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Dynamic Stabilization of DC Microgrids With Predictive Control of Point-of-Load Converters
IEEE Transactions on Power Electronics, ISSN 0885-8993, 12/2018, Volume 33, Issue 12, pp. 10872 - 10884
This paper investigates the possibility of deploying a finite control set model predictive control (FCS-MPC) algorithm for dynamic stabilization of a dc...
Damping | impedance analysis | Stability criteria | Constant power load (CPL) | Microgrids | Control systems | dc microgrid (MG) | Power electronics | Impedance | finite control set model predictive control (FCS-MPC) | stability | FILTER | INPUT | POWER ELECTRONIC CONVERTERS | IMPEDANCE | DRIVES | SYSTEMS | ENGINEERING, ELECTRICAL & ELECTRONIC | Input impedance | Electric potential | Load | Stabilization | Passive components | Converters | Control | Algorithms | Blackout | Active damping | Distributed generation | Electric power grids | Energy conversion efficiency | Predictive control
Damping | impedance analysis | Stability criteria | Constant power load (CPL) | Microgrids | Control systems | dc microgrid (MG) | Power electronics | Impedance | finite control set model predictive control (FCS-MPC) | stability | FILTER | INPUT | POWER ELECTRONIC CONVERTERS | IMPEDANCE | DRIVES | SYSTEMS | ENGINEERING, ELECTRICAL & ELECTRONIC | Input impedance | Electric potential | Load | Stabilization | Passive components | Converters | Control | Algorithms | Blackout | Active damping | Distributed generation | Electric power grids | Energy conversion efficiency | Predictive control
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Loading RightsIEEE Transactions on Power Electronics, ISSN 0885-8993, 07/2018, Volume 33, Issue 7, pp. 6304 - 6317
This paper proposes the application of a finite control set model predictive control (FCS-MPC) strategy in standalone ac microgrids (MGs). AC MGs are usually...
Transient response | finite control set (FCS) | voltage source converter (VSC) | Switches | AC microgrid (MG) | Robustness | Power conversion | Voltage control | Predictive control | model predictive control (MPC) | DISTRIBUTED GENERATION | FILTER | PERFORMANCE | PARALLEL-CONNECTED INVERTERS | 3-PHASE UPS | VOLTAGE-SOURCE | ENGINEERING, ELECTRICAL & ELECTRONIC | Power converters | Electric potential | Parameters | Computer simulation | Predictions | Strategy | Parameter robustness | Mathematical models | Parameter sensitivity | Electric power grids | Linear control
Transient response | finite control set (FCS) | voltage source converter (VSC) | Switches | AC microgrid (MG) | Robustness | Power conversion | Voltage control | Predictive control | model predictive control (MPC) | DISTRIBUTED GENERATION | FILTER | PERFORMANCE | PARALLEL-CONNECTED INVERTERS | 3-PHASE UPS | VOLTAGE-SOURCE | ENGINEERING, ELECTRICAL & ELECTRONIC | Power converters | Electric potential | Parameters | Computer simulation | Predictions | Strategy | Parameter robustness | Mathematical models | Parameter sensitivity | Electric power grids | Linear control
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Loading RightsIEEE Transactions on Industrial Electronics, ISSN 0278-0046, 10/2016, Volume 63, Issue 10, pp. 6257 - 6269
This paper presents a small-signal analysis of an islanded microgrid composed of two or more voltage-source inverters connected in parallel. The primary...
secondary control | small-signal analysis | Delay effects | Microgrids | Inverters | Delays | Mathematical model | Voltage control | Delay differential equations (DDEs) | frequency and voltage droop control | Frequency control | INVERTERS | INSTRUMENTS & INSTRUMENTATION | CONSENSUS | SYSTEMS | AUTOMATION & CONTROL SYSTEMS | ENGINEERING, ELECTRICAL & ELECTRONIC | Usage | Mathematical models | Electric inverters | Research | Control systems
secondary control | small-signal analysis | Delay effects | Microgrids | Inverters | Delays | Mathematical model | Voltage control | Delay differential equations (DDEs) | frequency and voltage droop control | Frequency control | INVERTERS | INSTRUMENTS & INSTRUMENTATION | CONSENSUS | SYSTEMS | AUTOMATION & CONTROL SYSTEMS | ENGINEERING, ELECTRICAL & ELECTRONIC | Usage | Mathematical models | Electric inverters | Research | Control systems
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Loading RightsThe Prostate, ISSN 0270-4137, 07/2017, Volume 77, Issue 10, pp. 1082 - 1092
Background There is still no consensus regarding intraprostatic androgen levels and the accumulation of androgens in the hyperplastic prostatic tissue. The...
prostate tissue androgens | intraprostatic testosterone | benign prostatic hyperplasia | intraprostatic dihydrotestosterone | DEHYDROEPIANDROSTERONE-SULFATE | RADICAL PROSTATECTOMY | STEROID-METABOLISM | 3-MONTH TREATMENT | MASS-SPECTROMETRY | EPIDERMAL-GROWTH-FACTOR | ENDOCRINOLOGY & METABOLISM | 5-ALPHA-REDUCTASE INHIBITOR DUTASTERIDE | UROLOGY & NEPHROLOGY | HYPERPLASIA BPH | ANDROGEN DEPRIVATION THERAPY | Biopsy - methods | Prostatic Hyperplasia - pathology | Humans | Middle Aged | Organ Size | Male | Statistics as Topic | Prostate - metabolism | Prostatic Hyperplasia - metabolism | Prostate - pathology | Testosterone - metabolism | Aged | Androgens - metabolism | Chromatography, Liquid - methods | Dihydrotestosterone - metabolism | Testosterone | Liquid chromatography | Mass spectrometry | Prostate cancer | Analysis | Androgens | Dihydrotestosterone | Biopsy | Hyperplasia | Benign | Stroma | Mass spectroscopy | Ultrasound | Prostate
prostate tissue androgens | intraprostatic testosterone | benign prostatic hyperplasia | intraprostatic dihydrotestosterone | DEHYDROEPIANDROSTERONE-SULFATE | RADICAL PROSTATECTOMY | STEROID-METABOLISM | 3-MONTH TREATMENT | MASS-SPECTROMETRY | EPIDERMAL-GROWTH-FACTOR | ENDOCRINOLOGY & METABOLISM | 5-ALPHA-REDUCTASE INHIBITOR DUTASTERIDE | UROLOGY & NEPHROLOGY | HYPERPLASIA BPH | ANDROGEN DEPRIVATION THERAPY | Biopsy - methods | Prostatic Hyperplasia - pathology | Humans | Middle Aged | Organ Size | Male | Statistics as Topic | Prostate - metabolism | Prostatic Hyperplasia - metabolism | Prostate - pathology | Testosterone - metabolism | Aged | Androgens - metabolism | Chromatography, Liquid - methods | Dihydrotestosterone - metabolism | Testosterone | Liquid chromatography | Mass spectrometry | Prostate cancer | Analysis | Androgens | Dihydrotestosterone | Biopsy | Hyperplasia | Benign | Stroma | Mass spectroscopy | Ultrasound | Prostate
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Loading Rights2019, 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
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Loading Rights2019, 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
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Loading RightsIEEE Transactions on Industrial Electronics, ISSN 0278-0046, 11/2019, Volume 66, Issue 11, pp. 8870 - 8880
This paper proposes the use of an artificial neural network (ANN) for solving one of the ongoing research challenges in finite set-model predictive control...
Measurement | Switching frequency | voltage source converter (VSC) | Switches | Cost function | Power electronics | Artificial neural network (ANN) | weighing factor design | Uninterruptible power systems | Predictive control | finite set-model predictive control (FS-MPC) | artificial neural network (ANN) | finite set model predictive control (FS-MPC) | Voltage source converter (VSC) | INSTRUMENTS & INSTRUMENTATION | FILTER | PERFORMANCE | AUTOMATION & CONTROL SYSTEMS | ENGINEERING, ELECTRICAL & ELECTRONIC
Measurement | Switching frequency | voltage source converter (VSC) | Switches | Cost function | Power electronics | Artificial neural network (ANN) | weighing factor design | Uninterruptible power systems | Predictive control | finite set-model predictive control (FS-MPC) | artificial neural network (ANN) | finite set model predictive control (FS-MPC) | Voltage source converter (VSC) | INSTRUMENTS & INSTRUMENTATION | FILTER | PERFORMANCE | AUTOMATION & CONTROL SYSTEMS | ENGINEERING, ELECTRICAL & ELECTRONIC
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Loading RightsIEEE Transactions on Industrial Electronics, ISSN 0278-0046, 07/2014, Volume 61, Issue 7, pp. 3313 - 3326
In a microgrid (MG), an energy management control is essential in order to handle the variety of prime movers, which may include different types of renewable...
Battery chargers | voltage droop (VD) control | Satellite broadcasting | distributed energy management strategy (DEMS) | Microgrids | Pulse width modulation | Generators | power-line signaling (PLS) | Batteries | microgrid (MG) | Voltage control | Frequency control | Microgrid (MG) | Voltage droop (VD) control | Distributed energy management strategy (DEMS) | Power-line signaling (PLS) | SYSTEM | INSTRUMENTS & INSTRUMENTATION | MANAGEMENT | AUTOMATION & CONTROL SYSTEMS | ENGINEERING, ELECTRICAL & ELECTRONIC | Measurement | Usage | Mathematical optimization | Error analysis (Mathematics) | Feedback control systems | Voltage | Electric utilities | Renewable resources | Buses (vehicles) | Buses | Preserves | Strategy | Distributed generation | Prime movers | Autonomous | Energy management
Battery chargers | voltage droop (VD) control | Satellite broadcasting | distributed energy management strategy (DEMS) | Microgrids | Pulse width modulation | Generators | power-line signaling (PLS) | Batteries | microgrid (MG) | Voltage control | Frequency control | Microgrid (MG) | Voltage droop (VD) control | Distributed energy management strategy (DEMS) | Power-line signaling (PLS) | SYSTEM | INSTRUMENTS & INSTRUMENTATION | MANAGEMENT | AUTOMATION & CONTROL SYSTEMS | ENGINEERING, ELECTRICAL & ELECTRONIC | Measurement | Usage | Mathematical optimization | Error analysis (Mathematics) | Feedback control systems | Voltage | Electric utilities | Renewable resources | Buses (vehicles) | Buses | Preserves | Strategy | Distributed generation | Prime movers | Autonomous | Energy management
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Loading RightsIEEE Transactions on Energy Conversion, ISSN 0885-8969, 12/2014, Volume 29, Issue 4, pp. 922 - 933
This paper presents a distributed hierarchical control framework to ensure reliable operation of dc microgrid (MG) clusters. In this hierarchy, primary control...
Adaptation models | power flow control | distributed control | dc microgrid (MG) | Stability analysis | Batteries | System-on-chip | Impedance | Voltage control | hierarchical control | Load modeling | Adaptive droop | stability analysis | voltage control | STORAGE | ADAPTIVE DROOP CONTROL | VOLTAGE | ENERGY & FUELS | ENGINEERING, ELECTRICAL & ELECTRONIC | SYSTEMS | Electric current regulators | Design and construction | Voltage regulators | Soul music | Awards & honors | Electric potential | Policies | Power flow | Voltage | Clusters | Constants | Mathematical models | Deviation
Adaptation models | power flow control | distributed control | dc microgrid (MG) | Stability analysis | Batteries | System-on-chip | Impedance | Voltage control | hierarchical control | Load modeling | Adaptive droop | stability analysis | voltage control | STORAGE | ADAPTIVE DROOP CONTROL | VOLTAGE | ENERGY & FUELS | ENGINEERING, ELECTRICAL & ELECTRONIC | SYSTEMS | Electric current regulators | Design and construction | Voltage regulators | Soul music | Awards & honors | Electric potential | Policies | Power flow | Voltage | Clusters | Constants | Mathematical models | Deviation
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Loading RightsIEEE Transactions on Industrial Electronics, ISSN 0278-0046, 02/2019, Volume 66, Issue 2, pp. 1356 - 1362
This letter investigates the fuzzy model predictive control synthesis of networked controlled power buffer for dynamic stabilization of a dc microgrid (MG)....
Takagi–Sugeno (TS) fuzzy model | Computational modeling | Constant power load (CPL) | Microgrids | Predictive models | dc microgrid (MG) | hardware-in-the-loop (HiL) | Robustness | Delays | Takagi-Sugeno model | random network delay | model predictive controller (MPC) | Predictive control | Takagi-Sugeno (TS) fuzzy model | PACKET DROPOUTS | ELECTRICAL VEHICLES | DELAYS | MODEL | ENGINEERING, ELECTRICAL & ELECTRONIC | INSTRUMENTS & INSTRUMENTATION | NONLINEAR-SYSTEMS | AUTOMATION & CONTROL SYSTEMS | Fuzzy control | Hardware-in-the-loop simulation | Computer simulation | Control systems design | Stabilization | Mathematical models | Distributed generation | Electric power grids | Buffers | Electric power distribution
Takagi–Sugeno (TS) fuzzy model | Computational modeling | Constant power load (CPL) | Microgrids | Predictive models | dc microgrid (MG) | hardware-in-the-loop (HiL) | Robustness | Delays | Takagi-Sugeno model | random network delay | model predictive controller (MPC) | Predictive control | Takagi-Sugeno (TS) fuzzy model | PACKET DROPOUTS | ELECTRICAL VEHICLES | DELAYS | MODEL | ENGINEERING, ELECTRICAL & ELECTRONIC | INSTRUMENTS & INSTRUMENTATION | NONLINEAR-SYSTEMS | AUTOMATION & CONTROL SYSTEMS | Fuzzy control | Hardware-in-the-loop simulation | Computer simulation | Control systems design | Stabilization | Mathematical models | Distributed generation | Electric power grids | Buffers | Electric power distribution
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Loading RightsIEEE Transactions on Power Electronics, ISSN 0885-8993, 05/2016, Volume 31, Issue 5, pp. 3528 - 3549
DC microgrids (MGs) have been gaining a continually increasing interest over the past couple of years both in academia and industry. The advantages of dc...
protection and grounding | power architectures | standardization | Topology | Batteries | Power system reliability | Telecommunications | Reliability | Voltage control | DC microgrid (MG) | DCmicrogrid (MG) | DROOP CONTROL METHOD | BATTERY ENERGY-STORAGE | HIERARCHICAL CONTROL | INTERFACE BIDIRECTIONAL CONVERTER | SOLID-STATE TRANSFORMER | DISTRIBUTED CONTROL STRATEGY | ENGINEERING, ELECTRICAL & ELECTRONIC | BUS VOLTAGE CONTROL | DISTRIBUTION-SYSTEMS | FAULT CURRENT LIMITER | COOPERATIVE CONTROL | Design engineering | Grounding | Direct current | Standardization | Electronics | Joining | Protection systems | Devices
protection and grounding | power architectures | standardization | Topology | Batteries | Power system reliability | Telecommunications | Reliability | Voltage control | DC microgrid (MG) | DCmicrogrid (MG) | DROOP CONTROL METHOD | BATTERY ENERGY-STORAGE | HIERARCHICAL CONTROL | INTERFACE BIDIRECTIONAL CONVERTER | SOLID-STATE TRANSFORMER | DISTRIBUTED CONTROL STRATEGY | ENGINEERING, ELECTRICAL & ELECTRONIC | BUS VOLTAGE CONTROL | DISTRIBUTION-SYSTEMS | FAULT CURRENT LIMITER | COOPERATIVE CONTROL | Design engineering | Grounding | Direct current | Standardization | Electronics | Joining | Protection systems | Devices
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Loading RightsIEEE Transactions on Industrial Electronics, ISSN 0278-0046, 06/2019, Volume 66, Issue 6, pp. 4805 - 4812
The dc microgrid (MG) system has several advantages over the ac one. Therefore, it recently became a preferred architecture in numerous industrial...
D-stability | Takagi–Sugeno fuzzy modeling | Capacitors | Microgrids | dc microgrid | Stability analysis | Linear matrix inequalities | Inductors | real-time simulation | hardware-in-the-loop (HiL) | power buffer | Takagi-Sugeno model | Constant power load | Energy storage | Takagi-Sugeno fuzzy modeling | INSTRUMENTS & INSTRUMENTATION | FEEDBACK CONTROL | SYSTEMS | AUTOMATION & CONTROL SYSTEMS | ENGINEERING, ELECTRICAL & ELECTRONIC | Controllers | State feedback | State of the art | Decay rate | Stability | Hardware-in-the-loop simulation | Computer simulation | Industrial applications | Feedback control | Matrix methods | Transient performance | Fuzzy control | Mathematical analysis | Nonlinearity | Distributed generation | Mathematical models | Electric power grids
D-stability | Takagi–Sugeno fuzzy modeling | Capacitors | Microgrids | dc microgrid | Stability analysis | Linear matrix inequalities | Inductors | real-time simulation | hardware-in-the-loop (HiL) | power buffer | Takagi-Sugeno model | Constant power load | Energy storage | Takagi-Sugeno fuzzy modeling | INSTRUMENTS & INSTRUMENTATION | FEEDBACK CONTROL | SYSTEMS | AUTOMATION & CONTROL SYSTEMS | ENGINEERING, ELECTRICAL & ELECTRONIC | Controllers | State feedback | State of the art | Decay rate | Stability | Hardware-in-the-loop simulation | Computer simulation | Industrial applications | Feedback control | Matrix methods | Transient performance | Fuzzy control | Mathematical analysis | Nonlinearity | Distributed generation | Mathematical models | Electric power grids
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Loading RightsElectric Power Systems Research, ISSN 0378-7796, 2011, Volume 81, Issue 12, pp. 2108 - 2119
► Integration of distributed energy resources with standards-based device controllers. ► Analysis of IEC 61850 considering event-driven and service-oriented...
Virtual power plants | Economic dispatch | Event-driven service-oriented framework | IEC 61850 | Ancillary services | INTEGRATION | ENGINEERING, ELECTRICAL & ELECTRONIC | Algorithms | Electric power-plants | Analysis | Power plants
Virtual power plants | Economic dispatch | Event-driven service-oriented framework | IEC 61850 | Ancillary services | INTEGRATION | ENGINEERING, ELECTRICAL & ELECTRONIC | Algorithms | Electric power-plants | Analysis | Power plants
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Loading RightsRenewable and Sustainable Energy Reviews, ISSN 1364-0321, 07/2016, Volume 60, pp. 1263 - 1273
Microgrids (MGs), featured by distributed energy resources, consumption and storage, are designed to significantly enhance the self-sustainability of future...
Microgrid | Microgrid supervisory controller | Energy management system | Hierarchical control | Energy management systems | Energy use | Literature reviews | Controllers | Renewable energy | Classification | EMS | Distributed generation | Proposals
Microgrid | Microgrid supervisory controller | Energy management system | Hierarchical control | Energy management systems | Energy use | Literature reviews | Controllers | Renewable energy | Classification | EMS | Distributed generation | Proposals
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A new load frequency control strategy for micro-grids with considering electrical vehicles
Electric Power Systems Research, ISSN 0378-7796, 02/2017, Volume 143, pp. 585 - 598
Owing to the intermittent nature of the renewable energies employed in smart grids, large frequency fluctuations occur when the load frequency control (LFC)...
General type II fuzzy logic | MicroGrids | Load frequency control | Adaptive PI control | Modified Harmony Search Algorithm | TYPE-2 FUZZY-SETS | SYSTEMS | HARMONY SEARCH ALGORITHM | ENGINEERING, ELECTRICAL & ELECTRONIC | Electrical engineering | Electric vehicles | Analysis | Algorithms | Alternative energy sources | Electric power systems | Mathematical optimization
General type II fuzzy logic | MicroGrids | Load frequency control | Adaptive PI control | Modified Harmony Search Algorithm | TYPE-2 FUZZY-SETS | SYSTEMS | HARMONY SEARCH ALGORITHM | ENGINEERING, ELECTRICAL & ELECTRONIC | Electrical engineering | Electric vehicles | Analysis | Algorithms | Alternative energy sources | Electric power systems | Mathematical optimization
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Artificial Intelligence Aided Automated Design for Reliability of Power Electronic Systems
IEEE Transactions on Power Electronics, ISSN 0885-8993, 08/2019, Volume 34, Issue 8, pp. 7161 - 7171
This paper proposes a new methodology for automated design of power electronic systems realized through the use of artificial intelligence. Existing approaches...
Measurement | automated design for reliability (ADfR) | Switching frequency | Reliability engineering | Inverters | power electronic systems | Junctions | Artificial intelligence | NEURAL-NETWORKS | WIND TURBINE | ORIENTED DESIGN | FILTER DESIGN | PERFORMANCE | LIFETIME ESTIMATION | GENERATION | CONVERTER | ENGINEERING, ELECTRICAL & ELECTRONIC | Automation | Design parameters | Computer simulation | Artificial neural networks | Power converters | Training | Electronic systems | Maps | Ambient temperature | Design standards | Reliability analysis | Mathematical models | Thermal stresses
Measurement | automated design for reliability (ADfR) | Switching frequency | Reliability engineering | Inverters | power electronic systems | Junctions | Artificial intelligence | NEURAL-NETWORKS | WIND TURBINE | ORIENTED DESIGN | FILTER DESIGN | PERFORMANCE | LIFETIME ESTIMATION | GENERATION | CONVERTER | ENGINEERING, ELECTRICAL & ELECTRONIC | Automation | Design parameters | Computer simulation | Artificial neural networks | Power converters | Training | Electronic systems | Maps | Ambient temperature | Design standards | Reliability analysis | Mathematical models | Thermal stresses
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Loading RightsIEEE Transactions on Power Electronics, ISSN 0885-8993, 01/2020, Volume 35, Issue 1, pp. 1086 - 1095
A typical finite-set model predictive control (FS-MPC) scheme for LC-filtered voltage source inverters (VSIs) requires measurements of capacitor voltage and...
LC filter"> LC filter | sensorless control | Current measurement | Capacitors | Finite-set model predictive control (FS-MPC) | Predictive models | voltage source inverters (VSIs) | Sensors | Voltage control | Inductors | Load modeling
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Loading RightsIEEE Transactions on Industry Applications, ISSN 0093-9994, 03/2016, Volume 52, Issue 2, pp. 1736 - 1749
This paper presents the system integration and hierarchical control implementation in an inverter-based Microgrid Research Laboratory (MGRL) at Aalborg...
Digital control | Voltage measurement | system integration | microgrid | Microgrids | microgrid central controller | Inverters | Smart meters | Energy management | hierarchical control | DESIGN | QUALITY | ENGINEERING, MULTIDISCIPLINARY | SECONDARY CONTROL | VOLTAGE UNBALANCE COMPENSATION | ENGINEERING, ELECTRICAL & ELECTRONIC | Case studies | Laboratories | Control systems | Controllers | Platforms | Distributed generation | Systems integration | Computer programs | Energia elèctrica | Microgrid | Electric power | Hierarchical control | System integration | Energies | Microgrid central controller | Àrees temàtiques de la UPC
Digital control | Voltage measurement | system integration | microgrid | Microgrids | microgrid central controller | Inverters | Smart meters | Energy management | hierarchical control | DESIGN | QUALITY | ENGINEERING, MULTIDISCIPLINARY | SECONDARY CONTROL | VOLTAGE UNBALANCE COMPENSATION | ENGINEERING, ELECTRICAL & ELECTRONIC | Case studies | Laboratories | Control systems | Controllers | Platforms | Distributed generation | Systems integration | Computer programs | Energia elèctrica | Microgrid | Electric power | Hierarchical control | System integration | Energies | Microgrid central controller | Àrees temàtiques de la UPC
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