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Publication Date2016, Power and energy series, ISBN 9781849198271, Volume 74., xviii, 638
Power electronics is a branch of electrical engineering dealing with conversion and control of electric power using semiconductor power switches. This book,...
Electric current converters | Power electronics | Photovoltaic power systems soft-switching converters | Z-source converters | Distribution generation | Semiconductor power devices | Microgrids | Multiinput converters | Uninterruptible power supplies | Zero voltage switching | Distributed power generation | Matrix convertors | Zero current switching | Shipboard power systems | Wireless power transfer | Power semiconductor devices | Photovoltaic energy systems | Matrix converters | Wind energy systems | Inductive power transmission | Switching power supplies | Power electronic converters | Power electronics system control | Permanent magnet motors | Synchronous motor drives | Smart power grids | Induction motor drives | Automotive electrics | Multilevel converters | Permanent magnet synchronous motor drives | Wind power plants | Automotive energy systems | Modular converters | Power grid | Smart power electronic modules
Electric current converters | Power electronics | Photovoltaic power systems soft-switching converters | Z-source converters | Distribution generation | Semiconductor power devices | Microgrids | Multiinput converters | Uninterruptible power supplies | Zero voltage switching | Distributed power generation | Matrix convertors | Zero current switching | Shipboard power systems | Wireless power transfer | Power semiconductor devices | Photovoltaic energy systems | Matrix converters | Wind energy systems | Inductive power transmission | Switching power supplies | Power electronic converters | Power electronics system control | Permanent magnet motors | Synchronous motor drives | Smart power grids | Induction motor drives | Automotive electrics | Multilevel converters | Permanent magnet synchronous motor drives | Wind power plants | Automotive energy systems | Modular converters | Power grid | Smart power electronic modules
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IEEE Transactions on Power Electronics, ISSN 0885-8993, 04/2016, Volume 31, Issue 4, pp. 2808 - 2828
Impedance-source converters, an emerging technology in electric energy conversion, overcome limitations of conventional solutions by the use of specific...
DCDC power converters | renewable energy sources | DC-DC power converters | Switches | Inverters | galvanic isolation | Inductors | Voltage control | impedance-source converters | Renewable energy sources | Impedance-source (IS) converters | Galvanic isolation | STORAGE | NETWORK | DESIGN | PERFORMANCE | COUPLED INDUCTORS | Z-SOURCE INVERTERS | ENGINEERING, ELECTRICAL & ELECTRONIC | ISOLATED DC/DC CONVERTER | SYSTEMS | SIC MOSFETS | impedance-source (IS) converters
DCDC power converters | renewable energy sources | DC-DC power converters | Switches | Inverters | galvanic isolation | Inductors | Voltage control | impedance-source converters | Renewable energy sources | Impedance-source (IS) converters | Galvanic isolation | STORAGE | NETWORK | DESIGN | PERFORMANCE | COUPLED INDUCTORS | Z-SOURCE INVERTERS | ENGINEERING, ELECTRICAL & ELECTRONIC | ISOLATED DC/DC CONVERTER | SYSTEMS | SIC MOSFETS | impedance-source (IS) converters
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Loading RightsRenewable and Sustainable Energy Reviews, ISSN 1364-0321, 04/2016, Volume 56, pp. 388 - 401
The application of renewable energy such as solar photovoltaic (PV), wind and fuel cells is becoming increasingly popular because of the environmental...
Review | Renewable energy | Three-port converters | Energy storage | GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY | COST-EFFICIENT | DESIGN | BIDIRECTIONAL CONVERTER | ENERGY & FUELS | Z-SOURCE INVERTER | PV APPLICATION | RELIABILITY | FUEL-CELL | FAMILY | BATTERY CHARGER | DC/DC CONVERTERS | Alternative energy sources | Electric current converters | Energy management systems | Analysis | Usage | Fuel cells | DC to DC | Electric converters | Dynamics | Converters | Topology | Dynamical systems
Review | Renewable energy | Three-port converters | Energy storage | GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY | COST-EFFICIENT | DESIGN | BIDIRECTIONAL CONVERTER | ENERGY & FUELS | Z-SOURCE INVERTER | PV APPLICATION | RELIABILITY | FUEL-CELL | FAMILY | BATTERY CHARGER | DC/DC CONVERTERS | Alternative energy sources | Electric current converters | Energy management systems | Analysis | Usage | Fuel cells | DC to DC | Electric converters | Dynamics | Converters | Topology | Dynamical systems
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Loading RightsIEEE Transactions on Power Electronics, ISSN 0885-8993, 01/2017, Volume 32, Issue 1, pp. 98 - 116
In a hybrid or electric vehicle powertrain, a boost dc-dc converter enables reduction of the size of the electric machine and optimization of the battery...
Insulated gate bipolar transistors | Capacitors | DC-DC power converters | Mechanical power transmission | electric vehicle powertrain | Batteries | Boost converter | dc–dc converter | composite converter | Power generation | Vehicles | dc-dc converter | BUCK | ZERO-VOLTAGE | Z-SOURCE INVERTER | BOOST-CONVERTER | HIGH-EFFICIENCY | DRIVE | ENGINEERING, ELECTRICAL & ELECTRONIC | State of the art | Hybrid vehicles | Architecture | Circuits | Converters | Voltage converters (DC to DC) | Power rating | Electric batteries | Design optimization | Powertrains | Direct current | Efficiency | Power efficiency | Energy rating | Energy conversion efficiency | ENERGY STORAGE | batteries | insulated gate bipolar transistors | vehicles | Power electronics | electrified transportation | ADVANCED PROPULSION SYSTEMS | capacitors | mechanical power transmission | power generation | ENGINEERING | boost converter
Insulated gate bipolar transistors | Capacitors | DC-DC power converters | Mechanical power transmission | electric vehicle powertrain | Batteries | Boost converter | dc–dc converter | composite converter | Power generation | Vehicles | dc-dc converter | BUCK | ZERO-VOLTAGE | Z-SOURCE INVERTER | BOOST-CONVERTER | HIGH-EFFICIENCY | DRIVE | ENGINEERING, ELECTRICAL & ELECTRONIC | State of the art | Hybrid vehicles | Architecture | Circuits | Converters | Voltage converters (DC to DC) | Power rating | Electric batteries | Design optimization | Powertrains | Direct current | Efficiency | Power efficiency | Energy rating | Energy conversion efficiency | ENERGY STORAGE | batteries | insulated gate bipolar transistors | vehicles | Power electronics | electrified transportation | ADVANCED PROPULSION SYSTEMS | capacitors | mechanical power transmission | power generation | ENGINEERING | boost converter
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Loading RightsIEEE Transactions on Industrial Electronics, ISSN 0278-0046, 01/2017, Volume 64, Issue 1, pp. 310 - 319
This paper presents a new family of hybrid Z-source boost dc-dc converters intended for photovoltaic applications, where the high step-up dc-dc converters are...
Z source | DC–DC converters | Capacitors | photovoltaic (PV) | DC-DC power converters | Switches | Inverters | Power systems | Inductors | voltage boost abilities | Equivalent circuits | DC-DC converters | Z-source | SYSTEM | DISTRIBUTED GENERATION | HIGH-VOLTAGE GAIN | INSTRUMENTS & INSTRUMENTATION | Z-SOURCE INVERTER | AUTOMATION & CONTROL SYSTEMS | ENGINEERING, ELECTRICAL & ELECTRONIC | Networks | Electric potential | Electric converters
Z source | DC–DC converters | Capacitors | photovoltaic (PV) | DC-DC power converters | Switches | Inverters | Power systems | Inductors | voltage boost abilities | Equivalent circuits | DC-DC converters | Z-source | SYSTEM | DISTRIBUTED GENERATION | HIGH-VOLTAGE GAIN | INSTRUMENTS & INSTRUMENTATION | Z-SOURCE INVERTER | AUTOMATION & CONTROL SYSTEMS | ENGINEERING, ELECTRICAL & ELECTRONIC | Networks | Electric potential | Electric converters
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Loading RightsIEEE Transactions on Industrial Electronics, ISSN 0278-0046, 01/2012, Volume 59, Issue 1, pp. 35 - 46
This paper extends the Z-source concept to matrix converters and explores a family of Z-source matrix converters. Their principles and characteristics are...
matrix converter (MC) | Boost control | Z-source converter | Switches | Pulse width modulation | Inverters | voltage gain | Matrix converters | Voltage control | SVM METHOD | INSTRUMENTS & INSTRUMENTATION | OPERATION | STABILITY | Z-SOURCE INVERTER | AUTOMATION & CONTROL SYSTEMS | ENGINEERING, ELECTRICAL & ELECTRONIC | Measurement | Bipolar transistors | Pulse-duration modulation | Usage | Electric current converters | Innovations | Voltage | Simulation methods | Equivalent circuits | Voltage gain | Simulation | Mathematical analysis | Low cost | Modulation | Pulse duration modulation
matrix converter (MC) | Boost control | Z-source converter | Switches | Pulse width modulation | Inverters | voltage gain | Matrix converters | Voltage control | SVM METHOD | INSTRUMENTS & INSTRUMENTATION | OPERATION | STABILITY | Z-SOURCE INVERTER | AUTOMATION & CONTROL SYSTEMS | ENGINEERING, ELECTRICAL & ELECTRONIC | Measurement | Bipolar transistors | Pulse-duration modulation | Usage | Electric current converters | Innovations | Voltage | Simulation methods | Equivalent circuits | Voltage gain | Simulation | Mathematical analysis | Low cost | Modulation | Pulse duration modulation
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Loading RightsIEEE Transactions on Power Electronics, ISSN 0885-8993, 05/2017, Volume 32, Issue 5, pp. 3634 - 3650
This paper presents the high-performance quasi-Z-source series resonant dc-dc converter as a candidate topology for the photovoltaic module-level power...
Capacitors | module-level power electronics (MLPE) | DC-DC power converters | Switches | Inverters | resonant converter | Topology | Voltage control | DC–DC converter | renewable energy | solar photovoltaic (PV) | Z -source (qZS) converter">quasi- Z -source (qZS) converter | module-integrated converter | DC-DC converter | Quasi-Z-source (qZS) converter | Renewable energy | Module-integrated converter | Module-level power electronics (MLPE) | Resonant converter | Solar photovoltaic (PV) | TOPOLOGIES | INTEGRATED CONVERTER | RELIABILITY | ENGINEERING, ELECTRICAL & ELECTRONIC | INVERTERS | SYSTEMS | quasi-Z-source (qZS) converter | EFFICIENCY | Electric potential | Modules | Electronics | Converters | Voltage converters (DC to DC) | Pulse duration modulation | Energy conversion efficiency
Capacitors | module-level power electronics (MLPE) | DC-DC power converters | Switches | Inverters | resonant converter | Topology | Voltage control | DC–DC converter | renewable energy | solar photovoltaic (PV) |
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Loading RightsRenewable and Sustainable Energy Reviews, ISSN 1364-0321, 01/2018, Volume 81, pp. 2028 - 2044
The development of power electronics in the past century and the current state of the art of power electronics converters are briefly reviewed, before giving...
Power converters | Impedance-network matching | Impedance-source | Power electronics | SYSTEM | GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY | VOLTAGE | VEHICLE | BOOST | ENERGY & FUELS | MICROGRIDS | STRATEGIES | FAMILY | Z-SOURCE-INVERTER | EFFICIENCY | MODULATION | Electric current converters
Power converters | Impedance-network matching | Impedance-source | Power electronics | SYSTEM | GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY | VOLTAGE | VEHICLE | BOOST | ENERGY & FUELS | MICROGRIDS | STRATEGIES | FAMILY | Z-SOURCE-INVERTER | EFFICIENCY | MODULATION | Electric current converters
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Loading RightsIEEE Transactions on Power Electronics, ISSN 0885-8993, 09/2007, Volume 22, Issue 5, pp. 1786 - 1796
This paper contributes to the AC small signal modeling and analysis of Z source converter (ZSC) in continuous conduction mode. The AC small signal model...
Computer simulation | Transfer functions | Switches | Pulse width modulation | Z source converter (ZSC) | Continuous conduction mode (CCM) | Application software | Voltage control | Pulse width modulation inverters | Signal analysis | Signal design | frequency response | small signal model | Equivalent circuits | Small signal model | Frequency response | continuous conduction mode (CCM) | ENGINEERING, ELECTRICAL & ELECTRONIC | Power converters | Signal processing | Power electronics | Models | Design and construction | Research | Design engineering | Networks | Dynamic tests | Dynamics | Converters | Electronics | Mathematical models
Computer simulation | Transfer functions | Switches | Pulse width modulation | Z source converter (ZSC) | Continuous conduction mode (CCM) | Application software | Voltage control | Pulse width modulation inverters | Signal analysis | Signal design | frequency response | small signal model | Equivalent circuits | Small signal model | Frequency response | continuous conduction mode (CCM) | ENGINEERING, ELECTRICAL & ELECTRONIC | Power converters | Signal processing | Power electronics | Models | Design and construction | Research | Design engineering | Networks | Dynamic tests | Dynamics | Converters | Electronics | Mathematical models
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Loading RightsIEEE Transactions on Power Electronics, ISSN 0885-8993, 06/2010, Volume 25, Issue 6, pp. 1488 - 1496
Recently, nine-switch inverter and nine-switch-z-source inverter have been proposed as dual output inverters. In this paper, the space vector modulation (SVM)...
Costs | space vector modulation (SVM) | nine-switch-z-source inverter | Pulse width modulation | DC motors | Analog-digital conversion | Pulse width modulation inverters | Support vector machines | Total harmonic distortion | AC motors | Voltage | Nine-switch inverter | Power semiconductor switches | Space vector modulation (SVM) | Nine-switch-z-source inverter | Z-SOURCE INVERTER | ENGINEERING, ELECTRICAL & ELECTRONIC | Power converters | Electronic control | Electric inverters | Research | Electric controllers | Semiconductors | Simulation | Modulation | Inverters | Space vector modulation | Switching | Marketing
Costs | space vector modulation (SVM) | nine-switch-z-source inverter | Pulse width modulation | DC motors | Analog-digital conversion | Pulse width modulation inverters | Support vector machines | Total harmonic distortion | AC motors | Voltage | Nine-switch inverter | Power semiconductor switches | Space vector modulation (SVM) | Nine-switch-z-source inverter | Z-SOURCE INVERTER | ENGINEERING, ELECTRICAL & ELECTRONIC | Power converters | Electronic control | Electric inverters | Research | Electric controllers | Semiconductors | Simulation | Modulation | Inverters | Space vector modulation | Switching | Marketing
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Loading RightsIEEE Transactions on Industrial Electronics, ISSN 0278-0046, 01/2015, Volume 62, Issue 1, pp. 278 - 288
A novel boost converter is proposed in this paper, which consists of three active Z-networks and is then named as a 3-Z-network boost converter. A distinct...
Integrated circuits | Capacitors | Color | Discharges (electric) | Power systems | Inductors | Equivalent circuits | discontinuous-current modes (DCMs) | continuous-current modes (CCMs) | Boost converter | Z-network | high-gain voltage | VOLTAGE | INSTRUMENTS & INSTRUMENTATION | Z-SOURCE INVERTER | AUTOMATION & CONTROL SYSTEMS | FAMILY | ENGINEERING, ELECTRICAL & ELECTRONIC | Electric current converters | Usage | Design and construction | Solar cells | Electric potential | Simulation | Photovoltaic cells | Voltage | Converters | Arrays | Diodes
Integrated circuits | Capacitors | Color | Discharges (electric) | Power systems | Inductors | Equivalent circuits | discontinuous-current modes (DCMs) | continuous-current modes (CCMs) | Boost converter | Z-network | high-gain voltage | VOLTAGE | INSTRUMENTS & INSTRUMENTATION | Z-SOURCE INVERTER | AUTOMATION & CONTROL SYSTEMS | FAMILY | ENGINEERING, ELECTRICAL & ELECTRONIC | Electric current converters | Usage | Design and construction | Solar cells | Electric potential | Simulation | Photovoltaic cells | Voltage | Converters | Arrays | Diodes
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Loading RightsIEEE Transactions on Power Electronics, ISSN 0885-8993, 11/2016, Volume 31, Issue 11, pp. 7436 - 7450
Conventional matrix converters (MCs) have limited voltage gain that is less than 0.866, whether for direct MC (DMC) or indirect MC (IMC). The Z-source MCs...
Network topology | Capacitors | Modulation | Z-source converter | Switches | Topology | Matrix converters | Inductors | Z-source direct matrix converter | Z-source indirect matrix converter | Quasi-Z-source converter | Z-source (ZS) converter | ZS indirect matrix converter (MC) | SERIES | Quasi-Z-source (QZS) converter | ZS direct MC (ZSDMC) | FAMILY | ENGINEERING, ELECTRICAL & ELECTRONIC | Electric current converters | Power electronics | Research | Voltage gain | Circuits | Electronics | Bulk molding compounds | Counting
Network topology | Capacitors | Modulation | Z-source converter | Switches | Topology | Matrix converters | Inductors | Z-source direct matrix converter | Z-source indirect matrix converter | Quasi-Z-source converter | Z-source (ZS) converter | ZS indirect matrix converter (MC) | SERIES | Quasi-Z-source (QZS) converter | ZS direct MC (ZSDMC) | FAMILY | ENGINEERING, ELECTRICAL & ELECTRONIC | Electric current converters | Power electronics | Research | Voltage gain | Circuits | Electronics | Bulk molding compounds | Counting
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Loading RightsIEEE Transactions on Power Electronics, ISSN 0885-8993, 09/2016, Volume 31, Issue 9, pp. 6293 - 6304
Pulse-width-modulated (PWM) converters have been widely applied for power processing, and they are typically the stems of other types of converters, such as...
Pulse width modulation converters | Capacitors | PWM converter | Z-source converter | Switches | Pulse width modulation | graft scheme and switched-capacitor/switched-inductor hybrid converter | layer scheme | Decoding | Topology | Inductors | switched-capacitor/switched-inductor hybrid converter | pulse-width-modulated (PWM) converter | Graft scheme | UNIFIED APPROACH | Z-SOURCE INVERTER | DC/DC CONVERTERS | ENGINEERING, ELECTRICAL & ELECTRONIC | Pulse-duration modulation | Usage | Decoders | Buck converters | Converters | Pulse duration modulation | Grafting | Stems | Gain | Readers
Pulse width modulation converters | Capacitors | PWM converter | Z-source converter | Switches | Pulse width modulation | graft scheme and switched-capacitor/switched-inductor hybrid converter | layer scheme | Decoding | Topology | Inductors | switched-capacitor/switched-inductor hybrid converter | pulse-width-modulated (PWM) converter | Graft scheme | UNIFIED APPROACH | Z-SOURCE INVERTER | DC/DC CONVERTERS | ENGINEERING, ELECTRICAL & ELECTRONIC | Pulse-duration modulation | Usage | Decoders | Buck converters | Converters | Pulse duration modulation | Grafting | Stems | Gain | Readers
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Loading RightsIEEE Transactions on Industrial Electronics, ISSN 0278-0046, 06/2010, Volume 57, Issue 6, pp. 2024 - 2032
Inverter systems that feed electrical power from fuel cells into the grid must convert the direct current of the fuel cell into the alternating current of the...
Insulated gate bipolar transistors | Current-source inverter (CSI) | dc-dc power conversion | Laboratories | DC-DC power converters | z-source inverter | Inverters | Topology | MOSFETs | voltage-source inverter (VSI) | Fuel cells | Voltage | Feeds | Power transformer insulation | Dc-dc power conversion | Z-source inverter | Voltage-source inverter (VSI) | INSTRUMENTS & INSTRUMENTATION | fuel cells | GENERATION | AUTOMATION & CONTROL SYSTEMS | ENGINEERING, ELECTRICAL & ELECTRONIC | Usage | Electric inverters | Design and construction | Electric current converters | Comparative analysis | Electric power generation | Semiconductors | Direct current | Converters | Power rating | Computing time
Insulated gate bipolar transistors | Current-source inverter (CSI) | dc-dc power conversion | Laboratories | DC-DC power converters | z-source inverter | Inverters | Topology | MOSFETs | voltage-source inverter (VSI) | Fuel cells | Voltage | Feeds | Power transformer insulation | Dc-dc power conversion | Z-source inverter | Voltage-source inverter (VSI) | INSTRUMENTS & INSTRUMENTATION | fuel cells | GENERATION | AUTOMATION & CONTROL SYSTEMS | ENGINEERING, ELECTRICAL & ELECTRONIC | Usage | Electric inverters | Design and construction | Electric current converters | Comparative analysis | Electric power generation | Semiconductors | Direct current | Converters | Power rating | Computing time
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Loading RightsIEEE Transactions on Power Electronics, ISSN 0885-8993, 11/2016, Volume 31, Issue 11, pp. 7621 - 7641
Magnetically coupled impedance-source (MCIS) networks are recently introduced impedance networks intended for various high-boost applications. It employs...
Transfer functions | Switches | Pulse width modulation | Inverters | magnetically coupled impedance source (MCIS) network | Switching circuits | Small signal modeling | non-minimum phase (NMP) zero | Impedance | dynamic response | Integrated circuit modeling | frequency response | circuit averaging technique | Circuit averaging technique | nonminimum phase (NMP) zero | magnetically coupled impedance-source (MCIS) network | small-signal modeling | VOLTAGE | Z-SOURCE INVERTER | ENGINEERING, ELECTRICAL & ELECTRONIC | Integrated circuits | Pulse-duration modulation | Research | Design and construction | Electric current converters | Semiconductor chips | Networks | Circuits | Converters | Switching theory | Modelling | Pulse duration modulation
Transfer functions | Switches | Pulse width modulation | Inverters | magnetically coupled impedance source (MCIS) network | Switching circuits | Small signal modeling | non-minimum phase (NMP) zero | Impedance | dynamic response | Integrated circuit modeling | frequency response | circuit averaging technique | Circuit averaging technique | nonminimum phase (NMP) zero | magnetically coupled impedance-source (MCIS) network | small-signal modeling | VOLTAGE | Z-SOURCE INVERTER | ENGINEERING, ELECTRICAL & ELECTRONIC | Integrated circuits | Pulse-duration modulation | Research | Design and construction | Electric current converters | Semiconductor chips | Networks | Circuits | Converters | Switching theory | Modelling | Pulse duration modulation
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Loading RightsIEEE Transactions on Industrial Electronics, ISSN 0278-0046, 02/2015, Volume 62, Issue 2, pp. 1059 - 1069
This paper introduces a versatile Y-source boost dc/dc converter intended for distributed power generation, where high gain is often demanded. The proposed...
Windings | Fuel cells | Switches | Boosting | Impedance | Inductors | Stress | impedance networks | fuel cells | DC/DC converters | Z-source | distributed generation(DG) | Y-source | COUPLED-INDUCTOR | Z-SOURCE INVERTER | FUEL-CELL | CONVERSION-RATIO | INPUT CURRENT | VOLTAGE MULTIPLIER CELLS | ENGINEERING, ELECTRICAL & ELECTRONIC | INSTRUMENTS & INSTRUMENTATION | POWER-GENERATION | DC-DC CONVERTER | SWITCHED-INDUCTOR | HIGH-EFFICIENCY | AUTOMATION & CONTROL SYSTEMS | distributed generation (DG) | Equipment and supplies | Design and construction | Distributed generation (Electric power) | Electric current converters | Networks | Silicon carbide | Direct current | Mathematical analysis | Prototypes | Converters | High voltages | Tuning
Windings | Fuel cells | Switches | Boosting | Impedance | Inductors | Stress | impedance networks | fuel cells | DC/DC converters | Z-source | distributed generation(DG) | Y-source | COUPLED-INDUCTOR | Z-SOURCE INVERTER | FUEL-CELL | CONVERSION-RATIO | INPUT CURRENT | VOLTAGE MULTIPLIER CELLS | ENGINEERING, ELECTRICAL & ELECTRONIC | INSTRUMENTS & INSTRUMENTATION | POWER-GENERATION | DC-DC CONVERTER | SWITCHED-INDUCTOR | HIGH-EFFICIENCY | AUTOMATION & CONTROL SYSTEMS | distributed generation (DG) | Equipment and supplies | Design and construction | Distributed generation (Electric power) | Electric current converters | Networks | Silicon carbide | Direct current | Mathematical analysis | Prototypes | Converters | High voltages | Tuning
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Loading RightsIEEE Transactions on Industrial Electronics, ISSN 0278-0046, 06/2018, Volume 65, Issue 6, pp. 5188 - 5200
A common ground switched-quasi-Z-source bidirectional dc-dc converter is proposed for electric vehicles with hybrid energy sources. The proposed converter is...
Capacitors | Switches | DC-DC power converters | Z -source">switched-quasi- Z -source | wide-voltage-gain range | electric vehicles (EVs) | hybrid energy sources | Inductors | Stress | Low voltage | Bidirectional dc–dc converter | common ground | Logic gates | switched-quasi-Z-source | Bidirectional dcdc converter | Bidirectional dc-dc converter | TOPOLOGIES | DESIGN | INSTRUMENTS & INSTRUMENTATION | IMPLEMENTATION | AUTOMATION & CONTROL SYSTEMS | ENGINEERING, ELECTRICAL & ELECTRONIC | Electric potential | Energy resources | Hybrid vehicles | Control systems design | Converters | Electric vehicles | Energy sources | Signal analysis | Small signal analysis
Capacitors | Switches | DC-DC power converters |
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Loading RightsIEEE Transactions on Power Electronics, ISSN 0885-8993, 07/2014, Volume 29, Issue 7, pp. 3591 - 3603
Fuel cell stacks and photovoltaic panels generate rather low dc voltages and these voltages need to be boosted before converted to ac voltage. Therefore, high...
Inductance | Coupled-inductor converters | high voltage gain converters and isolated | Z-source converters | Capacitors | Switches | Discharges (electric) | dc/dc converters | Topology | Inductors | Stress | SINGLE-SWITCH | SYSTEM | BOOST CONVERTER | TOPOLOGIES | COUPLED-INDUCTOR | LIFT | RATIO | PHOTOVOLTAIC MODULES | ENGINEERING, ELECTRICAL & ELECTRONIC | INVERTERS | EFFICIENCY | Measurement | Power converters | Metal oxide semiconductor field effect transistors | Usage | Voltage | Innovations | Stresses | Electric potential | Panels | Direct current | Converters | MOSFETs
Inductance | Coupled-inductor converters | high voltage gain converters and isolated | Z-source converters | Capacitors | Switches | Discharges (electric) | dc/dc converters | Topology | Inductors | Stress | SINGLE-SWITCH | SYSTEM | BOOST CONVERTER | TOPOLOGIES | COUPLED-INDUCTOR | LIFT | RATIO | PHOTOVOLTAIC MODULES | ENGINEERING, ELECTRICAL & ELECTRONIC | INVERTERS | EFFICIENCY | Measurement | Power converters | Metal oxide semiconductor field effect transistors | Usage | Voltage | Innovations | Stresses | Electric potential | Panels | Direct current | Converters | MOSFETs
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Loading RightsIEEE Transactions on Power Electronics, ISSN 0885-8993, 12/2018, Volume 33, Issue 12, pp. 10380 - 10389
In this paper, a novel direct ac-ac converter based on the coupled inductor Z-source networks is proposed that offers a wide range of buck-boost operation. A...
Z-source impedance network | AC-AC converters | Magnetic cores | Windings | AC–AC converter | Switches | Pulse width modulation | Impedance | Inductors | single phase | AC-AC converter | INDUCTORS | DC-DC CONVERTER | Z-SOURCE INVERTERS | MAGNETIC INTEGRATION | ENGINEERING, ELECTRICAL & ELECTRONIC | Inductance | Electric potential | Voltage gain | Commutation | Converters | Switching theory
Z-source impedance network | AC-AC converters | Magnetic cores | Windings | AC–AC converter | Switches | Pulse width modulation | Impedance | Inductors | single phase | AC-AC converter | INDUCTORS | DC-DC CONVERTER | Z-SOURCE INVERTERS | MAGNETIC INTEGRATION | ENGINEERING, ELECTRICAL & ELECTRONIC | Inductance | Electric potential | Voltage gain | Commutation | Converters | Switching theory
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Loading RightsIEEE Transactions on Power Electronics, ISSN 0885-8993, 12/2015, Volume 30, Issue 12, pp. 6514 - 6519
In this letter, a new topology called "quasi-Y-source dc-dc converter" is presented. It inherits all the advantages of the original Y-source converter. In...
Smoothing methods | Windings | Capacitors | DC-DC power converters | Facsimile | Impedance | Inductors | Coupled inductor | dc-dc converter | Y-source network | impedance source network | Z-source network | dc-ac inverter | Z-SOURCE INVERTERS | ENGINEERING, ELECTRICAL & ELECTRONIC
Smoothing methods | Windings | Capacitors | DC-DC power converters | Facsimile | Impedance | Inductors | Coupled inductor | dc-dc converter | Y-source network | impedance source network | Z-source network | dc-ac inverter | Z-SOURCE INVERTERS | ENGINEERING, ELECTRICAL & ELECTRONIC
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