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|a Asadi, Farzin,
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|a Electric and electronic circuit simulation using TINA-TI℗ /
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|a [United States] :
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|a River Publishers series in circuits and systems.
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|a 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) is a powerful yet affordable SPICE based circuit simulation and PCB design software package for analyzing, designing, and real time testing of analog, digital, VHDL, MCU, and mixed electronic circuits and their PCB layouts. This software was created by DesignSoft. TINA-TI is a spinoff software program that was designed by Texas Instruments (TI℗ʼ) in cooperation with DesignSoft which incorporates a library of pre-made TI components to for the user to utilize in their designs. This book shows how a circuit can be analyzed in the TINA-TI℗ʼ environment. Students of engineering (for instance, electrical, biomedical, mechatronics and robotics to name a few), engineers who work in industry and anyone who want to learn the art of circuit simulation with TINA-TI can benefit from this book.
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|a 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.
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|a Title details screen.
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|a Farzin Asadi has a BSc in Electronics Engineering, MSc in Control Engineering, and PhD in Mechatronics Engineering. Currently, he is with the Department of Electrical and Electronics Engineering at Maltepe University, Istanbul, Turkey. Dr. Asadi has published more than 40 international papers and 15 books. He is also on the editorial board of 7 scientific journals. His research interests include switching converters, control theory, robust control of power electronics converters, and robotics.
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