Aimed at scientists and engineers who specialise in integrated electro-mechanical drives, as well as researchers and students, this fundamental guide to the practical applications of mechatronics is applicable to transportation systems, industrial production processes, aerospace, aviation and automotive industries.
Mechatronics is a rapidly developing field of engineering, which encompasses a range of disciplines including mechanics, fluidics, electrics, electronics and computer technologies. The Integrated Electro-Mechanical Drive: A mechatronic approach outlines a practical and systematic method for applications of dynamical systems and the theory of holors in mechatronics. Aimed at scientists and engineers who specialise in integrated electro-mechanical drives, as well as researchers and students, this fundamental guide to the practical applications of mechatronics is applicable to transportation systems, industrial production processes, aerospace, aviation and automotive industries.
Preface
Acknowledgements
About the Authors
Acronyms
Chapter 1 - General considerations
Chapter 2 - Integrated DC or AC Motors with the Mechanical Split-Ring/Flat and/or Macroelectronic Commutator
Chapter 3 - Advanced AC and DC Motor IEMD Control
Chapter 4 - AC Motor IEMD Modus Operandi
Chapter 5 - DC Motor IEMD Modus Operandi
Chapter 6 - Integrated Electro-Mechanical Drive (IEMD)
Chapter 7 - Physical and Mathematical Models of AC-AC or AC-DC-AC or DC-AC Commutator Synchronous or Asynchronous Motors
Chapter 8 - Concluding and Future Trends
Appendix A, B, C, D
Glossary