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Recent Trends in Renewable Energy Sources and Power Conversion: Select Proceedings of Icres 2020

為了解決DC/AC Inverter的問題，作者 這樣論述：

Dr. R. Seyezhai is Associate Professor in the Department of Electrical and Electronics Engineering, SSN College of Engineering, Chennai. She has 21 years of teaching experience including 14 years of research experience. She obtained her B.E. degree in Electronics and Communication Engineering and M.

E. degree in Power Electronics and Drives from Manonmaniam Sundaranar University, Tirunelveli, and Bharathidasan University, Tiruchirapalli, respectively, and Ph.D. in the area of Multilevel Inverters for Fuel Cell Systems from Anna University, Chennai. During her Ph.D, she developed a prototype of

SiC based hybrid cascaded multilevel inverter employing a novel modulation technique for fuel cell power conditioning system (PCS). She has published 300 research publications in international journals/ international and national conferences. She has published 1 book and 1 book chapter. She received

best teacher award for the academic years 2004-2005, 2013-2014, 2014-2015, 2015-2016, 2016-2017, 2017-18 and the CTS best faculty award for the year 2012-2013. She is recipient of ＂Bharat Jyothi award 2012＂ from the International Friendship society for outstanding contribution to student’s communit

y, ＂Best researcher Award 2015＂ by ASDF, ＂Outstanding Researcher Award 2016 in Power Electronics＂ by Venus International foundation and ＂Research Excellence Award 2017＂ by Institute for exploring advances in engineering. Ten students completed their Ph.D. and currently she is guiding 5 Ph.D. student

s including 4 full-time candidates in the area of renewable energy system and its interface circuits. Currently, she is working on AICTE MODROBS project for the modernization of Renewable Energy Conversion Laboratory for Rs.11 lakhs during 2020-21.She has completed AICTE research projects titled ’De

sign of silicon carbide based hard switched DC-AC power converter’ during 2007-2010 and ’Design and development of Z-source cascaded multilevel inverter for photovoltaic applications’ during 2013-2016. Also, she completed the project ’Development of solar powered electric vehicle using BLDC drive’ f

unded by SSN Trust and an internal funded project titled ’Quasi Z-source Multilevel Inverter for PV applications’. She has filed 2 patents. She has developed ’Renewable Energy Conversion Laboratory’ at SSNCE with the help of external and internal funding. She is in the editorial board and reviewer b

oard of several international journals. She is an active member in IEEE and life member in ISTE. Currently, she is the chairman, IEEE-PELS, Madras Section.Dr. S. Karuppuchamy is Professor and Head, Department of Energy Science, Alagappa University, Karaikudi. He has 23 years of teaching/research exp

erience at various international universities and industries. He has received his Ph.D. from Gifu University, Gifu, Japan and D.Sc. from Periyar University, India. His current research interests include the development of energy conversion and storage devices. He has received funding for research an

d development from various funding agencies to the tune of 5.30 crores. He has published 147 articles in reputed international journals. To his credit, he has 11 international patents in the field of chemical sciences. He has presented 170 research papers in international and national conferences. H

e received more than 20 best paper awards from various international and national conferences. He has organized 6 conferences and delivered more than 85 invited lectures in various international and national institutes/conferences. He has authored 9 books and 4 book chapters. Dr. S. Karuppuchamy’s r

esearch contribution has more than 2414 citations to his credit. His h-index is 32 and i10-index is 58. He is serving as editorial board member for various international journals. Moreover, he is a life member of Chemical Research Society of India; Society for Advancement of Electrochemical Science

and Technology, India; International Society of Electrochemistry, Switzerland; Asian Federation of Biotechnology, South Korea; and American Nano Society, USA. He is the recipient of various prestigious international awards viz, MONBUSHO, AsiaBiomass Energy Researcher Award, New Energy Foundation and

Invited Researcher Award, National Energy Development Organization (NEDO) from Government of Japan, Innovation Award from Henkel KGaA, Germany, Scientific Adviser award from TSM Co. Ltd., South Korea and SPD Laboratory Co. Ltd., Japan. He received Young Scientist award from DST, Government of India

. In 2017, he was awarded Alagappa Excellence Award for his research contributions. In recognition of the outstanding research work done by Dr. S. Karuppuchamy in the field of Nanomaterials and Photoelectrochemistry the Tamil Nadu State Council for Science and Technology awarded him the Tamil Nadu S

cientist Award (TANSA) in Chemical Sciences for the year 2017. Recently, he has become the Fellow of Academy of Sciences Chennai (FASC).Dr. L. Ashok Kumar was a Postdoctoral Research Fellow from San Diego State University, California. He is a recipient of the BHAVAN fellowship from the Indo-US Scien

ce and Technology Forum and SYST Fellowship from DST, Govt. of India. He has 3 years of industrial experience and 20 years of academic and research experience. He has published 173 technical papers in International and National journals and presented 167 papers in National and International Conferen

ces. He has completed 26 Government of India funded projects worth about 15 Crores and currently 7 projects are in progress worth about 7 Crores. He has developed 27 products and out of that 14 products have been technology transferred to industries and for Government funding agencies. His PhD work

on wearable electronics earned him a National Award from ISTE, and he has received 24 awards on the National level. He has guided 92 graduate and postgraduate projects. He has produced 5 PhD Scholars and 12 candidates are doing PhD under his supervision. He has visited many countries for institute i

ndustry collaboration and as a keynote speaker. He has been an invited speaker in 235 programs. Also he has organized 102 events, including conferences, workshops, and seminars. He completed his graduate program in Electrical and Electronics Engineering from University of Madras and his post-graduat

e from PSG College of Technology, India, and Masters in Business Administration from IGNOU, New Delhi. After completion of his graduate degree, he joined as project engineer for Serval Paper Boards Ltd., Coimbatore (now ITC Unit, Kovai). Presently he is working as a Professor and Associate HoD in th

e Department of EEE, PSG College of Technology. He is also a Certified Charted Engineer and BSI Certified ISO 500001 2008 Lead Auditor. He has authored 14 books in his areas of interest published by Springer, USA, CRC Press, USA, Cambridge University Press, London, Elsevier Press, London and Wiley I

nda and he also have 11 patents to his credit and also contributed 18 chapters in various books. He is also the Chairman of Indian Association of Energy Management Professionals and Joint Secretary of Institution of Engineers, Coimbatore. He is holding prestigious positions in various national and i

nternational forums and he is a Fellow Member in IET (UK), Fellow Member in IETE, Fellow Member in IE and Senior Member in IEEE.

DC/AC Inverter進入發燒排行的影片

新型單相多階直流-交流轉換器

為了解決DC/AC Inverter的問題，作者李侑陽 這樣論述：

摘 要 IABSTRACT II致謝 III目錄 IV圖目錄 VIII表目錄 XXIII第一章　諸論 11.1研究動機及目的 11.2研究方法 91.3 論文內容架構 12第二章　先前技術 132.1前言 132.2 二極體箝位式變頻器 142.2.1三階層二極體箝位式變頻器分析 142.2.2五階層二極體箝位式變頻器分析 172.3飛輪電容式變頻器 242.3.1三階層飛輪電容式變頻器分析 242.3.2五階層飛輪電容式變頻器分析 292.4 串接式變頻器 362.4.1三階層串接式變頻器分析 362.4.2五階層串接式變頻器分析 392.5 T

形主動式箝位變頻器 442.6 單相變頻器之控制方法 462.6.1傳統之正弦脈波寬度調變法 472.6.2相移正弦脈波寬度調變法 47第三章 所提之多階層變頻器之動作原理與分析 493.1 前言 493.2 電路一架構 493.2.1 電路說明 493.2.2 電路符號定義及假設 493.2.3 動作原理分析 503.2.4 電路一之開關切換行為及其對應之最大電壓應力 713.3 改良型電路一架構 723.3.1 電路說明 723.3.2 電路符號定義及假設 723.3.3 動作原理分析 733.3.4 改良型電路一之開關切換行為及其對應之最大電壓應力 843

.4 電路二架構 853.4.1 電路說明 853.4.2電路符號定義及假設 853.4.3動作原理分析 863.4.4 電路二之開關切換行為及其對應之最大電壓應力 983.5 改良型電路二架構 993.5.1 電路說明 993.5.2電路符號定義及假設 993.5.3動作原理分析 1003.5.4 改良型電路二之開關切換行為及其對應之最大電壓應力 111第四章 系統之硬體電路設計 1134.1 前言 1134.2系統架構 1134.3架構之系統規格 1184.4系統設計 1184.4.1傳遞電容之設計 1184.4.2濾波器之設計 1214.4.3功率開關及

二極體之選配 1254.5驅動電路設計 1274.5電壓取樣電路 1294.6 FPGA電路板介紹 1314.7元件總表 132第五章　軟體規劃及程式設計流程 1345.1　前言 1345.2　程式動作流程 134 5.2.1 正弦波輸出模組 135 5.2.2　PI運算模組 137 5.2.3　SPWM模組 147第六章 模擬與實作波形 1506.1前言 1506.2電路模擬結果 1506.2.1電路一之模擬波形圖 1546.2.3電路二之模擬波形圖 1696.2.4改良電路二之模擬波形圖 1766.3所提電路的實驗波形圖 1

836.3.1電路一之實驗波形圖 1836.3.2改良電路一之實驗波形圖 1996.3.3電路二之實驗波形圖 2046.3.4改良電路二之實驗波形圖 2206.4 實驗相關參數量測 2256.4損失分析 2286.4.1電路一之損失分析 2286.4.2改良電路一之損失分析 2336.4.3電路二之損失分析 2386.4.2改良電路二之損失分析 243第七章　文獻比較 2497.1 文獻比較 249第八章　結論與未來展望 2518.1結論 2518.2　未來展望 251參考文獻 252符號彙編 260