LEADER 06260nam  2201573z- 450 
001 9910557117603321
005 20231214133509.0
035   $a(CKB)5400000000040870
035   $a(oapen)https://directory.doabooks.org/handle/20.500.12854/68412
035   $a(EXLCZ)995400000000040870
100   $a20202105d2021      |y             0
101 0 $aeng
135   $aurmn|---annan
181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 10$aEmerging Converter Topologies and Control for Grid Connected Photovoltaic Systems
210   $aBasel, Switzerland$cMDPI - Multidisciplinary Digital Publishing Institute$d2021
215   $a1 electronic resource (364 p.)
311   $a3-03943-909-X 
311   $a3-03943-910-3 
330   $aContinuous cost reduction of photovoltaic (PV) systems and the rise of power auctions resulted in the establishment of PV power not only as a green energy source but also as a cost-effective solution to the electricity generation market. Various commercial solutions for grid-connected PV systems are available at any power level, ranging from multi-megawatt utility-scale solar farms to sub-kilowatt residential PV installations. Compared to utility-scale systems, the feasibility of small-scale residential PV installations is still limited by existing technologies that have not yet properly address issues like operation in weak grids, opaque and partial shading, etc. New market drivers such as warranty improvement to match the PV module lifespan, operation voltage range extension for application flexibility, and embedded energy storage for load shifting have again put small-scale PV systems in the spotlight. This Special Issue collects the latest developments in the field of power electronic converter topologies, control, design, and optimization for better energy yield, power conversion efficiency, reliability, and longer lifetime of the small-scale PV systems. This Special Issue will serve as a reference and update for academics, researchers, and practicing engineers to inspire new research and developments that pave the way for next-generation PV systems for residential and small commercial applications.
606   $aHistory of engineering & technology$2bicssc
610   $athree-phase rectifier
610   $aPFC
610   $aswitch-mode rectifier
610   $aZVS
610   $aZCS
610   $asingle stage micro-inverter
610   $aburst control
610   $avariable frequency control
610   $amaximum power-point tracking
610   $agrid-connected photovoltaic systems
610   $acascade multilevel converters
610   $amultistring converters
610   $aT-type converters
610   $apower clipping
610   $aESS sizing
610   $agrid-tied PV plant
610   $acascaded H-bridge
610   $aphotovoltaic inverter
610   $amodule level
610   $aswitching modulation strategy
610   $aenergy yield
610   $aphotovoltaic (PV)
610   $avirtual synchronous generator (VSG)
610   $afrequency response (FR)
610   $apower reserve control (PRC)
610   $aactive power up-regulation
610   $adual inverter
610   $aopen-end winding transformer
610   $aphotovoltaic application
610   $afilter
610   $aDC?AC converters
610   $aefficiency
610   $aneutral-point-clamped inverter
610   $aPV applications
610   $aPV inverters
610   $aPV systems
610   $aquasi-z-source
610   $atwo-level inverter
610   $athree-level inverter
610   $aconverter topologies
610   $apartial shading
610   $aphotovoltaic (PV) arrays
610   $amultiple maximas
610   $amismatch
610   $adifferential power processing (DPP)
610   $aseries-parallel (SP)
610   $atotal-cross-tied (TCT)
610   $abridge-linked (BL)
610   $acenter-cross-tied (CCT)
610   $aquasi-Z-source inverter
610   $adouble-frequency ripple
610   $aripple vector cancellation
610   $ashoot-through duty cycle
610   $amodulation
610   $aDC microgrid
610   $aDC electric spring
610   $adistributed cooperative control
610   $aadaptive droop control
610   $aconsensus algorithm
610   $aElectric spring
610   $ahierarchical control
610   $acoordinated control
610   $apower decoupling control
610   $adroop control
610   $amicrogrid
610   $amicroinverter
610   $avariable dc-link voltage
610   $aphotovoltaic
610   $asolar energy
610   $arenewable energy
610   $aresidential systems
610   $aPV generators
610   $aactive power
610   $areactive power
610   $aRenewable energy
610   $agrid codes
610   $acapability curves
610   $atransformerless inverter
610   $afull bridge inverter
610   $aleakage current
610   $aNPC topology
610   $afull-bridge inverter
610   $aPV microinverters
610   $asingle-stage
610   $abuck-boost
610   $atapped inductor
610   $amodular multilevel converter
610   $aphotovoltaic power system
610   $agrid integration
610   $acontrol system
610   $adistributed renewable energy source
610   $aenergy storage
610   $a1500 V photovoltaic (PV)
610   $areliability
610   $acost-oriented design
610   $aDC?DC converter
610   $aseries resonance converter
610   $awide range converter
610   $abidirectional switch
610   $aconversion efficiency
615  7$aHistory of engineering & technology
700   $aVinnikov$b Dmitri$4edt$01310427
702   $aKouro$b Samir$4edt
702   $aYang$b Yongheng$4edt
702   $aVinnikov$b Dmitri$4oth
702   $aKouro$b Samir$4oth
702   $aYang$b Yongheng$4oth
906   $aBOOK
912   $a9910557117603321
996   $aEmerging Converter Topologies and Control for Grid Connected Photovoltaic Systems$93029800
997   $aUNINA