Search results for "Converters"

showing 10 items of 140 documents

A digital control technique for high-performances DC-DC converters

2008

dc-dc converters power electronics FPGASettore ING-INF/01 - Elettronica
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A lossles current sensing technique for flyback converters

2009

flyback converters current sense
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Power dispatching of active generators using droop control in grid connected micro-grid

2014

Masteroppgave i fornybar energi ENE 500 Universitetet i Agder 2014 Renewable energy promises a green energy future for the world. However, many technical problems still have to be solved. Almost all renewable energy sources require power electronic converters for power processing and therefore inverter control systems and power dispatching strategies are significant in renewable energy applications. The existing electricity grid architecture is based on centralized power generations while most renewable power generations are distributed and connected to lower or medium voltage networks. Some of important renewable energy resources such as solar and wind power are intermittent in nature. Thi…

fornybar energi ; droop control ; micro-grids ; distributed generation ; DG ; active generators ; voltage source converters ; VSC ; grid integration ; renewable energyVDP::Technology: 500
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Benefits and Drawbacks of A High Frequency Gan Zvzcps Converter

2017

This paper presents the benefits and drawbacks of replacing the traditional Si Mosfets transistors with enhancement mode GaN transistors in a Half-Bridge Zero Voltage and Zero Current Switching Power Switching (ZVZCPS) converter. This type of converters is usually used as Electronic Power Converters (EPC) for telecommunication satellites travelling-wave tube amplifiers (TWTAs). In this study, firstly the converter is theoretically analysed, obtaining its operation, losses and efficiency equations. From these equations, optimizations maps based on the main system parameters are obtained. These optimization maps are the key to quantify the potential benefits of GaN transistors in this type of…

lcsh:GE1-350Engineeringbusiness.industryAmplifierTransistorElectrical engineeringConverterslaw.inventionPower (physics)Reduction (complexity)Zero current switchinglawSystem parametersElectronic engineeringbusinessEnergy (signal processing)lcsh:Environmental sciencesE3S Web of Conferences
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Design and realization of a DC/DC converter with a partially saturated inductor

2017

DC/DC converters, in some types of applications such as portable equipments, can require more space than it is actually available. The inductor is typically the most bulky element and the possibility to reduce its size can save up to 50% of the converter volume and area [1][2], thus increasing the power density. This reduction, however, comes with nonlinear effects caused by the saturation of the ferromagnetic core. An appropriate modelling of the inductor and of the converter circuit is needed for guaranteeing a good output power quality (Fig. 1). A Boost converter with an inductor in the partially saturated roll-off operating zone was designed and realized to study the behaviour of DC/DC …

modellingPower ElectronicPartially saturated inductorDC/DC converterSwitching Mode Power SupplyBoost converternon-linear inductorDC/DC convertersSettore ING-INF/01 - ElettronicaSMPS
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Design and Performance Evaluation of a High Power-Density EMI Filter for PWM Inverter-Fed Induction-Motor Drives

2016

This paper presents the design of an electromagnetic interference (EMI) filter for a low-voltage high-current induction-motor drives supplied by dc power grids. In order to effectively design the EMI filter, a suitable common-mode/differential-mode (CM/DM) separation technique has been used. Due to the high operating currents, the software-based separation technique using time-domain measurements has been applied. The proposed technique allows the CM and DM sections of the EMI filter to be properly selected in a more economical way, i.e., without the need of a dedicated hardware or costly radio frequency (RF) instrumentation. The design has been done according to a power-density criterion. …

motor drivesEngineeringpower converters02 engineering and technologyElectromagnetic interferenceIndustrial and Manufacturing EngineeringEMI0202 electrical engineering electronic engineering information engineeringElectronic engineeringpower converterElectrical and Electronic EngineeringActive filtermotor driveCommon-mode (CM) and differential-mode (DM) separation techniquesbusiness.industry020208 electrical & electronic engineeringElectrical engineeringpower density020206 networking & telecommunicationsCommon-mode (CM) and differential-mode (DM) separation techniquePower (physics)Settore ING-IND/31 - ElettrotecnicaFilter (video)Control and Systems EngineeringRadio frequencyelectromagnetic interference (EMI) filterbusinessPulse-width modulationInduction motor
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Development of bidirectional dc-dc converters for hybrid power sources - Final Report

2018

A Bidirectional Isolated Full-Bridge Converter was designed, prototyped and tested. The device is intended to interface a Bank of Supercapacitors with a battery-powered bus, in order to boost the capability of supplying large power peaks. The converter was based on the Isolated Dual Active Bridge configuration. When driven by an external control voltage, it is capable of generating in both directions a train of current pulses, with 2kW peak power, for any battery voltage in the range 24-32V and for any supercapacitor voltage in the range 35-70V. Worst-case battery current was 70A. Pulse duration was 100ms with 50% duty cycle and 1 ms rise time.

power electronicshybrid power sourcesdc-dc convertersdc-dc converterbidirectionalpower electronicaerospace electronicsdc-dc converters; bidirectional; hybrid power sources; power electronics; aerospace electronicshybrid power source
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Damping Provision by Different Virtual Synchronous Machine Schemes

2020

The adoption of virtual synchronous machine (VSM) schemes for the control of power converters is gaining more and more attention both in academia and industry. The VSM control strategies fall into the category of grid-forming converter controls, and they are intended for a range of different applications, providing specific services and different kinds of support to the grid. The paper investigates the possibility of damping provision to the system by VSM power converters. Different schemes are considered and compared, showing the opportunity of the investigated solutions through combined modal and time domain analyses. A specific modification of the power synchronization loop is recognized…

virtual synchronous machineComputer science020209 energy020208 electrical & electronic engineeringControl engineering02 engineering and technologysystem oscillationsConvertersdynamic analysisGridDampingSynchronizationgrid formingPower (physics)Phase-locked loopSettore ING-IND/33 - Sistemi Elettrici Per L'EnergiaModal0202 electrical engineering electronic engineering information engineeringTime domainSynchronous motor
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Sensitivity Analysis and Frequency Dynamics of Grid-Connected Converters with Virtual Inertia

2021

For the participation in the frequency control of the system, power converters can be controlled with different strategies and methods, sharing the common concept of virtual inertia capability. In this work, a sensitivity analysis of two main categories of converter controls with virtual inertia is presented. The considered schemes are a grid-following current vector control with additional virtual inertia block and a grid-forming control scheme based on virtual synchronous machine concept. A proper basis for the comparison is first assessed providing an analytical correlation between the control parameters of the two schemes. For the two control strategies, the sensitivity analysis of the …

virtual synchronous machineComputer scienceAutomatic frequency controlConvertersGridPower (physics)Time–frequency analysisSettore ING-IND/33 - Sistemi Elettrici Per L'Energiagrid-formingsensitivity analysisvirtual inertiaControl theoryFrequency controlgrid-followingSensitivity (control systems)Synchronous motorBlock (data storage)2021 IEEE International Conference on Environment and Electrical Engineering and 2021 IEEE Industrial and Commercial Power Systems Europe (EEEIC / I&CPS Europe)
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Experimental Validation of Maximum Constant Boost Control and Switching Frequency Optimal for three-phase Quasi-Z-Source Converters

2020

This paper presents a modified modulation scheme for quasi-Z-Source converters, based on the Maximum Constant Boost Control (MCBC) concept and Switching Frequency Optimal (SFO) as reference signal. The effectiveness of the proposed technique is validated by comparing the obtained results (in terms of AC harmonic content and voltage stress) with those carried out from traditional modulation schemes. For this reason, a test bench has been assembled and the benefits of the SFO MCBC modulation scheme have been valuated.

voltage stressTest benchQuasi-Z-source InverterSettore ING-IND/32 - Convertitori Macchine E Azionamenti ElettriciConvertersSignalSettore ING-IND/31 - ElettrotecnicaharmonicThree-phaseModulationControl theorymodulation techniqueHarmonicsHarmonicharmonics modulation techniques Quasi-Z-source Inverter voltage stressMathematicsVoltage2020 2nd IEEE International Conference on Industrial Electronics for Sustainable Energy Systems (IESES)
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