IEEE Transactions on Industrial Electronics, ISSN 0278-0046, 08/2011, Volume 58, Issue 8, pp. 3623 - 3633

Pulsewidth modulation (PWM) voltage source converters are becoming a popular interface to the power grid for many applications. Hence, issues related to the...

Damping | current control | LCL filters | Resonant frequency | Bandwidth | Converters | Lead | Active resonance damping | grid-connected pulsewidth modulation (PWM) converters | Frequency control | Gain | DESIGN | PWM CONVERTERS | SOURCE INVERTERS | CONTROL STRATEGY | ENGINEERING, ELECTRICAL & ELECTRONIC | CURRENT CONTROLLER | INSTRUMENTS & INSTRUMENTATION | GENERATION | OPTIMIZATION | RECTIFIERS | AUTOMATION & CONTROL SYSTEMS | Measurement | Robust statistics | Harmonic functions | Technology application | Usage | Analysis | Voltage | Innovations | Electric power systems | Digital filters | Mathematical optimization | Electric potential | Harmonics | Dynamics | Active damping | Control systems | Sensors | Pulse duration modulation

Damping | current control | LCL filters | Resonant frequency | Bandwidth | Converters | Lead | Active resonance damping | grid-connected pulsewidth modulation (PWM) converters | Frequency control | Gain | DESIGN | PWM CONVERTERS | SOURCE INVERTERS | CONTROL STRATEGY | ENGINEERING, ELECTRICAL & ELECTRONIC | CURRENT CONTROLLER | INSTRUMENTS & INSTRUMENTATION | GENERATION | OPTIMIZATION | RECTIFIERS | AUTOMATION & CONTROL SYSTEMS | Measurement | Robust statistics | Harmonic functions | Technology application | Usage | Analysis | Voltage | Innovations | Electric power systems | Digital filters | Mathematical optimization | Electric potential | Harmonics | Dynamics | Active damping | Control systems | Sensors | Pulse duration modulation

Journal Article

IEEE Transactions on Power Electronics, ISSN 0885-8993, 03/2014, Volume 29, Issue 3, pp. 1254 - 1261

This paper presents small-signal impedance modeling of grid-connected three-phase converters for wind and solar system stability analysis. In the proposed...

Current control | Converter stability | Frequency-domain analysis | impedance modeling | grid-connected converters | Impedance | Power conversion | harmonic resonance | Phase locked loops | Modeling | POWER-GENERATION SYSTEMS | ENGINEERING, ELECTRICAL & ELECTRONIC | Measurement | Power converters | Stability | Analysis | Voltage | Innovations | Design and construction | Impedance (Electricity) | Electric power systems

Current control | Converter stability | Frequency-domain analysis | impedance modeling | grid-connected converters | Impedance | Power conversion | harmonic resonance | Phase locked loops | Modeling | POWER-GENERATION SYSTEMS | ENGINEERING, ELECTRICAL & ELECTRONIC | Measurement | Power converters | Stability | Analysis | Voltage | Innovations | Design and construction | Impedance (Electricity) | Electric power systems

Journal Article

IEEE Transactions on Power Electronics, ISSN 0885-8993, 10/2016, Volume 31, Issue 10, pp. 6792 - 6796

The output impedance of a power converter plays an important role in the stability assessment of the converter. The impedance can be expressed in different...

Couplings | Impedance modelling | Stability criteria | Grid-connected inverters | Harmonic stability | Bandwidth | Power system stability | Impedance | Phase locked loops | POWER-ELECTRONICS | harmonic stability | impedance modeling | ENGINEERING, ELECTRICAL & ELECTRONIC | Phase-locked loops | Power electronics | Research | Electric current converters | Frames | Synchronous | Sequences | Stability | Converters | Electronics

Couplings | Impedance modelling | Stability criteria | Grid-connected inverters | Harmonic stability | Bandwidth | Power system stability | Impedance | Phase locked loops | POWER-ELECTRONICS | harmonic stability | impedance modeling | ENGINEERING, ELECTRICAL & ELECTRONIC | Phase-locked loops | Power electronics | Research | Electric current converters | Frames | Synchronous | Sequences | Stability | Converters | Electronics

Journal Article

2019, ISBN 9783038979746

Power electronics technology is still an emerging technology, and it has found its way into many applications, from renewable energy generation (i.e., wind...

Q-factor | lithium-ion power battery pack | electromagnetic field (EMF) | expert systems | total harmonic distortion (THD) | current-fed inverter | rotor design | class-D amplifier | LCL-S topology | current switching ripple | system in package | energy storage modelling | smart micro-grid | embedded systems | equivalent inductance | SHIL | permanent magnet | static var generator (SVG) | permanent magnet synchronous motor (PMSM) | control strategy and algorithm | digital control | zero-voltage switching (ZVS) | SOC estimator | electric power | optimal design | electromagnetic field interference (EMI) | line frequency instability | analog phase control | five-phase permanent magnet synchronous machine | distribution generation | leakage inductance | adjacent two-phase open circuit fault (A2-Ph) | chaotic PWM | electric vehicles | CMOS chaotic circuit | series active filter | cascaded topology | total demand distortion | efficiency motor | triangular ramp generator | 4T analog MOS control | inductive coupling | induction machines | nanocrystalline core | semi-active bridge | multi-level control | simulation models | voltage source inverters (VSI) | battery management system BMS | voltage source converter | current control loops | droop control | particle swarm optimization | variable control gain | state of charge SoC | extended Kalman filter | transient control | multi-objective optimization | composite equalizer | converter | DHIL | five-leg voltage source inverter | axial flux machines | bifurcation | active receivers | field programmable gate array | Nyquist stability analysis | electric vehicle | static compensator | stability | common-mode inductor | support vector machines | electromagnetic compatibility | real-time simulation | passive equalization | matrix converters | wireless power transfer | digital phase control | compensation topology | volt-per-hertz control (scalar control) | switching losses | voltage control | hybrid converter | bidirectional converter | coupling factor | selective harmonic elimination method | power electronics | soft switching | optimization design | multilevel inverter | five-phase machine | phase-shift control | lithium-ion battery | voltage boost | VPI active damping control | parameter identification | electrical engineering communications | current control | battery management system | GaN cascode | single-switch | high-frequency modeling | synchronous motor | power quality | water purification | power factor correction (PFC) | composite active vectors modulation (CVM) | digital signal controller | line start | power density | hardware in loop | n/a | fault diagnosis | multi-level converter (MLC) | induction motor | dual three-phase (DTP) permanent magnet synchronous motors (PMSMs) | neural networks | electromagnetic interference filter | battery chargers | power converter | harmonics | multiphase space vector modulation | torque ripple | power factor correction | electrical drives | modular multilevel converter (MMC) | active power filter | double layer capacitor (DLC) models | PMSG | response time | resonator structure | floating-point | effect factors | DC-link voltage control | sliding mode control | phasor model technique | wireless power transfer (WPT) | slim DC-link drive | fault-tolerant control | lithium-ion batteries | DC-AC power converters | conducting angle determination (CAD) techniques | variable speed pumped storage system | impedance-based model | one cycle control | renewable energy sources | series-series compensation | cogging torque | active rectifiers | three-level boost converter (TLBC) | DC-link cascade H-bridge (DCLCHB) inverter | battery energy storage systems | filter | power management system | improved extended Kalman filter | dead-time compensation | disturbance observer | reference phase calibration | frequency locking | space vector pulse width modulation (SVPWM) | predictive controllers | nine switch converter | transmission line | spread-spectrum technique | energy storage | electromagnetic interference | renewable energy resources control | harmonic linearization | misalignment | plug-in hybrid electric vehicles | high level programing | DC power converters | nearest level modulation (NLM) | magnetic equivalent circuit | EMI filter | permanent-magnet machines | real-time emulation | switched capacitor | back EMF | fixed-point | DC converters | HF-link MPPT converter | condition monitoring | WPT standards | switching frequency | switching frequency modelling | high frequency switching power supply | field-programmable gate array | three-phase bridgeless rectifier | ice melting | hybrid power filter | PSpice | microgrid control | total harmonic distortion | grid-connected inverter | dynamic PV model | fuzzy | boost converter | SiC PV Supply | voltage doubling | nonlinear control | distributed control | power system operation and control | one phase open circuit fault (1-Ph) | direct torque control (DTC) | battery modeling | non-linear phenomena | frequency-domain analysis | advanced controllers | vector control | fixed-frequency double integral sliding-mode (FFDISM) | power converters | modulation index | DC-DC buck converter | small signal stability analysis | active equalization | voltage source inverter | hardware-in-the-loop | current source | synchronization | DC conversion | grid-connected VSI | synchronous generator | fault tolerant control

Q-factor | lithium-ion power battery pack | electromagnetic field (EMF) | expert systems | total harmonic distortion (THD) | current-fed inverter | rotor design | class-D amplifier | LCL-S topology | current switching ripple | system in package | energy storage modelling | smart micro-grid | embedded systems | equivalent inductance | SHIL | permanent magnet | static var generator (SVG) | permanent magnet synchronous motor (PMSM) | control strategy and algorithm | digital control | zero-voltage switching (ZVS) | SOC estimator | electric power | optimal design | electromagnetic field interference (EMI) | line frequency instability | analog phase control | five-phase permanent magnet synchronous machine | distribution generation | leakage inductance | adjacent two-phase open circuit fault (A2-Ph) | chaotic PWM | electric vehicles | CMOS chaotic circuit | series active filter | cascaded topology | total demand distortion | efficiency motor | triangular ramp generator | 4T analog MOS control | inductive coupling | induction machines | nanocrystalline core | semi-active bridge | multi-level control | simulation models | voltage source inverters (VSI) | battery management system BMS | voltage source converter | current control loops | droop control | particle swarm optimization | variable control gain | state of charge SoC | extended Kalman filter | transient control | multi-objective optimization | composite equalizer | converter | DHIL | five-leg voltage source inverter | axial flux machines | bifurcation | active receivers | field programmable gate array | Nyquist stability analysis | electric vehicle | static compensator | stability | common-mode inductor | support vector machines | electromagnetic compatibility | real-time simulation | passive equalization | matrix converters | wireless power transfer | digital phase control | compensation topology | volt-per-hertz control (scalar control) | switching losses | voltage control | hybrid converter | bidirectional converter | coupling factor | selective harmonic elimination method | power electronics | soft switching | optimization design | multilevel inverter | five-phase machine | phase-shift control | lithium-ion battery | voltage boost | VPI active damping control | parameter identification | electrical engineering communications | current control | battery management system | GaN cascode | single-switch | high-frequency modeling | synchronous motor | power quality | water purification | power factor correction (PFC) | composite active vectors modulation (CVM) | digital signal controller | line start | power density | hardware in loop | n/a | fault diagnosis | multi-level converter (MLC) | induction motor | dual three-phase (DTP) permanent magnet synchronous motors (PMSMs) | neural networks | electromagnetic interference filter | battery chargers | power converter | harmonics | multiphase space vector modulation | torque ripple | power factor correction | electrical drives | modular multilevel converter (MMC) | active power filter | double layer capacitor (DLC) models | PMSG | response time | resonator structure | floating-point | effect factors | DC-link voltage control | sliding mode control | phasor model technique | wireless power transfer (WPT) | slim DC-link drive | fault-tolerant control | lithium-ion batteries | DC-AC power converters | conducting angle determination (CAD) techniques | variable speed pumped storage system | impedance-based model | one cycle control | renewable energy sources | series-series compensation | cogging torque | active rectifiers | three-level boost converter (TLBC) | DC-link cascade H-bridge (DCLCHB) inverter | battery energy storage systems | filter | power management system | improved extended Kalman filter | dead-time compensation | disturbance observer | reference phase calibration | frequency locking | space vector pulse width modulation (SVPWM) | predictive controllers | nine switch converter | transmission line | spread-spectrum technique | energy storage | electromagnetic interference | renewable energy resources control | harmonic linearization | misalignment | plug-in hybrid electric vehicles | high level programing | DC power converters | nearest level modulation (NLM) | magnetic equivalent circuit | EMI filter | permanent-magnet machines | real-time emulation | switched capacitor | back EMF | fixed-point | DC converters | HF-link MPPT converter | condition monitoring | WPT standards | switching frequency | switching frequency modelling | high frequency switching power supply | field-programmable gate array | three-phase bridgeless rectifier | ice melting | hybrid power filter | PSpice | microgrid control | total harmonic distortion | grid-connected inverter | dynamic PV model | fuzzy | boost converter | SiC PV Supply | voltage doubling | nonlinear control | distributed control | power system operation and control | one phase open circuit fault (1-Ph) | direct torque control (DTC) | battery modeling | non-linear phenomena | frequency-domain analysis | advanced controllers | vector control | fixed-frequency double integral sliding-mode (FFDISM) | power converters | modulation index | DC-DC buck converter | small signal stability analysis | active equalization | voltage source inverter | hardware-in-the-loop | current source | synchronization | DC conversion | grid-connected VSI | synchronous generator | fault tolerant control

eBook

2019, ISBN 9783039210206

Power electronics technology is still an emerging technology, and it has found its way into many applications, from renewable energy generation (i.e., wind...

Q-factor | lithium-ion power battery pack | electromagnetic field (EMF) | expert systems | total harmonic distortion (THD) | current-fed inverter | rotor design | class-D amplifier | LCL-S topology | current switching ripple | system in package | energy storage modelling | smart micro-grid | embedded systems | equivalent inductance | SHIL | permanent magnet | static var generator (SVG) | permanent magnet synchronous motor (PMSM) | control strategy and algorithm | digital control | zero-voltage switching (ZVS) | SOC estimator | electric power | optimal design | electromagnetic field interference (EMI) | line frequency instability | analog phase control | five-phase permanent magnet synchronous machine | distribution generation | leakage inductance | adjacent two-phase open circuit fault (A2-Ph) | chaotic PWM | electric vehicles | CMOS chaotic circuit | series active filter | cascaded topology | total demand distortion | efficiency motor | triangular ramp generator | 4T analog MOS control | inductive coupling | induction machines | nanocrystalline core | semi-active bridge | multi-level control | simulation models | voltage source inverters (VSI) | battery management system BMS | voltage source converter | current control loops | droop control | particle swarm optimization | variable control gain | state of charge SoC | extended Kalman filter | transient control | multi-objective optimization | composite equalizer | converter | DHIL | five-leg voltage source inverter | axial flux machines | bifurcation | active receivers | field programmable gate array | Nyquist stability analysis | electric vehicle | static compensator | stability | common-mode inductor | support vector machines | electromagnetic compatibility | real-time simulation | passive equalization | matrix converters | wireless power transfer | digital phase control | compensation topology | volt-per-hertz control (scalar control) | switching losses | voltage control | hybrid converter | bidirectional converter | coupling factor | selective harmonic elimination method | power electronics | soft switching | optimization design | multilevel inverter | five-phase machine | phase-shift control | lithium-ion battery | voltage boost | VPI active damping control | parameter identification | electrical engineering communications | current control | battery management system | GaN cascode | single-switch | high-frequency modeling | synchronous motor | power quality | water purification | power factor correction (PFC) | composite active vectors modulation (CVM) | digital signal controller | line start | power density | hardware in loop | n/a | fault diagnosis | multi-level converter (MLC) | induction motor | dual three-phase (DTP) permanent magnet synchronous motors (PMSMs) | neural networks | electromagnetic interference filter | battery chargers | power converter | harmonics | multiphase space vector modulation | torque ripple | power factor correction | electrical drives | modular multilevel converter (MMC) | active power filter | double layer capacitor (DLC) models | PMSG | response time | resonator structure | floating-point | effect factors | DC-link voltage control | sliding mode control | phasor model technique | wireless power transfer (WPT) | slim DC-link drive | fault-tolerant control | lithium-ion batteries | DC-AC power converters | conducting angle determination (CAD) techniques | variable speed pumped storage system | impedance-based model | one cycle control | renewable energy sources | series-series compensation | cogging torque | active rectifiers | three-level boost converter (TLBC) | DC-link cascade H-bridge (DCLCHB) inverter | battery energy storage systems | filter | power management system | improved extended Kalman filter | dead-time compensation | disturbance observer | reference phase calibration | frequency locking | space vector pulse width modulation (SVPWM) | predictive controllers | nine switch converter | transmission line | spread-spectrum technique | energy storage | electromagnetic interference | renewable energy resources control | harmonic linearization | misalignment | plug-in hybrid electric vehicles | high level programing | DC power converters | nearest level modulation (NLM) | magnetic equivalent circuit | EMI filter | permanent-magnet machines | real-time emulation | switched capacitor | back EMF | fixed-point | DC converters | HF-link MPPT converter | condition monitoring | WPT standards | switching frequency | switching frequency modelling | high frequency switching power supply | field-programmable gate array | three-phase bridgeless rectifier | ice melting | hybrid power filter | PSpice | microgrid control | total harmonic distortion | grid-connected inverter | dynamic PV model | fuzzy | boost converter | SiC PV Supply | voltage doubling | nonlinear control | distributed control | power system operation and control | one phase open circuit fault (1-Ph) | direct torque control (DTC) | battery modeling | non-linear phenomena | frequency-domain analysis | advanced controllers | vector control | fixed-frequency double integral sliding-mode (FFDISM) | power converters | modulation index | DC-DC buck converter | small signal stability analysis | active equalization | voltage source inverter | hardware-in-the-loop | current source | synchronization | DC conversion | grid-connected VSI | synchronous generator | fault tolerant control

Q-factor | lithium-ion power battery pack | electromagnetic field (EMF) | expert systems | total harmonic distortion (THD) | current-fed inverter | rotor design | class-D amplifier | LCL-S topology | current switching ripple | system in package | energy storage modelling | smart micro-grid | embedded systems | equivalent inductance | SHIL | permanent magnet | static var generator (SVG) | permanent magnet synchronous motor (PMSM) | control strategy and algorithm | digital control | zero-voltage switching (ZVS) | SOC estimator | electric power | optimal design | electromagnetic field interference (EMI) | line frequency instability | analog phase control | five-phase permanent magnet synchronous machine | distribution generation | leakage inductance | adjacent two-phase open circuit fault (A2-Ph) | chaotic PWM | electric vehicles | CMOS chaotic circuit | series active filter | cascaded topology | total demand distortion | efficiency motor | triangular ramp generator | 4T analog MOS control | inductive coupling | induction machines | nanocrystalline core | semi-active bridge | multi-level control | simulation models | voltage source inverters (VSI) | battery management system BMS | voltage source converter | current control loops | droop control | particle swarm optimization | variable control gain | state of charge SoC | extended Kalman filter | transient control | multi-objective optimization | composite equalizer | converter | DHIL | five-leg voltage source inverter | axial flux machines | bifurcation | active receivers | field programmable gate array | Nyquist stability analysis | electric vehicle | static compensator | stability | common-mode inductor | support vector machines | electromagnetic compatibility | real-time simulation | passive equalization | matrix converters | wireless power transfer | digital phase control | compensation topology | volt-per-hertz control (scalar control) | switching losses | voltage control | hybrid converter | bidirectional converter | coupling factor | selective harmonic elimination method | power electronics | soft switching | optimization design | multilevel inverter | five-phase machine | phase-shift control | lithium-ion battery | voltage boost | VPI active damping control | parameter identification | electrical engineering communications | current control | battery management system | GaN cascode | single-switch | high-frequency modeling | synchronous motor | power quality | water purification | power factor correction (PFC) | composite active vectors modulation (CVM) | digital signal controller | line start | power density | hardware in loop | n/a | fault diagnosis | multi-level converter (MLC) | induction motor | dual three-phase (DTP) permanent magnet synchronous motors (PMSMs) | neural networks | electromagnetic interference filter | battery chargers | power converter | harmonics | multiphase space vector modulation | torque ripple | power factor correction | electrical drives | modular multilevel converter (MMC) | active power filter | double layer capacitor (DLC) models | PMSG | response time | resonator structure | floating-point | effect factors | DC-link voltage control | sliding mode control | phasor model technique | wireless power transfer (WPT) | slim DC-link drive | fault-tolerant control | lithium-ion batteries | DC-AC power converters | conducting angle determination (CAD) techniques | variable speed pumped storage system | impedance-based model | one cycle control | renewable energy sources | series-series compensation | cogging torque | active rectifiers | three-level boost converter (TLBC) | DC-link cascade H-bridge (DCLCHB) inverter | battery energy storage systems | filter | power management system | improved extended Kalman filter | dead-time compensation | disturbance observer | reference phase calibration | frequency locking | space vector pulse width modulation (SVPWM) | predictive controllers | nine switch converter | transmission line | spread-spectrum technique | energy storage | electromagnetic interference | renewable energy resources control | harmonic linearization | misalignment | plug-in hybrid electric vehicles | high level programing | DC power converters | nearest level modulation (NLM) | magnetic equivalent circuit | EMI filter | permanent-magnet machines | real-time emulation | switched capacitor | back EMF | fixed-point | DC converters | HF-link MPPT converter | condition monitoring | WPT standards | switching frequency | switching frequency modelling | high frequency switching power supply | field-programmable gate array | three-phase bridgeless rectifier | ice melting | hybrid power filter | PSpice | microgrid control | total harmonic distortion | grid-connected inverter | dynamic PV model | fuzzy | boost converter | SiC PV Supply | voltage doubling | nonlinear control | distributed control | power system operation and control | one phase open circuit fault (1-Ph) | direct torque control (DTC) | battery modeling | non-linear phenomena | frequency-domain analysis | advanced controllers | vector control | fixed-frequency double integral sliding-mode (FFDISM) | power converters | modulation index | DC-DC buck converter | small signal stability analysis | active equalization | voltage source inverter | hardware-in-the-loop | current source | synchronization | DC conversion | grid-connected VSI | synchronous generator | fault tolerant control

eBook

IEEE Transactions on Industrial Electronics, ISSN 0278-0046, 07/2011, Volume 58, Issue 7, pp. 3016 - 3026

This paper presents a linear direct-quadrature current control strategy for voltage source converters (VSCs) in a rotating reference frame (RRF). The described...

Couplings | Current control | multivariable-proportional-integral (PI) controllers | Transfer functions | stationary and rotating reference frames | Steady-state | Power conversion | Voltage control | voltage source converters (VSCs) | vector control | multivariable-proportionalintegral (PI) controllers | FILTER | COMPENSATION | GRID-CONNECTED INVERTERS | MODEL | FRAME | ENGINEERING, ELECTRICAL & ELECTRONIC | INSTRUMENTS & INSTRUMENTATION | PREDICTIVE CURRENT CONTROL | SYSTEMS | RECTIFIERS | AUTOMATION & CONTROL SYSTEMS | CURRENT CONTROL SCHEME | Measurement | Pulse-duration modulation | Technology application | Usage | Electric inverters | Digital integrated circuits | Innovations | Voltage | Shafting | Methods | Rejection | Electric potential | Regulators | Decoupling | Disturbances | Converters | Strategy

Couplings | Current control | multivariable-proportional-integral (PI) controllers | Transfer functions | stationary and rotating reference frames | Steady-state | Power conversion | Voltage control | voltage source converters (VSCs) | vector control | multivariable-proportionalintegral (PI) controllers | FILTER | COMPENSATION | GRID-CONNECTED INVERTERS | MODEL | FRAME | ENGINEERING, ELECTRICAL & ELECTRONIC | INSTRUMENTS & INSTRUMENTATION | PREDICTIVE CURRENT CONTROL | SYSTEMS | RECTIFIERS | AUTOMATION & CONTROL SYSTEMS | CURRENT CONTROL SCHEME | Measurement | Pulse-duration modulation | Technology application | Usage | Electric inverters | Digital integrated circuits | Innovations | Voltage | Shafting | Methods | Rejection | Electric potential | Regulators | Decoupling | Disturbances | Converters | Strategy

Journal Article

IEEE Transactions on Power Electronics, ISSN 0885-8993, 03/2007, Volume 22, Issue 2, pp. 584 - 592

This paper deals with a crucial aspect in the control of grid-connected power converters, i.e., the detection of the fundamental-frequency positive-sequence...

positive sequence signals detection | Flexible AC transmission systems | phase locked loop (PLL) | Frequency estimation | Phase locked loops | Voltage control | Phase detection | Uninterruptible power systems | Detectors | Distributed control | Robustness | Grid-connected converters | Frequency synchronization | synchronous reference frame (SRF) | Positive sequence signals detection | Phase locked loop (PLL) | Synchronous reference frame (SRF) | SYNCHRONIZATION | VOLTAGE | COMPENSATION | grid-connected converters | FREQUENCY | LOCKED LOOP SYSTEM | ENGINEERING, ELECTRICAL & ELECTRONIC | Power converters | Design and construction | Digital signal processors | Analysis | Voltage | Electric potential | Synchronous | Utilities | Decoupling | Electronics | Distortion

positive sequence signals detection | Flexible AC transmission systems | phase locked loop (PLL) | Frequency estimation | Phase locked loops | Voltage control | Phase detection | Uninterruptible power systems | Detectors | Distributed control | Robustness | Grid-connected converters | Frequency synchronization | synchronous reference frame (SRF) | Positive sequence signals detection | Phase locked loop (PLL) | Synchronous reference frame (SRF) | SYNCHRONIZATION | VOLTAGE | COMPENSATION | grid-connected converters | FREQUENCY | LOCKED LOOP SYSTEM | ENGINEERING, ELECTRICAL & ELECTRONIC | Power converters | Design and construction | Digital signal processors | Analysis | Voltage | Electric potential | Synchronous | Utilities | Decoupling | Electronics | Distortion

Journal Article

IEEE Transactions on Industrial Electronics, ISSN 0278-0046, 12/2012, Volume 59, Issue 12, pp. 4681 - 4693

This paper presents a discrete-time adaptive current controller for grid-connected pulse width modulation voltage source converters with LCL filter. The main...

Current control | Adaptation models | State feedback | LCL filter | Current measurement | grid-connected converters | model reference adaptive control (MRAC) | Power system stability | Stability analysis | Impedance | Voltage control | DESIGN | PWM CONVERTERS | IMPEDANCE ESTIMATION | VOLTAGE-SOURCE | ENGINEERING, ELECTRICAL & ELECTRONIC | INVERTERS | SYNCHRONIZATION | INSTRUMENTS & INSTRUMENTATION | RECTIFIERS | AUTOMATION & CONTROL SYSTEMS | Measurement | Power converters | Usage | Frequency modulation | Short circuits | Feedback control systems | Analysis | Innovations | Impedance (Electricity) | Studies | Controllers | Electric potential | Feedback | Voltage | Converters | Pulse duration modulation | Delay | Readers | Adaptive control systems

Current control | Adaptation models | State feedback | LCL filter | Current measurement | grid-connected converters | model reference adaptive control (MRAC) | Power system stability | Stability analysis | Impedance | Voltage control | DESIGN | PWM CONVERTERS | IMPEDANCE ESTIMATION | VOLTAGE-SOURCE | ENGINEERING, ELECTRICAL & ELECTRONIC | INVERTERS | SYNCHRONIZATION | INSTRUMENTS & INSTRUMENTATION | RECTIFIERS | AUTOMATION & CONTROL SYSTEMS | Measurement | Power converters | Usage | Frequency modulation | Short circuits | Feedback control systems | Analysis | Innovations | Impedance (Electricity) | Studies | Controllers | Electric potential | Feedback | Voltage | Converters | Pulse duration modulation | Delay | Readers | Adaptive control systems

Journal Article

IEEE Transactions on Industrial Electronics, ISSN 0278-0046, 04/2011, Volume 58, Issue 4, pp. 1239 - 1250

The photovoltaic (PV) grid-connected power system in the residential applications is becoming a fast growing segment in the PV market due to the shortage of...

Photovoltaic systems | Costs | DC-DC power converters | high step-up | low cost and high efficiency | photovoltaic (PV) grid connected | Fossil fuels | Solar power generation | Circuit topology | Low voltage | Pollution | Boost converters | Safety | Power generation | GENERATORS | BUCK | CONVERSION | POWER POINT TRACKING | COUPLED INDUCTORS | INVERTER | DC-DC-CONVERTER | ENGINEERING, ELECTRICAL & ELECTRONIC | INSTRUMENTS & INSTRUMENTATION | INTERLEAVED BOOST CONVERTERS | HIGH-EFFICIENCY | AUTOMATION & CONTROL SYSTEMS | CIRCUIT | Direct current | Analysis | Efficiency | Solar cells | Photovoltaic cells | Categories | Residential | Converters | Markets | Topology | Conversion

Photovoltaic systems | Costs | DC-DC power converters | high step-up | low cost and high efficiency | photovoltaic (PV) grid connected | Fossil fuels | Solar power generation | Circuit topology | Low voltage | Pollution | Boost converters | Safety | Power generation | GENERATORS | BUCK | CONVERSION | POWER POINT TRACKING | COUPLED INDUCTORS | INVERTER | DC-DC-CONVERTER | ENGINEERING, ELECTRICAL & ELECTRONIC | INSTRUMENTS & INSTRUMENTATION | INTERLEAVED BOOST CONVERTERS | HIGH-EFFICIENCY | AUTOMATION & CONTROL SYSTEMS | CIRCUIT | Direct current | Analysis | Efficiency | Solar cells | Photovoltaic cells | Categories | Residential | Converters | Markets | Topology | Conversion

Journal Article

IEEE Transactions on Power Electronics, ISSN 0885-8993, 12/2015, Volume 30, Issue 12, pp. 7019 - 7037

The virtual impedance concept is increasingly used for the control of power electronic systems. Generally, the virtual impedance loop can either be embedded as...

power flow control | fault ride-through | Power system harmonics | Power system stability | Harmonic analysis | voltage-source converter | Power conversion | Voltage control | Virtual impedance | harmonic/unbalance compensation | current-source converter | active stabilization | Impedance | virtual impedance | Active stabilization | current-source converter (CSC) | voltage-source converter (VSC) | DESIGN | POWER-ELECTRONICS | INPUT LC FILTER | GRID-CONNECTED INVERTERS | PWM | SENSORLESS-CONTROL | ENGINEERING, ELECTRICAL & ELECTRONIC | INTERFACE | ACTIVE DAMPING CONTROL | DISTRIBUTED GENERATION UNITS | CURRENT-SOURCE RECTIFIER | Power converters | Usage | Power electronics | Research | Impedance (Electricity)

power flow control | fault ride-through | Power system harmonics | Power system stability | Harmonic analysis | voltage-source converter | Power conversion | Voltage control | Virtual impedance | harmonic/unbalance compensation | current-source converter | active stabilization | Impedance | virtual impedance | Active stabilization | current-source converter (CSC) | voltage-source converter (VSC) | DESIGN | POWER-ELECTRONICS | INPUT LC FILTER | GRID-CONNECTED INVERTERS | PWM | SENSORLESS-CONTROL | ENGINEERING, ELECTRICAL & ELECTRONIC | INTERFACE | ACTIVE DAMPING CONTROL | DISTRIBUTED GENERATION UNITS | CURRENT-SOURCE RECTIFIER | Power converters | Usage | Power electronics | Research | Impedance (Electricity)

Journal Article

IEEE Transactions on Industrial Electronics, ISSN 0278-0046, 2014, Volume 61, Issue 3, pp. 1516 - 1527

In this paper, a generic digital nk +/- m-order harmonic repetitive control (nk +/- m RC) scheme is presented for constant-voltage constant-frequency...

internal model principle (IMP) | repetitive control (RC) | pulsewidth-modulation (PWM) converter | nk ± m-order harmonic components | Error convergence rate | INSTRUMENTS & INSTRUMENTATION | COMPENSATION | TRACKING | GRID-CONNECTED INVERTER | AUTOMATION & CONTROL SYSTEMS | nk +/- m-order harmonic components | ENGINEERING, ELECTRICAL & ELECTRONIC

internal model principle (IMP) | repetitive control (RC) | pulsewidth-modulation (PWM) converter | nk ± m-order harmonic components | Error convergence rate | INSTRUMENTS & INSTRUMENTATION | COMPENSATION | TRACKING | GRID-CONNECTED INVERTER | AUTOMATION & CONTROL SYSTEMS | nk +/- m-order harmonic components | ENGINEERING, ELECTRICAL & ELECTRONIC

Journal Article

12.
Full Text
Observer-Based Active Damping of LCL Resonance in Grid-Connected Voltage Source Converters

IEEE Transactions on Industry Applications, ISSN 0093-9994, 11/2014, Volume 50, Issue 6, pp. 3977 - 3985

Voltage source converters (VSCs) with LCL filters are attractive in grid-connected applications because they greatly reduce the pollution of the utility...

Damping | Current measurement | Capacitors | Resonant frequency | Observers | Delays | Power harmonic filters | LCL filter | ac-dc converters | Active damping (AD) | gridconnected pulse width modulation (PWM) rectifier | observers | grid-connected pulse width modulation (PWM) rectifier | INVERTERS | PWM CONVERTERS | FILTER | ENGINEERING, MULTIDISCIPLINARY | DIRECT POWER-CONTROL | MODEL | ENGINEERING, ELECTRICAL & ELECTRONIC | Electric filters | Research | Electric current converters | Engineering research | Properties | Damping (Mechanics) | Repair & maintenance | Resistors | Electric potential | Voltage | Converters | Active damping | Sensors | Feedforward

Damping | Current measurement | Capacitors | Resonant frequency | Observers | Delays | Power harmonic filters | LCL filter | ac-dc converters | Active damping (AD) | gridconnected pulse width modulation (PWM) rectifier | observers | grid-connected pulse width modulation (PWM) rectifier | INVERTERS | PWM CONVERTERS | FILTER | ENGINEERING, MULTIDISCIPLINARY | DIRECT POWER-CONTROL | MODEL | ENGINEERING, ELECTRICAL & ELECTRONIC | Electric filters | Research | Electric current converters | Engineering research | Properties | Damping (Mechanics) | Repair & maintenance | Resistors | Electric potential | Voltage | Converters | Active damping | Sensors | Feedforward

Journal Article

IEEE Transactions on Power Electronics, ISSN 0885-8993, 08/2014, Volume 29, Issue 8, pp. 4322 - 4338

This paper presents a new high-order filter for three-phase grid-connected voltage source converters (VSCs) named the inductor-trap-capacitor-inductor (LTCL)...

series resonant circuit | Passive filters | LCL filter | Pulse width modulation | pulse-width modulation (PWM) carrier and sideband harmonics | Harmonic analysis | LLCL filter | Power conversion | Power harmonic filters | multituned traps filter | Switching frequency | Grid-connected voltage source converter (VSC) | trap filter | inductor-trap-capacitor-inductor (LTCL) filter | DESIGN | STRATEGY | INVERTER | ENGINEERING, ELECTRICAL & ELECTRONIC | LCL-FILTER | FEEDBACK | Power converters | Measurement | Usage | Capacitors | Voltage | Electric filters | Design and construction | Inductors | Inductance | Noise levels | Sensitivity analysis | Converters | Attenuation | Frequency ranges | Switching

series resonant circuit | Passive filters | LCL filter | Pulse width modulation | pulse-width modulation (PWM) carrier and sideband harmonics | Harmonic analysis | LLCL filter | Power conversion | Power harmonic filters | multituned traps filter | Switching frequency | Grid-connected voltage source converter (VSC) | trap filter | inductor-trap-capacitor-inductor (LTCL) filter | DESIGN | STRATEGY | INVERTER | ENGINEERING, ELECTRICAL & ELECTRONIC | LCL-FILTER | FEEDBACK | Power converters | Measurement | Usage | Capacitors | Voltage | Electric filters | Design and construction | Inductors | Inductance | Noise levels | Sensitivity analysis | Converters | Attenuation | Frequency ranges | Switching

Journal Article

IEEE Transactions on Power Electronics, ISSN 0885-8993, 07/2004, Volume 19, Issue 4, pp. 1130 - 1139

New residential scale photovoltaic (PV) arrays are commonly connected to the grid by a single dc-ac inverter connected to a series string of pv panels, or many...

Photovoltaic systems | Low voltage | Costs | Fuel cells | Inverters | Power electronics | Topology | Batteries | Power systems | Solar power generation | cascaded converter | series connected converter | multilevel converter | maximum power point tracking (MPPT) | grid connected photovoltaic (PV) | module integrated converters (MICs) | Matlab efficiency simulation | ENGINEERING, ELECTRICAL & ELECTRONIC | Research | Solar cells | Panels | Photovoltaic cells | Converters | Strings | Matlab

Photovoltaic systems | Low voltage | Costs | Fuel cells | Inverters | Power electronics | Topology | Batteries | Power systems | Solar power generation | cascaded converter | series connected converter | multilevel converter | maximum power point tracking (MPPT) | grid connected photovoltaic (PV) | module integrated converters (MICs) | Matlab efficiency simulation | ENGINEERING, ELECTRICAL & ELECTRONIC | Research | Solar cells | Panels | Photovoltaic cells | Converters | Strings | Matlab

Journal Article

IEEE Transactions on Power Electronics, ISSN 0885-8993, 09/2017, Volume 32, Issue 9, pp. 6823 - 6835

An increasing number of power-electronic-based distributed generation systems and loads generate not only characteristic harmonics but also unexpected...

Analytical models | Switches | Power system harmonics | Harmonic analysis | Harmonic coupling analysis | Mathematical model | harmonic state-space (HSS) modeling | Integrated circuit modeling | Load modeling | three-phase grid-connected converter | POWER-SYSTEMS | EMISSIONS | ENGINEERING, ELECTRICAL & ELECTRONIC | Integrated circuits | Usage | Mathematical models | Analysis | Semiconductor chips | Harmonics | Load distribution (forces) | Computer simulation | Distributed generation | Modelling | Switching | Electric power distribution

Analytical models | Switches | Power system harmonics | Harmonic analysis | Harmonic coupling analysis | Mathematical model | harmonic state-space (HSS) modeling | Integrated circuit modeling | Load modeling | three-phase grid-connected converter | POWER-SYSTEMS | EMISSIONS | ENGINEERING, ELECTRICAL & ELECTRONIC | Integrated circuits | Usage | Mathematical models | Analysis | Semiconductor chips | Harmonics | Load distribution (forces) | Computer simulation | Distributed generation | Modelling | Switching | Electric power distribution

Journal Article

Zhongguo Dianji Gongcheng Xuebao/Proceedings of the Chinese Society of Electrical Engineering, ISSN 0258-8013, 03/2017, Volume 37, Issue 5, pp. 1277 - 1292

Journal Article

IEEE Transactions on Power Electronics, ISSN 0885-8993, 09/2010, Volume 25, Issue 9, pp. 2320 - 2330

Design and analysis of PI state space control for grid-connected pulsewidth modulation (PWM) converters with LCL filters based on pole placement approach is...

Damping | State feedback | Control systems | State-space methods | Active resonance damping | Current control | Pulse width modulation converters | Filters | LCL filters | state space control | Controllability | Resonance | grid-connected pulsewidth modulation (PWM) converters | Poles and zeros | current control | VOLTAGE-SOURCE CONVERTER | DESIGN | COMPENSATION | ENGINEERING, ELECTRICAL & ELECTRONIC | INVERTERS | RESONANCE | GENERATION | RECTIFIERS | Electronic control | Electric current converters | Electric controllers | Innovations | Design and construction | Damping (Mechanics) | Methods | Design engineering | Dynamics | Converters | Pole placement | Pulse duration modulation | Dynamical systems | Polyimide resins | Matlab

Damping | State feedback | Control systems | State-space methods | Active resonance damping | Current control | Pulse width modulation converters | Filters | LCL filters | state space control | Controllability | Resonance | grid-connected pulsewidth modulation (PWM) converters | Poles and zeros | current control | VOLTAGE-SOURCE CONVERTER | DESIGN | COMPENSATION | ENGINEERING, ELECTRICAL & ELECTRONIC | INVERTERS | RESONANCE | GENERATION | RECTIFIERS | Electronic control | Electric current converters | Electric controllers | Innovations | Design and construction | Damping (Mechanics) | Methods | Design engineering | Dynamics | Converters | Pole placement | Pulse duration modulation | Dynamical systems | Polyimide resins | Matlab

Journal Article

IEEE Transactions on Energy Conversion, ISSN 0885-8969, 09/2015, Volume 30, Issue 3, pp. 852 - 863

This paper focuses the analysis around a grid-connected converter that operates under unbalanced voltage and current conditions. Two different scenarios have...

Algorithm design and analysis | Reactive power | Limiting | Grid balancer | Transfer functions | grid-connected converters | Harmonic analysis | STATCOM | Voltage control | online reference limitation | Oscillators | COMPENSATION | ENERGY & FUELS | CONTROL SCHEME | MITIGATION | STRATEGIES | ENGINEERING, ELECTRICAL & ELECTRONIC

Algorithm design and analysis | Reactive power | Limiting | Grid balancer | Transfer functions | grid-connected converters | Harmonic analysis | STATCOM | Voltage control | online reference limitation | Oscillators | COMPENSATION | ENERGY & FUELS | CONTROL SCHEME | MITIGATION | STRATEGIES | ENGINEERING, ELECTRICAL & ELECTRONIC

Journal Article

IEEE Transactions on Industry Applications, ISSN 0093-9994, 07/2010, Volume 46, Issue 4, pp. 1509 - 1517

This paper deals with various active damping approaches for PI-based current control of grid-connected pulsewidth-modulation (PWM) converters with LCL filters,...

Damping | LCL filter | Capacitors | voltage feedback | Pulse width modulation | Active resonance damping | Current control | Pulse width modulation converters | Filters | Feedback | Resonant frequency | Voltage | grid-connected PWM converter | PI current control | Resonance | current feedback | INVERTERS | DESIGN | ENGINEERING, MULTIDISCIPLINARY | ENGINEERING, ELECTRICAL & ELECTRONIC | Measurement | Feedback (Electronics) | Frequency converters | Materials | Electric filters | Research | Design and construction | Digital control systems | Control | Analysis | Electrical equipment and supplies industry | Product development | Damping (Mechanics) | Methods | Electric potential | Control systems | Active damping | Control theory | Pulse duration modulation

Damping | LCL filter | Capacitors | voltage feedback | Pulse width modulation | Active resonance damping | Current control | Pulse width modulation converters | Filters | Feedback | Resonant frequency | Voltage | grid-connected PWM converter | PI current control | Resonance | current feedback | INVERTERS | DESIGN | ENGINEERING, MULTIDISCIPLINARY | ENGINEERING, ELECTRICAL & ELECTRONIC | Measurement | Feedback (Electronics) | Frequency converters | Materials | Electric filters | Research | Design and construction | Digital control systems | Control | Analysis | Electrical equipment and supplies industry | Product development | Damping (Mechanics) | Methods | Electric potential | Control systems | Active damping | Control theory | Pulse duration modulation

Journal Article

IEEE Transactions on Power Electronics, ISSN 0885-8993, 10/2017, Volume 32, Issue 10, pp. 8134 - 8149

The energy sector is moving toward an extensive utilization of distributed and renewable energy resources. Such resources are usually interfaced to power grids...

Grid-connected voltage–source converters (VSCs) | Power system dynamics | Power system stability | state-space model | Stability analysis | Nonlinear dynamical systems | Power conversion | Analytical models | unbalanced grids | small-signal analysis | power converters | grid-support | stability | Grid-connected voltage-source converters (VSCs) | PLL | SYSTEMS | FAULTS | ENGINEERING, ELECTRICAL & ELECTRONIC | Electronics | Unbalance | Electrical equipment

Grid-connected voltage–source converters (VSCs) | Power system dynamics | Power system stability | state-space model | Stability analysis | Nonlinear dynamical systems | Power conversion | Analytical models | unbalanced grids | small-signal analysis | power converters | grid-support | stability | Grid-connected voltage-source converters (VSCs) | PLL | SYSTEMS | FAULTS | ENGINEERING, ELECTRICAL & ELECTRONIC | Electronics | Unbalance | Electrical equipment

Journal Article