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How OrCAD Capture and PSpice, Second Edition book pdf Can Help You Master Analog Design and Simulation


Analog Design and Simulation Using OrCAD Capture and PSpice, Second Edition book pdf




If you are interested in learning how to design and simulate analog circuits using OrCAD Capture and PSpice, you might want to check out this book. In this article, we will give you an overview of what analog design and simulation are, what OrCAD Capture and PSpice are, why they are useful tools for analog design and simulation, what features the book offers, and how you can get the book pdf online.




Analog Design and Simulation Using OrCAD Capture and PSpice, Second Edition book pdf


Download: https://www.google.com/url?q=https%3A%2F%2Furlcod.com%2F2uclPS&sa=D&sntz=1&usg=AOvVaw0f8adXX8LiFmr1od7_-9Ia



Introduction




What is analog design and simulation?




Analog design is the process of creating electronic circuits that process analog signals. Analog signals are continuous signals that vary in amplitude or frequency over time, such as sound waves, light waves, temperature, voltage, current, etc. Analog circuits can perform functions such as amplification, filtering, modulation, demodulation, mixing, etc.


Analog simulation is the process of using software tools to model the behavior of analog circuits under different conditions. Analog simulation can help designers to verify the functionality, performance, reliability, and compatibility of their circuits before building physical prototypes. Analog simulation can also help designers to optimize their circuits for various parameters such as power consumption, noise, distortion, bandwidth, etc.


What is OrCAD Capture and PSpice?




OrCAD Capture is a schematic capture software tool that allows designers to create and edit circuit diagrams using graphical symbols and wires. OrCAD Capture supports hierarchical design, mixed-signal design, multi-page design, etc. OrCAD Capture also integrates with PSpice, which is a circuit simulator software tool that allows designers to perform various types of analysis on their circuits.


PSpice is a powerful and versatile circuit simulator that can handle both analog and digital circuits. PSpice can perform analysis such as DC bias point analysis, DC sweep analysis, AC sweep analysis, transient analysis, temperature analysis, Monte Carlo analysis, sensitivity analysis, optimization analysis, worst case analysis, analog behavioral modeling, etc. PSpice can also generate graphical plots and reports of the simulation results.


Why use OrCAD Capture and PSPICE for analog design and simulation?




OrCAD Capture and PSpice are widely used tools for analog design and simulation in the industry and academia. They offer many advantages such as:



  • They are easy to use and learn. They have user-friendly interfaces and intuitive commands. They also have extensive online help and documentation.



  • They are compatible with many other software tools. They can import and export files in various formats such as netlist, spice model library, waveform data file, etc. They can also interface with other tools such as MATLAB/Simulink, LabVIEW, Excel, etc.



  • They are comprehensive and accurate. They have a large and updated library of components, models, and devices. They can simulate complex and realistic circuits with high accuracy and speed.



  • They are flexible and customizable. They allow designers to create and modify their own components, models, and devices. They also allow designers to define their own analysis types, parameters, and options.



Features of the book




Overview of the book contents




The book "Analog Design and Simulation Using OrCAD Capture and PSpice, Second Edition" by Dennis Fitzpatrick is a practical and comprehensive guide for learning how to use OrCAD Capture and PSpice for analog design and simulation. The book covers the following topics:


Chapter 1: Introduction to OrCAD Capture and PSpice




This chapter introduces the basic concepts and features of OrCAD Capture and PSpice. It explains how to install and launch the software, how to create and edit a schematic, how to add components and wires, how to assign values and properties, how to run a simulation, how to view and analyze the results, etc.


Chapter 2: DC Bias Point Analysis




This chapter explains how to perform DC bias point analysis on a circuit. It shows how to set up the analysis, how to specify the sources and loads, how to display the node voltages and branch currents, how to use markers and probes, how to use the output file, etc.


Chapter 3: DC Sweep and Parametric Analysis




This chapter explains how to perform DC sweep analysis and parametric analysis on a circuit. It shows how to vary one or more sources or parameters over a range of values, how to plot the output variables as functions of the input variables, how to use cursors and measurements, how to use expressions and equations, etc.


Chapter 4: AC Sweep and Frequency Response Analysis




This chapter explains how to perform AC sweep analysis and frequency response analysis on a circuit. It shows how to apply sinusoidal sources with different frequencies, amplitudes, phases, etc., how to plot the magnitude and phase of the output variables as functions of frequency, how to use Bode plots, Nyquist plots, polar plots, etc., how to use decibels and logarithmic scales, etc.


Chapter 5: Transient Analysis




This chapter explains how to perform transient analysis on a circuit. It shows how to apply time-varying sources with different waveforms, such as pulse, ramp, exponential, sine, cosine, etc., how to plot the output variables as functions of time, how to use transient markers and probes, how to use Fourier analysis, etc.


Chapter 6: Temperature and Monte Carlo Analysis




This chapter explains how to perform temperature analysis and Monte Carlo analysis on a circuit. It shows how to vary the temperature of the circuit or individual components over a range of values, how to plot the output variables as functions of temperature, how to account for temperature-dependent parameters and models, etc. It also shows how to perform statistical simulations with random variations of component values or parameters over a range of values, how to plot histograms and probability distributions of the output variables, how to calculate mean values, standard deviations, confidence intervals, etc.


Chapter 7: Sensitivity Analysis and Optimization




This chapter explains how to perform sensitivity analysis and optimization on a circuit. It shows how to calculate the sensitivity of the output variables with respect to the input variables or parameters, how to plot sensitivity curves or surfaces, how to identify critical components or parameters that affect the performance or reliability of the circuit, how to optimize the circuit for a given objective function or constraint by adjusting the input variables or parameters automatically or manually.


Chapter 8: Worst Case Analysis




This chapter explains how to perform worst case analysis on a circuit. It shows how to determine the worst case scenarios for the output variables based on the tolerances of the input variables or parameters, how to plot worst case envelopes or boundaries for the output variables, how to calculate worst case margins or yields for the circuit, how to use worst case models or libraries for components or devices.


Chapter 9: Analog Behavioral Modeling




This chapter explains how to perform analog behavioral modeling on a circuit. It shows how to create custom components or devices using mathematical expressions or equations that describe their behavior, how to use built-in behavioral models such as voltage-controlled sources, current-controlled sources, resistors, capacitors, inductors, diodes, transistors, etc., how to use subcircuits or macros for complex or repetitive circuits, how Chapter 10: Circuit Simulation Examples




This chapter provides some practical examples of circuit simulation using OrCAD Capture and PSpice. It shows how to design and simulate circuits such as rectifiers, filters, amplifiers, oscillators, modulators, demodulators, converters, regulators, etc. It also shows how to use advanced features such as parameter sweep, Monte Carlo analysis, optimization, etc.


Benefits of the book for learners and professionals




The book "Analog Design and Simulation Using OrCAD Capture and PSpice, Second Edition" by Dennis Fitzpatrick is a valuable resource for anyone who wants to learn or improve their skills in analog design and simulation. The book offers many benefits such as:



  • It is comprehensive and up-to-date. It covers all the essential topics and features of OrCAD Capture and PSpice. It also reflects the latest version of the software and the industry standards.



  • It is practical and hands-on. It provides step-by-step instructions and screenshots for each topic and feature. It also provides numerous examples and exercises for each chapter.



  • It is clear and concise. It explains the concepts and techniques in a simple and straightforward manner. It also uses consistent terminology and notation throughout the book.



  • It is suitable for different levels and backgrounds. It assumes some basic knowledge of electronics and circuit theory, but it does not require any prior experience with OrCAD Capture or PSpice. It also caters to both beginners and advanced users, as well as students and professionals.



How to get the book pdf online




If you are interested in getting the book pdf online, you have several options:



  • You can buy the book from the publisher's website or from online retailers such as Amazon, Barnes & Noble, etc.



  • You can access the book from online libraries or databases such as IEEE Xplore, ScienceDirect, etc.



  • You can download the book from free or paid websites that offer ebooks or pdfs such as PDF Drive, Z-Library, etc.



However, before you download the book from any website, you should make sure that it is legal and ethical to do so. You should respect the author's rights and avoid piracy or plagiarism.


Conclusion




Summary of the main points




In this article, we have given you an overview of what analog design and simulation are, what OrCAD Capture and PSpice are, why they are useful tools for analog design and simulation, what features the book "Analog Design and Simulation Using OrCAD Capture and PSpice, Second Edition" by Dennis Fitzpatrick offers, and how you can get the book pdf online.


We hope that this article has sparked your interest in learning more about analog design and simulation using OrCAD Capture and PSpice. We also hope that you will find the book helpful and informative for your learning or professional goals.


Call to action




If you want to learn more about analog design and simulation using OrCAD Capture and PSpice, we encourage you to get the book today. You can order it online or download it from a reputable website. You can also check out the author's website for more information and resources.


Don't miss this opportunity to master one of the most popular and powerful tools for analog design and simulation in the industry. Get your copy of "Analog Design and Simulation Using OrCAD Capture and PSpice, Second Edition" by Dennis Fitzpatrick now!


FAQs




What are the prerequisites for reading this book?




The book assumes some basic knowledge of electronics and circuit theory, but it does not require any prior experience with OrCAD Capture or PSpice. However, it would be helpful if you have access to a computer with OrCAD Capture and PSpice installed.


What are the differences between the first edition and the second edition of this book?




The second edition of this book has been updated to reflect the latest version of OrCAD Capture (17.4) and PSpice (17.4). It also includes new topics such as worst case analysis, analog behavioral modeling, and circuit simulation examples. It also has improved explanations, illustrations, and exercises.


How long does it take to read this book?




The book has 10 chapters and 384 pages. The time it takes to read this book depends on your reading speed and comprehension level. However, a rough estimate is that it would take about 20 hours to read this book.


How can I contact the author of this book?




You can contact the author of this book by visiting his website at http://www.dennisfitzpatrick.co.uk/. You can also send him an email at dennis.fitzpatrick@port.ac.uk.


Where can I find more resources on analog design and simulation using OrCAD Capture and PSpice?




You can find more resources on analog design and simulation using OrCAD Capture and PSpice by visiting the following websites:



  • https://www.orcad.com/: The official website of OrCAD, where you can find product information, tutorials, videos, webinars, support, etc.



  • https://community.cadence.com/cadence_technology_forums/f/pspice-forum: The official forum of PSpice, where you can ask questions, share tips, get feedback, etc.



  • https://www.youtube.com/user/OrCADbyCadence: The official YouTube channel of OrCAD, where you can watch videos on various topics and features of OrCAD Capture and PSpice.



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