Control and Filter Design of Single Phase Grid Connected Converters 1st Edition by Weimin Wu, Frede Blaabjerg, Henry Chung, Yuanbin He, Min Huang ISBN 9781119886587 1119886589

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ISBN 10: 1119886589
ISBN 13: 9781119886587
Author: Weimin Wu, Frede Blaabjerg, Henry Chung, Yuanbin He, Min Huang

Control and Filter Design of Single-Phase Grid-Connected Converters

A state-of-the-art discussion of modern grid inverters

In Control and Filter Design of Single-Phase Grid-Connected Converters, a team of distinguished researchers deliver a robust and authoritative treatment of critical distributed power generation technologies, grid-connected inverter designs, and renewable energy utilization. The book includes detailed explanations of the system structure of distributed generation (DG)-grid interface converters and the methods of controlling DG-grid interface voltage source converters (VSCs) with high-order filters.

The authors also explore the challenges and obstacles associated with modern power electronic grid-connected inverter control technology and introduce some designed systems that meet these challenges, such as the grid impedance canceller.

Readers will discover demonstrations of basic principles, guidelines, examples, and design and simulation programs for grid-connected inverters based on LCL/LLCL technology. They will also find:

• A thorough introduction to the architectures of DG-grid interfacing converters, including the challenges of controlling DG-grid interfacing VSCs with high-order filters
• Comprehensive explorations of the control structure and modulation techniques of single-phase grid-tied inverters
• Practical discussions of an LLCL power filter for single-phase grid-tied inverters
• Fulsome treatments of design methods of passive damping for LCL/LLCL-filtered grid-tied inverters

Perfect for researchers, postgraduate students, and senior level undergraduate students of electrical engineering, Control and Filter Design of Single-Phase Grid-Connected Converters will also benefit research & development engineers involved with the design and manufacture of power electronic inverters.

Control and Filter Design of Single Phase Grid Connected Converters 1st Edition Table of contents:

Part I: Background

1 Introduction

1.1 Architecture of DG Grid‐Connected Converter

1.2 Challenges for Controlling DG Grid‐Connected VSCs with High‐Order Power Filter

1.3 Methods for Controlling DG Grid‐Connected VSCs with High‐Order Power Filter

1.4 Supplementary Note

References

2 Control Structure and Modulation Techniques of Single‐Phase Grid‐Connected Inverter

2.1 Control Structure of Single‐Phase Grid‐Connected Inverter

2.2 Modulation Methods

2.3 Summary

References

Part II: LCL/LLCL Power Filter

3 An LLCL Power Filter for Single‐Phase Grid‐Connected Inverter

3.1 Introduction

3.2 Principle of Traditional LCL Filter and Proposed LLCL Filter

3.3 Parametric Design of LCL and LLCL Filters

3.4 Design Examples for LCL and LLCL filters

3.5 Experimental Results

3.6 Summary

References

4 Modeling and Suppressing Conducted Electromagnetic Interference Noise for LCL/LLCL‐Filtered Single‐Phase Transformerless Grid‐Connected Inverter

4.1 Introduction

4.2 Conducted EMI Noise Analysis

4.3 Modified LLCL Filter to Fully Suppress the Conducted EMI Noise for GCI Using DUPWM

4.4 Novel DM EMI Suppressor for LLCL‐Filtered GCI without CM Noise Issue

4.5 Summary

References

Part III: Passive Damping

5 Design of Passive Damper for LCL/LLCL‐Filtered Grid‐Connected Inverter

5.1 Introduction

5.2 Design Method for Passive Damping

5.3 Analysis of Power Loss Caused by the Filter

5.4 Experimental Results

5.5 Summary

References

6 Composite Passive Damping Scheme for LLCL‐Filtered Grid‐Connected Inverter

6.1 Introduction

6.2 Upper and Lower Limits of the PR + HC Controller Gain

6.3 E‐Q‐Factor‐Based Passive Damping Design

6.4 New Composite Passive Damping Scheme for the LLCL Filter

6.5 Experimental Verification

6.6 Summary

References

Part IV: Robust Control Design

7 Robust Hybrid Damper Design for LCL/LLCL‐Filtered Grid‐Connected Inverter

7.1 Introduction

7.2 Control Bandwidth Analysis of the Grid‐Current Feedback Method

7.3 Proposed Single‐Loop Control with High Bandwidth

7.4 Design Example

7.5 Experimental Verification

7.6 Summary

References

8 Robust Impedance‐Based Design of LLCL‐Filtered Grid‐Connected Inverter against the Wide Variation of Grid Reactance

8.1 Introduction

8.2 Modeling of the LLCL‐Type Grid‐Connected Inverter

8.3 Stability Analysis Considering Grid‐Reactance Variation

8.4 Proposed Measures and Design Procedure Under the Grid‐Reactance Variation Condition

8.5 Design Example

8.6 Simulation and Experimental Verification

8.7 Summary

References

Part V: Active Damping

9 Active Damping of LLCL‐Filter Resonance Based on LC‐Trap Voltage or Current Feedback

9.1 Introduction

9.2 Control of LLCL‐Filtered Grid Converter

9.3 Circuit Equivalences of LLCL Active Dampers

9.4 Z‐Domain Root‐Locus Analysis

9.5 Experimental Verification

9.6 Summary

References

10 Enhancement of System Stability Using Active Cancelation to Eliminate the Effect of Grid Impedance on System Stability and Injected Power Quality of Grid‐Connected Inverter

10.1 Introduction

10.2 Principle of the Grid Impedance Cancelator

10.3 Modeling with the Grid Impedance Cancelator

10.4 Modeling of the Grid Impedance Cancelator

10.5 Experimental Verification

10.6 Summary

References

Index

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Weimin Wu,Frede Blaabjerg,Henry Chung,Yuanbin He,Min Huang,Filter Design,Single Phase,Grid Connected