Table of Contents
1: Introduction to Power Quality from Power Conditioning
1.4. Active Power Line Conditioners
2: Electrical Power Terms in the IEEE Std 1459 Framework
2.2. Apparent Power and Power Factor in Distorted and Unbalanced Systems: The Background
2.3. IEEE Working Group on Nonsinusoidal Situations
2.6. Discussions and Conclusions
3: Instantaneous Reactive Power Theory
3.2. Original Instantaneous Reactive Power Formulation
3.3. Modified Instantaneous Reactive Power Formulation
3.4. Other Approaches: Synchronous Frames
3.5. Dual Instantaneous Reactive Power
4.2. Fundamentals of Shunt Active Power Filters, APFs
4.5. Practical Design Considerations
4.6. Experimental Prototype of APF
5: Series Active Power Filters
5.2. Series Active Power Filters
5.3. Design of SAF from State Space
5.4. Experimental Prototype of SAF
6: Hybrid Filters: Series Active Power Filters and Shunt Passive Filters
6.2. Series Active Filters and Shunt Passive Filters
6.4. Experimental Prototype of SAPPF
7: Combined Shunt and Series Active Power Filters
7.2. Unified Power Quality Conditioner
7.3. Experimental Prototype of UPQC
7.4. Universal Active Power Line Conditioner
8.2. Different Technologies for Distributed Generation
8.3. Power Flow Control of a Distributed Generation
8.4. Distributed Generation Impact in Power Quality
8.5. Distribution Line Compensation