Massimo Mitolo
Simulation-based Labs for Circuit Analysis
Discovering Circuits with Multisim Live and Tinkercad
Massimo Mitolo
Simulation-based Labs for Circuit Analysis
Discovering Circuits with Multisim Live and Tinkercad
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This book brings an unparalleled learning experience, integrating cutting-edge simulation tools, Multisim Live and Tinkercad, to explore the realm of circuits.
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This book brings an unparalleled learning experience, integrating cutting-edge simulation tools, Multisim Live and Tinkercad, to explore the realm of circuits.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: River Publishers
- Seitenzahl: 450
- Erscheinungstermin: 16. August 2024
- Englisch
- Abmessung: 234mm x 156mm x 25mm
- Gewicht: 807g
- ISBN-13: 9788770040815
- ISBN-10: 8770040818
- Artikelnr.: 70291759
- Herstellerkennzeichnung
- Libri GmbH
- Europaallee 1
- 36244 Bad Hersfeld
- 06621 890
- Verlag: River Publishers
- Seitenzahl: 450
- Erscheinungstermin: 16. August 2024
- Englisch
- Abmessung: 234mm x 156mm x 25mm
- Gewicht: 807g
- ISBN-13: 9788770040815
- ISBN-10: 8770040818
- Artikelnr.: 70291759
- Herstellerkennzeichnung
- Libri GmbH
- Europaallee 1
- 36244 Bad Hersfeld
- 06621 890
Dr. Massimo Mitolo, a distinguished scholar and scientist, has been bestowed the Knighthood in the Order of Merit of the Italian Republic in acknowledgment of his exceptional contributions to scientific endeavors that have brought great honor to the nation. He is renowned for his remarkable achievements in the field of electrical engineering. Sir Massimo earned his Ph.D. in Electrical Engineering from the University of Napoli ""Federico II"" in Italy. His unwavering dedication and significant impact on the field have led to his recognition as a Fellow of IEEE "for contributions to the electrical safety of low-voltage systems". Furthermore, he holds the distinguished title of Fellow from the Institution of Engineering and Technology (IET) in London, United Kingdom, and is a member of the IEEE-HKN Honor Society. Additionally, he is a registered Professional Engineer in both the state of California and Italy. Presently, Dr. Mitolo serves as a Full Professor of Electrical Engineering at Irvine Valley College in California. In addition to his academic responsibilities, he is a Senior Consultant specializing in the domains of failure analysis and electrical safety at Engineering Systems Inc., ESi. His extensive research and industrial experience revolve around the comprehensive analysis and grounding of power systems, as well as electrical safety engineering. Dr. Mitolo's expertise is reflected in his publication record, encompassing more than 170 journal papers, as well as the authorship of several influential books. Noteworthy titles authored by him include ""Electrical Safety of Low-Voltage Systems"" published by McGraw-Hill, ""Laboratory Manual for Introduction to Electronics: A Basic Approach"" published by Pearson, ""Analysis of Grounding and Bonding Systems"" published by CRC Press, ""Electrical Safety Engineering of Renewable Energy Systems"" published by IEEE Wiley, and ""Smart and Power Grid Systems: Design Challenges and Paradigms"" published by River Publishers. His scholarly endeavors have garnered significant recognition, culminating in his inclusion in the World's Top 2% Most-cited Scientists List, as compiled by Stanford University. Within the Industrial and Commercial Power Systems Department of the IEEE Industry Applications Society (IAS), Dr. Mitolo actively engages in various committees and working groups, demonstrating his commitment to advancing the field and fostering collaborative efforts. Acknowledging his achievements, Dr. Mitolo has been the recipient of numerous prestigious accolades throughout his career. Notably, he has been honored with the IEEE Region 6 Outstanding Engineer Award and has garnered nine Best Paper Awards for his exceptional scholarly contributions. Furthermore, he has received recognitions such as the IEEE Ralph H. Lee I&CPS Department Prize Award, the IEEE I&CPS Department Achievement Award, and the James E. Ballinger Engineer of the Year Award from the Orange County Engineering Council in California.
DC Circuits 1. Fundamental Circuit Conventions 2. Ohm's Law 3. Power in DC
Circuits 4. Series and Parallel Resistors in DC Circuits 5. Variable
Resistors in DC Circuits 6. Superposition Principle in DC Circuits 7. Short
Circuits and Open Circuits DC 8. Thevenin's Theorem and Maximum Power
Transfer in DC Circuits DC 9. Norton's Theorem in DC Circuits 10. RC
Circuits in DC 11. RL Circuits in DC 12. Wheatstone Bridge Operational
Amplifier Circuits 13. Amplifier Fundamentals 14. Saturation of Operational
Amplifiers 15. Noninverting Operational Amplifier Configuration 16.
Inverting Operational Amplifier Configuration 17. Measuring the Slew Rate
of Operational Amplifiers. AC Circuits AC 18. Measurement of Parameters and
Phase Differences of Sinusoids 19. Capacitive Reactance, Inductive
Reactance, Impedance 20. Non-sinusoidal Waveforms 21. Resistive Circuits
with AC Sources 22. Purely Capacitive Circuits with Sinusoidal and
Non-sinusoidal Sources 23. Purely Inductive Circuits with Sinusoidal and
Non-sinusoidal Sources 24. Sinusoidal Steady State Analysis in the Phasor
Domain 25. Series Combination AC Circuits 26. Parallel Combination AC
Circuits 27. Series-Parallel AC Circuits 28. Superposition Principle in AC
Circuits 29. Thevenin's Theorem and Maximum Power Transfer in AC 30. Series
Resonant Circuits 31. Parallel Resonant Circuits 32. Low-Pass Filters 33.
High-Pass Filters 34. The Transformer and the Impedance Matching Appendix A
. Complex Numbers, Sinewaves and Phasors
Circuits 4. Series and Parallel Resistors in DC Circuits 5. Variable
Resistors in DC Circuits 6. Superposition Principle in DC Circuits 7. Short
Circuits and Open Circuits DC 8. Thevenin's Theorem and Maximum Power
Transfer in DC Circuits DC 9. Norton's Theorem in DC Circuits 10. RC
Circuits in DC 11. RL Circuits in DC 12. Wheatstone Bridge Operational
Amplifier Circuits 13. Amplifier Fundamentals 14. Saturation of Operational
Amplifiers 15. Noninverting Operational Amplifier Configuration 16.
Inverting Operational Amplifier Configuration 17. Measuring the Slew Rate
of Operational Amplifiers. AC Circuits AC 18. Measurement of Parameters and
Phase Differences of Sinusoids 19. Capacitive Reactance, Inductive
Reactance, Impedance 20. Non-sinusoidal Waveforms 21. Resistive Circuits
with AC Sources 22. Purely Capacitive Circuits with Sinusoidal and
Non-sinusoidal Sources 23. Purely Inductive Circuits with Sinusoidal and
Non-sinusoidal Sources 24. Sinusoidal Steady State Analysis in the Phasor
Domain 25. Series Combination AC Circuits 26. Parallel Combination AC
Circuits 27. Series-Parallel AC Circuits 28. Superposition Principle in AC
Circuits 29. Thevenin's Theorem and Maximum Power Transfer in AC 30. Series
Resonant Circuits 31. Parallel Resonant Circuits 32. Low-Pass Filters 33.
High-Pass Filters 34. The Transformer and the Impedance Matching Appendix A
. Complex Numbers, Sinewaves and Phasors
DC Circuits 1. Fundamental Circuit Conventions 2. Ohm's Law 3. Power in DC
Circuits 4. Series and Parallel Resistors in DC Circuits 5. Variable
Resistors in DC Circuits 6. Superposition Principle in DC Circuits 7. Short
Circuits and Open Circuits DC 8. Thevenin's Theorem and Maximum Power
Transfer in DC Circuits DC 9. Norton's Theorem in DC Circuits 10. RC
Circuits in DC 11. RL Circuits in DC 12. Wheatstone Bridge Operational
Amplifier Circuits 13. Amplifier Fundamentals 14. Saturation of Operational
Amplifiers 15. Noninverting Operational Amplifier Configuration 16.
Inverting Operational Amplifier Configuration 17. Measuring the Slew Rate
of Operational Amplifiers. AC Circuits AC 18. Measurement of Parameters and
Phase Differences of Sinusoids 19. Capacitive Reactance, Inductive
Reactance, Impedance 20. Non-sinusoidal Waveforms 21. Resistive Circuits
with AC Sources 22. Purely Capacitive Circuits with Sinusoidal and
Non-sinusoidal Sources 23. Purely Inductive Circuits with Sinusoidal and
Non-sinusoidal Sources 24. Sinusoidal Steady State Analysis in the Phasor
Domain 25. Series Combination AC Circuits 26. Parallel Combination AC
Circuits 27. Series-Parallel AC Circuits 28. Superposition Principle in AC
Circuits 29. Thevenin's Theorem and Maximum Power Transfer in AC 30. Series
Resonant Circuits 31. Parallel Resonant Circuits 32. Low-Pass Filters 33.
High-Pass Filters 34. The Transformer and the Impedance Matching Appendix A
. Complex Numbers, Sinewaves and Phasors
Circuits 4. Series and Parallel Resistors in DC Circuits 5. Variable
Resistors in DC Circuits 6. Superposition Principle in DC Circuits 7. Short
Circuits and Open Circuits DC 8. Thevenin's Theorem and Maximum Power
Transfer in DC Circuits DC 9. Norton's Theorem in DC Circuits 10. RC
Circuits in DC 11. RL Circuits in DC 12. Wheatstone Bridge Operational
Amplifier Circuits 13. Amplifier Fundamentals 14. Saturation of Operational
Amplifiers 15. Noninverting Operational Amplifier Configuration 16.
Inverting Operational Amplifier Configuration 17. Measuring the Slew Rate
of Operational Amplifiers. AC Circuits AC 18. Measurement of Parameters and
Phase Differences of Sinusoids 19. Capacitive Reactance, Inductive
Reactance, Impedance 20. Non-sinusoidal Waveforms 21. Resistive Circuits
with AC Sources 22. Purely Capacitive Circuits with Sinusoidal and
Non-sinusoidal Sources 23. Purely Inductive Circuits with Sinusoidal and
Non-sinusoidal Sources 24. Sinusoidal Steady State Analysis in the Phasor
Domain 25. Series Combination AC Circuits 26. Parallel Combination AC
Circuits 27. Series-Parallel AC Circuits 28. Superposition Principle in AC
Circuits 29. Thevenin's Theorem and Maximum Power Transfer in AC 30. Series
Resonant Circuits 31. Parallel Resonant Circuits 32. Low-Pass Filters 33.
High-Pass Filters 34. The Transformer and the Impedance Matching Appendix A
. Complex Numbers, Sinewaves and Phasors