Advanced Linear Machines and Drive Systems. (2019)
- Record Type:
- Book
- Title:
- Advanced Linear Machines and Drive Systems. (2019)
- Main Title:
- Advanced Linear Machines and Drive Systems
- Further Information:
- Note: Wei Xu, Md. Rabiul Islam, Marcello Pucci, editors.
- Other Names:
- Xu, Wei
Islam, Rabiul
Pucci, Marcello - Contents:
- Intro; Contents; About the Editors; Acronyms; Symbols; List of Figures; List of Tables; 1 Dynamic Modelling of LIMs Including End-Effects; Abstract; 1 Definition of Space-Vectors; 1.1 3→2 and 2→3 Transformations; 1.2 Coordinate Transformation; 2 Introduction About the Mathematical Models of LIMs; 3 Space-Vector T-Circuit of the LIM Including the Dynamic End Effects; 4 Space-Vector Model of the LIM Including End-Effects Expressed in State Form; 4.1 Voltage and Current Flux Models of the LIM; 4.2 State Space Space-Vector Model of the LIM; 4.3 Mechanical Equation 5 Parameter Identification of LIMs5.1 Description of the Identification Algorithm; 5.2 Magnetic Characterization of the LIM; 6 Validation of the LIM Dynamic Model Including the End-Effects; 6.1 Experimental Set-up; 6.2 Finite Element Analysis (FEA) Model of the LIM; 6.3 FEA Validation; 6.4 Experimental Validation; 6.5 Magnetic Characterization of the LIM from Experimental Tests; 7 Summary; References; 2 Advanced Modelling and Performance Analysis of Permanent Magnet Linear Generators; Abstract; 1 Introduction; 1.1 Linear Machines; 1.2 Direct-Drive Power Take-Off Systems 1.3 Operation of Permanent Magnet Linear Generator1.4 Linear Generator Power Rating; 2 Linear Generator Technologies; 3 Mathematical Modelling of WEC; 3.1 The Ocean Wave Characterization; 3.2 The Mathematical Modelling of a PMLG; 4 Simulation and Analysis; 4.1 The Two-Sided RPMLG (2SRPMLG); 4.2 The Four-Sided RPMLG (4SRPMLG); 5 Results and Discussions;Intro; Contents; About the Editors; Acronyms; Symbols; List of Figures; List of Tables; 1 Dynamic Modelling of LIMs Including End-Effects; Abstract; 1 Definition of Space-Vectors; 1.1 3→2 and 2→3 Transformations; 1.2 Coordinate Transformation; 2 Introduction About the Mathematical Models of LIMs; 3 Space-Vector T-Circuit of the LIM Including the Dynamic End Effects; 4 Space-Vector Model of the LIM Including End-Effects Expressed in State Form; 4.1 Voltage and Current Flux Models of the LIM; 4.2 State Space Space-Vector Model of the LIM; 4.3 Mechanical Equation 5 Parameter Identification of LIMs5.1 Description of the Identification Algorithm; 5.2 Magnetic Characterization of the LIM; 6 Validation of the LIM Dynamic Model Including the End-Effects; 6.1 Experimental Set-up; 6.2 Finite Element Analysis (FEA) Model of the LIM; 6.3 FEA Validation; 6.4 Experimental Validation; 6.5 Magnetic Characterization of the LIM from Experimental Tests; 7 Summary; References; 2 Advanced Modelling and Performance Analysis of Permanent Magnet Linear Generators; Abstract; 1 Introduction; 1.1 Linear Machines; 1.2 Direct-Drive Power Take-Off Systems 1.3 Operation of Permanent Magnet Linear Generator1.4 Linear Generator Power Rating; 2 Linear Generator Technologies; 3 Mathematical Modelling of WEC; 3.1 The Ocean Wave Characterization; 3.2 The Mathematical Modelling of a PMLG; 4 Simulation and Analysis; 4.1 The Two-Sided RPMLG (2SRPMLG); 4.2 The Four-Sided RPMLG (4SRPMLG); 5 Results and Discussions; 5.1 The Comparison of the Modelled Machine with an Existing 2SRPMLG; 5.2 Two-Sided Vs. Four-Sided Topologies; 5.3 Rectangular Vs Square Structure PMLG; 6 Conclusion; References; 3 Model Predictive Current Control for Linear Induction Machine Abstract1 Introduction; 1.1 Traditional Control Method for LIM; 1.2 Development of MPC; 2 FCS-MPC for LIM; 2.1 FCS-MPC Based One Voltage Vector; 2.2 FCS-MPC Based Two Voltage Vectors; 2.3 FCS-MPC Based Three Voltage Vectors; 2.4 Deadlock in Search Process; 3 Multistep Model Predictive Control for LIM; 3.1 Constraint Problem in MMPC; 4 Simulation and Experiments; 4.1 Results of FCS-MPC; 4.2 Results of MMPC; 5 Summary; References; 4 Sensorless Control Techniques of LIMs; Abstract; 1 Introduction on Sensorless Control; 1.1 Model Based Sensorless Control of RIMs 1.2 Anisotropies Based Sensorless Control1.3 Sensorless Control of LIMs; 2 Limits of Model-Based Sensorless Techniques; 2.1 Open-Loop Integration; 2.1.1 The Neural Adaptive Integrator (NAI); 2.2 The Inverter Non-Linearity Compensation; 2.3 Machine Parameter Mismatch; 3 Speed Estimation by Least-Squares; 3.1 The Least-Squares Approach; 3.2 The TLS EXIN Neuron; 4 The TLS EXIN MRAS Speed Observer; 4.1 The NN Adaptive Model; 5 The TLS EXIN FOLO; 5.1 The FOLO; 5.2 The Speed Adaptation Law; 6 The Closed-Loop MRAS (CL-MRAS); 6.1 LIM Mechanical Model … (more)
- Publisher Details:
- Singapore : Springer
- Publication Date:
- 2019
- Extent:
- 1 online resource (371 pages)
- Subjects:
- 629.8/32
Linear systems
Linear integrated circuits
Linear integrated circuits
Linear systems
Electronic books - Languages:
- English
- ISBNs:
- 9789811396168
9811396167 - Related ISBNs:
- 9789811396151
- Notes:
- Note: Print version record.
- Access Rights:
- Legal Deposit; Only available on premises controlled by the deposit library and to one user at any one time; The Legal Deposit Libraries (Non-Print Works) Regulations (UK).
- Access Usage:
- Restricted: Printing from this resource is governed by The Legal Deposit Libraries (Non-Print Works) Regulations (UK) and UK copyright law currently in force.
- View Content:
- Available online (eLD content is only available in our Reading Rooms) ↗
- Physical Locations:
- British Library HMNTS - ELD.DS.454916
- Ingest File:
- 02_591.xml