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Electrotechnical Systems
Book Description
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| Electrotechnical Systems |
Filling a gap in the literature, Electrotechnical Systems: Simulation with Simulink® and SimPowerSystems™ explains how to simulate complicated electrical systems more easily using SimPowerSystems™ blocks. It gives a comprehensive overview of the powerful SimPowerSystems toolbox and demonstrates how it can be used to create and investigate models of both classic and modern electrotechnical systems.
Build from Circuit Elements and Blocks to System Models
Building from simple to more complex topics, the book helps readers better understand the principles, features, and detailed functions of various electrical systems, such as electrical drives, power electronics, and systems for production and distribution of electrical energy. The text begins by describing the models of the main circuit elements, which are used to create the full system model, and the measuring and control blocks. It then examines models of semiconductor devices used in power electronics as well as models of DC and AC motors. The final chapter discusses the simulation of power production and transmission systems, including hydraulic turbine, steam turbine, wind, and diesel generators. The author also develops models of systems that improve the quality of electrical energy, such as active filters and various types of static compensators.
Electrical Machines with MATLAB
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Table of Contents
Special Features of SimPowerSystems Models
General Characteristics
Graphical User Interface PowerGUI
Models of Power Circuit Devices
Electrical Sources
Impedances and Loads
Transformers
Transmission Line Models
Miscellaneous
Measuring and Control Blocks
Measurement of Main Circuit Quantities
Meters with Employment of Simulink® Blocks
Control Blocks
Simulation of Power Electronics Devices
Models of Power Semiconductor Devices
Control Blocks for Power Electronics
Simulation of Converters With Thyristors
Simulation of a High-Voltage Direct Current Electric Power Transmission System
Simulation of Converters With Forced-Commutated Devices
Cascaded H-Bridge Multilevel Inverter Simulation
Four-Level Inverter with "Flying" Capacitor Simulation
Simulation of Z-Source Converters
Simulation of Resonant Inverters
Simulation of Modular Multilevel Converters
Simulation of Matrix Converters
Electric Machine and Electric Drive Simulation
Direct Current (DC) Motors and Drives
Induction Motors and Electric Drives
Synchronous Motors (SM) and Electric Drives
Synchronous Motor with Permanent Magnets
Switched Reluctance Motor Simulation
Mechanical Coupling Simulation
Power Production and Transmission Simulation
Computation of Transmission Line Parameters
Use of the Simplified SM Model
Simulation of Systems with Hydraulic-Turbine Generators
Simulation of Systems with Steam Turbine-Synchronous Generator
Simulation of Wind Generation Systems (WG)
Simulation of the Unit: Diesel—Squirrel-Cage IG
FACTS Simulation
Electrotechnical Systems
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