Mattia Rossi, Nicola Toscani, Marco Mauri
Introduction to Microcontroller Programming for Power Electronics Control Applications
Coding with MATLAB(R) and Simulink(R)
Mattia Rossi, Nicola Toscani, Marco Mauri
Introduction to Microcontroller Programming for Power Electronics Control Applications
Coding with MATLAB(R) and Simulink(R)
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The book focuses on the LaunchPadTM F28069M board from Texas InstrumentsTM to provide readers some basic programming strategies specified to the field of power electronics-based control applications. Key concepts are developed from scratch, including a brief review of control theory and modeling strategies.
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The book focuses on the LaunchPadTM F28069M board from Texas InstrumentsTM to provide readers some basic programming strategies specified to the field of power electronics-based control applications. Key concepts are developed from scratch, including a brief review of control theory and modeling strategies.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis Ltd (Sales)
- Seitenzahl: 430
- Erscheinungstermin: 25. September 2023
- Englisch
- Abmessung: 234mm x 156mm x 23mm
- Gewicht: 626g
- ISBN-13: 9781032053035
- ISBN-10: 1032053038
- Artikelnr.: 69897362
- Verlag: Taylor & Francis Ltd (Sales)
- Seitenzahl: 430
- Erscheinungstermin: 25. September 2023
- Englisch
- Abmessung: 234mm x 156mm x 23mm
- Gewicht: 626g
- ISBN-13: 9781032053035
- ISBN-10: 1032053038
- Artikelnr.: 69897362
Mattia Rossi is a Research Assistant at Politecnico di Milano, Italy. Nicola Toscani is currently working as a Postdoctoral Research Fellow in the Department of Mechanical Engineering of Politecnico di Milano. Marco Mauri is an Assistant Professor in Electrical Machines and Drives at Politecnico di Milano, Italy. Francesco Castelli Dezza is a Full Professor in Electrical Machines and Drives at Politecnico di Milano, Italy.
1 Advances in Firmware Design for Power Electronics Control Platforms. I
Embedded Development: Hardware Kits and Coding. 2 Automatic Code Generation
through MATLAB®. 3 Texas Instruments(TM) Development Kit. 4 Software
Installation. II Review of Control Theory: Closing the Loop. 5 Designing a
Closed-Loop Control System. 6 Design Example: PI-Based Current Control of
an RL Load. 7 Manipulate the Variables Format: Data Types. III Real-Time
Control in Power Electronics: Peripherals Settings. 8 Basic Settings:
Serial Communication COM and Hardware Target. 9 Simulink® Configuration. 10
Serial Communication Interface (SCI) Peripheral. 11 GPIO Peripheral -
Digital Input/Output. 12 Analog to Digital Converter Peripheral. 13 Pulse
Width Modulator Peripheral. 14 Encoder Peripheral. IV Real-Time Control in
Power Electronics: Applications. 15 Open Loop Control of a Permanent Magnet
DC Motor. 16 Low-Side Shunt Current Sensing. 17 Current Control of an RL
Load. 18 Voltage Control of an RLC load. 19 Cascade Speed Control of a
Permanent Magnet DC Motor. V Real-Time Control in Power Electronics:Load
Emulation. 20 Debugging Tools and Firmware Profiling. 21 Electric
Propulsion Case Studies. Appendix A: Basics of C. Appendix B: Custom
Expansion Boards and Hardware Kits. Bibliography.
Embedded Development: Hardware Kits and Coding. 2 Automatic Code Generation
through MATLAB®. 3 Texas Instruments(TM) Development Kit. 4 Software
Installation. II Review of Control Theory: Closing the Loop. 5 Designing a
Closed-Loop Control System. 6 Design Example: PI-Based Current Control of
an RL Load. 7 Manipulate the Variables Format: Data Types. III Real-Time
Control in Power Electronics: Peripherals Settings. 8 Basic Settings:
Serial Communication COM and Hardware Target. 9 Simulink® Configuration. 10
Serial Communication Interface (SCI) Peripheral. 11 GPIO Peripheral -
Digital Input/Output. 12 Analog to Digital Converter Peripheral. 13 Pulse
Width Modulator Peripheral. 14 Encoder Peripheral. IV Real-Time Control in
Power Electronics: Applications. 15 Open Loop Control of a Permanent Magnet
DC Motor. 16 Low-Side Shunt Current Sensing. 17 Current Control of an RL
Load. 18 Voltage Control of an RLC load. 19 Cascade Speed Control of a
Permanent Magnet DC Motor. V Real-Time Control in Power Electronics:Load
Emulation. 20 Debugging Tools and Firmware Profiling. 21 Electric
Propulsion Case Studies. Appendix A: Basics of C. Appendix B: Custom
Expansion Boards and Hardware Kits. Bibliography.
1 Advances in Firmware Design for Power Electronics Control Platforms. I
Embedded Development: Hardware Kits and Coding. 2 Automatic Code Generation
through MATLAB®. 3 Texas Instruments(TM) Development Kit. 4 Software
Installation. II Review of Control Theory: Closing the Loop. 5 Designing a
Closed-Loop Control System. 6 Design Example: PI-Based Current Control of
an RL Load. 7 Manipulate the Variables Format: Data Types. III Real-Time
Control in Power Electronics: Peripherals Settings. 8 Basic Settings:
Serial Communication COM and Hardware Target. 9 Simulink® Configuration. 10
Serial Communication Interface (SCI) Peripheral. 11 GPIO Peripheral -
Digital Input/Output. 12 Analog to Digital Converter Peripheral. 13 Pulse
Width Modulator Peripheral. 14 Encoder Peripheral. IV Real-Time Control in
Power Electronics: Applications. 15 Open Loop Control of a Permanent Magnet
DC Motor. 16 Low-Side Shunt Current Sensing. 17 Current Control of an RL
Load. 18 Voltage Control of an RLC load. 19 Cascade Speed Control of a
Permanent Magnet DC Motor. V Real-Time Control in Power Electronics:Load
Emulation. 20 Debugging Tools and Firmware Profiling. 21 Electric
Propulsion Case Studies. Appendix A: Basics of C. Appendix B: Custom
Expansion Boards and Hardware Kits. Bibliography.
Embedded Development: Hardware Kits and Coding. 2 Automatic Code Generation
through MATLAB®. 3 Texas Instruments(TM) Development Kit. 4 Software
Installation. II Review of Control Theory: Closing the Loop. 5 Designing a
Closed-Loop Control System. 6 Design Example: PI-Based Current Control of
an RL Load. 7 Manipulate the Variables Format: Data Types. III Real-Time
Control in Power Electronics: Peripherals Settings. 8 Basic Settings:
Serial Communication COM and Hardware Target. 9 Simulink® Configuration. 10
Serial Communication Interface (SCI) Peripheral. 11 GPIO Peripheral -
Digital Input/Output. 12 Analog to Digital Converter Peripheral. 13 Pulse
Width Modulator Peripheral. 14 Encoder Peripheral. IV Real-Time Control in
Power Electronics: Applications. 15 Open Loop Control of a Permanent Magnet
DC Motor. 16 Low-Side Shunt Current Sensing. 17 Current Control of an RL
Load. 18 Voltage Control of an RLC load. 19 Cascade Speed Control of a
Permanent Magnet DC Motor. V Real-Time Control in Power Electronics:Load
Emulation. 20 Debugging Tools and Firmware Profiling. 21 Electric
Propulsion Case Studies. Appendix A: Basics of C. Appendix B: Custom
Expansion Boards and Hardware Kits. Bibliography.