Search results for "Short circuit"

showing 10 items of 39 documents

Polymer solar cell based on ternary active layer consists of medium bandgap polymer and two non-fullerene acceptors

2020

Abstract An efficient PSCs consisting of a ternary active layer containing a medium bandgap conjugated polymer P and two well-known non-fullerene acceptors i.e. ITIC-m and Y6 was fabricated. An overall Power Conversion Efficiency (PCE) of about 15.13% was achieved, with the optimized ternary active layer consisting of 20 wt% of ITIC-m in acceptors i.e. P:ITIC-m:Y6 (1:0.3:1.2). This value is higher than that for the binary counter parts i.e. 12.10% and 13.16% for P:ITIC-m (1:1.5 w:w) and P:Y6 (1:1.5 w:w). The higher short circuit current density of the ternary active layer PSCs is related to the broader absorption spectra as compared to the binary active layer analogs. The open circuit volta…

Materials scienceRenewable Energy Sustainability and the EnvironmentBand gapOpen-circuit voltage020209 energyAnalytical chemistry02 engineering and technology021001 nanoscience & nanotechnologyAcceptorPolymer solar cellActive layer0202 electrical engineering electronic engineering information engineeringGeneral Materials Science0210 nano-technologyTernary operationShort circuitHOMO/LUMOSolar Energy

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Unstable behaviour of normally-off GaN E-HEMT under short-circuit

2018

The short-circuit capability of power switching devices plays an important role in fault detection and the protection of power circuits. In this work, an experimental study on the short-circuit (SC) capability of commercial 600 V Gallium Nitride enhancement-mode high-electron-mobility transistors (E-HEMT) is presented. A different failure mechanism has been identified for commercial p-doped GaN gate (p-GaN) HEMT and metal-insulator-semiconductor (MIS) HEMT. In addition to the well known thermal breakdown, a premature breakdown is shown on both GaN HEMTs, triggered by hot electron trapping at the surface, which demonstrates that current commercial GaN HEMTs has requirements for improving the…

Materials scienceThermal breakdownGallium nitrideFailure mechanism02 engineering and technologyHigh-electron-mobility transistor01 natural sciencesFault detection and isolationlaw.inventionchemistry.chemical_compoundlaw0103 physical sciencesMaterials ChemistryElectrical and Electronic Engineering010302 applied physicsbusiness.industryTransistorNormally off021001 nanoscience & nanotechnologyCondensed Matter PhysicsElectronic Optical and Magnetic MaterialschemistryOptoelectronics0210 nano-technologybusinessShort circuitSemiconductor Science and Technology

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Improvement of DSSC performance by voltage stress application

2016

Dye-sensitized solar cells (DSSCs) are promising third generation photovoltaic devices given their potential low cost and high efficiency. Some factors still affect DSSCs performance, such structure of electrodes, electrolyte compositions, nature of the sensitizers, power conversion efficiency, long-term stability, etc. In this work we discuss the effect of electrical stresses, which allow to improve DSSC performance. We have investigated the outcomes of forward and reverse DC bias stress as a function of time, voltage, and illumination level in the DSSCs sensitized with the N719, Ruthenium complex based dye. We demonstrate that all the major solar cell parameters, i.e., open circuit voltag…

Materials scienceageing effectContext (language use)02 engineering and technology010402 general chemistryDye-sensitized solar cells01 natural sciencesageing effectslaw.inventionlawSolar cellelectric stressEquivalent series resistanceOpen-circuit voltagebusiness.industryPhotovoltaic systemEnergy conversion efficiency021001 nanoscience & nanotechnologyelectric streperformance improvement0104 chemical sciencesDye-sensitized solar cellOptoelectronics0210 nano-technologybusinessDye-sensitized solar cellShort circuit

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Investigation of recovery mechanisms in dye sensitized solar cells

2016

Abstract We study the spontaneous recovery phenomenon displayed by solar cells sensitized with a ruthenium complex-based dye N719, which manifests with the increase over the time (from several minutes up to some days) of the short circuit current density J sc and the open circuit voltage V oc , during cell illumination. Under dark conditions the current decreases over time after the application of forward bias voltages. We investigate the effects of temperature and electrolyte composition by means of current–voltage measurements and electrochemical impedance spectroscopy, both under dark and illumination conditions. The main result is that the recovery of the performances depends on the cha…

Materials sciencechemistry.chemical_elementImpedance spectroscopy02 engineering and technologyElectrolyte010402 general chemistryPhotochemistryDye-sensitized solar cells01 natural sciencesIonchemistry.chemical_compoundCurrent–voltage transientGeneral Materials ScienceTriiodideRenewable Energy Sustainability and the Environmentbusiness.industryOpen-circuit voltageElectron lifetimesCurrent-voltage transients021001 nanoscience & nanotechnologyElectron lifetimes.0104 chemical sciencesDielectric spectroscopyRutheniumDye-sensitized solar cellchemistryOptoelectronics0210 nano-technologybusinessDye-sensitized solar cellShort circuit

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A new analytical solar cell I–V curve model

2011

Abstract A simple mathematical equation that can represent empirical I–V curves of individual solar cells, systems of solar cells and modules has been found. The basic model is determined by four parameters: the open circuit voltage, the short circuit current and two shape parameters. With the four parameters determined, the complete current–voltage curve, the fill factor and the maximum power point are given by simple analytical functions. The model is valid both in the positive and the negative (dark condition) voltage range. Several simple examples demonstrate some of the potential of the model. Due to its mathematical simplicity, it is suggested that the model will be suitable for analy…

Maximum power principleRenewable Energy Sustainability and the EnvironmentOpen-circuit voltageMathematical analysisComplex systemCurrent–voltage characteristiclaw.inventionSimple (abstract algebra)lawSolar cellElectronic engineeringShort circuitMathematicsAnalytic functionRenewable Energy

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Radiative efficiency of lead iodide based perovskite solar cells

2014

The maximum efficiency of any solar cell can be evaluated in terms of its corresponding ability to emit light. We herein determine the important figure of merit of radiative efficiency for Methylammonium Lead Iodide perovskite solar cells and, to put in context, relate it to an organic photovoltaic (OPV) model device. We evaluate the reciprocity relation between electroluminescence and photovoltaic quantum efficiency and conclude that the emission from the perovskite devices is dominated by a sharp band-to-band transition that has a radiative efficiency much higher than that of an average OPV device. As a consequence, the perovskite have the benefit of retaining an open circuit voltage ~0.1…

MultidisciplinaryMaterials sciencebusiness.industryOpen-circuit voltagePhotovoltaic systemPerovskite solar cell02 engineering and technologyElectroluminescence010402 general chemistry021001 nanoscience & nanotechnology7. Clean energy01 natural sciencesArticle0104 chemical scienceslaw.inventionlawSolar cellRadiative transferOptoelectronicsQuantum efficiencyddc:6210210 nano-technologybusinessShort circuit

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Detection and Discrimination of Inter-Turn Short Circuit and Demagnetization Faults in PMSMs Based on Structural Analysis

2021

This paper presents a fault diagnosis method based on structural analysis of permanent magnet synchronous motors (PMSMs), focusing on detecting and discriminating two of the most common faults in PMSMs, namely demagnetization and inter-turn short circuit faults. The structural analysis technique uses the dynamic mathematical model of the PMSM in matrix form to evaluate the system’s structural model. After obtaining the analytical redundancy using the over-determined part of the system, it is divided into redundant testable sub-models. Four structured residuals are designed to detect and isolate the investigated faults, which are applied to the system in different time intervals. Finally, th…

Permanent magnet synchronous motorComputer scienceDemagnetizing field020206 networking & telecommunications02 engineering and technologyFault (power engineering)symbols.namesakeAdditive white Gaussian noiseControl theoryTurn (geometry)0202 electrical engineering electronic engineering information engineeringRedundancy (engineering)symbols020201 artificial intelligence & image processingSynchronous motorShort circuit2021 22nd IEEE International Conference on Industrial Technology (ICIT)

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Magnetic potential of transformer window

1996

We describe how to calculate the magnetic potential in the window of an ideal transformer. The knowledge of this potential is a starting point for the determination of some other quantities of practical importance (such as leakage field, overheating of windings, circular currents, additional losses, short circuit forces in windings, etc.).

PhysicsElectromagnetic coillawFlyback transformerMagnetic potentialMechanicsTransformerShort circuitTransformer typeslaw.invention

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Simulation of forces and 3-D field arising during power autotransformer fault due to electric arc in HV winding

2002

Forces and three-dimensional magnetic fields in high-voltage winding due to an internal short circuit in a power autotransformer are calculated with the computer package OPERA 3D. The considered damage was caused by an electric arc. The materialized deformation of the winding part confirms the simulation results.

PhysicsMechanicsMagnetostaticsElectronic Optical and Magnetic MaterialsMagnetic fieldlaw.inventionMagnetic circuitElectric arcNuclear magnetic resonanceElectromagnetic coillawAutotransformerElectrical and Electronic EngineeringTransformerShort circuitIEEE Transactions on Magnetics

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Advances in Anodic Alumina Membranes-based fuel cell: CsH2PO4 pore-filler as proton conductor at room temperature

2009

Abstract Anodic alumina membranes (AAM) filled with cesium hydrogen phosphate proton conductor have been tested as inorganic composite electrolyte for hydrogen–oxygen thin film (≤50 μm) fuel cell (TFFC) working at low temperatures (25 °C), low humidity ( T gas = 25 °C) and low Pt loading (1 mg cm −2 ). Single module TFFC delivering a peak power of around 15–27 mW cm −2 , with open circuit voltage (OCV) of about 0.9 V and short circuit current density in the range 80–160 mA cm −2 have been fabricated. At variance with pure solid acid electrolytes showing reproducibility problems due to the scarce mechanical resistance, the presence of porous alumina support allowed to replicate similar fuel…

Renewable Energy Sustainability and the EnvironmentChemistryOpen-circuit voltageAnodic alumina membranes Cesium hydrogen phosphate Composite proton conductors Pore filling Thin film fuel cellAnalytical chemistryEnergy Engineering and Power TechnologyElectrolyteElectrochemistryDielectric spectroscopySettore ING-IND/23 - Chimica Fisica ApplicataChemical engineeringDifferential thermal analysisElectrical and Electronic EngineeringPhysical and Theoretical ChemistryThin filmShort circuitCesium hydrogen phosphate Anodic alumina membranes Pore filling Composite proton conductors Thin film fuel cellProton conductor

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