Microelectronic Circuits by Sedra and Smith has served generations of electrical and computer engineering students as the best and most widely-used text for this required course. Respected equally as a textbook and reference, "Sedra/Smith" combines a thorough presentation of fundamentals with an introduction to present-day IC technology. It remains the best text for helping students progress from circuit analysis to circuit design, developing design skills and insights that are essential to successful practice in the field. Significantly revised with the input of two new coauthors, slimmed…mehr
Microelectronic Circuits by Sedra and Smith has served generations of electrical and computer engineering students as the best and most widely-used text for this required course. Respected equally as a textbook and reference, "Sedra/Smith" combines a thorough presentation of fundamentals with an introduction to present-day IC technology. It remains the best text for helping students progress from circuit analysis to circuit design, developing design skills and insights that are essential to successful practice in the field. Significantly revised with the input of two new coauthors, slimmed down, and updated with the latest innovations, Microelectronic Circuits, Eighth Edition, remains the gold standard in providing the most comprehensive, flexible, accurate, and design-oriented treatment of electronic circuits available today.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
Produktdetails
The Oxford Series in Electrical and Computer Engineering
Adel S. Sedra is Distinguished Professor Emeritus of Electrical and Computer Engineering at the University of Waterloo and Distinguished Fellow, University Leadership, at Ryerson University. Kenneth C. (KC) Smith is Professor Emeritus in Electrical and Computer Engineering, Computer Science, Industrial and Mechanical Engineering, and Information Studies at the University of Toronto. Tony Chan Carusone is Professor of Electrical and Computer Engineering at the University of Toronto. Vincent Gaudet is Professor and Chair in the Department of Electrical and Computer Engineering at the University of Waterloo.
Inhaltsangabe
Tables Historical Notes Preface PART I: DEVICES AND BASIC CIRCUITS 1. Signals and Amplifiers 2. Operational Amplifiers 3. Semiconductors 4. Diodes 5. MOS Field-Effect Transistors (MOSFETs) 6. Bipolar Junction Transistors (BJTs) 7. Transistor Amplifiers PART II: ANALOG INTEGRATED CIRCUITS 8. Building Blocks of Integrated-Circuit Amplifiers 9. Differential and Multistage Amplifiers 10. Frequency Response 11. Feedback 12. Output Stages and Power Amplifiers 13. Operational-Amplifi er Circuits 14. Filters 15. Oscillators PART III: DIGITAL INTEGRATED CIRCUITS 16. CMOS Digital Logic Circuits 17. Digital Design: Power, Speed, and Area 18. Memory and Clocking Circuits Appendices A. VLSI Fabrication Technology B. SPICE Device Models and Design with Simulation Examples C. Two-Port Network Parameters D. Some Useful Network Theorems E. Single-Time-Constant Circuits F. s-Domain Analysis: Poles, Zeros, and Bode Plots G. Comparison of the MOSFET and the BJT H. Filter Design Material I. Bibliography J. Standard Resistance Values and Unit Prefixes K. Typical Parameter Values for IC Devices Fabricated in CMOS and Bipolar Processes L. Answers to Selected Problems available online Summary Tables Index
Tables Historical Notes Preface PART I: DEVICES AND BASIC CIRCUITS 1. Signals and Amplifiers 2. Operational Amplifiers 3. Semiconductors 4. Diodes 5. MOS Field-Effect Transistors (MOSFETs) 6. Bipolar Junction Transistors (BJTs) 7. Transistor Amplifiers PART II: ANALOG INTEGRATED CIRCUITS 8. Building Blocks of Integrated-Circuit Amplifiers 9. Differential and Multistage Amplifiers 10. Frequency Response 11. Feedback 12. Output Stages and Power Amplifiers 13. Operational-Amplifi er Circuits 14. Filters 15. Oscillators PART III: DIGITAL INTEGRATED CIRCUITS 16. CMOS Digital Logic Circuits 17. Digital Design: Power, Speed, and Area 18. Memory and Clocking Circuits Appendices A. VLSI Fabrication Technology B. SPICE Device Models and Design with Simulation Examples C. Two-Port Network Parameters D. Some Useful Network Theorems E. Single-Time-Constant Circuits F. s-Domain Analysis: Poles, Zeros, and Bode Plots G. Comparison of the MOSFET and the BJT H. Filter Design Material I. Bibliography J. Standard Resistance Values and Unit Prefixes K. Typical Parameter Values for IC Devices Fabricated in CMOS and Bipolar Processes L. Answers to Selected Problems available online Summary Tables Index
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