics::Instrumentation and DetectorsPerformance7. Clean energy01 natural sciences030218 nuclear medicine & medical imagingSettore FIS/04 - Fisica Nucleare e SubnucleareHigh Energy Physics - ExperimentHigh Energy Physics - Experiment (hep-ex)0302 clinical medicine[PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex]Detectors and Experimental TechniquesDetectors de radiaciócosmic rayPhysicsLarge Hadron ColliderDetectorSettore FIS/01 - Fisica SperimentaleAstrophysics::Instrumentation and Methods for AstrophysicsInstrumentation and Detectors (physics.ins-det)ATLASmedicine.anatomical_structureScintillatorsPhysical Sciencesmagnetic-fields; scintillators; electronics; performance; systemLHCCol·lisionadors d'hadronsPhotomultiplierFOS: Physical sciencesCosmic rayddc:500.2Noise (electronics)530LHC collisions; AtlasNuclear physics03 medical and health sciencesAtlas (anatomy)0103 physical sciencesCalibrationmedicinetile hadronic calorimeterFysikddc:530High Energy Physics[PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det]010306 general physicsEngineering (miscellaneous)Ciencias ExactasCalorimeter (particle physics)010308 nuclear & particles physicsFísicaMagnetic-FieldsHigh Energy Physics::ExperimentElectronics
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A measurement of the K-S lifetime

2002

A measurement of the K_S lifetime is presented using data recorded by the NA48 experiment at the CERN-SPS during 1998 and 1999. The K_S lifetime is derived from the ratio of decay time distributions in simultaneous, collinear K_S and K_L beams, giving a result which is approximately independent of the detector acceptance and with reduced systematic errors. The result obtained is tau_S=(0.89598 +- 0.00048 +- 0.00051)x10^(-10) s, where the first error is statistical and the second systematic.

Systematic errorNuclear and High Energy Physics[PHYS.HEXP] Physics [physics]/High Energy Physics - Experiment [hep-ex]NA48 EXPERIMENT; CERN; ELECTRONICS; SYSTEM; DECAYSFOS: Physical sciencesmesoni K; vita media; K meson lifetimek mesons01 natural sciencesDECAYSHigh Energy Physics - ExperimentNuclear physicsHigh Energy Physics - Experiment (hep-ex)ELECTRONICS0103 physical sciencesCERN[PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex]K short010306 general physicsPhysicslifetimeK-meson lifetimeLarge Hadron ColliderNA48 EXPERIMENT010308 nuclear & particles physicsDetectorHigh Energy Physics::PhenomenologyNA48 experimentK-meson lifetime; K shortDecay timePhysics::Accelerator PhysicsHigh Energy Physics::Experimentk mesons; lifetimeParticle Physics - ExperimentSYSTEM
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A Teaching Laboratory in Analog Electronics: Changes to Address the Bologna Requirements

2008

Training new electronics engineers presents several major challenges. This paper proposes a new approach for practical lessons in second-level analog electronics, where students get a closer view of real-world practices in electronic engineering. The authors describe and evaluate a more dynamic way of teaching practical lessons in analog electronics in the first year of an electronic engineering degree. The method consists of creating a virtual company that contracts students to develop prototypes. The design process involves theoretical concepts from the students' lessons, and poses challenges with respect to costs and teamwork. The method brings the students closer to the working environm…

TeamworkEngineeringAnalogue circuitsAnalogue electronicsbusiness.industrymedia_common.quotation_subjectEducationEngineering managementElectronic engineering educationElectronicsElectrical and Electronic EngineeringbusinessEngineering design processWorking environmentmedia_commonCooperative workIEEE Transactions on Education
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The Influence of Hyaluronic Acid Biofunctionalization of a Bovine Bone Substitute on Osteoblast Activity In Vitro

2021

Bovine bone substitute materials (BSMs) are used for oral bone regeneration. The objective was to analyze the influence of BSM biofunctionalization via hyaluronic acid (HA) on human osteoblasts (HOBs). BSMs with ± HA were incubated with HOBs including HOBs alone as a negative control. On days 3, 7 and 10, cell viability, migration and proliferation were analyzed by fluorescence staining, scratch wound assay and MTT assay. On days 3, 7 and 10, an increased cell viability was demonstrated for BSM+ compared with BSM− and the control (each p ≤ 0.05). The cell migration was enhanced for BSM+ compared with BSM− and the control after day 3 and day 7 (each p ≤ 0.05). At day 10, an accelerated wound…

Technology02 engineering and technologyArticleAndrology03 medical and health scienceschemistry.chemical_compound0302 clinical medicineHyaluronic acidhyaluronic acidmedicineGeneral Materials ScienceMTT assayViability assayxenograftoral regenerationBone regenerationMicroscopyQC120-168.85TbovineQH201-278.5biofunctionalizationosteoblastsOsteoblastCell migration030206 dentistrybone substituteEngineering (General). Civil engineering (General)021001 nanoscience & nanotechnologyIn vitroTK1-9971Bovine bonemedicine.anatomical_structureDescriptive and experimental mechanicschemistryElectrical engineering. Electronics. Nuclear engineeringTA1-20400210 nano-technologyMaterials
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Characterization and Evaluation of Hydrothermal Liquefaction Char from Alkali Lignin in Subcritical Temperatures.

2021

An evaluation of hydrothermal liquefaction (HTL) char is investigated in this work. Morphological studies, N2 adsorption behavior, FTIR analysis, thermal behavior, and elemental composition are studied. The HTL char yield showed an increase with higher operating temperatures. It increased from 11.02% to 33% when the temperature increased from 573 K to 623 K. At lower temperatures, the residence time showed an impact on the yield, while close to the critical point, residence time became less impactful. Elemental analysis showed that both higher operating temperatures and longer residence times increased the nitrogen content of the chars from 0.32% to 0.51%. FTIR analysis suggested the char b…

Technology020209 energychemistry.chemical_elementlignin02 engineering and technologyResidence time (fluid dynamics)HTL charArticleAdsorptionpores0202 electrical engineering electronic engineering information engineeringGeneral Materials ScienceCharTGAMicroscopyQC120-168.85CarbonizationChemistryTQH201-278.5carbonization021001 nanoscience & nanotechnologyEngineering (General). Civil engineering (General)NitrogenTK1-9971Hydrothermal liquefactionVDP::Teknologi: 500Volume (thermodynamics)Chemical engineeringFTIRDescriptive and experimental mechanicsElemental analysisVDP::Matematikk og Naturvitenskap: 400::Kjemi: 440SEMElectrical engineering. Electronics. Nuclear engineeringTA1-20400210 nano-technologyMaterials (Basel, Switzerland)
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Demand Response Service Certification and Customer Baseline Evaluation Using Blockchain Technology

2020

The use of Distributed Ledger Technologies such as Blockchain for certifying Demand Response services allows for the creation of a distributed system in which customers can communicate with the system operator to provide their flexibility, in a secure, transparent and traceable way. Blockchain technology also supports incentive mechanisms for users taking part in the service through the generation of utility tokens to recognize the user's contribution. This paper presents the experimental test of a novel methodology for Demand Response programs implementation by using the Blockchain technology. The latter is employed for defining a distributed Demand Response service and a new system for it…

TechnologyBlockchainGeneral Computer ScienceSmart contractComputer science020209 energyContracts02 engineering and technologyCertificationELECTRICITYDemand responseLoad managementEngineeringBlockchaindistributed balancing0202 electrical engineering electronic engineering information engineeringhyperledger fabricGeneral Materials ScienceMicrogridsReal-time systemsService (business)Flexibility (engineering)Load managementScience & TechnologyComputer Science Information SystemsSettore ING-INF/03 - TelecomunicazioniDIRECT LOAD CONTROLbusiness.industry020208 electrical & electronic engineeringGeneral EngineeringEngineering Electrical & Electronicbaseline Blockchain demand response distributed balancing hyperledger fabric smart contractEnergy technologybaselineSettore ING-IND/33 - Sistemi Elettrici Per L'EnergiaSmart gridIncentivedemand responseComputer ScienceTelecommunicationslcsh:Electrical engineering. Electronics. Nuclear engineeringMicrogridbusinesssmart contractlcsh:TK1-9971Computer network
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Improving the Performance of Steel Machining Processes through Cutting by Vibration Control

2021

Machining processes through cutting are accompanied by dynamic phenomena that influence the quality of the processed surfaces. Thus, this research aimed to design, make, and use a tool with optimal functional geometry, which allowed a reduction of the dynamic phenomena that occur in the cutting process. In order to carry out the research, the process of cutting by front turning with transversal advance was taken into account. Additionally, semi-finished products with a diameter of Ø = 150 mm made of C45 steel were chosen for processing (1.0503). The manufacturing processes were performed with the help of two tools: a cutting tool, the classic construction version, and another that was the i…

TechnologyComputer sciencevibration controlFast Fourier transformVibration controlMechanical engineeringSurface finishArticleMachiningsteel machining processesGeneral Materials SciencecuttingMicroscopyQC120-168.85Cutting toolTQH201-278.5Process (computing)Engineering (General). Civil engineering (General)TK1-9971VibrationDescriptive and experimental mechanicsroughness analysistoolsElectrical engineering. Electronics. Nuclear engineeringTA1-2040Reduction (mathematics)Materials
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Vacancy Defects in Ga2O3: First-Principles Calculations of Electronic Structure

2021

This research was funded by the Science Committee of the Ministry of Education and Science of the Republic of Kazakhstan (Grant No. AP08856540) as well as by the Latvian research council via the Latvian National Research Program under the topic ?High-Energy Physics and Accelerator Technologies?, Agreement No: VPP-IZM-CERN-2020/1-0002 for A.I. Popov. In addition, J. Purans is grateful to the ERAF project 1.1.1.1/20/A/057 while A. Platonenko was supported by Latvian Research Council No. LZP-2018/1-0214. The authors thank A. Lushchik and M. Lushchik for many useful discussions. The research was (partly) performed in the Institute of Solid State Physics, University of Latvia ISSP UL. ISSP UL as…

TechnologyDEEP DONOR02 engineering and technologyConductivityDFT01 natural sciencesOXYGENCrystalpoint defectsGeneral Materials ScienceDENSITY FUNCTIONAL THEORYGalliump-type conductivityMicroscopyQC120-168.85Condensed matter physicsMONOCLINICSTP TYPE CONDUCTIVITYELECTRONIC.STRUCTUREEngineering (General). Civil engineering (General)021001 nanoscience & nanotechnology3. Good healthCALCULATIONSβ-Ga<sub>2</sub>O<sub>3</sub>OXYGEN VACANCIES:NATURAL SCIENCES [Research Subject Categories]Density functional theoryElectrical engineering. Electronics. Nuclear engineeringTA1-20400210 nano-technologyPOINT DEFECTSFIRST PRINCIPLE CALCULATIONSβ-Ga2O3Materials scienceP-TYPE CONDUCTIVITYELECTRONIC STRUCTUREVACANCY DEFECTSchemistry.chemical_elementElectronic structureFIRST-PRINCIPLE DENSITY-FUNCTIONAL THEORIESGALLIUM COMPOUNDSArticleDENSITY-FUNCTIONAL-THEORYVacancy defect0103 physical sciences010306 general physicsΒ-GA2 O3QH201-278.5HYBRID EXCHANGEoxygen vacancyCrystallographic defectTK1-9971Descriptive and experimental mechanicschemistryGALLIUMdeep donorSupercell (crystal)DFT; β-Ga<sub>2</sub>O<sub>3</sub>; oxygen vacancy; deep donor; p-type conductivity; point defectsOXYGEN VACANCYMaterials
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