Power electronics circuit analysis with PSIM

Küçük Resim Yok

Tarih

2021

Dergi Başlığı

Dergi ISSN

Cilt Başlığı

Yayıncı

De Gruyter

Erişim Hakkı

Attribution-NonCommercial-NoDerivs 3.0 United States
info:eu-repo/semantics/openAccess

Araştırma projeleri

Organizasyon Birimleri

Dergi sayısı

Özet

Power electronic systems are widely used today to provide power processing for applications ranging from computing and communications to medical electronics, appliance control, transportation, and high-power transmission. The associated power levels range from milliwatts to megawatts. Modeling and simulation are essential ingredients of the analysis and design process in power electronics. They help a design engineer gain an increased understanding of circuit operation. With this knowledge the designer can, for a given set of specifications, choose a topology, select appropriate circuit component types and values, estimate circuit performance, and complete the design by ensuring that the circuit performance will meet specifications even with the anticipated variations in operating conditions and circuit component values. Power electronic systems are nonlinear variable structure systems. They involve passive components such as resistors, capacitors, and inductors, semiconductor switches such as thyristors and MOSFETs, and circuits for control. The analysis and design of such systems present significant challenges. Fortunately, increased availability of powerful computer and simulation programs makes the analysis/design process much easier. PSIM® is an electronic circuit simulation software package, designed specifically for use in power electronics and motor drive simulations but can be used to simulate any electronic circuit. With fast simulation speed and user-friendly interface, PSIM provides a powerful simulation environment to meet the user simulation and development needs. This book shows how to simulate the power electronic converter circuits in PSIM environment. The prerequisite for this book is a first course on power electronics. This book is composed of eight chapters. Chapter 1 is an introduction to PSIM. This chapter introduces the different parts of PSIM environment. Chapter 2 shows the fundamentals of circuit simulation with PSIM. You will learn how to draw the circuit schematic, connect the components together, run the simulation, measure what you want, and many other important tasks in this chapter. Chapter 3 introduces Simview™. Simview is PSIM’s waveform display and post-processing program. This chapter studies the most important measurements that can be done with Simview. Chapter 4 introduces the most commonly used components of PSIM. Chapter 5 shows how PSIM can be used for analysis of power electronic circuits. Many examples are studied in this chapter. The studied examples are selected among the most fundamental circuits of power electronics. All the details are shown, so you can follow the examples easily. Chapter 6 shows how you can simulate motors and mechanical loads in PSIM. Chapter 7 introduces SimCoupler™. SimCoupler fuses PSIM with Simulink® by providing an interface for co-simulation. With the aid of SimCoupler, you have access to all of the Simulink blocks in your simulation. Chapter 8 introduces the SmartCtrl®. SmartCtrl is a controller design software specifically geared toward power electronic applications. It features a user-friendly interface, a simple workflow, and a comprehensible display of control loop stability and performance. SmartCtrl facilitates the simple and fast designing of controllers for various power converters. In this chapter, the controller design process is shown for a buck converter. We want to acknowledge the Powersim Inc. for providing access to PSIM during the writing of this book. We hope that this book will be useful to readers, and we welcome comments on the book. Enjoy the world of PSIM!

Açıklama

Anahtar Kelimeler

Analysis of a simple resistive circuit, Simulating the circuit, Measurement of circuit current, Calculation of power, Voltage and current sensors, Measurement with current flag and voltage flag, Calculation of power using voltage/current flag, Color of connections, Exporting the drawn schematic, Addition of text to the schematic, Addition of project information to the schematic, Saving the schematic, Protection of schematic files with password, Compatible files for older versions of PSIM, Enabling and disabling a component, Shortcut keys, List of used elements, Removing the grids, Backup files, Automatic code generation blocks, Utilities menu, Simulation control blockChange of elements’ values during the simulation, AC and DC voltmeters and ammeters, A sample simulation, Addition of label to the waveforms, Changing the color of waveforms and addition of new axis to the graph, Splitting the window, Zoom in, zoom out, and move, Customizing the X- and Y-axes, Cursors, Calculation of average and root mean square, Calculation of power factor, active power, and apparent power, Calculation of total harmonic distortion ?, Fast Fourier transform analysis, Exporting the waveforms to Excel® and MATLAB®, Reading the exported file in MATLAB environment, Exporting the graphic file of waveforms, Resistor, inductor, and capacitor, Saturable inductor block, Coupled inductor block, DC Load block, Nonlinear elements, Computational blocks, Transfer function block, Logic elements, Math function, Switches, Transformers, Op amp, IC models, Simulation of a simple RC circuit, Effect of capacitor value on output waveform, Nonlinear elements, Switching the MOSFET, Power stage of the converter, Obtaining the frequency response of the power stage, Designing the controller, Parameters of designed controller, Exporting the parameters of designed controller, Addition of the controller to the power stage, Sample designs for SmartCtrl

Kaynak

Power electronics circuit analysis with PSIM

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Sayı

Künye

Asadi, F. ve Eguchi, K. (2021). Power electronics circuit analysis with PSIM. Berlin: De Gruyter.