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Electric and electronic circuit simulation using TINA-TI℗ /

A circuit simulator is a computer program that permits us to see circuit behavior, i.e. circuit voltages and currents, without making the circuit. Use of a circuit simulator is a cheap, efficient, and safe way to study the behavior of circuits. The Toolkit for Interactive Network Analysis (TINA℗ʼ) i...

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Bibliographic Details
Main Author: Asadi, Farzin (Author)
Corporate Author: Taylor & Francis
Format: eBook
Language:English
Published: [United States] : River Publishers, [2022]
Series:River Publishers series in circuits and systems.
Subjects:
Electronic circuits > Computer simulation.
Circuits électroniques > Simulation par ordinateur.
SCIENCE / Energy
TECHNOLOGY / Electricity
TECHNOLOGY / Electronics / Circuits / General
Electronic circuits > Computer simulation
Electronic books.
Online Access:Connect to the full text of this electronic book
Table of Contents:
  • Preface xi List of Tables xiii 1 Simulation of Electric Circuits with TINA-TI℗ʼ 1 1.1 Introduction 1 1.2 Installation of TINA-TI 1 1.3 Version of Software 7 1.4 Example 1: Simple Resistive Voltage Divider 7 1.5 Example 2: Volt Meter and Ampere Meter Blocks 34 1.6 Example 3: Open Circuit and Current Arrow Blocks 39 1.7 Example 4: RLC Circuit with Non-zero Initial Condition 41 1.8 Example 5: Exporting the Obtained Waveforms as a Graphical File 62 1.9 Example 6: Exporting the Obtained Waveforms as Text File 63 1.10 Example 7: RLC Circuit with Zero Initial Condition 66 1.11 Example 8: Initial Condition Blocks 72 1.12 Example 9: Importing the TINA-TI Analysis Result into MATLAB℗ʼ 76 1.13 Example 10: Measurement of Phase Difference 84 1.14 Example 11: Power Meter Block 89 1.15 Example 12: Drawing the Instantaneous Power Waveform (I) 93 1.16 Example 13: Drawing the Instantaneous Power Waveform (II) 99 1.17 Example 14: Ohm Meter block (I) 114 1.18 Example 15: Ohm Meter Block (II) 117 1.19 Example 16: Thevenin Equivalent Circuit 121 1.20 Example 17: Measurement of Thevenin Resistance 129 1.21 Example 18: Current Controlled Voltage Source 131 1.22 Example 19: Voltage Controlled Current Sources Block 134 1.23 Example 20: Switch Block 138 1.24 Example 21: Three Phase Source 143 1.25 Example 22: Jumper Block 145 1.26 Example 23: Coupled Inductors 151 1.27 Example 24: Transformer 159 1.28 Example 25: Unit Impulse Response of Electric Circuits 165 1.29 Example 26: Unit Step Response of Circuits 170 1.30 Example 27: Frequency Response of Electric Circuits (I) 174 1.31 Example 28: Frequency Response of Electric Circuits (II) 180 1.32 Example 29: Input Impedance of Electric Circuits 185 1.33 Example 30: Drawing the Input Impedance of Electric Circuits 189 1.34 Example 31: Phasor Analysis 192 1.35 Example 32: Parameter Sweep Analysis 197 1.36 Exercises 207 References 210 2 Simulation of Electronic Circuits with TINA-TI℗ʼ 211 2.1 Introduction 211 2.2 Example 1: Half Wave Rectifier 211 2.3 Example 2: Measurement of Average and RMS Values of Waveforms 216 2.4 Example 3: Harmonic Content of Waveforms 222 2.5 Example 4: Fourier Analysis 228 2.6 Example 5: Converting a Waveform into Sound 231 2.7 Example 6: DC Transfer Characteristics (I) 231 2.8 Example 7: DC Transfer Characteristics (II) 234 2.9 Example 8: DC Transfer Characteristics (III) 237 2.10 Example 9: Temperature Analysis 240 2.11 Example 10: Addition of SPICE Models to TINA-TI℗ʼ 244 2.12 Example 11: Switching Behavior of Diodes 250 2.13 Example 12: Small Signal AC Resistance of Diodes 257 2.14 Example 13: Full Wave Rectifier (I) 262 2.15 Example 14: Full Wave Rectifier (II) 272 2.16 Example 15: Controlled Rectifier 284 2.17 Example 16: Measurement of Operating Point of Common Emitter Amplifier 305 2.18 Example 17: Measurement of Voltage Gain for Common Emitter Amplifier 313 2.19 Example 18: Total Harmonic Distortion (THD) of Common Emitter 317 2.20 Example 19: THD of Common Emitter Amplifier (II) 322 2.21 Example 20: Frequency Response of Common Emitter Amplifier (I) 325 2.22 Example 21: Frequency Response of Common Emitter Amplifier (II) 332 2.23 Example 22: Input Impedance of Common Emitter Amplifier 336 2.24 Example 23: Output Impedance of Common Emitter Amplifier 351 2.25 Example 24: Measurement of Input/Output Impedance with Ohm Meter Block 352 2.26 Example 25: Modeling a Custom Bipolar Transistor 355 2.27 Example 26: Modeling a Custom Field Effect Transistor 357 2.28 Example 27: Generating the List of Circuit Components 358 2.29 Example 28: Non Inverting op amp Amplifier 359 2.30 Example 29: Stability of op amp Amplifiers 371 2.31 Example 30: Measurement of DC Operating Point 382 2.32 Example 31: Measurement of Common Mode Rejection Ratio (CMRR) 386 2.33 Example 32: Astable Oscillator 397 2.34 Example 33: Buck Converter 403 2.35 Example 34: Operating Mode of Converter 417 2.36 Example 35: Generating a Pulse with Desired Duty Cycle 422 2.37 Exercises 436 References 439 Index 439 About the Author 441.