Instantaneous Power Theory and Applications to Power Conditioning
Hirofumi Akagi
€ 149.63
FREE Delivery in Ireland
Description for Instantaneous Power Theory and Applications to Power Conditioning
Hardcover. Suitable for students and a solid reference for professionals, this book presents a review of power theories and shows that the instantaneous power theory gives important basic knowledge for the understanding and designing of shunt, series, combined shunt-series power active filters as well as hybrid passive-active power filters. Series: IEEE Press Series on Power Engineering. Num Pages: 472 pages. BIC Classification: THR; TJF. Category: (P) Professional & Vocational. Dimension: 236 x 157 x 27. Weight in Grams: 771.
This book covers instantaneous power theory as well as the importance of design of shunt, series, and combined shunt-series power active filters and hybrid passive-active power filters
- Illustrates pioneering applications of the p-q theory to power conditioning, which highlights distinct differences from conventional theories
- Explores p-q-r theory to give a new method of analyzing the different powers in a three-phase circuit
- Provides exercises at the end of many chapters that are unique to the second edition
Product Details
Format
Hardback
Publication date
2017
Publisher
John Wiley & Sons Inc United States
Number of pages
472
Condition
New
Series
IEEE Press Series on Power Engineering
Number of Pages
472
Place of Publication
, United States
ISBN
9781118362105
SKU
V9781118362105
Shipping Time
Usually ships in 7 to 11 working days
Ref
99-50
About Hirofumi Akagi
Hirofumi Akagi is a Professor in the department of electrical and electronic engineering at the Tokyo Institute of Technology. His research interest includes power conversion systems and its applications to industry, transportation, and utility. He has authored and coauthored some 120 IEEE Transactions papers and two invited papers published in Proceedings of the IEEE in 2001 and 2005. He was ... Read more
Reviews for Instantaneous Power Theory and Applications to Power Conditioning