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The integrated electro-mechanical drive : a mechatronic approach /
Mechatronics is a rapidly developing interdisciplinary field of engineering which encompasses a vast range of disciplines including mechanics, fluidics, electrics and electronics, and computer technologies. The Integrated Electro-Mechanical Drive: A mechatronic approach outlines a practical and syst...
| Clasificación: | Libro Electrónico |
|---|---|
| Autores principales: | , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Bristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK) :
IOP Publishing,
[2019]
|
| Colección: | IOP (Series). Release 6.
IOP expanding physics. |
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- 1. General considerations
- 1.1. Introduction
- 1.2. Definitions of integrated electro-mechanical drive (IEMD) cyber-physical heterogeneous dynamical hypersystems
- 1.3. Emerging and future AC or DC motor integrated electro-mechanical drives (IEMD)
- 2. Integrated DC or AC motors with the mechanical split-ring flat and or macroelectronic commutator
- 2.1. Introduction
- 2.2. MCM or ECM AC-AC or AC-DC-AC or DC-AC commutator motors--a basic application
- 2.3. New concept ECM AC-AC or AC-DC-AC or DC-AC commutator motors
- 2.4. Integrated DC-AC commutator synchronous motors with the mechanical split-ring or flat commutator (DC motors)
- 2.5. Integrated AC-AC or AC-DC-AC or DC-AC commutator synchronous motor with the macroelectronic commutator (macrocommutator)
- 2.6. Integrated AC-AC or AC-DC-AC or DC-AC commutator IPM synchronous motor with the macroelectronic commutator (macrocommutator)
- 2.7. Integrated AC-AC or AC-DC-AC or DC-AC commutator variable-reluctance synchronous motor with the macroelectronic commutator (macrocommutator)
- 2.8. Integrated AC-AC or AC-DC-AC or DC-AC commutator asynchronous (induction) motor with the macroelectronic commutator (macrocommutator)
- 2.9. Integrated AC-AC or AC-DC-AC or DC-AC commutator servomotor with the mechanical ring/disc or macroelectronic commutator (macrocommutator)
- 2.10. Comparisons and conclusions
- 3. Advanced AC and DC motor IEMD control
- 3.1. Introduction
- 3.2. Problems cause by high frequencies
- 3.3. Supplementary undesired side effects
- 3.4. Insulation of conductors breakdown
- 3.5. Losses caused due to the skin effect
- 3.6. Conclusions
- 4. AC motor IEMD modus operandi
- 4.1. Introduction
- 4.2. Adjustable-velocity integrated electro-mechanical drive
- 4.3. Voltage per frequency AC motor IEMD
- 4.4. Magnetic-flux holor AC motor IEMD
- 4.5. AC motor IEMD installation and programming parameters
- 4.6. AC motor IEMD selection
- 4.7. AC motor IEMD line and load reactors
- 4.8. AC motor IEMD location
- 4.9. AC motor IEMD enclosures
- 4.10. AC motor IEMD mounting techniques
- 4.11. AC motor IEMD operator interface
- 4.12. AC motor IEMD electromagnetic interference
- 4.13. AC motor IEMD grounding
- 4.14. AC motor IEMD bypass contactor
- 4.15. AC motor IEMD disconnecting means
- 4.16. AC motor IEMD protection
- 4.17. AC motor IEMD braking
- 4.18. AC motor IEMD ramping
- 4.19. AC motor IEMD control inputs and outputs
- 4.20. AC motor IEMD digital inputs
- 4.21. AC motor IEMD digital/relay outputs
- 4.22. AC motor IEMD analogue inputs
- 4.23. AC motor IEMD analogue outputs
- 4.24. EM motor nameplate
- 4.25. AC motor IEMD derating
- 4.26. Types of an AC motor IEMD
- 4.27. AC motor IEMD PID control
- 4.28. AC motor IEMD's parameter programming
- 4.29. AC motor IEMD diagnostics and troubleshooting
- 5. DC motor IEMD modus operandi
- 5.1. Introduction
- 5.2. DC motor IEMD principles of operation
- 5.3. Single-phase AC supply input--DC motor IEMD
- 5.4. DC motor IEMD three-phase AC supply input
- 5.5. Field voltage control of DC motor IEMD
- 5.6. DC motor IEMD non-regenerative and regenerative
- 5.7. DC motor IEMD parameter programming
- 6. Integrated electro-mechanical drive (IEMD)
- 6.1. Introduction
- 6.2. Integrated electro-mechanical drive (IEMD) with sinusoidal pulse width modulation (SINPWM)
- 6.3. Integrated electro-mechanical drive (IEMD) with vector pulse width modulation (VECPWM)
- 6.4. Integrated electro-mechanical drive (IEMD) with the holor pulse width modulation (HOLPWM)
- 6.5. Conclusion
- 7. Physical and mathematical models of AC-AC or AC-DC-AC or DC-AC commutator synchronous or asynchronous motors
- 7.1. 1ntroduction
- 7.2. DC-AC commutator synchronous motor with the mechanical split-ring or flat commutator and electromagnetical exciter (DC motor)
- 7.3. DC-AC commutator synchronous motor with the mechanical split-ring or flat commutator and magnetoelectrical exciter (DC motor)
- 7.4. DC-AC commutator synchronous motor with the macroelectronic commutator (macrocommutator) and electromagnetical exciter
- 7.5. DC-AC commutator synchronous motor with the macroelectronic commutator (macrocommutator) and magnetoelectrical exciter
- 7.6. DC-AC commutator variable-reluctance synchronous motor with the macroelectronic commutator (macrocommutator)
- 7.7. DC-AC commutator squirrel-cage-rotor asynchronous (induction) motor with the macroelectronic commutator (macrocommutator)
- 7.8. AC-AC or AC-DC-AC commutator synchronous motor with the macroelectronic commutator (macrocommutator) and electromagnetic exciter
- 7.9. AC-AC or AC-DC-AC commutator synchronous motor with the macroelectronic commutator (macrocommutator) and magnetoelectrical exciter
- 7.10. AC-AC or AC-DC-AC commutator split-ring or wound-rotor asynchronous (induction) doubly-fed motor with the macroelectronic commutator (macrocommutator)
- 7.11. AC-AC or AC-DC-AC commutator squirrel-cage-rotor asynchronous (induction) motor with the macroelectronic commutator (macrocommutator)
- 7.12. AC-AC or AC-DC-AC commutator variable-reluctance synchronous motor with the macroelectronic commutator (macrocommutator)
- 8. Conclusion and future trends
- 8.1. Concluding remarks
- 8.2. Future work
- Appendices. A. MCM and/or ECM AC-AC or AC-DC-AC or AC-DC or DC-DC or DC-AC-DC or DC-AC commutators
- B. Pulse width modulation (PWM)
- C. Synthetic mathematical model of the abstract MMD electrical machine physical heterogeneous continuous dynamical hypersystem
- D. Exemplary applications of the electrical commutation-matrixer commutators for DC and AC electrical machines.