Search results for " power converters"

showing 10 items of 13 documents

Generalized power-angle control for grid-forming converters: A structural analysis

2022

Several control schemes have been recently proposed and studied as grid-forming controls for power converters. In all these schemes, the power-angle control loop is the part which defines the fundamental capabilities of the grid-forming control: that control loop governs in fact the inherent synchronization mechanism of the power converter, the power sharing with the other generation sources in the system and the oscillatory characteristics of the converter-based resource. This article introduces a general formulation for the power-angle control characterizing the grid-forming concept for power converters. The generalized power-angle control is based on a polynomial fraction formulation, an…

Angle control Damping Frequency control Grid-forming Inertia Power converters Power sharing Power-synchronization control Virtual synchronous machineSettore ING-IND/33 - Sistemi Elettrici Per L'EnergiaRenewable Energy Sustainability and the EnvironmentControl and Systems EngineeringEnergy Engineering and Power TechnologyElectrical and Electronic Engineering
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A Measurement System for Power Inductors in Non-Linear Operating Conditions

2021

The exploitation of power inductors in switching converters outside the linear region requires detailed information on the magnetization curve that often is not included among those usually available on their datasheets. This paper proposes an automatic system in which the inductor is characterized in real operating conditions taking into account also the core temperature. It is based on a switching converter suitably controlled by a virtual instrument. The system was tested by retrieving the inductance vs current curves of two commercial inductors for core temperatures up to 105°C, showing the different behaviors of the magnetization curves. Results are coherent with data given by manufact…

Computer scienceNonlinear magnetics inductance measurement power inductors saturation magnetization DC-DC power convertersSystem of measurementpower inductorsConvertersInductorSettore ING-INF/01 - ElettronicaTemperature measurementPower (physics)InductanceNonlinear systemMagnetizationHardware_GENERALinductance measurementDC-DC power convertersElectronic engineeringnonlinear magneticssaturation magnetization2021 IEEE 30th International Symposium on Industrial Electronics (ISIE)
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Power System Oscillations with Different Prevalence of Grid-Following and Grid-Forming Converters

2022

The oscillatory behaviour of the power system is an aspect that is significantly affected by the increasing integration of converter-based generation sources. Several works address the impact of non-synchronous generation on the operation of the system from different points of view, but only a few studies focus on power-frequency oscillations with a prevalence of generation sources interfaced through power electronics. A lack of research can be found in particular in the comparative analysis of the two main control strategies for power converters, namely grid-following and grid-forming. The article aims to contribute to this direction, starting from a theoretical analysis of the two control…

Control and Optimizationdampingvirtual synchronous machineRenewable Energy Sustainability and the EnvironmentEnergy Engineering and Power TechnologyBuilding and Constructionelectromechanical oscillationinertiadamping; electromechanical oscillations; grid-following; grid-forming; inertia; phase-locked loop; power converters; virtual synchronous machinegrid-formingphase-locked looppower convertergrid-followingElectrical and Electronic EngineeringEngineering (miscellaneous)Energy (miscellaneous)
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Thermal Stability of a DC/DC Converter with Inductor in Partial Saturation

2021

Inductors operated in quasi saturation in dc–dc converters allow reduction of the core size and realization costs; on the other hand, they imply an increase of dissipated power that can jeopardize the thermal stability of the converter. In this article, this issue is studied by a mathematical model able to represent both the inductor nonlinearity and its temperature dependence. The main losses, such as ohmic, skin effect and magnetic, are taken into account in the model. The inductor is characterized by a polynomial curve whose parameters are a function of the temperature. Finally, the whole converter is modeled and simulation results, obtained on a boost converter, are compared with experi…

DC-DC power converters Inductors Nonlinear circuits Saturation magnetizationMaterials scienceThermal resistance020208 electrical & electronic engineeringSaturation magnetization.02 engineering and technologyConvertersInductorSettore ING-INF/01 - ElettronicaNonlinear circuitsNonlinear systemControl and Systems EngineeringControl theoryBoost converterDC-DC power converters0202 electrical engineering electronic engineering information engineeringInductorsSkin effectElectrical and Electronic EngineeringRealization (systems)Saturation (magnetic)
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Controlled Fault-Tolerant Power Converters for Power Quality Enhancement

2013

Power quality depends generally on the interaction of electrical power with electrical equipments. If electrical equipments operate correctly and reliably without being damaged or stressed, a suitable level of power quality is assured. On the other hand, if the electrical equipment malfunctions, is unreliable, or is damaged during normal usage, power quality is poor and probably the economical loss could be important like the technical one. In the scenario of the Distributed Generation, power quality issues will be moreover important because an higher dissemination of power conditioning equipment will be requested and this obviously increases the sources of vulnerability of the electrical s…

EngineeringSwitched-mode power supplypower supply qualitypower system controlSettore ING-IND/32 - Convertitori Macchine E Azionamenti ElettriciPower budgetpower quality enhancementTopologyMaximum power point trackingfault tolerant power converterfuel cellpower supplieElectric power systemMathematical modelpower convertorElectronic engineeringcontrolled fault-tolerant power converterPower-flow studyCircuit faulthybrid power systemdistributed generationFault tolerant systembusiness.industryFault toleranceReliability engineeringPower ratingBase load power plantPower qualityModeling and Simulationpower conditioning equipmentElectric powerVectorbusinessfault tolerance;power convertors;power supply quality;controlled fault-tolerant power converters;distributed generation;fault tolerant power converters;power conditioning equipment;power quality enhancement;Circuit faults;Fault tolerance;Fault tolerant systems;Mathematical model;Power quality;Topology;Vectors;fuel cells;hybrid power systems;power supplies;power system control
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Reducing DC Link Voltage Unbalance in a Fault-Tolerant Inverter

2014

Today, continuous working of power inverter drives is mandatory for several applications. Damages to materials, machines or even risks to human life have to be absolutely avoided. In the literature, fault-tolerant algorithms and architectures to achieve a successful fault handling are investigated. Researchers aim at reducing the number and cost of additional components, improving at the same time the inverter performances under postfault conditions. Cost, post-fault power derating and increasing distortion are usually conflicting requirements. In this paper, a fault-tolerant three phase inverter is presented. A reconfigurable architecture and a novel fault-tolerant algorithm is designed to…

Engineeringbusiness.industryDc link voltageFault current limiterElectronic engineeringInverterFault toleranceSettore ING-IND/32 - Convertitori Macchine E Azionamenti ElettricibusinessPower electronics Power converters AC motor drives fault-tolerant Inverter
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Identification and robust control of DC/DC converter Hammerstein model

2008

Abstract—This paper deals with model-based robust control of dc/dc power electronic converters. The converter is described by means of a Hammerstein model consisting of the nonlinear static characteristics of the converter and a linear time-invariant (LTI) uncertainmodel whose parameters depend on the actual duty-cycle operating range. This suggests that the controller be designed using robust control techniques. In view of applying robust control, identification of the earlier LTI models is performed by means of simulation experiments, carried out on a converter switching model implemented onMATLAB/SIMULINK environment. Internal model control (IMC) structure is employed for the controller …

Engineeringbusiness.industryPower converters Hammerstein model Model identification Robust controlSystem identificationInternal modelPhase marginPID controllerControl engineeringSettore ING-INF/04 - AutomaticaControl theoryPower electronicsHammerstein model model identification power converters robust control.Electrical and Electronic EngineeringRobust controlbusinessMATLABcomputercomputer.programming_language
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Flexible power converters for the fault tolerant operation of Micro-Grids

2010

The progressive penetration level of Distributed Generation (DG) is destined to cause deep changes in the existing distribution networks no longer considered as passive terminations of the whole electrical system. A possible solution is the realization of small networks, namely the Micro-Grids, reproducing in themselves the structure of the main production and distribution of the electrical energy system. In order to gain an adequate reliability level of the microgrids the individuation and the management of the faults with the goal of maintaining the micro-grid operation (fault tolerant operation) is quite important. In the present paper flexible power converters and a companion control al…

Engineeringpower generation controlDistribution networksFault Tolerancepower generation reliabilityGeneratorSettore ING-IND/32 - Convertitori Macchine E Azionamenti Elettricifault tolerant power converterElectric power systemdistributed power generationpower convertorcomputer simulationElectronic engineeringConverterIndexeflexible power convertersCircuit faultLegdistributed generationFault tolerant systembusiness.industryElectric potential energyFault toleranceelectrical energy systemConvertersdistributed power generation;fault tolerance;power convertors;power generation control;power generation reliability;companion control algorithm;computer simulations;distributed generation;electrical energy system;fault tolerant power converters;flexible power converters;microgrid operation;Circuit faults;Converters;Fault tolerance;Fault tolerant systems;Generators;Indexes;Leg;Fault Tolerance;Faults;Micro-Grid;flexible power converterscompanion control algorithmFaultPower (physics)microgrid operationDistributed generationflexible power converterMicro-GridbusinessRealization (systems)The XIX International Conference on Electrical Machines - ICEM 2010
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Power losses comparison between Silicon Carbide and Silicon devices for an isolated DC-DC converter

2021

In recent years, new efficient power devices have been implemented. Silicon Carbide has replaced silicon as regards the production and the utilization of many devices, such as MOSFETs, diodes, IGBTs and many others. SiC devices are characterized by a low reverse recovery charge, high carrier saturation velocity, by which it is possible to work at high frequency, and high breakdown voltage. Thanks to the great thermal conductivity and the wide bandgap, these devices can operate at high temperature and reach high voltages and currents. What is important to stress is the fact that power losses in SiC devices are lower than the silicon ones. These are the reasons why these devices are utilized …

Materials scienceSiliconSiC devicesbusiness.industryDC-DC converterschemistry.chemical_elementSaturation velocityHardware_PERFORMANCEANDRELIABILITYSettore ING-IND/32 - Convertitori Macchine E Azionamenti ElettriciSettore ING-INF/01 - ElettronicaIsolated power converterschemistry.chemical_compoundchemistryPower electronicsMOSFETHardware_INTEGRATEDCIRCUITSSilicon carbideOptoelectronicsBreakdown voltagePower semiconductor devicePower lossesbusinessDiode
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Achieving maximum power transfer in a multi-source renewable system

2014

Power systems multi-input converters renewable energy sources renewable energy systems power converters.Settore ING-IND/32 - Convertitori Macchine E Azionamenti Elettrici
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