Title: Electrotechnical Systems : Calculation and Analysis with Mathematica and PSpice Author: Igor Korotyeyev, Radoslaw Kasperek, Valerii Zhuikov ISBN: 1138117757 / 9781138117754 Format: Soft Cover Pages: 268 Publisher: CRC Press Year: 2017 Availability: 2 to 3 weeks
Description
Contents
Advances in mathematical methods, computer technology, and electrotechnical devices in particular continue to result in the creation of programs that are leading to increased labor productivity. Mathematical and simulation programs—and other programs that unite these two operations - provide the ability to calculate transitional, steady-state processes, stability conditions, and harmonic composition, and are often used to analyze processes in power electronic systems.
Electrotechnical Systems: Calculation and Analysis with Mathematica and PSpice explores the potential of two such programs - Mathematica and ORCAD (PSpice) - as they are used for analysis in various areas. The authors discuss the formulation of problems and the steps in their solution. They focus on the analysis of transient, steady-state processes and their stability in non-stationary and nonlinear systems with DC and AC converters. All problems are solved using Mathematica, and program codes are presented. The authors use ORCAD (PSpice) to compare the results obtained by employing Mathematica and to demonstrate the peculiarities associated with its use.
This book clearly and concisely illustrates represented expressions, variables, and functions and the general application of the mathematical pocket Mathematica 4.2 for the analysis of the electromagnetic processes in electrotechnical systems. It will be a valuable addition to the library of anyone working with electrotechnical systems.
Part I : Characteristics of the Mathematica® System
Chapter 1 : Calculations and Transformations of Equations Chapter 2 : Solutions of Algebraic and Differential Equations Chapter 3 : Use of Vectors and Matrices Chapter 4 : Graphics Plotting Chapter 5 : Overview of Elements and Methods of Higher Mathematics Chapter 6 : Use of the Programming Elements in Mathematical Problems
Part II : Calculation of Transition and Steady-State Processes
Chapter 7 : Calculation of Processes in Linear Systems Chapter 8 : Calculation of Processes in the Thyristor Rectifier Circuit Chapter 9 : Calculation of Processes in Nonstationary Circuits Chapter 10 : Calculation of Processes in Nonlinear Systems Chapter 11 : Calculation of Processes in Systems with Several Aliquant Frequencies Chapter 12 : Analysis of Harmonic Distribution in an AC Voltage Converter Chapter 13 : Calculation of Processes in Direct Frequency Converter Chapter 14 : Calculation of Processes in the Three-Phase Symmetric Matrix-Reactance Converter
Part III : The Calculation of the Processes and Stability in Closed-Loop Systems
Chapter 15 : Calculation of Processes in Closed-Loop Systems with PWM Chapter 16 : Stability Analysis in Closed-Loop Systems with PWM Chapter 17 : Stability Analysis in Closed-Loop Systems with PWM Using the State Space Averaging Method Chapter 18 : Steady-State and Chaotic Processes in Closed-Loop Systems with PWM Chapter 19 : Identification of Chaotic Processes Chapter 20 : Calculation of Processes in Relay Systems
Part IV : Analysis of Processes in Systems with Converters
Chapter 21 : Power Conditioner Chapter 22 : Characteristics of the Noncompensated DC Motor
Part V : Modeling of Processes Using PSpice
Chapter 23 : Modeling of Processes in Linear Systems Chapter 24 : Analyzing the Linear Circuits Chapter 25 : Modeling of Nonstationary Circuits Chapter 26 : Processes in a System with Several Aliquant Frequencies Chapter 27 : Processes in Closed-Loop Systems Chapter 28 : Modeling of Processes in Relay Systems Chapter 29 : Modeling of Processes in AC/AC Converters Chapter 30 : Static Characteristics of the Noncompensated DC Motor Chapter 31 : Simulation of the Electrical Drive with Noncompensated DC Motor