1. | Leakage Current Suppression Of Three-Phase Flying Capacitor PV Inverter With New Carrier Modulation And Logic Function | |
2. | A Grid-Connected Single-Phase Transformerless Inverter Controlling Two Solar Pv Arrays Operating Under Different Atmospheric Conditions | |
3. | Modified Single-Phase Single-Stage Grid-Tied Flying Inductor Inverter With MPPT And Suppressed Leakage Current | |
4. | High-Efficiency Two-Stage Three-Level Grid-Connected Photovoltaic Inverter | |
5. | H8 Inverter To Reduce Leakage Current In Transformer Less Three-Phase Grid-Connected Photovoltaic Systems | |
6. | Proposal Of A Photovoltaic AC-Module With A Single Stagetransformerless Grid-Connected Boost Microinverter | |
7. | A Buck And Boost Based Grid Connected PV Inverter Maximizing Power Yield From Two PV Arrays In Mismatched Environmental Conditions | |
8. | Integrated DC–DC Converter Based Grid-Connectedtransformerless Photovoltaic Inverter With Extended Input Voltage Range | |
9. | A New Soft-Switching Configuration And Its Application In Transformer Less Photovoltaic Grid-Connected Inverters | |
10. | A Transformer Less Single-Phase Symmetrical Z Source HERIC Inverter With Reduced Leakage Currents For PV Systems | |
11. | An Improved H5 Topology With Low Common- Mode Current For Transformer Less PV Grid-Connected Inverter | |
12. | A Distributed Power Control Of Series-Connected Module-Integrated Inverters For PV Grid-Tied Applications | |
13. | An Improved Hybrid Modulation Method For The Single-Phase H6 Inverter With Reactive Power Compensation | |
14. | A Three-Phase Grid-Connected Microinverter For Acphotovoltaic Module Applications | |
15. | Novel Control Method For Multimodulepvmicroinverter With Multiple Functions | |
16. | Analysis Of A High-Power, Resonant DC–DC Converter For DC Wind Turbines | |
17. | Low Dissipative Snubber Using Flyback-Type Transformer For Wind Turbine Systems | |
18. | A Novel Design Of PI Current Controller For PMSG-Based Wind Turbine Considering Transient Performance Specifications And Control Saturation | |
19. | A Hybrid Resonant ZVZCS Three-Level Converter For MVDC-Connected Offshore Wind Power Collection Systems | |
20. | Soft-Switched Non-Isolated High Step-Up Three-Port DC-DC Converter For Hybrid Energy Systems | |
21. | Design And Control Of Autonomous Wind–Solar System With DFIG Feeding 3-Phase 4-Wire Loads | |
22. | Stability Improvement Of A Multimachine Power System Connected With A Large-Scale Hybrid Wind-Photovoltaic Farm Using A Supercapacitor | |
23. | Hybrid Energy Storage System Microgrids Integration For Power Quality Improvement Using Four-Leg Three-Level NPC Inverter And Second-Order Sliding Mode Control | |
24. | Efficiency Improvement Of Three Port High Frequency Transformer Isolated Triple Active Bridge Converter | |
25. | Frequency Division Based Coordinated Control Of Three-Port Converter Interfaced Hybrid Energy Storage Systems In Autonomous DC Microgrids | |
26. | IoT-Enabled Adaptive Context-Aware and Playful Cyber-Physical System for Everyday Energy Savings | |
27. | Fuzzy Logic-Based Energy Management System Design For Residential Grid-Connected Microgrids | |
28. | Isolated Single Stage Bidirectional AC-DC Converter With Power Decoupling And Reactive Power Control To Interface Battery With The Single Phase Grid | |
29. | A Uniform Control Strategy For The Interlinking Converter In Hierarchical Controlled Hybrid AC/DC Microgrids | |
30. | Supervisory Power Quality Control Scheme For A Grid-Off Microgrid | |
31. | RSSI-Based Indoor Localization With the Internet of Things | |
32. | Instantaneous Symmetrical Component Theory Based Parallel Grid Side Converter Control Strategy For Microgrid Power Management | |
33. | Instantaneous Symmetrical Component Theory Based Parallel Grid Side Converter Control Strategy For Microgrid Power Management | |
34. | A Single-Phase Single-Stage Switched-Boost Inverter With Four Switches | |
35. | Decentralized Control For Fully Modular Input-Series Output-Parallel (ISOP)
Inverter System Based On The Active Power Inverse-Droop Method
| |
36. | Buck–Boost Dual-Leg-Integrated Step-Up Inverter With Low THD And Single
Variable Control For Single-Phase High-Frequency AC Microgrids
| |
37. | Performance Evaluation Of The Single-Phase Split-Source Inverter Using An
Alternative DC–AC Configuration
| |
38. | Multistage And Multilevel Power Electronic Converter-Based Power Supply For Plasma DBD Devices | |
39. | A Single-Phase Asymmetrical T-Type Five-Level Transformerless Pv Inverter | |
40. | An Isolated Multi-Input Zcs Dc–Dc Front-End-Converter Based Multilevel Inverter For The Integration Of Renewable Energy Sources | |
41. | A 5-Level High Efficiency Low Cost Hybrid Neutral Point Clamped Transformerless Inverter For Grid Connected Photovoltaic Application | |
42. | A Novel Step-Up Single Source Multilevel Inverter: Topology, Operating Principle And Modulation | |
43. | A Switched-Capacitor-Based Multilevel Inverter Topology Withreduced Components | |
44. | Multi-Input Switched-Capacitor Multilevel Inverter For High-Frequency AC Power Distribution | |
45. | A New Controller For Bidirectional Wireless Power Transfer Systems | |
46. | Implementation Of The Constant Current And Constant Voltage Charge Of Inductive Power Transfer Systems With The Double-Sided LCC Compensation Topology For Electric Vehicle Battery Charge Applications | |
47. | High Power Density Z-Source Resonant Wireless Charger With Line Frequency Sinusoidal Charging | |
48. | ASingle-Stage Wireless-Power-Transfer Resonant Converter With Boost Bridgeless Power-Factor-Correction Rectifier | |
49. | Quasi-Z-Source Indirect Matrix Converter Fed Induction Motor Drive For
Flow Control Of Dye In Paper Mill
| |
50. | BLDC Motor Drive Based On Bridgeless Landsman PFC Converter With Single Sensor And Reduced Stress On Power Devices | |
51. |
DC-Link Capacitor-Current Ripple Reduction In DPWM-Based Back-To-Back Converters
| |
52. | Power Factor Correction In Modified SEPIC Converter Fed Switched Reluctance Motor Drive | |
53. | A Single-Stage Sensorless Control Of A PV Based Bore-Well Submersible BLDC Motor | |
54. | Improved Finite Control-Set Model-Based Direct Power Control Of BLDC Motor With Reduced Torque Ripple | |
55. | High-Precision Sensorless Drive For High-Speed BLDC Motors Based On The Virtual Third Harmonic Back-EMF | |
56. | Commutation Torque Ripple Reduction In The BLDC Motor Using Modified SEPIC And Three-Level NPC Inverter | |
57. | On An Electric Scooter With G2V/V2H/V2G And Energy Harvesting Functions | |
58. | PV Battery Charger Using An L3C Resonant Converter For Electric Vehicle Applications | |
59. | High Efficiency Bridgeless Single-Power-Conversion Battery Charger For Light Electric Vehicles | |
60. | A PWM LLC Type Resonant Converter Adapted To Wide Output Range In PEV Charging Applications. | |
61. | Plug-In Hybrid Electric Vehicles (Phevs): Replacing Internal Combustion Engine With Clean And Renewable Energy Based Auxiliary Power Sources | |
62. | Implementation Of A Grid-Integrated PV-Battery System For Residential And Electrical Vehicle Applications | |
63. | Modeling, Design, Control, And Implementation Of A Modified Z-Source Integrated PV/Grid/EV DC Charger/Inverter | |
64. | Improved Modulation Strategy Using Dual Phase Shift Modulation For Active Commutated Current-Fed Dual Active Bridge | |
65. | A Switched-Capacitorbidirectional DC-DC Converterwith Wide Voltage Gainrange For Electric Vehicleswith Hybrid Energy Sources | |
66. | A Common Ground Switched-Quasi-Z-Source Bidirectional DC–DC Converter With Wide-Voltage-Gain Range For Evs With Hybrid Energy Sources | |
67. | A Quadruple Active Bridge Converter For The Storage Integration On The More Electric Aircraft | |
68. | Nonisolated Harmonics-Boosted Resonant Dc/Dc Converter With High- Step-Up Gain | |
69. | Modified High-Efficiency LLC Converters With Two Split Resonant Branches For Wide Input-Voltage Range Applications | |
70. | A Voltage Quadrupler Rectifier Based Pulse–Width–Modulated Llcconverter With Wide Output Range | |
71. | Dynamic Modeling And Controller Design Of Dual-Mode Cuk Inverter In Grid-Connected PV/TE Applications | |
72. | Improved Power Quality Switched Inductor Cuk Converter For Battery Charging Application | |
73. | Isolated Bidirectional DC–DC Converter With Quasi-Resonant Zero-Voltage Switching For Battery Charge Equalization | |
74. | Photovoltaic AC Module Based On A Cuk Converter With A Switched-Inductor Structure | |
75. | Improvement Of Power-Conversion Efficiency Of AC–DC Boost Converter Using 1:1 Transformer | |
76. | High Step-Up DC–DC Converter With Active Soft-Switching And Voltage- Clamping For Renewable Energy Systems | |
77. | High-Efficiency High Step-Up DC–DC Converter With Dual Coupled Inductors For Grid-Connected Photovoltaic Systems | |
78. | High Step-Up Resonant DC–DC Converter With Ripple-Free Input Current For Renewable Energy Systems | |
79. | Analysis And Design Of High-Efficiency Hybrid High Step-Up DC-DC Converter For Distributed PV Generation Systems | |
80. | Voltage-Lift Technique Based Non Isolated Boost DC–DC Converter: Analysis And Design | |
81. | High Step-Up Coupled-Inductor Cascade Boost Dc–Dc Converter With Lossless Passive Snubber | |
82. | Synthesis And Comparative Analysis Of Very High Step-Up DC–DC Converters Adopting Coupled-Inductor And Voltage Multiplier Cells | |
83. | A Three-Winding Coupled-Inductor DC–DC Converter Topology With High Voltage Gain And Reduced Switch Stress | |
84. | Interleaved-Input Series-Output Ultra High Voltage Gain Dc-Dc Converter | |
85. | Advanced Digital Controller For Improving Input Current Quality Of Integrated Active Virtual Ground-Bridgeless PFC | |
86. | Multitrack Power Factor Correction Architecture | |
87. | Family Of ZVT Interleaved Converters With Low Number Of Components | |
88. | Combined Multilevel And Two-Phase Interleaved LLC Converter With Enhanced Power Processing Characteristics And Natural Current Sharing | |
89. | Interleaved Current-Driven Phase-Shift Full-Bridge Converter With Magnetic Integration And Voltage Doubler Rectifiers | |
90. | New Bridgeless Buck PFC Converter With Improved Input Current And
Power Factor
| |
91. | A Wide-Input-Range High-Efficiency Step-Down Power Factor Correction Converter Using Variable Frequency Multiplier Technique | |
92. | Zero-Voltage And Zero-Current Switching PWM DC–DC Converter Using Controlled Secondary Rectifier With One Active Switch And Non Dissipative Turn-Off Snubber | |
93. | Hybrid Control Of Single-Inductor Multiple-Output Converters | |
94. | Analysis And Design Of An Input-Series Two-Transistor Forward Converter For High-Input Voltage Multiple-Output Applications | |
95. | An Independently Controlled Single-Pwm Multiple-Output Narrow-Band Resonant Converter | |
96. | A Hybrid Resonant ZCS PWM Converter For Renewable Energy Sources Connecting To MVDC Collection System | |
97. | A New ZVS Full-Bridge DC–DC Converter For Battery Charging With Reduced Losses Over Full-Load Range | |
98. | Isolated SEPIC DC–DC Converter With Ripple-Free Input Current And Lossless Snubber | |
99. | A High Performance Impedance-Source Converter With Switched Inductor | |
100. | High Step-Up Quasi-Z Source Dc-Dc Converter | |
101. | Study On A High Voltage Gain SEPIC-Based DC-DC Converter With Continuous Input Current For Sustainable Energy Applications | |
102. | Single-Phase Hybrid Switched-Capacitor Voltage-Doubler Sepic Pfc Rectifiers | |
103. | Hybrid Switched-Capacitor/Switched-Quasi-Z-Source Bidirectional DC-DC Converter With Wide-Voltage-Gain Range For Hybrid Energy Sources Evs | |
104. | An AC–DC LED Driver With An Additional Active Rectifier And A Unidirectional Auxiliary Circuit For AC Power Ripple Isolation | |
105. | Loss Analysis For Efficiency Improvement Of The Integrated Buck-Flyback LED Driver | |
106. | A PFC Single-Coupled-Inductor Multiple-Output LED Driver Without Electrolytic Capacitor | |
107. | A Single-Stage Integrated Boost-LLC AC-DC Converter With Quasi-Constant Bus Voltage For Multi-Channel LED Street-Lighting Applications | |
108. | Grid-Connected Symmetrical Cascaded Multilevel Converter For Power Quality Improvement | |
109. | DC Capacitor Voltage Balancing Control For Delta-Connected Cascaded H- Bridge STATCOM Considering Unbalanced Grid And Load Conditions | |
110. | Dynamic Voltage Conditioner: A New Concept For Smart Low-Voltage Distribution Systems | |
111. | Single-Phase To Three-Phase Unified Power Quality Conditioner Applied In Single-Wire Earth Return Electric Power Distribution Grids | |
112. | Grid-Voltage-Oriented Sliding Mode Control For DFIG Under Balanced And Unbalanced Grid Faults | |
113. | Analysis, Control, And Design Of A Hybrid Grid-Connected Inverter For
Renewable Energy Generation With Power Quality Conditioning
| |
114. | An Effective Voltage Controller For Quasi-Z-Source Inverter-Based STATCOM With Constant DC-Link Voltage | |
115. | Synchronization And Reactive Current Support Of PMSG Based Wind Farm During Severe Grid Fault | |
116. | Detailed Investigation And Performance Improvement Of The Dynamic Behavior Of Grid-Connected DFIG Based Wind Turbines Under LVRT Conditions | |
117. | New Insights Into Coupled Frequency Dynamics Of AC Grids In Rectifier And Inverter Sides Of LCC-HVDC Interfacing DFIG-Based Wind Farms | |
118. | Operation Of Three-Level Inverter-Based Shunt Active Power Filter Undernon Ideal Grid Voltage Conditions With Dual Fundamental Component
Extraction
| |
119. | A Novel Dvr-Ess-Embedded Wind-Energy Conversion System | |
120. | Power Quality Improvement And PV Power Injection By DSTATCOM With Variable DC Link Voltage Control From RSC-MLC | |
121. | Selective Harmonic Elimination Technique With Control Of Capacitive DC- Link Voltages In An Asymmetric Cascaded H-Bridge Inverter For STATCOM Application | |
122. | Advanced Voltage Support And Active Power Flow Control In Grid- Connected Converters Under Unbalanced Conditions | |
123. | A Transformer-Less Unified Power Quality Conditioner With Fast Dynamic Control | |
124. | Flexible Compensation Strategy For Voltage Source Converter Under Unbalanced And Harmonic Condition Based On A Hybrid Virtual Impedance Method | |
125. | Three-Phase Transformerless Shunt Active Power Filter With Reduced Switch Count For Harmonic Compensation In Grid-Connected Applications | |
126. | A Multiple Improved Notch Filter Based Control For Single Stage PV System Tied To Weak Grid | |
127. | Design And Performance Analysis Of Three-Phase Solar PV Integrated UPQC | |
128. | Sub- And Super-Synchronous Interactions Between Statcoms And Weak AC/DC Transmissions With Series Compensations | |
129. | PV-STATCOM: A New Smart Inverter For Voltage Control In Distribution Systems | |
130. | Dynamic Analysis And Improved LVRT Performance Of Multiple DG Units Equipped With Grid-Support Functions Under Unbalanced Faults And Weakgrid Conditions | |
131. | Multi-Objective Dynamic Voltage Restorer With Modified EPLL Control And Optimized PI Controller Gains | |
132. | Dynamic Power Decoupling Strategy For Three-Phase PV Power Systems Under Unbalanced Grid Voltages | |
133. | Performance Evaluation Of A MW-Class SMES-BES DVR System For Mitigation Of Voltage Quality Disturbances | |
134. | Voltage Limit Control Of Modular Multilevel Converter Based Unified Power Flow Controller Under Unbalanced Grid Conditions | |
135. | Design And Control Of Microgrid Fed By Renewable Energy Generating Sources | |