Search results for "Equivalent circuit"

showing 7 items of 47 documents

Analysis of Transition Metal Oxides based Heterojunction Solar Cells with S-shaped J-V curves

2020

The use of transition metal oxides for the selective carrier contact in the crystalline silicon solar cells technology is rising to interest for the excellent optoelectrical properties of these materials whose implementation, however, can result in lousy performing cells due to an S-shaped electrical characteristic. In this paper, we fabricated solar cells showing S-shaped J-V curve and carried out an analysis of the reasons of such behavior using a model involving the series of a standard cell equivalent circuit with a Schottky junction in order to explain these atypical performances. A good matching between the experimental measurements and the adopted theoretical model was obtained. The …

Standard cellMaterials scienceheterojunctionbusiness.industry020209 energySchottky barrier020208 electrical & electronic engineeringHeterojunction02 engineering and technologySettore ING-INF/01 - ElettronicaPulsed laser depositions-shapeTransition metalSolar cells heterojunction transition metal oxides pulsed laser deposition s-shapesolar cells0202 electrical engineering electronic engineering information engineeringEquivalent circuitOptoelectronicsCrystalline silicontransition metal oxidesbusinesspulsed laser deposition
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Defined-size DNA triple crossover construct for molecular electronics: modification, positioning and conductance properties.

2011

We present a novel, defined-size, small and rigid DNA template, a so-called B-A-B complex, based on DNA triple crossover motifs (TX tiles), which can be utilized in molecular scale patterning for nanoelectronics, plasmonics and sensing applications. The feasibility of the designed construct is demonstrated by functionalizing the TX tiles with one biotin-triethylene glycol (TEG) and efficiently decorating them with streptavidin, and furthermore by positioning and anchoring single thiol-modified B-A-B complexes to certain locations on a chip via dielectrophoretic trapping. Finally, we characterize the conductance properties of the non-functionalized construct, first by measuring DC conductivi…

StreptavidinMaterials scienceMechanical EngineeringCrossoverElectric ConductivityMolecular electronicsConductanceBioengineeringNanotechnologyGeneral ChemistryDNAConductivityMicroscopy Atomic Forcechemistry.chemical_compoundchemistryNanoelectronicsMechanics of MaterialsDielectric SpectroscopyEquivalent circuitNucleic Acid ConformationGeneral Materials ScienceElectrical and Electronic EngineeringElectronicsPlasmonNanotechnology
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Low-field diamagnetic response of granular superconductors at finite temperatures

1994

We study the low-field diamagnetic response of granular superconductors at finite temperatures by means of a simple two-dimensional Josephson-junction array. The temperature effects are taken into account by inserting white-noise current sources in parallel to the resistively shunted junction circuit models of the Josephson junctions of the network. By this analysis we argue that a simplified one-dimensional description of the equivalent circuit, proposed by the authors for cylindrical granular superconductors, is still valid even in the presence of thermally activated flux jumps. A flux-creep picture for intergranular flux motion follows.

SuperconductivityJosephson effectPhysicsCondensed matter physicsField (physics)MagnetismCondensed Matter::SuperconductivityEquivalent circuitDiamagnetismGranular materialMagnetic flux
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Novel zero-current-transition circuit for three-phase buck rectifiers

2002

ZCT circuits have already been proposed in the past and are becoming more and more popular in high power rectifiers and inverters where bipolar devices have to be used (IGBTs or even BJTs). Although ZCT techniques have already been applied to three-phase boost type topologies, no ZCT circuits have been proposed for three-phase buck-type topologies. The authors propose a new load independent ZCT circuit for a three-phase buck-type rectifier which achieves high noise reduction, voltage stress reduction and zero current transitions to almost all transitions of the rectifier's switches including the additional auxiliary switches.

business.industryComputer scienceElectrical engineeringPower (physics)law.inventionRectifierCapacitorThree-phaselawEquivalent circuitbusinessVoltageDiodeElectronic circuitPESC97. Record 28th Annual IEEE Power Electronics Specialists Conference. Formerly Power Conditioning Specialists Conference 1970-71. Power Processing and Electronic Specialists Conference 1972
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Equivalent Circuit Modelling of Ferrite Inductors Losses

2018

The modelling of the magnetic losses in the core of ferrite inductors for power conversion circuits has been considered in this paper. On the basis of the Revised Generalized Steinmetz Model (RGSE) an equivalent circuital modelling has been obtained. The losses are modelled as an equivalent resistance connected in parallel to the inductor. The model has been tested under periodic triangular current waveforms.

core loMaterials scienceEquivalent series resistanceHardware_PERFORMANCEANDRELIABILITYInductorInductorTopologySettore ING-INF/01 - ElettronicaMagnetic fieldmodellingHardware_GENERALHardware_INTEGRATEDCIRCUITSFerrite (magnet)Equivalent circuitWaveformcore lossSteinmetz equationElectronic circuit2018 IEEE 4th International Forum on Research and Technology for Society and Industry (RTSI)
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3D Printing Neuron Equivalent Circuits: An Undergraduate Laboratory Exercise.

2018

The electrical equivalent circuit for a neuron is composed of common electrical components in a configuration that replicates the passive electrical properties and behaviors of the neural membrane. It is a powerful tool used to derive such fundamental neurophysiological equations as the Hodgkin-Huxley equations, and it is also the basis for well-known exercises that help students to model the passive (Ohmic) properties of the neuronal membrane. Unfortunately, as these exercises require basic knowledge of electronics, they are generally not physically conducted in biomedical courses, but remain merely conceptual exercises in a book or simulations on a computer. In such manifestations, they l…

neuron electrical modeloscilloscopeTechnical PaperArduino UNOelectrical equivalent circuitSettore ING-IND/34 - Bioingegneria Industriale3D printingSettore BIO/09 - FisiologiaDIYJournal of undergraduate neuroscience education : JUNE : a publication of FUN, Faculty for Undergraduate Neuroscience
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Comparison of local electrochemical impedance measurements derived frombi-electrode and microcapillary techniques

2009

Abstract In the present paper, local electrochemical impedance spectra were obtained on a 316L stainless steel from two configurations: a dual microelectrode (bi-electrode) and microcapillaries. With the bi-electrode, the local impedance measurements were made from the ratio of the applied voltage to the local current density calculated from the application of the ohm's law. With the use of microelectrochemical cells, the specimen surface area in contact with the electrolyte is limited by the use of glass microcapillaries and the local impedance was defined from the ratio of the local potential to the local current restricted to the analysed surface area. Differences and similarities observ…

spectroscopyLocal electrochemical impedanceChemistryGeneral Chemical EngineeringMatériauxAnalytical chemistryElectrolyteDielectric spectroscopyStainless steelMicroelectrodeElectrodeMicrocapillariesElectrochemistryEquivalent circuitBi-electrodesOhmComposite materialElectrical impedanceVoltage
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